DEVICE FOR MEASURING A PHYSICAL PARAMETER OF A FLUID OF A MOTOR VEHICLE CIRCUIT

专利摘要:
The device (10) comprises a housing body (14) comprising a base body (16) provided with a chamber (28) for measuring the fluid and an electrical connector body (18), assembled to delimit together an internal housing (20) to the housing body (14), a detection element (12), an intermediate piece (60) for positioning the detection element (12) comprising a transverse space (62) for receiving the detection (12) and an environment seal (80) for sealing the interior housing (20) vis-à-vis the exterior environment. According to the invention, the part (60) and the connector (18) are shaped to cooperate by interlocking in order to ensure a relative positioning of the part (60) relative to the connector body (18) and in a nested position, the part (60) and the connector (18) together delimit an outer peripheral groove (82) intended to receive the environmental seal (80).
公开号:FR3075358A1
申请号:FR1701304
申请日:2017-12-14
公开日:2019-06-21
发明作者:Marco Martino Spanevello
申请人:MGI Coutier SA；
IPC主号:

专利说明:

Device for measuring a physical parameter of a fluid in a motor vehicle circuit.
The present invention relates to a device for measuring a physical parameter of a fluid, such as a fluid circulating in a circuit of a motor vehicle. It applies more particularly but not exclusively to the measurement of the pressure or the temperature of the fluid flowing in such circuits or also to the measurement of the humidity residing in these circuits.
Such a measuring device is particularly suitable for being installed in different circuits of the motor vehicle such as brake assist circuits, vacuum circuits for controlling auxiliaries, fuel circuits, fuel vapor circuits and / or oil vapors, cooling circuits, pollution control fluid circuits (urea solution, additives for particle filters), etc.
In general, as is known in particular from document US 2016/0252418, the device comprises a housing body comprising a first part forming a base and a second part forming a connector. The two parts are assembled together to form a sealed volume inside which extends a detection element.
In order to seal the external environment of the device (mainly dust and mold), the device also includes a seal intended to extend between the connector body and the base body. In addition, in order to facilitate its indexing inside the interior volume of the housing body, the detection element has a hexagonal shape like the base and the connector. The device also includes a clip support ring fixed by welding inside the base body delimiting a hexagonal space for receiving the detection element and a clip for holding the element in this space.
The disadvantage of the device of the prior art is that it requires, in order to carry out the indexing, the use of a specific hexagonal shape of the various elements composing it, including the detection element. This contributes to the complexity of this device and of course to the significant costs associated with this very particular arrangement. Furthermore, since the environment is sealed by compression of the hexagonal-shaped joint between the base and the connector, this necessitates providing for an assembly of the base and of the connector allowing such compression and therefore significant stresses at the level of the rib chain.
The object of the invention is in particular to provide a device for measuring a physical parameter of a motor vehicle fluid which is simple in design and manufacture, robust and which has excellent reliability in terms of sealing.
To this end, the subject of the invention is a device for measuring a physical parameter of a fluid, in particular a fluid of a circuit of a motor vehicle, of the type comprising:
- a housing body comprising a base body provided with a fluid measurement chamber and a connector body for the electrical connection of the device with an external electrical circuit, the connector and base bodies being assembled to together delimit a housing inside the housing body,
an element for detecting the physical parameter delimiting a first face communicating with the measurement chamber and a second face of electrical connection with the connector body,
an intermediate piece for positioning the detection element comprising a transverse space for receiving the detection element, and
- An environmental seal arranged to seal the internal housing vis-à-vis the external environment, characterized in that the intermediate piece and the connector body are shaped to cooperate by interlocking to ensure relative positioning of the part with respect to the connector body and in that in a nested position, the part and the body together delimit an external peripheral groove intended to receive the environmental seal.
Thanks to the particular geometry of the intermediate piece and the connector, the relative positioning of the detection element with the connector body is simplified. In addition, the formation of the peripheral groove for housing the environmental seal during the assembly of the connector and of the part makes it possible to create an optimal and simple seal without resorting to subsequent operations of sealing by deposition of resin or the like. materials. As the groove is formed outside the connector assembly and the part in a junction area of the two components, this makes it possible to ensure a seal in an area particularly sensitive to intrusion of humidity and dust.
Preferably, the outer peripheral groove has a U-shaped cross section open radially outward. For example, the outer peripheral groove is closed by the base body so that the environmental seal is compressed radially inside the groove, in the device assembly position.
In a preferred embodiment of the invention, the connector body and the intermediate piece comprise interlocking members of complementary shape formed, on opposite faces of the intermediate piece and of the connector body, by a succession of parts protruding and recessed offset from those of the face placed opposite.
Preferably, the interlocking members of the intermediate piece are arranged around the space for receiving the detection element.
In the example described, the connector body comprises a front wall for closing off the base body and a peripheral lateral skirt extending from an internal face of the front wall by forming an internal shoulder with the wall, the skirt and the 'shoulder defining respectively a bottom and a side wall of the groove.
In the preferred embodiment of the invention, the intermediate piece has a general form of plate provided with a peripheral rim raised relative to the plane of the plate, this peripheral edge delimits a central portion inside which s' extends the transverse reception space.
Preferably, in the mounting position, the raised peripheral rim of the intermediate piece bears against the internal shoulder by means of the seal.
In a preferred embodiment of the invention, the side skirt is dimensioned to extend at least partially inside the peripheral rim of the intermediate piece.
Preferably, the detection element comprises a support in the form of a wafer, the thickness of the central portion of the intermediate piece corresponds substantially to the thickness of the wafer.
In a preferred embodiment of the invention, the connector body comprises an electrical connection tip extending axially projecting.
Preferably, the intermediate piece is force-fitted inside the base body or has come integrally with the base body.
Preferably, the intermediate piece comprises on an external peripheral wall of its raised edge at least one rib capable of cooperating by friction with a lateral internal wall of the base body to create the mounting in force inside the base body.
In a preferred embodiment of the invention, the base body is provided with a peripheral side wall which retains the connector body by crimping an end edge of the side wall on the outer periphery of the connector body .
In a preferred embodiment of the invention, the detection element has a generally rectangular, square or cylindrical shape.
Preferably, the intermediate piece is made of a thermoplastic material.
In a preferred embodiment of the invention, the intermediate piece also comprises an axial extension in the form of a thermowell for housing a temperature probe. Preferably, the thermowell extends at the edge of the interior space for receiving the detection element.
Preferably the device comprises at least one other seal for the fluid flowing in the measurement chamber, the base body comprising a bottom provided with an opening for communication with the chamber, in which the bottom has a location for receiving the fluid seal delimited by a step.
Other characteristics and advantages of the invention will become apparent in the light of the description which follows, given with reference to the appended drawings in which:
- Figure 1 shows a perspective view of a measuring device according to the invention;
- Figure 2 is an exploded view of the measuring device of Figure 1;
- Figure 3 is a sectional view of the measuring device of Figure 1 along the line III-III of Figure 1;
- Figure 4 is a perspective view of an intermediate part of the measuring device of Figures 1 to 3;
- Figure 5 shows a perspective view of a part of the housing body of the measuring device of Figure 1;
- Figure 6 is a perspective view of the assembly comprising the intermediate piece of Figure 5 and an element for detecting the physical parameter for the measurement of the parameter by the device of Figure 1;
- Figure 7 shows a perspective view of the assembly shown in Figure 6 mounted inside the housing body portion shown in Figure 5;
- Figure 8 shows a perspective view from below of another part of the housing body of the measuring device of Figure 1;
- Figure 9 shows a perspective bottom view of the housing body mounted with the intermediate piece shown in Figure 4;
- Figure 10 shows another point of view of the housing body mounted with the intermediate part already shown in Figure 9;
- Figure 11 is a perspective view of the intermediate piece of Figure 4 according to an alternative embodiment of the invention.
FIG. 1 shows schematically a device for measuring a physical parameter of a fluid. This device is designated subsequently by the general reference 10. This device is intended more particularly but not exclusively for measuring a physical parameter of a fluid of a motor vehicle circuit. Preferably and in the following description, the measuring device 10 is intended to measure at least one parameter of fluid pressure and preferably in addition a temperature parameter.
To this end, the device 10 comprises an element 12 for detecting the physical parameter. This element 12 comprises a support, for example in the form of a generally rectangular plate as shown in FIG. 2. This element 12 delimits a first detection face 12A comprising a sensitive surface intended to be in contact with the fluid and a second electrical connection face 12B for its electrical connection to an external electrical circuit (not shown). In addition, the detection element 12 may include a pressure sensor and also a temperature sensor.
In this example, the element 12 also comprises on the electrical connection face 12B, an electronic component 11, for example a component of the ASIC type (English acronym for "Application-Specific Integrated Circuit" or literally "integrated circuit specific to a application "). In this case, the plate of the element 12 can be made for example of ceramic, consisting for example essentially of alumina, and the component 11 can be attached by screen printing on the plate or by welding or soldering or by a combination of these techniques. This plate can in this case incorporate a deformable membrane associated with a piezoresistive material arranged according to a Wheatstone bridge architecture. In a manner known per se, a deformation of the membrane causes a variation in resistance and therefore a variation in tension. This voltage variation is linked to the pressure exerted on the membrane by a predefined correlation law.
As a variant, the element 12 can comprise an electromechanical microsystem chip (MEMS) for example provided with a sensitive membrane and a stress detection circuit making it possible to measure the state of compression of the membrane which is proportional to the fluid pressure (Figures 6 and 7). In this case, the wafer can also be conventionally a printed circuit board known per se commonly designated by the English sign PCB for "printed circuit board".
In a variant not illustrated, the detection element 12 may possibly include a keying profile to guarantee correct electrical connectivity of its electrical connection face. For example, the detection element may have a generally square or rectangular shape and have a broken corner for coding or else be of cylindrical shape and have reliefs or registration marks.
As shown in Figure 1, the device 10 further comprises a housing body 14. This body 14 comprises a lower part 16, hereinafter designated by base body or base and an upper part 18 hereinafter designated by connector body or connector. The connector 18 and base 16 bodies are assembled to together delimit an interior volume of the housing body 14 forming an internal housing 20 for the detection element 12 visible in FIG. 3.
As illustrated in FIG. 5, the base 16 preferably comprises a body mainly of general shape of revolution around a main axis X of the device 10 or of symmetrical shape. The base 16 has in this example an open cavity 22 delimited by a bottom 24 and a peripheral wall 26. The cavity 22 in this example has a general shape of revolution around the axis X. The peripheral wall 26 has in this example a outer surface 26E having a hexagonal profile and an inner surface 26I having a circular profile. Of course, this is not limiting and other profiles may be suitable for carrying out the invention.
The base 16 is also preferably provided with a fluid measurement chamber 28 visible in FIG. 3. This chamber 28 is intended to communicate on the one hand with a fluid passage zone in the fluid circulation circuit ( not shown) and on the other hand with the internal housing 20 of the housing body 14 inside which the detection element 12 extends.
Thus, as shown in section in FIG. 5, the bottom 24 of the cavity 22 of the base 16 includes an orifice 30 for communicating with the measurement chamber 28. Thus, the sensitive surface of the detection element 12 can be in communication with the measurement chamber 28 while being housed inside the housing body 14 (FIG. 3).
In order to prevent the penetration of the fluid into the interior housing 20 of the housing body 14, the device 10 also comprises a seal 32 to the fluid flowing in the measurement chamber 28.
To this end, as can be seen in the sectional view of FIG. 3 as well as in FIG. 5, the bottom 24 of the cavity 22 has a step 34 in order to delimit a central zone 36 and a raised peripheral zone 38. The communication orifice 30 preferably extends inside the central zone 36. The central zone 36 and the step 34 delimit a location for the fluid seal 32. The seal 32 in this example has a general toric shape and the bottom 24 is of revolution form around the main axis X of the device 10 and the central zone 36 is dimensioned to receive the seal 32.
In this example, the measurement chamber 28 is formed by a tip 42 of axial extension and traversed by at least one bore 44 opening at a first end through the orifice 30 inside the cavity 22 and at a second end by an orifice 40 opening to the outside of the device 10. This end piece 42 may optionally have a thread on its outer surface to allow screwed use of the device 10 and, as illustrated in FIG. 3, a housing for receiving an O-ring seal outside the device 10.
Optionally, when this end piece is made of plastic material, for example by injection molding, then the housing for the O-ring forming for example a groove in the end piece, can be made in a particularly advantageous manner, without burr of molding in the throat , according to the process which was the subject of a patent filing in France by the plaintiff under N ° 17.55615.
The base 16 is for example made of a metallic material and can be produced by simple machining due to its general shape of revolution.
The connector 18 is shown in detail in FIGS. 3 and 8. The connector 18 is shaped to allow the electrical connection of the device 10 with an external electrical circuit such as for example an electrical control unit of the motor vehicle (not shown).
The connector 18 comprises a main part 50. The main part 50 preferably has a general shape substantially of revolution. This main part 50 forms in the example described a cover for closing the cavity 22 of the base 16 and thus delimiting the interior housing 20 of the device 10. In this example, the interior volume of the housing body 14 generally has a general shape of revolution around the X axis.
Preferably, the connector 18 also comprises an end piece 52 for electrical connection with an external circuit extending axially projecting from the main part 50. For this purpose and as illustrated in FIG. 3, the connector 18 also comprises a plurality of electrical connection pins 53 extending inside the end piece 52 so as to form a socket.
In addition, as illustrated in FIG. 8, the connector 18 comprises a front wall 54 for closing the base 16 which is intended to come opposite the cavity 22 formed by the base 16. This front wall 54 comes in view of the base 16 so that when the base 16 and the connector 18 are joined, the front wall 54 closes the interior volume of the housing body 14 to delimit the interior housing 20.
It can be seen in particular in FIG. 3 and in FIG. 6 that the second electrical connection face 12B of the detection element 12 is intended to come into contact with electrical elements 55 of the connector 18 in connection with the pins 53 described below. above. Of course, this configuration is in no way limiting and other configurations could be suitable for carrying out the invention.
Preferably, the connector 18 comprises an inner peripheral lateral skirt 56 forming with the front wall 54 of obturation an internal shoulder 58. In the mounting position, the skirt 56 extends substantially axially in the direction of the base 16 of the device 10 to inside the cavity 22 of the base 16.
The internal face of the front wall 54 can be planar or have reliefs locally. For example, as illustrated in particular in FIG. 3, the internal face of the front wall 54 has an additional thickness around its periphery which in this case forms the shoulder 58.
In order to assemble the base 16 and the connector 18, the peripheral wall of the base 16 is preferably moreover provided with an end edge which retains the connector 18 by crimping the end edge on the outer periphery of the connector. 18. For this purpose, the peripheral wall 26 comprises a thinned portion forming the end edge 27 intended to be crimped.
According to the invention, in order to position the detection element 12 inside the internal housing 20, the device 10 also comprises an intermediate piece 60 for positioning the detection element 12 illustrated in detail in FIG. 4. This intermediate piece 60 notably comprises a transverse space 62 for receiving the detection element 12 so as to form the assembly illustrated in FIG. 6. This piece 60 is preferably intended to be housed inside the cavity 22 of the base 16 as shown in FIG. 7.
For example, the transverse space 62 has a general shape complementary to that of the detection element 12, for example in this case, the transverse space 62 has a generally rectangular shape. Of course, other forms of detection element are suitable for carrying out the invention and therefore other forms of transverse reception space. In particular, in the case where the detection element comprises a keyed profile, the transverse space 62 comprises a complementary internal profile.
In the example described, the intermediate part 60 has a general form of plate provided with a raised peripheral edge 64 relative to the plane of the plate. This peripheral rim 64 delimits a central portion 66 inside which the transverse reception space 62 extends.
Preferably, the thickness of the central portion 66 of the intermediate piece 60 corresponds substantially to the thickness of the printed circuit board of the element 12.
According to the invention, in order to ensure precise relative positioning of the detection element 12 with the connector 18, the intermediate piece 60 and the connector 18 are shaped to cooperate by interlocking.
For example, as illustrated in FIGS. 4, 8 and 9, the connector 18 and the intermediate piece 60 comprise interlocking members 70 of complementary shape formed, on opposite faces of the intermediate piece 60 and of the connector 18 , by a succession of projecting and recessed parts offset relative to those of the face placed opposite.
Of course, as a variant, the interlocking of the intermediate piece 60 and the connector 18 can be achieved in different ways, for example by means of clipping, snap-fastening or the like.
Thus, preferably, the intermediate piece 60 and the connector 18 have complementary shapes cooperating mechanically to ensure a releasable assembly of the intermediate piece 60 and the connector 18.
Preferably and as illustrated in FIG. 4, the interlocking members 70 of the intermediate piece 60 are arranged around the reception space 62. Furthermore, preferably, the interlocking members 70 of the connector 18 are arranged inside a space delimited by the side skirt 56 (Figure 8). Furthermore, in FIG. 8, it can be seen that certain interlocking members 70 are formed integrally with the side skirt 56.
In order to ensure a tightness of the device 10 to the environment (dust and above all humidity), the device 10 also comprises a seal 80 called an environmental seal arranged in such a way that it makes it possible to ensure a tightness of the volume inside the housing body 14 with respect to the external environment. This seal 80 has in this example a generally toric shape. The seal 80 can be made from any elastomeric material such as thermoplastic elastomer, natural or synthetic rubber.
According to the invention, once fitted, the part 60 and the connector 18 together delimit an outer peripheral groove 82 intended to receive the environmental seal 80 as can be seen in FIGS. 3 and 9.
As illustrated in FIG. 10, preferably, the peripheral groove 82 has, in cross section, a U shape, the opening of which faces radially towards the outside of the device 10. The groove 82 is preferably dimensioned so as to that in a device mounting position, the environmental O-ring 80 is compressed radially inside the groove 82 between the inner wall of the base 16 and the peripheral side skirt.
As illustrated in the figures, the groove 82 is delimited by a bottom formed by the side skirt 56 and side walls formed by on the one hand the shoulder 58 and on the other by an end face of the rim of the intermediate piece 60. When the device 10 is mounted as in FIG. 3, the closure wall extends across the device 10 while the lateral skirt 56 is, on its outer end periphery pressed against the inner face of the rim of the intermediate piece 60. The lateral skirt 56 preferably also has a free end provided with an end face intended to come into abutment against the bottom of the intermediate piece 60.
Preferably and as illustrated, the groove 82 is annular in order to provide a seal by a generally O-ring seal. When the side skirt 56 is in abutment against the bottom of the intermediate piece 60, the shoulder 58 and the end face of the rim of the intermediate piece 60 are axially distant in order to define a width of the groove 82 in the axial direction sufficient to accommodate the seal 80.
In order to produce this groove 82, in the mounting position, in the example described, the raised peripheral rim 64 of the intermediate piece 60 comes opposite the internal shoulder 58 of the connector 18 and the side skirt 56 comes to extend at least partially on the inside of the peripheral rim 64 of the intermediate piece 60.
In the example illustrated, the compression of the environmental seal 80 is essentially radial. As a variant, the compression of the environmental seal may also include an axial component between the two side walls of the groove 82.
In the preferred embodiment of the invention, the intermediate piece 60 is force-fitted inside the base 16. For this purpose and to increase the contact pressure of the force-fitting, the intermediate piece 60 comprises on the peripheral external wall of its raised rim at least one rib 68 capable of cooperating by friction with the peripheral internal surface 26I of the base 16 during its assembly.
In a variant not illustrated in the figures, the intermediate piece 60 may have come in one piece with the base 16 provided, of course, that the base 16 is made of a material allowing it, such as a plastic material or an aluminum alloy. Of course, in this case, only the relief of the upper face of the intermediate piece is preserved in order to preserve the nesting and positioning functions of the detection element and the lower face is made integrally with the base. This has the advantage of reducing the number of components of the device 10 and of simplifying the assembly process.
The intermediate piece 60 is preferably made of plastic, for example in a thermoplastic material. This ensures excellent electrical insulation and therefore optimal protection of the printed circuit against electrostatic discharges. For example, the plastic material can comprise one or more of the following compounds: polyamides (of the PA6, PA6.6, PA4.6 type, etc.) and their high temperature versions (PPA), polyimides (PAI, PEI ), polybutylene terephthalate (PBT), phenylenes (PPE, PPS), polysulphone (PSU), technopolymers (PEEK, PAEK), thermosets (Unsaturated Polyester UP, Bakelite). The material can be loaded or not, for example with glass fibers, carbon fibers, glass beads, nanofillers. This allows in particular to adapt the characteristics to each application (high temperature resistance, dimensional stability, thermal conductivity and / or electrical insulation).
This part 60 can advantageously be produced in a very simple manner, for example by injection with a single-closing mold.
The material of the intermediate part 60 may further comprise one or more additives having properties for improving the thermal conductivity of the part which thus make it possible to increase the precision and the temperature response time of the sensor while keeping the same performance in terms of electrical insulation.
In another embodiment of the invention illustrated in FIG. 11, the intermediate piece 60 comprises an axial extension in the form of a thermowell 90 for housing a temperature probe. Preferably, the thermowell 90 extends at the edge of the interior space 62 for receiving the detection element 12. This makes it possible to offset the temperature probe from the detection element 12 and thus in particular to increase sensitivity to thermal variations of the fluid. In this case, we prefer to use a wired temperature probe instead of a temperature probe embedded directly on the PCB or on the ceramic. In a manner known per se, the tabs of the probe extend inside the thermowell 90 and the sensitive end of the tabs of the probe is then plunged inside the thermowell. The accuracy and response time of the temperature measurement are then improved.
The temperature probe comprises for example a CTN probe (acronym for Negative Temperature Coefficient). As a variant, the probe can also be a PT100 type probe. Such a probe consists of a platinum filament surrounding a glass rod or not, the characteristic of which is to change resistance as a function of temperature. In order to further improve the performance of the temperature probe, the thermowell may be filled with a thermal paste to more efficiently conduct the heat of the fluid to the sensitive part of the temperature probe.
Although this is not illustrated in the figures, it will be understood that in the case of an intermediate piece provided with a thermowell, the measuring chamber has a larger orifice so that the thermowell can be accommodated at inside.
We will now describe the main operating aspects of the invention with particular reference to Figures 1 to 10.
Beforehand, during a step not illustrated, the various components of the device 10 are manufactured. The manufacturing of the components is relatively simple and can be carried out by injection molding or by machining depending on the materials used or according to other manufacturing processes. For example, to manufacture the connector body, a plastic material is molded. This molding is intended to form in one piece the bottom wall, the skirt and the interlocking reliefs.
The part 60 is during a first assembly step mounted inside the base 16 in order to obtain the assembly illustrated in FIG. 7. Beforehand, the gasket 32 for sealing the fluid is placed at the bottom of the cavity 22.
When the part 60 is mounted inside the base 16, the ribs 68 ensure that the part 60 is centered relative to the base 16 and immobilized inside the cavity 22 by means of a force fitting. During assembly, it is necessary to ensure that the part 60 comes into abutment with the raised zone of the bottom 24 of the cavity 22. This makes it possible subsequently to guarantee optimal compression of the environmental seal 80. In simple manner, these assemblies do not require a specific orientation.
Then, during a second assembly step, the element 12 is positioned in the intermediate part 60 as shown in FIG. 6. Possibly thanks to the keying profile, the element 12 can only be positioned in a only position relative to the intermediate piece 60.
During a third assembly step illustrated in FIG. 10, the environmental seal 80 can be positioned on the raised edge 64 of the intermediate piece 60 already mounted in the base 16, without requiring prior deformation of this seal . Optionally, as a variant, the environmental seal can be positioned around the lateral skirt 56 of the connector 18 abutting against the shoulder 58.
The connector 18 and the base 16 provided with the environmental seal 80 and the intermediate part 60 are mounted together so that the part 60 comes to cooperate by interlocking with the connector 18 thanks to the interlocking members 70. As a variant, the part 60 rather than being previously mounted in the base 16 may be mounted directly with the connector 18, the assembly of the part 60 and the connector 18 then being subsequently force-fitted inside the base 16.
When the connector 18 and the part 60 fit together, the environmental seal 80 is compressed in a progressive manner radially between the internal wall of the base 16 and the lateral skirt 56 of the connector 18, thus ensuring optimum sealing of the internal housing. 20 of the housing body 14. Optionally, an axial compression can also occur between the rim 64 of the part 60 and the shoulder 58 of the connector 18 during interlocking.
Then, a last step of crimping the end edge 27 of the base 16 on the connector 18 completes this assembly and makes it possible to obtain the device 10 shown in FIG. 1.
This device as presented above has many advantages, in particular great robustness, simplicity of construction and complementary performance of electrical insulation and resistance to electrostatic discharges. The specific complementary geometries of the connector 18 and of the part 60 allow in a simple way to ensure the polarization of its positioning while participating in the sealing of the device.
The invention is not limited to the embodiments described above. In particular, a device 10 can be used with other interlocking means than those described above.
Other embodiments within the reach of the skilled person can also be envisaged without departing from the scope of the invention defined by the claims below.

权利要求:
Claims (19)
[1" id="c-fr-0001]
1. Device (10) for measuring a physical parameter of a fluid, in particular a fluid of a circuit of a motor vehicle, of the type comprising:
- a housing body (14) comprising a base body (16) and a connector body (18) for the electrical connection of the device (10) with an external electrical circuit, the connector (18) and base bodies ( 16) being assembled to delimit together an internal housing (20) to the housing body (14),
an element (12) for detecting the physical parameter delimiting a first face (12A) for measuring the parameter and a second face (12B) for electrical connection with the connector body (18),
an intermediate piece (60) for positioning the detection element (12) comprising a transverse space (62) for receiving the detection element (12), and
- an environmental seal (80) arranged in the device (10) to seal the internal housing (20) vis-à-vis the external environment, characterized in that the intermediate piece (60) and the body (18) connector are shaped to cooperate by interlocking to ensure a relative positioning of the piece (60) relative to the connector body (18) and in that in a nested position, the piece (60) and the body connector (18) together define an outer peripheral groove (82) intended to receive the environmental seal (80).
[2" id="c-fr-0002]
2. Device (10) according to the preceding claim, wherein the outer peripheral groove (82) has a U-shaped cross section open radially outward.
[3" id="c-fr-0003]
3. Device (10) according to any one of the preceding claims, in which the external peripheral groove (82) is closed by the base body (16) so that the environmental seal (80) is compressed radially to inside the groove (82), in the assembly position of the device (10).
[4" id="c-fr-0004]
4. Device (10) according to any one of the preceding claims, in which the connector body (18) and the intermediate part (60) comprise complementary shaped interlocking members (70) formed, on opposite faces. of the intermediate piece (60) and of the connector body (18), by a succession of projecting and recessed parts offset relative to those of the face placed opposite.
[5" id="c-fr-0005]
5. Device (10) according to the preceding claim, wherein the interlocking members (70) of the intermediate piece (60) are arranged around the receiving space (62) of the detection element (12).
[6" id="c-fr-0006]
6. Device (10) according to any one of the preceding claims, wherein the connector body (18) comprises a front wall (54) for closing the base body (16) and a peripheral side skirt (56) s extending from an internal face of the front wall (54) by forming an internal shoulder (58) with the wall (54), the skirt (56) and the shoulder (58) delimiting respectively a bottom and a side wall of the throat (82).
[7" id="c-fr-0007]
7. Device (10) according to any one of the preceding claims, in which the intermediate piece (60) has a general form of plate provided with a raised peripheral rim (64) relative to the plane of the plate, this peripheral edge (64) delimits a central portion (66) inside which extends the transverse reception space (62).
[8" id="c-fr-0008]
8. Device (10) according to claims 6 and 7 taken together, in which, in the fitted position, the raised peripheral rim (64) of the intermediate piece (60) has an end face which is intended to extend facing the inner shoulder (58) and which delimits another side wall of the groove (82).
[9" id="c-fr-0009]
9. Device (10) according to the preceding claim, in which the lateral skirt (56) is dimensioned to bear at least partially against an inner face of the peripheral rim (64) of the intermediate piece (60) in the assembly position. of the device.
[10" id="c-fr-0010]
10. Device (10) according to any one of claims 7 to 9, in which the detection element (12) comprises a support in the form of a wafer, the thickness of the central portion (66) of the intermediate piece ( 60) corresponds substantially to the thickness of the wafer.
[11" id="c-fr-0011]
11. Device (10) according to any one of the preceding claims, in which the connector body (18) comprises a connector (52) for electrical connection extending axially projecting.
[12" id="c-fr-0012]
12. Device (10) according to any one of the preceding claims, in which the intermediate piece (60) is force-fitted inside the base body (16) or has come integrally with the base body (16 ).
[13" id="c-fr-0013]
13. Device (10) according to the preceding claim, in which the intermediate piece (60) comprises, on a peripheral external wall of its raised rim (64) at least one rib (68) capable of cooperating by friction with a lateral internal wall ( 26I) of the base body (16) to create the mounting in force inside the base body (16).
[14" id="c-fr-0014]
14. Device (10) according to any one of the preceding claims, in which the base body (16) is provided with a peripheral lateral wall (26) which retains the connector body (18) by crimping an edge. end (27) of the side wall (26) on the outer periphery of the connector body (18).
[15" id="c-fr-0015]
15. Device (10) according to any one of the preceding claims, in which the detection element (12) has a generally rectangular, square or cylindrical shape.
[16" id="c-fr-0016]
16. Device (10) according to any one of the preceding claims, in which the intermediate piece (60) is made of a thermoplastic material.
[17" id="c-fr-0017]
17. Device (10) according to any one of the preceding claims, in which the intermediate piece (60) further comprises an axial extension in the form of a thermowell for housing a temperature probe.
[18" id="c-fr-0018]
18. Device (10) according to the preceding claim, in which the thermowell (90) extends at the edge of the interior receiving space (62) of the detection element (12).
[19" id="c-fr-0019]
19. Device (10) according to any one of the preceding claims, comprising at least one other fluid seal (32), the base body (16) comprising a bottom (24) provided with a communication opening with a chamber (28) for measuring the fluid, in which the bottom (24) has a location for receiving the fluid seal delimited by a step (34).

类似技术:

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公开号 | 公开日 | 专利标题

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EP3499193A1|2019-06-19|Device for measuring a physical parameter of a fluid of a motor vehicle circuit

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CA2943691C|2018-01-16|Sealed pressure-measuring member

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FR2935449A1|2010-03-05|TEMPERATURE SENSOR MOUNTING UNIT

---

FR2887629A1|2006-12-29|PRESSURE SENSOR

---

FR2811079A1|2002-01-04|SENSOR FOR DETECTING THE TEMPERATURE OF A FLUID

---

FR3018990A1|2015-09-25|ELECTRONIC MODULE WITH INTEGRATED DETECTOR ELEMENT, FOR GEARBOX CONTROL DEVICES

---

FR3006851A1|2014-12-12|ELECTRONIC CONTROL APPARATUS FOR VEHICLE WITH SEALING OF WATERTIGHT TYPE HOUSING AND METHOD OF MANUFACTURING THE SAME

---

EP0511105B1|1995-01-04|Rollbearing with speed sensor

---

EP1349280B1|2009-03-11|Tight presence detection system, particularly for door handles

---

FR2772828A1|1999-06-25|Closing device for oil filling tube in vehicles,

---

FR2868242A1|2005-09-30|CONTROLLED COMPONENT HAVING AN ELECTRICAL CONNECTION

---

EP3598076A1|2020-01-22|Device for measuring a physical parameter of a fluid of a motor vehicle circuit

---

EP3668286A1|2020-06-17|Sealing system for electrical equipment

---

WO2010049605A1|2010-05-06|Temperature sensor, manufacturing process and corresponding method of assembly

---

FR3053115B1|2019-07-05|TOUCH SENSOR CAPABLE OF RETRANNING THE TOUCH

---

FR2660431A1|1991-10-04|Temperature sensor with thermistor

---

FR2686690A1|1993-07-30|Sensor system comprising a plunger intended to be placed in the bore of a support

---

FR2772913A1|1999-06-25|Hall effect pressure sensor

---

EP2815212B1|2019-01-02|Sensor comprising a magnet and a hall-effect probe

---

FR3088048A1|2020-05-08|SENSOR SUPPORT FOR BODY PIECE

---

FR2841645A1|2004-01-02|Magnetic field sensor has sensor unit in plastic box with thin wall area reinforced by thin non magnetic sheet metal part

---

WO2021205093A1|2021-10-14|Fluidic connector provided with a pressure sensor

---

WO2016005680A1|2016-01-14|Container comprising a technical module resting on the inner wall of the container

---

FR2678066A1|1992-12-24|SUPPORT DEVICE FOR AN ELECTRIC SENSOR CAPSULE.

---

EP0461992B1|1994-10-05|Measuring device, especially speed sensor for motor-vehicle

同族专利:

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公开号 | 公开日

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US20190187017A1|2019-06-20|

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CN109974922A|2019-07-05|

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EP3499193A1|2019-06-19|

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FR3075358B1|2020-10-09|

引用文献:

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公开号 | 申请日 | 公开日 | 申请人 | 专利标题

---

US5315877A|1993-02-19|1994-05-31|Kavlico Corporation|Low cost versatile pressure transducer|

---

EP0949494A2|1998-04-09|1999-10-13|Fujikoki Corporation|Semiconductive pressure sensor|

---

JP2000105163A|1998-09-30|2000-04-11|Fuji Koki Corp|Pressure sensor|

---

EP1505380A2|2003-08-05|2005-02-09|Fujikoki Corporation|Pressure sensor|

---

WO2008031691A1|2006-09-15|2008-03-20|Robert Bosch Gmbh|Sensor plug for combined pressure- and temperature measurement|

---

DE102006045924A1|2006-09-28|2008-04-03|Robert Bosch Gmbh|Pressure measuring device for detecting pressure of e.g. natural gas, in compressed natural gas motor vehicle, has sealing ring provided between inner pipe and outer pipe, where sealing ring exhibits fluorosilicone rubber material|

---

CN201340320Y|2008-11-07|2009-11-04|株洲南车时代电气股份有限公司|Vehicle pressure sensor|

---

CN102639979B|2009-12-09|2014-12-17|株式会社鹭宫制作所|Structure for connection between pressure sensing section of pressure sensitive device and female threaded coupling|

---

CN103411722B|2013-07-26|2015-10-07|上海俊乐制冷自控元件有限公司|A kind of improved pressure transmitter|US10545064B2|2017-05-04|2020-01-28|Sensata Technologies, Inc.|Integrated pressure and temperature sensor|

---

US11118990B2|2019-06-21|2021-09-14|Honeywell International Inc.|Micro-molded fluid pressure sensor housing|

---

CN111645660A|2019-11-14|2020-09-11|摩登汽车有限公司|Automobile brake oil can warning device and automobile|

---

KR102191489B1|2020-06-25|2020-12-15|한국단자공업 주식회사|Mounting apparatus for pressure Side Impact Sensor of Vehicle|

---

CN111780788A|2020-07-13|2020-10-16|东科克诺尔商用车制动技术有限公司|Piston assembly mistake-proofing detection device based on probe and audible and visual alarm|

法律状态:
2018-11-26| PLFP| Fee payment|Year of fee payment: 2 |

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2019-06-21| PLSC| Publication of the preliminary search report|Effective date: 20190621 |

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2019-11-26| PLFP| Fee payment|Year of fee payment: 3 |

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2020-10-27| PLFP| Fee payment|Year of fee payment: 4 |

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2021-11-22| PLFP| Fee payment|Year of fee payment: 5 |

优先权:

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申请号 | 申请日 | 专利标题

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FR1701304A|FR3075358B1|2017-12-14|2017-12-14|DEVICE FOR MEASURING A PHYSICAL PARAMETER OF A FLUID IN A MOTOR VEHICLE CIRCUIT|

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FR1701304|2017-12-14|FR1701304A| FR3075358B1|2017-12-14|2017-12-14|DEVICE FOR MEASURING A PHYSICAL PARAMETER OF A FLUID IN A MOTOR VEHICLE CIRCUIT|

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EP18210366.3A| EP3499193A1|2017-12-14|2018-12-05|Device for measuring a physical parameter of a fluid of a motor vehicle circuit|

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CN201811530120.7A| CN109974922A|2017-12-14|2018-12-14|For measuring the device of the physical parameter of fluid|

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US16/220,839| US20190187017A1|2017-12-14|2018-12-14|Device for measuring a physical parameter of a fluid of a motor vehicle circuit|