• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    A sausage making machine uses a long tube of synthetic material for the sausage skins. The synthetic skin is unwound from a reel and guided by rollers through a water bath. The skin then passes between rollers which form circumferential ridges to give the skin a caterpillar-like appearance. The skin is then pressed over a tube which fills it with sausage meat. Moistening the skins immediately before filling obviates the risk of the growth of harmful bacteria; and incorporating the bath in the machine reduces the size of the installation.
    公开号:SU1281154A3
    申请号:SU833643984
    申请日:1983-09-21
    公开日:1986-12-30
    发明作者:Коллросс Гюнтер
    申请人:Kollross Guenter;
    IPC主号:
    专利说明:

    eleven
    The invention relates to the meat processing industry, namely to the manufacture of sausages.
    The purpose of the invention is to increase the productivity and improve the quality of the finished sausage products by eliminating the rupture of the sausage casing and ensuring that the process of forming the finished sausage products is non-adherent.
    FIG. 1 shows schematically an installation for the production of sausages; in fig. 2 - enlarged and partially presented in section; The left part of FIG. 1J in FIG. 3 - installation, another modification; in fig. 4 - the same, the third option.
    The installation contains a funnel 1 for passing the meat to be crushed, a switching mechanism 2 equipped with two tubular elements 3 and 4, each of which in each switching position is installed in front of the place of ejection of minced meat from the tank 5, through which sausage meat goes to the section of the corrugated casing located on element 3, when clamping the corrugated shell with the help of brake 6 from the end of element 3.
    The other tubular element 4 is in the position shown in front of a collecting device (not shown), by which a piece of tubular sheath elastic material, guided from the supply roll 7 through the bath 8 with water, is assembled in the longitudinal direction into the formed sheath on the element 4 and after reaching of a certain length, the finished casing is separated by means of the cutting mechanism 9 from the rest of the shell material. For this purpose, the collecting device is equipped with a slider 10 moved on an elongated lengthwise bed or platform 11 under the action of
    to provide a stepped rotation of mechanism 2 by 90. On the mechanism
    power actuator 12 reciprocating-50 controlled from a drive (not shown), of a body action, while on the slide 1Q there are also a pair of about 2 fixed diametrically opposite one another two tubular elements 3 and 4, of which element 3 is located in this moment before the collecting device (fig. 3). In the possible rollers 13, two pairs of continuous 14 and guide rollers 15, as well as a pair of collecting rollers 15, forming the working bodies of the corrugated shell material AND driven by a drive (not shown), in the area between when the mechanism 2 is switched to 90 in the direction of the arrow,
    42
    14 and collecting 16 rollers inside the length of shell material there is a floating tube 17. At the time of achieving the desired
    the length of the frigated - shell is clamped against the tubular element 4 with the help of clamping pads 18.
    Switching mechanism 2 (FIG. 2)
    has a radial slot 19 through which the cannula 20 can move freely under the action of a cylinder. 21 reciprocating action, located on the back side
    mechanism 2, opposite to the side on which the tubular -elements 3 and 4 are mounted. The cannula 20 serves to supply air at a slight overpressure at the moment
    moving it in the region of the floating tube 17 to inflate the sheath material when it is folded, and air is supplied to the cannula 20 through the hose 22. At the moment the jib is
    the piston 23 of the cylinder 21 is fully extended, the cannula 20 moves to its final rear position, at which it completely leaves the mechanism 2, so that the latter can
    rotate freely around its longitudinal axis.
    The installation (FIG. 3) contains one rigidly attached filling tube (not shown), in front of which is a clamping device 24 with a braking device 25. The clamping device 24 is mounted for movement using a power cylinder 26 on the slide 10 in the longitudinal direction along the pipe filling, as well as with the possibility of lateral movement relative to the filling pipe with the pump {power cylinder 27 on platform 11. On platform 11, also j is moved in the E; the GENUINE direction using the force The cylinder 28 lirschra rack 29. Rack 29 is mounted switching mechanism 2,
    driven by a drive (not shown),
    to provide a stepped rotation of mechanism 2 by 90. On the mechanism
    driven by a drive (not shown),
    ment, when mechanism 2 is switched to 90 in the direction of the arrow, a .312811
    Step 3 is in a position coaxial with the axis of the filling tube. The clamping device 24 is fixed to the power cylinder Z.r, the stem of the portion 31 of which is provided at the end with a puller 32. Those with a slide 10 and a clamping device 24, the piston rod 31 are pushed aside from the filling pipe area, and then the puller 32 is in the path of rotation of the element 3 and is removed. fO nick 32 captures the end with an enameled shell.
    The collecting device shown in FIG. 3, in principle, is structurally similar to the collecting method shown in FIG. 1, and therefore is only schematically shown in FIG. 3 with the help of rollers, however in this example there are three collecting rollers I6. The installation 20 contains a cutting mechanism 9, by means of which the sheath material is separated between the element 4 and the collecting device after the end of the corrugation of a certain section 25 of this material. The sheath material in the form of a tape 33 is wound from a feed roll 7, while the material is wetted with water in the same way as in the apparatus of FIG. 1, in a water bath DZ 34 in order to bring the material to the required moisture content for folding and filling with minced meat.
    In the construction shown in FIG. 4, the installation also has only one filling tube, and is designed in the same way as the modifications described. The collecting device is provided with a longitudinal floating tube 17, on which a narrowing 35 is made, with which a pair contacts
    rollers 36 to prevent undesirable axial displacement of pipe 17.
    The crimped shell is placed in a hollow stationary chamber, about 45 formed by two semi-shells 37 and 38 rotating one relative to the other, rotated by the action cylinder 39 and within which at the time of their closure a closed space is formed. Opposite to the collecting device, the ends of the half-shells 37 and 38 are provided with stops in the form of half-rings 40 and 41, 55 which prevent the protrusion from the selected segment of the shell from the semi-shells. Semi-shells 37 and 38 are attached, with its rotary axis 42
    35
    . fO
    15 0 5
    ABOUT
    5 0 5
    five
    544
    The lever 43, which is hingedly mounted with the possibility of swinging on the slide 10. With the help of the floor cylinder 44, the chamber formed by the half-shells 37 and 38 can be rotated to the first position, in which it is coaxial with the collecting device, and to the second position, in which it is installed coaxially with the filling tube. The slide 10 is installed longitudinally with respect to the filling tube on the guide platform 11 and can, by the action of the power cylinder 45, move towards the container 5.
    At the opposite end of the collecting device of the hollow chamber, a twisting device 46 that is controlled and moved in the axial direction is installed, equipped with a rotating tetrahedral shaft 47. During the folding process, the twisting device 46 is brought closer to the full chamber until the tetrahedral shaft 47 it also enters. In addition, a hole 48 is made on the tetrahedral shaft 47, through which the compressed air necessary for inflating the shell material during its processing enters through the compressed air hose 49. A clamping device 50 and a cutting mechanism 9 are located on the opposite end of the hollow chamber assembly device.
    t
    The installation works as follows.
    A piece of shell material is first guided through a water bath 34 to a collecting device, passing it through rollers 13-16, pulling the material onto the floating tube 17, with one of the tubular elements 3 or 4 being aligned coaxially before the collecting device. Then, under the action of a power actuator 12 of reciprocating action, the slide 10 moves to the left until the provided with a conical chamfer tube 17 does not come into contact with the end of the tubular element 4, respectively, designed as a hollow cone. The clamping device 18 is open. . The steam rollers 14 and 15 are then turned on, and using the vacuum rollers 14, the sheath material is removed from the roll 7 through the bath 34, in which the material is brought up to the moisture content required during the folding and sausage stuffing stages,
    With the aid of the collecting rollers 16, axial folding is carried out from the stackable tubular sheath material. As a result, an element formed in the element 4 is formed, as shown in FIG. I, At the moment when the element 4 is filled with a corrugated casing over its entire length, the power drive of the pair of rollers 16 is turned off, the device of the clamping pads 8 is closed, and the slide 10 is retracted under the action of the power drive 12 for a relatively short distance. also the tube 17. As a result, the corrugated shell in the region between the tube 17 and the element 4 is somewhat stretched and then clamped with the help of a schematically indicated clamping device 50 and cut off in the space between the fixture 50 and the device clamping pad 18 using the mechanism 9 cutting. At the same time, under the action of a cylinder of force 2, the cannula 20 completely exits the switching mechanism 2,
    Provided that the material on the other element is completely cracked for burning, the clamping device 51 with the brake 6 on it is pushed out of the element 3 and then the mechanism 2 is turned 180 so that this empty element 3 becomes now coaxially in front of the collecting parts. the device simultaneously carrying the shell material 4 occupies a position in front of the place where the stuffing is pushed out of the container 5. The clamping device 51 now moves to the element 3, and the brake 6 blocks the end of the tubular tube closed by the fixture 50 The material, the collecting device, is in its initial position, due to the new movement of lubricants 10. and the cannula 20 returns to its working position, in which the new process of folding the elastic sheath material is carried out.
    The installation (FIG. 3) works as follows.
    In the position shown in Fig. 3, the material is on the filling tube. In the shown working position, the brake device 25 overlaps the end of the filling tube and shrinks the shell material under pressure of the stuffing coming from the container 5 from the tube. Filling the stackable shell material with sausage meat and forming clamps using the proposed modification
    (clamping device 24) is similar to the previously described processes (Fig. 1). The rack 29 is moved by the action of the power cylinder 28 with the empty element 3 and is soon installed coaxially opposite the collecting device, after which a new section of the casing to be folded is made on the element 3. Element 4 is then positioned on the side and below the filling tube, so that it does not interfere with the manufacture of sausages. At the end of the working process of making the corrugated shell 29 with mechanism 2 and
    elements 3 and 4 are moved back, and the section of the finished casing itself is cut off from the rest of the material using the cutting mechanism 9. If at this moment the filling material is filled with sausage meat on the filling tube, the clamping device 24 under the action of the power cylinders 26 and 28 is first sequentially moves away from the filling tube in the axial direction, and then moves in the transverse direction to the position at. With which the puller 32, when the piston rod 31 is extended, is installed again on the path of the element 3. Then upon further rotation of the mechanism 2 by 90 °, the puller 32 catches the material worn on the element 3, and the column 29 under the action of the power cylinder 28 moves again forward, so that the element 3 is brought into alignment with the filling tube. Then, the piston rod 31 is pushed into the cylinder 30, while the puller 32 slides the crimped track of the element 3 onto the filling pipe. Immediately thereafter, the post 29 is again moved by the action of the power cylinder 28 back, and the mechanism 2 is again rotated further by 90 ° due to the fact that the empty element 3 is installed coaxially with the collecting device. Following this, the clamping device 24 is brought into operation
    Under the action of the power cylinders 27 and 26, in which the brake device 25 blocks the tubular sheath material at the end of the sheath material, the installation is turned on again.
    Air is supplied to the inside of the sheath material, which is necessary for its inflation during folding, through hose 22 to rack 29 and to mechanism 2.
    Installation (Fig. 4) works as follows.
    In the position shown in Fig. 4, the tubular material is guided to the picking device, where it is set by the collecting rollers 16. At this moment, both the half shells 37 and 38 are closed and the twisting device 46 enters the tetrahedral shaft 47 between the semi shells 37 and 38.
    Following this, the collecting device is turned on and the collecting rollers 16 are corrugated inside the hollow chamber of a shell (not shown), the front end of which is gripped by a tetrahedral shaft 47. At the moment when the floor of the chamber is completely filled with the formed shell, the twisting device 46 moves back, due to which the tetrahedral shaft 47 twists the end of the material and pulls it out of the hollow chamber. This twisted end is closed with the aid of a clamping device 50. At the same time, the cutting mechanism 9 is actuated and the shaped shell located in the hollow chamber is cut off from the rest of the sheath material.
    Following this, the twisting device 46 returns to the position that releases the end of the shell, and the chamber is switched to the position coaxial with the filling tube by the action of the power cylinder 44, and under the action of the power cylinder 45 moves towards the tank 5, due to which The hollow chamber of the corrugated shell slides over the filling tube. After this, the force cylinder is actuated and opens the half-shells 37 and 38. As a result, when the backward movement of the 1 O-slide occurs under the action of the power cylinder 45 and no sheath retracts from the filling pipe. At the end of the movement of the lubricants 10, the power 1 CLHPREC 4 rotates the hollow chamber

    0
    50
    5 5
    0

    548
    again to its original position to repeat the process described above.
    As a result of the proposed embodiment, the process of corrugating the shell material is carried out using the invention on the same device on which sausage cakes are formed, which allows for an increase in the productivity of the installation. It was also possible to eliminate the processing time required for the implementation of long-term wetting of the shell material already pregreated, since in this case the still ungloofed material is brought to the required moisture content during wetting during the coiling of the roll when fed towards the collecting device. Shirring the material following wetting eliminates drying and sterilization of the material.
    Since the supply of the corrugated casing to the sausage filling machine pipe is mechanized, it was possible to avoid the need to form a particularly rigid corrugation, which was required until now with manual packing of the casing onto the filling pipe of the sausage filling machine, which eliminates the sausage casing breaking and improves their quality.
    权利要求:
    Claims (6)
    [1]
    1 The invention relates to the meat industry, namely the production of sausages. The purpose of the invention is to povigate production and improve the quality of finished sausages by eliminating the sausage casing break and ensuring that the process of forming finished sausages is unreliable. FIG. Figure 1 shows schematically an installation for the production of sausage products; in fig. 2 - enlarged and partially presented in section; The left part of FIG. 1J in FIG. 3 - installation, another modification; in fig. 4 - the same, the third option. The installation contains a funnel 1 for passing the meat to be crushed, a switching mechanism 2 equipped with two tubular elements 3 and 4, each of which at each switching position is installed in front of the place where the stuffing is pushed out of the tank 5, through which the sausage stuffing goes to the section of the corrugated casing, located on the element 3, while shrinking the corrugated shell with the help of the brake 6 from the end of the element 3. The other tubular element 4 is in the shown position in front of the collecting device (not shown a) by means of which a piece of tubular shell elastic material, guided from the feed roll 7 through the bath 8 with water, collects longitudinally into the formed sheath on the member 4 and after reaching a certain length the finished shell is separated by means of the cut mechanism 9 from the rest of the shell material. For this purpose, the collecting device is equipped with a slide 10, which is moved on an elongated longitudinal stand or platform 11 under the action of a power actuator 12 of reciprocating back and forth action, with a pair of pressure rollers 13, two pairs of hooks 14 and guide rollers 15, as well as a pair of gathering rollers 15 that form the working bodies of the corrugated shell material AND driven by a drive (not shown), in the region between the protrusion 42 of the 14 and the collecting rollers 16 inside the shell section The floating tube 17 is located on the new material. At the time of reaching the desired length of the corrugated shell, the shell is clamped opposite the tubular element 4 by means of clamping blocks 18. The switching mechanism 2 (FIG. 2) has a radial slot 19 through which the cannula 20 can freely move under the action of a cylinder . 21 reciprocating, located on the rear side of the mechanism 2, opposite to its side, on which the tubular -elements 3 and 4 are mounted. The cannula 20 serves to supply air at a slight overpressure at the moment of its movement in the area of the floating pipe 17 to inflate the shell when it is folded, and air is supplied to the cannula 20 through the hose 22. At the moment when the piston rod 23 of the cylinder 21 is fully extended, the cannula 20 moves to its final rear position at which it is completely out um from the mechanism 2, so that the latter can be pivoted unimpeded about its longitudinal axis. The installation (FIG. 3) contains one rigidly attached filling tube (not shown), in front of which is a clamping device 24 with a braking device 25. The clamping device 24 is mounted for movement using a power cylinder 26 on the slide 10 in the longitudinal direction along the pipe filling, as well as with the possibility of lateral movement relative to the filling pipe with the pump {power cylinder 27 on platform 11. On platform 11, also j is moved in the E; the GENUINE direction using the force 28 tsilirschra rack 29. Rack 29 is mounted switching mechanism 2 controlled by the actuator (not shown) for providing a stepwise rotation mechanism 2 90. On mechanism 2, two tubular elements 3 and 4 are diametrically opposed to one another, of which element 3 is currently located in front of the collecting device (Fig. 3). At the moment when the mechanism 2 is switched to 90 in the direction of the arrow, the element 3 of the element 3 is in a position coaxial with the axis of the filling tube. A clamping cylinder 24 is fixed on the clamping device 24, the stem of the portion 31 of which is provided with a puller 32 at the end. Coupling with the slide 10 and the clamping device 24 the piston rod 31 is pushed aside from the filling pipe area and then the puller 32 3 and the puller 32 grips the end with the lamination. The collecting device shown in FIG. 3, in principle, is structurally similar to the method of collecting with the method shown in FIG. 1 and therefore is only schematically shown in FIG. 3 with the help of rollers, however in this example there are three collecting rollers I6. The installation comprises a cutting mechanism 9, by means of which the shell material is separated between the element 4 and the collecting device after the completion of the corrugation of a certain segment of this material. The shell of the mother, in the form of a ribbon 33, is wound from the feed roll 7, while the material is wetted with water in the same way as in the installation in FIG. 1, in a water bath 34 so as to bring the material to the required moisture content for folding and filling with minced meat. In the construction shown in FIG. 4, the installation also has only one filling tube, and is designed in the same way as the modifications described. The collecting device is provided with a longitudinal floating tube 17, on which a constriction 35 is made, with which a pair of rollers 36 contacts to prevent unwanted axial displacement of the tube 1. The crimped shell is placed in a hollow fixed chamber formed by two semi-shells 37 and 38 rotating one relative to the other. which is carried out under the action of the ram 39 and within which at the time of their closure a closed space is formed. Opposite to the collecting device, the ends of the half-shells 37 and 38 are provided with stops in the form of half-rings 40 and 41, which prevent the projection of the assembled section of the shell from the floor of the shells. The semi-shells 37 and 38 are attached, with their pivot axis 42 544 to the lever 43, which is pivotally mounted to swing on the slide 10. With the help of the floor power cylinder 44, the chamber formed by the semi-shells 37 and 38 can be rotated to the first position, in which it is coaxial with the collecting device and in the second position in which it is installed coaxially with the filling tube. The slide 10 is installed longitudinally with respect to the filling tube on the guide platform 11 and can, by the action of the power cylinder 45, move towards the container 5. At the opposite end of the collecting device of the hollow chamber there is a controllable and axially movable twisting device 46 provided with a rotating a quadrangular shaft 47. During the folding process, the twisting device 46 is brought closer to the full chamber until the four-sided shaft 47 enters it. Moreover, a hole 48 is made on the tetrahedral shaft 47, by means of which compressed air, necessary for inflating the sheath material during its processing, flows through the hose 49 of the compressed air supply. A clamping device 50 and a cutting mechanism 9 are located on the opposite end of the hollow chamber assembly device. The installation works as follows. A piece of shell material is first guided through a water bath 34 to a collecting device, passing it through rollers 13-16, pulling the material onto the floating tube 17, with one of the tubular elements 3 or 4 being aligned coaxially before the collecting device. Then, under the action of a power actuator 12 of reciprocating action, the slide 10 moves to the left until the taper tube 17 provided with a conical chamfer does not come into contact with the end of the tubular element 4, which is designed as a hollow cone. . Then, steam roller drives 14 and 15 are turned on and with the help of puff rollers 14, the sheath material is removed from the roll 7 through the bath 34, in which the material is brought up to the moisture content required during both the folding and sausage stuffing stages. 16, axial folding is performed with the stackable tubular sheath material. As a result, an element formed in the element 4 is formed, as shown in FIG. I, At the moment when the element 4 is filled with a corrugated casing over its entire length, the power drive of the pair of rollers 16 is disconnected, the device of the clamping pads 8 is closed, and the slide 10 is retracted under the action of the power drive 12 for a relatively short distance This is also the pipe 17. As a result, the corrugated shell in the area between the pipe 17 and the element 4 is somewhat stretched, and then it is clamped with the help of the schematically indicated clamping device 50 and cut off in the space between the device 50 and the device back focus lock pad 18 by cutting mecha ma 9. At the same time, the cannula 20 completely emerges from the switching mechanism 2 under the action of a silneevi cylinder 2, provided that the material is completely sticking to the other element, the clamping device 51 with the brake 6 on it extends from the element 3 and then the mechanism is turned 2 by 180 so that this empty element 3 s now becomes coaxially in front of the collecting device, at the same time element 4 carrying the shell material, occupies a position in front of the place where the stuffing is pushed out of the container 5. Pressing device 51 ne Moving now to element 3, and the brake 6 blocks the end of the tubular material closed by the device 50, the collecting device in its initial position, due to the new movement of lubricants 10. and the cannula 20 returns to its working position, in which the folding process is elastic th shell material. The apparatus (FIG. 3) operates as follows. In the position shown in FIG. 3, the material is on the filling tube. In the shown working position, the brake device 25 overlaps the end of the filling tube and shrinks the shell material under the pressure of the meat coming from the container 5 from the tube. Filling the stackable shell material with sausage meat and forming clamps using the proposed modification (clamping device 24) is similar to the previously described processes (Fig. 1). The rack 29 is moved by the action of the power cylinder 28 with the empty element 3 and is soon installed coaxially opposite the collecting device, after which a new section of the casing to be folded is made on the element 3. Element 4 is then positioned on the side and below the filling tube, so that it does not interfere with the manufacture of sausages. At the end of the working process of manufacturing the corrugated casing 29 with the mechanism 2 and elements 3 and 4 are moved back, and the section of the finished casing itself is cut off from the rest of the material using the cutting mechanism 9, If at this moment the filling material continues to be filled with sausage meat, the clamping device 24 under the action of the power cylinders 26 and 28 sequentially first moves away from the filling tube in the axial direction, and then moves in the transverse direction to the position at. wherein the puller 32, when the piston rod 31 is extended, is installed again in the path of the element 3. Then, when the mechanism 2 is further rotated 90 °, the puller 32 catches the material worn on the element 3, and the pillar 29 moves forward again under the action of the power cylinder 28. which brings element 3 into alignment with the filling tube. Then the piston rod 31 is pushed into the cylinder 30, while the puller 32 shifts the crimped caterpillar of the element 3 to the filling pipe. Immediately thereafter, the post 29 is again moved by the action of the power cylinder 28 back, and the mechanism 2 is again rotated further by 90 ° due to the fact that the empty element 3 is installed coaxially with the collecting device. Following this, the clamping device 24 is driven into the working position by the power cylinders 27 and 26, in which the braking device 25 blocks the tubular sheath material at the end of the sheath material, the installation is turned on again. Air is supplied to the interior of the sheath material required for inflation during folding, through hose 22 to rack 29 and to mechanism 2. The installation (Fig. 4) works as follows. In the position shown in Fig. 4, the tubular material is guided to the picking device, where it is set by the collecting rollers 16. At this point, both the half shells 37 and 38 are closed and the twisting device 46 enters the tetrahedral shaft 47 between the semi shells 37 and 38. After this, the the collecting device and the collecting rollers 16 are corrugated inside the hollow chamber of the shell (not shown), the front end of which is gripped by a tetrahedral shaft 47. At the moment when the chamber is completely filled with the shell formed, the twisting device in 46 retracts, whereby the quadrangular shaft 47 twists the end of the material and pulls it over the hollow chamber. This twisted end is closed with the aid of a clamping device 50. At the same time, the cutting mechanism 9 is activated and the coffering sheath in the hollow chamber is cut off from the rest of the sheath material. Then the twisting device 46 returns to the position that releases the end of the shell and the floor under the action of the ram 44 switches to a position coaxial with the filling tube, and under the action of the ram 45 moves toward the container 5, thereby being located In the hollow chamber, the corrugated shell slides over the filling tube. After this, the force cylinder is activated and opens the half-shells 37 and 38. As a result, when the 1 O-slide is moving backward, the shell is not pulled off the fill tube 45 under the action of the power cylinder 45. At the end of the movement of the lubricants 10, the power SLCNDR 4 rotates the hollow chamber 548 again to its original position to repeat the process described above. As a result of the proposed embodiment, the process of corrugating the shell material is carried out using the invention on the same device on which sausage cakes are formed, which allows for an increase in the productivity of the installation. It was also possible to eliminate the processing time required for the implementation of long-term wetting of the shell material already pregreated, since in this case the still unglobbed material is brought to the required moisture content during wetting during the coiling from the roll when fed towards the collecting device. Shirring the material following wetting eliminates drying and sterilization of the material. Since the supply of the corrugated casing to the sausage filling machine pipe is mechanized, it was possible to avoid the need to form a particularly rigid corrugation, which was required until now when the casing was manually inserted onto the filling pipe of the sausage filling machine, which eliminates the sausage casing and improves their quality. Claim 1. Plant for the production of sausages, including a roll with artificial shell material, a device for preparing stuffing for stuffing with meat on a common bed, containing a device for donning a shell and axially arranged working parts, a stuffer stuffing machine, a mechanism for fixing the end of the shell, a mechanism cutting, and also mounted on a rack perpendicular to the bed, the switching mechanism with at least one tubular element is located -adjoint coaxially device for putting on the shell, rotatably mounted perpendicularly ploskosti5 extending through the longitudinal axis for pushing of fixture shell. 4TOs, in order to increase productivity and improve the quality of go 9 1 TOBbtx sausage products, it is additionally equipped with clamping pads for stretching the sheath material, the working bodies are collecting and guiding rollers, a device for putting on the casing is made in the form of free-floating a pipe placed between the collecting and guiding rollers, while the floating pipe with working bodies is equipped with a sled for removal of the shaped shell of a given length after cutting razmatshaemogo shell material and the clamping jaws are arranged in front of the cutting mechanism.
    [2]
    2. Installation according to claim 1, characterized in that the switching mechanism has a slot with a cannula connected to a source of compressed air for supplying air to the region between the free-floating pipe and the sheath material. 4O
    [3]
    3. The installation according to claim 1, characterized in that the tubular element is made of two halves interconnected in the longitudinal direction of the half,
    [4]
    4. Installation on PP. 1 and 3, characterized in that the tubular element is provided with two semirings located on the front side opposite to the collecting rollers.
    [5]
    5. Installation by PP. 1, 3 and 4, characterized in that the tubular element is provided with a device for twisting the end of the corrugated shell and a device for supplying compressed air located therein. .
    [6]
    6. Installation according to p. I, which means that before collecting (they used rollers to install water on the bath to moisten the shell material.
    46
    eleven
    (Rig.
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    ES8207413A1|1982-09-16|
    DE2941872A1|1981-04-30|
    DE2941872C2|1984-03-22|
    CZ277726B6|1993-04-14|
    CS640480A3|1992-12-16|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US3209398A|1961-08-31|1965-10-05|Johnson & Johnson|Apparatus for shirring a continuous tube of casing|
    US3191222A|1963-04-22|1965-06-29|Townsend Engineering Co|Machine for encasing sausage and the like|
    NL130708C|1963-06-14|
    FI63661B|1976-10-15|1983-04-29|Union Carbide Corp|STORT UTAN BLOETNING FYLLBART CELLULOSAHOELJE FOER FOEDOAEMNEN|
    CH598766A5|1976-11-29|1978-05-12|Hoegger & Cie Ag C|
    DE2721392C2|1977-05-12|1983-11-10|Gerhard Peter Kg, 3036 Bomlitz|Device for producing packaging tube sections closed at one end and pulling them open|EP0096378B1|1982-06-02|1986-04-30|Teepak Produktie N.V.|Method and apparatus for automatically making strands of sausages|
    DE3223725C2|1982-06-25|1985-05-30|Günter 6080 Groß-Gerau Kollross|Method and arrangement for the automated production of sausages in a strand|
    DE3244064A1|1982-11-27|1984-05-30|Günter 6080 Groß-Gerau Kollross|METHOD AND DEVICE FOR INACTIVELY LOADING THE FILLING TUBE OF A SAUSAGE FILLER AND SEALING MACHINE WITH FULLY FINISHED HOSE SLEEVE SECTIONS|
    DE3244085C1|1982-11-29|1984-03-22|Günter 6080 Groß-Gerau Kollross|Method and device for opening, axially gathering and separating thin-walled tubular casing material and for subsequently transferring the beads thus formed to a further processing point|
    DE3246639C2|1982-12-16|1984-10-18|Herbert Dipl.-Ing. 6240 Königstein Niedecker|Device for applying a length of hose to the filling pipe of a multiple nozzle head|
    DE3625409C2|1985-12-11|1989-06-15|Naturin-Werk Becker & Co, 6940 Weinheim, De|
    DE19824980A1|1998-06-04|1999-12-16|Poly Clip System Gmbh & Co Kg|Device for making sausages|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    DE19792941872|DE2941872C2|1979-10-16|1979-10-16|Method and device for the automated production of sausages in a strand|
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