瑞士专利CH708489B1 Suction disk structure.

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专利摘要:
A Sauscheibenstruktur has a soft rubber suction disc (1) with a pull rod (11), a base body (2) which is attached to a rear side of the soft rubber suction disc (1), and between the soft rubber suction disc (1) and the Base body (2) located return spring (3). The ends of the drawbar (11) both have a pin (12) which projects radially, and a drive which drives the drawbar (11) for raising and lowering. The drive has a slide switch (41) mounted on the base body (2) and a drive slide cover (5) whose inclined step can lift and lower the pin (12). The pin (12) is raised and lowered along the inclined step and held on two support end surfaces, so that the pull rod (11) is driven up and down and the soft rubber suction disc is activated so as to obtain a locked state or a released state. The slide switch (41) is pushed down, so that a self-locking state is easily adopted. This suction structure has good absorbency and is easy to handle.
公开号:CH708489B1
申请号:CH01677/14
申请日:2013-03-04
公开日:2016-10-31
发明作者:Zhang Decai
申请人:Anho Houseware Co Ltd Jiangmen；
IPC主号:

专利说明:

This application claims the benefit of the following Chinese patent applications, the entire disclosure of which is hereby incorporated by reference:
1) Application No. 2012 20 285 179.6 entitled "SUCTION PLATE STRUCTURE" filed on June 15, 2012 with the Chinese Intellectual Property Office;and
2) Application No. 2013 10 044 753.8 entitled "SUCTION PLATE STRUCTURE" filed on February 4, 2013 with the Chinese Intellectual Property Office.
Technical area
The present application relates to a suction cup for attachment, and more particularly relates to a Saugscheibenstruktur.
State of the art
From the prior art, a suction disc is known, which has a simple structure, is inexpensive and easy to manufacture and has a wide application in different areas. In particular, it is often used in our daily lives to hang items on a wall or on glass. Such a structure includes a soft rubber suction pad having a pull rod, a base body located at the back of the soft rubber suction cup, and a return spring located between the soft rubber suction cup and the main body, and further including a drive device which supports the pull rod for lifting and Lowering drives, and a shell. The drive device is a rotatable lifting-lowering drive device. The drive device may be a lift-down screw drive device, and then the pull rod is a screw. The driving device may also be a rotary ladder-type lifting / lowering drive device, such as those disclosed in Chinese Utility Model Application No. CN201020555276.3 entitled "POWERFUL SUCTION PLATE" and Chinese Patent Application No. CN 2011 10 006 061.5 entitled "VACUUM-SEALED SUCTION PLATE »disclosed suction disc structures, wherein each of both sides of the pull rod having a radially projecting pin-shaped shaft, and wherein the pin-shaped shaft is driven by a rotatable ladder support for raising and lowering. Disadvantages of these structures are: Such a structure is complex, a large torque is required, the pull rod can not be moved up and down in their respective positions with insufficient rotation, so that the adhesion of the soft rubber suction disc is not strong or easy solvable , and so that the suspended object can easily fall off.
Presentation of the invention
[0006] Based on the above explanations, therefore, it is an object of the present application to provide a squeegee structure having a strong adhesive force and a stable long-term adhesion effect, whereby falling down of suspended objects is not easily possible with this structure. and the handling is more comfortable and easier.
In view of the above explanations, the present invention provides a Saugscheibenstruktur comprising: a soft rubber suction disc (1) with a pull rod (11), a base body (2) which at a rear side of the soft rubber suction disc (1 ), and a return spring (3) located between the soft rubber suction disc (1) and the main body (2). One end of the pull rod (11) has a pin-shaped shaft (12) projecting radially to two sides of the pull rod (11). The suction disc also has a drive device (4), which drives the pull rod (11) by moving the pin-shaped shaft (12) for raising and lowering, wherein:
A center of the base body (2) has a central guide hole (21) for guiding an axial movement of the drawbar (11); a guide pillar (23) having symmetrical guide surfaces (22) on two sides of the guide post and a pair of symmetrical position limiting guide flanges (24) projecting upwardly around the central guide hole (21), whereby guide grooves (25) between the guide surfaces (22) and the position-limiting guide flanges (24) are formed; the guide pillar (23) further has a shaft raising-lowering guide groove (26) which is disposed perpendicular to the symmetrical guide surfaces (22) on two sides of the guide pillar and extending in the axial direction, and two ends of the pin-shaped shaft (12) are received in the shaft lift-down guide groove (26);
The drive device (4) has a on the base body (2) fixed slide switch (41) and a drive slide cover (5) which is connected to the slide switch (41) and having a support member on; the center of the slide switch (41) has an elongated guide hole (42), and each of the two symmetrical sides of the elongated guide hole (42) has an inclined step (43) having an upper support end face and a lower support end face; and the slide switch (41) surrounds the guide post (23) through the elongated guide hole (42) in a slidable cooperative manner such that the slide switch (41) is guided in the guide grooves (25); and
The pull rod (11) extends through the central guide hole (21) of the main body (2) and through a center of the slide switch (41) so that two ends of the pin-shaped shaft (12) are simultaneously in the inclined steps (43) are included; the pin-shaped shaft (12) is raised and lowered along the inclined step (43), and can be stopped at the upper and lower support end surfaces of the inclined step (43) when the slide switch (41) is turned off by the drive slide cover (5). and sliding back along a radial direction, whereby the pull rod (11) is driven to lift and lower to drive the soft rubber suction disc (1) so as to achieve a stuck state or a released state.
Preferably, a respective front end and a rear end of a bottom surface of the slide switch (41) having a recess (44) are formed, in each case an inner wall of the front and rear lower edge of the drive slide cover (5) has a hook (51), and the drive slide cover (5) is connected to the slide switch (41) by a self-locking detent connection of the hook (51) with the recess (44).
Preferably, in the upper and lower support end surfaces of the inclined step (43), the upper support end surface (45) is a concave surface, and the lower support end surface (46) is a flat surface.
Preferably, the support member of the drive slide cover in the mounted state (5) is a flat, square, upwardly bent hook (52) which is perpendicular to the pull rod.
Preferably, the soft rubber suction disc (1) integrally with the pull rod (11) formed draw lower plate (13) and a silica gel suction pad (14), and the drawing disc (13) is such in the silica gel suction pad (14) embedded, that a Saugscheibenkörper is formed.
Preferably, a through hole is formed on a peripheral edge of the drawing lower disk (13), and the silica gel suction pad (14) is guided through the through hole of the drawing lower disk (13) such that the peripheral edge of the drawing lower disk (13) into the silica gel -Saugkissen (14) is embedded.
Preferably, the soft rubber suction disc (1), the base body (2), the slide switch (41) and the drive slide cover (5) have a square shape or a circular shape.
Preferably, an annular projection (15) for limiting the position of the return spring (3) on a back of the soft rubber suction disc (1) and around the tie rod (11) is formed around.
Preferably, the drive slide cover (5) has moving direction markers indicative of the sticking state or the release state, the moving direction mark indicating the sticking state being the same as the downwardly inclined direction of the inclined step (43), while the moving direction mark indicating the release state is opposite to the downward inclined direction of the inclined step (43).
Preferably, a groove (47) in a side wall of the slide switch (41) corresponding to the lower support end face (46) of the inclined step (43) is formed to facilitate the displacement of the pin-shaped shaft (12), wherein the pin-shaped shaft ( 12) is inserted in a pin hole which is provided at one end of the pull rod (11).
Compared with the prior art, in the suction disk structure of the present application, since a sliding drive device having a tilted step is employed, the slide switch is driven to slide back and forth along the radial direction by the drive slide cover, thereby providing the pin-shaped shaft on the End of the tie rod is easy to be raised and lowered by means of the inclined steps at the center of the suction disc, whereby the pin-shaped shaft can be raised and lowered along the inclined steps and stopped at the upper and lower support end surface of the inclined stage. Thereby, the pull rod for raising and lowering is driven, and the soft rubber suction disc is placed in an adhesive state or in a release state. It is easy to move the slide switch to its self-locking state. At the same time, the base body can serve not only as a carrier for the soft rubber suction disc, but also as a sliding fit for the slide switch. The main body can also serve as a shell for the main body of the suction disc. The suction disc may be configured in a variety of shapes, such as a square shape, a circular shape, an oval shape or a polygon shape. By means of such a Saugscheibenstruktur, resp. Suction disk, the installation environment becomes neat, beautiful and appealing, the adhesion is improved, the adhesion effect is stable, the suspended object will not fall down easily, the handling is simplified, and the structure is simple and beautiful.
Brief description of the drawings
[0021]<Tb> FIG. 1 <SEP> shows a front view of the Saugscheibenstruktur, resp. Suction disc, according to the current application;<Tb> FIG. Fig. 2 <SEP> shows a left side view of Fig. 1;<Tb> FIG. Fig. 3 <SEP> shows a rear view of Fig. 1;<Tb> FIG. Fig. 4 <SEP> is a plan view of Fig. 1;<Tb> FIG. Fig. 5 <SEP> is a sectional view taken along the direction A-A of Fig. 1;<Tb> FIG. Fig. 6 <SEP> is a sectional view taken along the direction B-B of Fig. 1;<Tb> FIG. Fig. 7 shows a front view of the suction disk according to the present application, wherein the soft rubber suction disk is in a release state;<Tb> FIG. 8 <SEP> is a front view of the suction cup according to the present application, in which the relationship between the slide switch and the pin-shaped shaft is shown with the soft rubber disc in a release state;<Tb> FIG. Fig. 9 <SEP> is a sectional view taken along the direction C-C of Fig. 8;<Tb> FIG. 10 <SEP> is a front view of the suction cup according to the present application, wherein the soft rubber suction cup is in a stuck state;<Tb> FIG. 11 <SEP> is a front view of the suction cup according to the present application, in which the relationship between the slide switch and the pin-shaped shaft is shown with the soft rubber disc in an adhered state;<Tb> FIG. Fig. 12 <SEP> is a sectional view taken along the direction D-D of Fig. 11;<Tb> FIG. Fig. 13 <SEP> shows a front view of the sliding switch of the suction disc according to the present application;<Tb> FIG. 14 <SEP> is a left side view of FIG. 13;<Tb> FIG. Fig. 15 <SEP> is a plan view of Fig. 13;<Tb> FIG. Fig. 16 <SEP> is a sectional view taken along the direction E-E of Fig. 15;<Tb> FIG. 17 <SEP> shows a bottom view of FIG. 13;<Tb> FIG. Fig. 18 shows a perspective view of the sliding switch of the suction disc according to the present application;<Tb> FIG. 19 <SEP> is a front view of the main body of the suction cup according to the present application;<Tb> FIG. 20 <SEP> is a left side view of FIG. 19;<Tb> FIG. Fig. 21 <SEP> is a plan view of Fig. 19;<Tb> FIG. Fig. 22 <SEP> is a sectional view taken along the direction F-F of Fig. 21;<Tb> FIG. Fig. 23 <SEP> is a sectional view taken along the direction G-G of Fig. 21;<Tb> FIG. 24 shows a perspective view of the main body of the suction pad according to the present application;<Tb> FIG. 25 <SEP> is a front view of the soft rubber suction disc in a suction disc according to the present application;<Tb> FIG. Fig. 26 <SEP> shows a left side view of Fig. 25;<Tb> FIG. Fig. 27 <SEP> is a plan view of Fig. 25;<Tb> FIG. Fig. 28 <SEP> is a sectional view taken along the direction H-H of Fig. 27;<Tb> FIG. Fig. 29 <SEP> is a sectional view taken along the direction I-I of Fig. 27;<Tb> FIG. 30 <SEP> is a perspective view of the soft rubber suction disc in a suction disc according to the present application;<Tb> FIG. Fig. 31 <SEP> shows a front view of the drive slide cover in a suction disc according to the present application;<Tb> FIG. 32 <SEP> is a left side view of FIG. 31;<Tb> FIG. 33 <SEP> is a plan view of FIG. 31;<Tb> FIG. Fig. 34 <SEP> is a sectional view taken along the direction J-J of Fig. 33;<Tb> FIG. Fig. 35 <SEP> is a sectional view taken along the direction K-K of Fig. 33;<Tb> FIG. Fig. 36 <SEP> shows a bottom view of Fig. 31;<Tb> FIG. Fig. 37 <SEP> shows a perspective view of the drive slide cover of a suction disc according to the present application;<Tb> FIG. Fig. 38 shows a perspective view of the suction pad according to the present application;<Tb> FIG. 39 <SEP> shows an exploded view of the installation structure of a suction pad according to the present application;<Tb> FIG. Fig. 40 <SEP> shows a front view of the suction disc according to the present application, wherein the suction disc has a square shape;<Tb> FIG. 41 <SEP> shows a left side view of FIG. 40;<Tb> FIG. 42 <SEP> shows a rear view of FIG. 40;<Tb> FIG. 43 <SEP> is a bottom view of FIG. 40;<Tb> FIG. Fig. 44 <SEP> is a plan view of Fig. 40;<Tb> FIG. Fig. 45 <SEP> is a sectional view taken along the direction L-L of Fig. 44;<Tb> FIG. Fig. 46 <SEP> is a sectional view taken along the direction M-M of Fig. 44;<Tb> FIG. 47 <SEP> is a front view of the release state of the soft rubber suction cup, the suction cup of the present application having a square shape;<Tb> FIG. 48 <SEP> is a front view showing the relationship between the slide switch and the pin-shaped shaft in the release state of the soft rubber suction cup, the suction cup of the present application having a square shape;<Tb> FIG. Fig. 49 <SEP> is a sectional view taken along the direction N-N of Fig. 48;<Tb> FIG. 50 <SEP> is a front view of the adhesive state of the soft rubber suction disk, wherein the suction disk of the present application has a square shape;<Tb> FIG. 51 <SEP> is a front view showing the relationship between the slide switch and the stick-shaped shaft in the sticking state of the soft rubber suction cup, the suction cup of the present application having a square shape;<Tb> FIG. 52 <SEP> is a sectional view taken along the direction O-O of FIG. 51;<Tb> FIG. 53 <SEP> shows a front view of the slide switch, wherein the suction disc of the present application has a square shape;<Tb> FIG. 54 <SEP> is a left side view of FIG. 53;<Tb> FIG. 55 <SEP> is a plan view of FIG. 53;<Tb> FIG. 56 <SEP> is a sectional view taken along the direction P-P of FIG. 55;<Tb> FIG. 57 <SEP> is a bottom view of FIG. 53;<Tb> FIG. Fig. 58 shows a perspective view of the slide switch wherein the suction disc of the present application has a square shape;<Tb> FIG. Fig. 59 <SEP> shows a front view of the base body, wherein the suction disc of the present application has a square shape;<Tb> FIG. 60 <SEP> is a left side view of FIG. 59;<Tb> FIG. Fig. 61 <SEP> is a plan view of Fig. 59;<Tb> FIG. 62 <SEP> is a sectional view taken along the direction Q-Q of Fig. 61;<Tb> FIG. 63 <SEP> is a sectional view taken along the direction R-R of Fig. 61;<Tb> FIG. 64 <SEP> shows a bottom view of FIG. 59;<Tb> FIG. Fig. 65 shows a perspective view of the main body with the suction cup of the present application having a square shape;<Tb> FIG. 66 <SEP> is a front view of the soft rubber suction cup, wherein the suction cup of the present application has a square shape;<Tb> FIG. 67 <SEP> shows a left side view of FIG. 66;<Tb> FIG. Fig. 68 <SEP> is a plan view of Fig. 66;<Tb> FIG. Fig. 69 <SEP> is a sectional view taken along the direction S-S of Fig. 68;<Tb> FIG. Fig. 70 <SEP> is a sectional view taken along the direction T-T of Fig. 68;<Tb> FIG. 71 <SEP> shows a bottom view of FIG. 66;<Tb> FIG. Fig. 72 <SEP> shows an exploded view of the installation structure of the soft rubber suction cup, wherein the suction cup of the present application has a square shape;<Tb> FIG. FIG. 73 shows a perspective view of the soft rubber suction cup, wherein the suction cup of the present application has a square shape; FIG.<Tb> FIG. 74 <SEP> is a front view of the drive slide cover, the suction slide of the present application having a square shape;<Tb> FIG. 75 <SEP> shows a left side view of FIG. 74;<Tb> FIG. Fig. 76 <SEP> is a plan view of Fig. 74;<Tb> FIG. 77 <SEP> is a sectional view taken along the U-U direction of FIG. 76;<Tb> FIG. 78 <SEP> is a sectional view taken along the direction V-V of FIG. 76;<Tb> FIG. 79 <SEP> shows a bottom view of FIG. 74;<Tb> FIG. Fig. 80 <SEP> shows a perspective view of the drive slide cover, wherein the suction plate of the present application has a square shape;<Tb> FIG. Fig. 81 <SEP> is a perspective view wherein the suction disk of the present application has a square shape;<Tb> FIG. Fig. 82 shows an exploded view of the installation structure with the suction pad of the present application having a square shape.
Description of preferred embodiments
In order that the skilled artisan obtain a better understanding of the technical solutions of the present application, the technical solutions will be described below in connection with embodiments.
As shown in FIGS. 1 to 82, a suction disk according to an embodiment of the present application comprises: a soft rubber suction disk 1 having a pull rod 11, a base body 2 attached to a back side of the soft rubber suction disk 1 , and one located between the soft rubber suction disc 1 and the main body 2 return spring 3. One end of the tie rod 11 has a pin-shaped shaft 12 projecting radially to two sides of the tie rod 11. The suction disc also has a drive device 4, which drives the pull rod by moving the pin-shaped shaft 12 for raising and lowering. The center of the main body 2 has a central guide hole 21 for guiding axial movement of the drawbar 11. A guide post 23 having symmetrical guide surfaces 22 on two sides of the guide post and a pair of symmetrical position-limiting guide flanges 24 project upwardly about the central guide post 21 whereby guide grooves 25 are formed between the guide surfaces 22 and the position-limiting guide flanges 24. The guide column 23 also has a shaft-raising-lowering guide groove 26 which is disposed perpendicular to the symmetrical guide surfaces 22 on two sides of the guide column and extends in the axial direction. Two ends of the pin-shaped shaft 12 are received in the shaft-raising-lowering guide groove 26. The drive device 4 has a slide switch 41 fastened on the base body 2 and a drive slide cover, which is connected to the slide switch and has a support member. The center of the slide switch 41 has an elongated guide hole 42, and each of the two symmetrical sides of the elongated guide hole 42 has an inclined step 43 having an upper support end face and a lower support end face. The slide switch 41 surrounds the guide post 23 through the elongated guide hole 42 in a slidably cooperative manner such that the slide switch 41 is guided in the guide groove 25. The tie rod 11 extends through the central guide hole 21 of the main body 2 and through the center of the slide switch 41, so that two ends of the pin-shaped shaft 12 are simultaneously received in the inclined steps 43. When the slide switch 41 is driven by the drive slide cover 5 for sliding back and forth along a radial direction, the pin-shaped shaft 12 is raised and lowered along the inclined step 43 and can be stopped at the upper and lower support end surfaces of the inclined step, respectively the pull rod 11 for raising and lowering and the soft rubber suction disc 1 are driven, and whereby a stuck state or a release state can be achieved.
An annular projection 15 for limiting the position of the return spring 3 is formed on the back of the soft rubber suction disc 1 and around the tie rod 11 around.
A groove 47 is formed in the side wall corresponding to the lower support end surface of the inclined step 43 to facilitate the displacement of the pin-shaped shaft 12, wherein it is formed in the central guide hole 21.
The drive slide cover 5 has movement direction marks indicating the sticking state or the release state, the moving direction mark indicating the sticking state being the same as the downwardly inclined direction of the inclined step 43, while the moving direction mark indicating the release state is opposite to the downwardly inclined direction of the step 43.
In the present embodiment, the pin-shaped shaft 12 can be used after one end of the tie rod 11, which has a pin hole. The tie rod 11 may be a circular, a square, or a polygon-shaped column, and the center of the main body 2 is formed with a corresponding square or polygon-shaped central guide hole 21 to limit the tie rod 11 so as to extend along only the axial direction is displaced, whereby a failure caused by a rotational displacement of the tie rod 11 during the raising and lowering movement of the pin-shaped shaft 12 along the inclined step 43 by the radial forward and backward movement of the slide switch 41 is reduced. The sliding stroke of the slide switch 41 should satisfy the condition of the moving stroke of the pin-shaped shaft 12 between the two ends of the inclined stage 43. The heights of the two support end faces of the inclined step 43 and the height difference between the two support end faces should simultaneously be such that the soft rubber suction pad 1 has the largest adhesive force and the pull rod 11 the largest lift and lower lift. The flatter the inclined stage 43, the greater the stroke of the slide switch and the smaller the effort, in which case, however, the base body 2 is larger. Therefore, the inclination angle of the inclined step 43 should be appropriately selected. In general, it is preferable that the inclination angle is between 14 degrees and 18 degrees. The inner cavity of the base body 2 facing the soft rubber suction disk 1 may be configured as a horn-shaped cone surface which is formed in the adhesion state corresponding to the shape of the back side of the soft rubber suction disk 1 to support the back of the soft rubber suction disk 1 in the adhesion state. whereby the strength of the suction disc is stabilized.
As shown in Figs. 5-6, 13-18, 31-36, 45-46, 53-58 and 74-79, in one of the preferred embodiments of the present application, the front end and the rear end are shown the bottom surface of the slide switch 41 formed with the same recess 44, each of the inner wall of the front and rear lower edge of the drive slide cover 5 has a hook 51, and the drive slide cover 5 is connected by a self-locking latching connection of the hook 51 and the recess 44 with the slide switch 41. In the present embodiment, the hooks 51 are formed as a pair of L-shaped outwardly directed barbs, and the recess 44 extends in the same direction as the sliding directions of the drive slide cover 5 and the slide switch 41, and it is preferable that the Width of the recess 44 and the width of the hook 51 are configured so that the hook is just received in the recess and that a position-limiting effect is generated, so that the drive slide cover 5 and the slide switch 41 are firmly connected. Alternatively, the recess can be replaced by a groove.
As shown in FIGS. 16-18 and 56-58, the upper and lower support end surfaces of the inclined step 43 of a second preferred embodiment of the present application have a concave surface in the upper support end surface 45 and a flat surface in FIG lower support end surface 46. In the present embodiment, the upper support end surface 45 is formed as a concave surface, so that the pin-shaped shaft 12 can not slide off when it is received in the concave surfaces, whereby a better adhesive force of the suction disk is obtained.
As shown in FIGS. 1-7, 31-37, 41-47 and 74-80, in a third preferred embodiment of the present application, the support member of the drive slide cover 5 is a flat, square, upwardly bent hook 52 educated. In the present embodiment, the flat square hook 52 is an upwardly bent L-shaped hook, the flat square shape facilitating the sliding of the drive slide cover 5 while being more beautiful and pleasing.
As shown in Figs. 66-73, in a fourth preferred embodiment of the present application, the soft rubber suction pad 1 has a pull-up washer 13 and a silica gel suction pad 14 integrally connected to the pull rod 11. The lower drawing disk 13 is embedded in the silica gel suction pad 14 so as to form a suction disk body. Through holes are formed on a circumferential edge of the drawing sub-disk 13, and the silica gel suction pad 14 is guided through the through holes so that the circumferential edge of the drawing sub-disk 13 is embedded in the silica gel suction pad 14. In the present embodiment, the drawing lower plate 13 may be made of plastic; and the tie rod 11 may be made of metal or plastic and may be injection molded together with the drawing lower plate 13, and then the silica gel suction pad 14 is molded in a casting process so as to embed the drawing lower plate therein and form a suction pad body which forms the Adhesive force of the suction disc makes it more stable.
In a fifth preferred embodiment of the present application, the soft rubber suction pad 1, the main body 2, the slide switch 41 and the drive slide cover 5 have a square or a circular shape. In the present embodiment, as shown in Figs. 1-39, each of the soft rubber suction pad 1, the main body 2, the slide switch 41 and the drive slide cover 5 has a circular shape. As shown in FIGS. 40-82, each of the soft rubber suction pad 1, the main body 2, the slide switch 41, and the drive slide cover 5 have a square shape. The above components may have an oval, or a polygon-shaped, etc., shape. A suction cup having the above shapes can create a neat, beautiful, and appealing installation environment.
In the present application, the slide switch 41 is driven by a slide driving device by a inclined stage for sliding back and forth along the radial direction by the drive slide cover 5, whereby it is easy for the pin-shaped shaft 12 at the end of the pull rod 11, by means of the inclined steps 43 are raised and lowered at the center of the suction disc, and whereby the pin-shaped shaft 12 can be raised and lowered along the inclined steps 43 and stopped at the upper and lower support end surfaces of the inclined step 43, respectively. Thereby, the pull rod 11 for raising and lowering and the soft rubber suction disc 1 are driven, and the soft rubber suction disc is set in the adhesion state and the release state. It is easy to move the slide switch 41 to the end in its self-locking state. At the same time, the main body 2 can serve not only as a carrier for the soft rubber suction disc, but also as a sliding fit for the slide switch 41. The main body 2 can also serve as a shell for the main body of the suction disc. The entire suction disc may be configured in a variety of shapes, such as a square shape, a circular shape, an oval shape or a polygonal shape. Thereby, by means of such suction pad, the installation environment becomes neat, beautiful and appealing, the adhesive force is improved, the adhesive effect becomes stable, the suspended object does not fall down easily, the handling is simplified, and the structure is simple and beautiful.
Based on the above description of the embodiments, those skilled in the art can achieve or apply the present application. It will be obvious to those skilled in the art to variously modify the embodiments. The general principle defined herein may be achieved in other embodiments without departing from the spirit or scope of the present invention.

权利要求:
Claims (10)
[1]
A suction disk structure comprising: a soft rubber suction disk (1) having a pull rod (11), a base body (2) attached to a back side of the soft rubber suction disk (1), and located between the soft rubber suction disk (1 ) and the main body (2) located return spring (3), one end of the tie rod (11) has a two sides of the tie rod (11) radially projecting pin-shaped shaft (12), and the suction disc also has a drive device (4) , which drives the drawbar (11) by moving the pin-shaped shaft (12) for raising and lowering, whereina center of the main body (2) has a central guide hole (21) for guiding an axial movement of the drawbar (11); a guide column (23) with symmetrical guide surfaces (22) on two sides of the guide column and a pair of symmetrical, position-limiting guide flanges (24) projecting upwards around the central guide hole (21), whereby guide grooves (25) between the guide surfaces (22) and the position-limiting guide flanges (24) are formed; the guide post (23) further comprises a wave raising-lowering guide groove (26) disposed perpendicular to the symmetrical guide surfaces (22) on two sides of the guide post and extending in the axial direction, and two ends of the pin-shaped shaft (12 ) are received in the shaft raising and lowering guide groove (26);the drive device (4) has a slide switch (41) mounted on the base body (2) and a drive slide cover (5) which is connected to the slide switch (41) and has a support member; the center of the slide switch (41) has an elongated guide hole (42), and each of the two symmetrical sides of the elongated guide hole (42) has an inclined step (43) having an upper support end face and a lower support end face; and the slide switch (41) surrounds the guide post (23) through the elongated guide hole (42) in a slidable, cooperative manner such that the slide switch (41) is guided in the guide grooves (25); andthe drawbar (11) extends through the central guide hole (21) of the main body (2) and through a center of the slide switch (41) so that two ends of the pin-shaped shaft (12) are simultaneously received in the inclined steps (43); the pin-shaped shaft (12) is raised and lowered along the inclined step (43) and can be stopped at the upper and lower support end surfaces of the inclined step (43) when the slide switch (41) is pushed forward and forward by the drive slide cover (5) Sliding back is driven along a radial direction, whereby the pull rod (11) is driven for raising and lowering to drive the soft rubber suction disc (1), thereby achieving a stuck state or a release state.
[2]
2. Suction disc structure according to claim 1, wherein in each case a front end and a rear end of a bottom surface of the slide switch (41) are formed with a recess (44), in each case an inner wall of the front and rear lower edge of the drive slide cover (5) has a hook (51). has, and the drive slide cover (5) by a self-locking latching connection of the hook (51) with the recess (44) with the slide switch (41) is connected.
[3]
The suction disk structure according to claim 1, wherein in the upper and lower support end surfaces of the inclined step (43), the upper support end surface (45) is a concave surface, and the lower support end surface (46) is a flat surface.
[4]
4. Suction disc structure according to claim 1, wherein the support member of the drive slide cover (5) in the attached state is a flat, square, upwardly bent hook (52) which is perpendicular to the pull rod (11).
[5]
5. Suction disc structure according to claim 1, wherein the soft rubber suction disc (1) to the pull rod (11) integrally with the pull rod (11) formed draw lower disc (13) and a silica gel suction pad (14), and the lower drawing disc (13) in the silica gel suction pad (14) is embedded, that a Saugscheibenkörper is formed.
[6]
The suction disk structure according to claim 5, wherein a through hole is formed on a circumferential edge of the drawing lower disk (13), and the silica gel suction pad (14) is guided through the through hole of the drawing lower disk (13) such that the circumferential edge of the drawing lower disk (13 ) is embedded in the silica gel absorbent pad.
[7]
7. suction disc structure according to claim 1, wherein the soft rubber suction disc (1), the base body (2), the slide switch (41), and the drive slide cover (5) each have a square shape or a circular shape.
[8]
8. suction disc structure according to claim 1, wherein an annular projection (15) for limiting a position of the return spring (13) on a back of the soft rubber suction disc (1) and around the pull rod (11) is formed around.
[9]
The suction disk structure according to claim 1, wherein the drive slide cover (5) has moving direction marks indicative of the sticking state or the release state, wherein the moving direction mark indicating the sticking state is the same as the downwardly inclined direction of the inclined step (43), while the Movement direction mark indicating the release state is opposite to the downwardly inclined direction of the inclined step (43).
[10]
A suction disk structure according to claim 1, wherein a groove (47) is formed in a side wall of the slide switch (41) corresponding to the lower support end surface (46) of the inclined step (43) to facilitate the displacement of the pin-shaped shaft (12) the pin-shaped shaft (12) is inserted in a pin hole provided at one end of the pull rod (11).

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同族专利:

公开号 | 公开日

PL2700830T3|2016-07-29|

AU2013224645A1|2014-01-16|

NO20141368A1|2014-12-11|

ES2566138T3|2016-04-11|

AU2013224645B2|2015-07-16|

BR112014016669B1|2020-11-17|

EP2700830A4|2014-08-06|

KR101510363B1|2015-04-14|

CL2014003109A1|2015-01-16|

IL235310A|2018-07-31|

RU2543459C1|2015-02-27|

NO341428B1|2017-11-13|

JP2014522470A|2014-09-04|

CA2828164C|2016-06-28|

CA2828164A1|2013-12-15|

KR20140047035A|2014-04-21|

EP2700830A1|2014-02-26|

EP2700830B1|2016-03-02|

JP5642906B2|2014-12-17|

US9091294B2|2015-07-28|

WO2013185493A1|2013-12-19|

ZA201407679B|2016-10-26|

US20140306083A1|2014-10-16|

BR112014016669A2|2017-06-27|

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法律状态:
2016-07-29| PK| Correction|Free format text: BERICHTIGUNG ERFINDER |

优先权:

申请号 | 申请日 | 专利标题

CN 201220285179|CN202756403U|2012-06-15|2012-06-15|Sucking disc structure|

CN201310044753.8A|CN103256291B|2013-02-04|2013-02-04|A kind of sucker structure|

PCT/CN2013/072120|WO2013185493A1|2012-06-15|2013-03-04|Sucking structure|

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