CN209970003U - Assembly line for assembling shockproof pad on brake pad - Google Patents

Abstract

The utility model discloses an assembly line of shockproof piece assembly in brake block, include with backplate fortune material assembly line, backplate material loading subassembly, shockproof piece material loading subassembly, pressing components, riveting subassembly, bat printing subassembly and determine module. This embodiment carries out rapid Assembly on annular assembly line through removing the tool, has realized the high-efficient and quick assembly process of shockproof piece is pasted to the backplate through each process and cooperation manipulator in proper order, has improved the production efficiency of brake block greatly.

Description

Assembly line for assembling shockproof pad on brake pad

Technical Field

The utility model relates to a brake block production technical field, especially a shockproof piece assembles in brake block's assembly line.

Background

In the braking system of car, the brake block is the most crucial safety part, and the good or bad of all brake effects all plays the decisive role as the brake block, and need be equipped with shockproof piece on the brake block, avoids the brake block to vibrate too greatly and influence the result of use. In the existing assembly line of the shockproof sheet, the problems of low production efficiency, unstable assembly of the shockproof sheet and low percent of pass often exist, and the assembly process of the shockproof sheet is difficult to complete in an efficient and orderly manner.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a shockproof piece assembles in the assembly line of brake block.

The utility model provides a technical scheme that its technical problem adopted is: an assembly line for assembling shockproof plates on brake blocks comprises the following components:

the backboard conveying assembly line comprises an annular guide rail and a movable jig arranged on the annular guide rail;

the backboard feeding assembly is used for placing the backboard on the movable jig;

the shockproof piece feeding assembly comprises a multi-station rotating platform and a turnover manipulator, wherein the turnover manipulator attaches shockproof pieces on the multi-station rotating platform to a back plate in a turnover mode;

the pressing component is used for pressing the shockproof sheet on the back plate;

the riveting assembly is used for fixedly connecting the shockproof sheet to the back plate through a rivet;

the pad printing component is used for printing patterns;

and the detection assembly is used for detecting qualified products and defective products.

For the further improvement of the scheme, the pad printing assembly comprises a movable pad printing head and an ink absorbing mechanism arranged below the pad printing head, wherein the ink absorbing mechanism comprises an adhesive tape, and a feeding shaft and a winding shaft which are arranged on two sides of the adhesive tape.

To the further improvement of above-mentioned scheme, multistation rotary platform is quadruplex position rotary platform, all be equipped with the open slot on four stations of quadruplex position rotary platform, the station is used for loading shockproof piece, upset manipulator rotate the upset arm of being connected including moving the base and with moving the base, be equipped with the suction head on the upset arm, the upset arm upwards rotates from the open slot bottom and absorbs shockproof piece and will take precautions against earthquakes the piece laminating on the backplate of removal tool.

The pressing assembly comprises a pressing plate and a pressing rod arranged above the pressing plate, a hemispherical groove is formed in the top surface of the pressing plate, a spherical pressing head matched with the groove is arranged at the bottom of the pressing rod, and the pressing plate is driven to press down through the pressing rod.

The further improvement to above-mentioned scheme still includes jump ring material loading subassembly, jump ring material loading subassembly includes jump ring feed mechanism and spin riveting machine.

To the further improvement of above-mentioned scheme, jump ring feed mechanism includes that the circle shakes dish and jump ring material loading manipulator, the circle shakes and loads the jump ring in the dish, jump ring material loading manipulator establishes the lifting slide block on the suction nozzle including suction nozzle and cover, jump ring material loading manipulator absorbs the jump ring through the suction nozzle and promotes the jump ring through lifting slide block and break away from the suction nozzle and compress tightly on the backplate.

For the further improvement of the scheme, the device further comprises a size testing assembly for detecting the size of the back plate, wherein the size testing assembly comprises a length detecting mechanism, a width detecting mechanism and a thickness detecting mechanism.

The further improvement of the scheme also comprises a discharging assembly, wherein the discharging assembly comprises a qualified product discharging platform and a defective product discharging conveyor belt.

The further improvement of the scheme also comprises a film tearing assembly, and the film tearing assembly is used for removing the protective film on the shockproof sheet.

For further improvement of the scheme, the detection assembly comprises a CCD detection mechanism, and the CCD detection mechanism is used for detecting the pattern printed by the pad printing assembly.

The utility model has the advantages that:

1. the utility model realizes the rapid assembly process of the shockproof sheet on the backboard through the backboard feeding assembly, the shockproof sheet feeding assembly, the pressing assembly, the riveting assembly, the pad printing assembly and the detection assembly through the assembly line production form, thereby greatly improving the production efficiency and the product percent of pass;

2. the utility model realizes the quick and accurate laminating process of the shockproof sheet and the back plate through the overturning mode, and realizes the quick feeding of the shockproof sheet through the multi-station rotating platform, thereby improving the production efficiency;

3. the utility model discloses a transportation process of backplate is realized to ring rail and removal tool, and ring rail can save occupation space, and the removal tool can realize the quick transportation of backplate;

4. the utility model firstly detects whether the size of the adopted backboard is qualified through the size testing component, and avoids the adopted backboard being unqualified and being used as a useless process;

5. the utility model discloses a detect before the assembly and detect the qualification rate of guaranteeing the production product after the assembly.

Drawings

The invention will be further described with reference to the following figures and examples:

FIG. 1 is a schematic overall structure diagram of a preferred embodiment of the present invention;

fig. 2 is a schematic structural view of a pressing assembly according to a preferred embodiment of the present invention;

FIG. 3 is a schematic structural view of a four-position rotary platform and a turning manipulator according to a preferred embodiment of the present invention;

fig. 4 is a front view of a turning robot according to a preferred embodiment of the present invention;

FIG. 5 is a front view of a pad printing assembly of a preferred embodiment of the present invention;

FIG. 6 is a top view of a preferred embodiment pad printing assembly of the present invention;

fig. 7 is a front view of a circlip feeding manipulator according to a preferred embodiment of the present invention;

fig. 8 is a schematic structural view of a length detection mechanism according to a preferred embodiment of the present invention;

fig. 9 is a schematic structural diagram of a width detection mechanism according to a preferred embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the conception, specific structure and technical effects of the present invention will be described in detail below with reference to the accompanying drawings. Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and other embodiments obtained by those skilled in the art without inventive labor are within the scope of the present invention.

Referring to fig. 1 to 9 together, a preferred embodiment is an assembly line for assembling a shockproof pad on a brake pad, which includes a backplate conveying line, a backplate feeding assembly, a shockproof pad feeding assembly, a pressing assembly 5, a riveting assembly 6, a pad printing assembly 7 and a detection assembly 12.

The backplate transports assembly line for transport the backplate, including ring rail 1 and the removal tool 2 of setting on ring rail 1, remove tool 2 and can carry out annular removal along ring rail 1, be equipped with four reference columns on removing tool 2, the backplate passes through the locating piece to be fixed on removing tool 2.

Backplate material loading subassembly for transport the backplate to on removing tool 2, including backplate material loading conveyer belt 31 and backplate material loading manipulator, backplate material loading manipulator includes first horizontal guide rail 33 and sets up the flexible arm on first horizontal guide rail 33, and flexible arm can remove along first horizontal guide rail 33, and flexible arm bottom is equipped with the rotation clamping jaw, and flexible arm presss from both sides the backplate on the backplate material loading conveyer belt 31 and places the backplate on removing tool 2 through rotating the clamping jaw clamp. In this embodiment, the rotating clamping jaw is rotatably connected to the bottom of the telescopic arm, a sliding block is arranged on the first horizontal guide rail 33, and the telescopic arm is fixedly connected to the sliding block through a bolt or a screw and transversely moves on the first horizontal guide rail 33 through the sliding block.

Shockproof piece feeding assembly for will take precautions against earthquakes the piece laminating on the backplate of removing tool 2, including multistation rotary platform and upset manipulator 44, multistation rotary platform is used for providing the piece that takes precautions against earthquakes, and upset manipulator 44 is through the form of upset with the piece laminating that takes precautions against earthquakes on the multistation rotary platform on the backplate of removing tool 2. Meanwhile, the shockproof sheet feeding assembly further comprises a shockproof sheet feeding conveyor belt 41 and a shockproof sheet feeding manipulator, the multi-station rotary platform is a four-station rotary platform 43, the shockproof sheet feeding manipulator is arranged on the second guide rail 42, a sucker is arranged at the bottom of the shockproof sheet feeding manipulator, a shockproof sheet on the shockproof sheet feeding conveyor belt 41 is sucked through the sucker, and the shockproof sheet is conveyed to a station of the four-station rotary platform 43 through the second guide rail 42. The four stations of the four-station rotary platform 43 are of the same station structure, the stations are provided with positioning blocks and open slots 431, and the shockproof pieces are fixed on the stations through the positioning blocks. The turnover manipulator 44 comprises a moving base 442 and a turnover arm 441 rotatably connected to the moving base 442, a suction head 444 is arranged on the turnover arm 441, the suction head 444 is used for clamping the shockproof sheet, the turnover arm 441 can rotate upwards on a vertical plane of the moving base 442, the initial position of the turnover arm 441 is arranged at the bottom of a certain station, a base 443 is arranged at the bottom of the moving base 442, the moving base 442 moves back and forth on the base 443 through a ball screw structure, when the four-station rotating platform 43 conveys the shockproof sheet to the upper side of the turnover arm 441, the turnover arm 441 rotates upwards, the shockproof sheet is sucked through the open slot 431, and the shockproof sheet is attached to a back plate of the moving jig 2 after being turned over for 180 degrees. After the shockproof sheet is attached to the back plate, the turning arm 441 moves laterally out of the vertical plane corresponding to the station through the moving base 442, then turns around 180 degrees, and then resets below the station through the moving base 442. In this embodiment, since the shock-proof sheet may be made of metal, the suction head 444 may be made of an electromagnetic chuck, and when the shock-proof sheet is made of other materials, a suction unit may be used to suck the shock-proof sheet by the negative pressure principle.

The pressing component 5 is used for pressing the shockproof piece on the back plate and comprises a support, a pressing plate 52 arranged on the support and a pressing rod 51 arranged above the pressing plate 52, the pressing plate 52 can move up and down on the support through a guide rod, a hemispherical groove is formed in the top of the pressing plate 52, a spherical pressing head 53 matched with the groove is arranged at the bottom of the pressing rod 51, and the pressing plate 52 is pushed to downwards press the shockproof piece and the back plate in a mode that the pressing rod 51 is contacted with the hemispherical groove through the spherical pressing head 53. Through spherical pressure head 53 and hemispherical recess, increased the lifting surface area of clamp plate 52 for on the push rod 51 thrust can transmit clamp plate 52 more evenly, the shockproof piece pressfitting is compacter. In this embodiment, the pressing rod 51 can be driven to press down by an air cylinder.

The riveting assembly 6 is used for fixedly connecting the shockproof sheet and the back plate together through a rivet and comprises two riveting machines, wherein the riveting machines are used for driving the rivet into the shockproof sheet and the back plate in a riveting mode, so that the shockproof sheet and the back plate which are pressed together are finally fixed through the rivet to form an assembly body.

The pad printing subassembly 7 for toward installing the body on the printing pattern, the pad printing subassembly 7 includes pad printing machine and blotting mechanism, includes frame 72, set up pad printing head 71 and the ink tray 76 on frame 72 on the pad printing machine, and the ink tray 76 sets up in pad printing head 71 bottom, and pad printing head 71 passes through telescopic link and slider and removes in the space, dips in the ink through ink tray 76 and then toward moving the body on the assembly body printing pattern on the tool 2. The ink absorbing mechanism is arranged at the bottom of the rack 72 and comprises an adhesive tape 73, a feeding shaft 74 and a winding shaft 75 which are arranged on two sides of the adhesive tape 73, a film is arranged on the feeding shaft 74 and is a driven shaft, the winding shaft 75 is a driving shaft and is used for recycling the adhesive tape 73, the adhesive tape 73 is tensioned between the feeding shaft 74 and the winding shaft 75 through the feeding shaft 74 and the winding shaft 75, after the transfer printing head 71 is printed for many times, more and more ink dipped by the transfer printing head 71 can be accumulated, the following printing effect can be influenced, and redundant ink on the transfer printing head 71 is adsorbed through the adhesive tape 73, so that the effect of subsequent transfer printing patterns is better.

Detection subassembly 12 for detect certified products and defective products, including first visual detection subassembly 12 and second visual detection subassembly 12, first visual detection subassembly 12 is used for detecting whether the mounted position of shockproof piece on the backplate reaches the check, second visual detection subassembly 12 includes two CCD detectors for CCD detection subassembly 12, one of them CCD detector is used for detecting whether there is the condition of pad printing unclear, pattern failing in the pad printing pattern, another CCD detector is used for detecting the LOGO of product whether there is the condition of unclear or missing printing. CCD is a charge-coupled device, which is a detecting element that uses charge to express signal magnitude and uses coupling mode to transmit signal, and has the advantages of self-scanning, wide sensing spectrum range, small distortion, small volume, light weight, low system noise, low power consumption, long service life, high reliability, etc., and can be made into a very high-integration-level assembly. The CCD detector is an instrument that detects the appearance of an object through a display by means of a CCD element.

Further, still including jump ring material loading subassembly, jump ring material loading subassembly includes jump ring material loading subassembly and spin riveting machine 9, and jump ring material loading subassembly is equipped with fortune material guide rail 82 including the circle dish 81 that shakes and jump ring material loading manipulator 83 that loads the jump ring on the circle dish 81 that shakes, fortune material guide rail 82 is used for carrying the jump ring that the circle shakes on the dish 81, and jump ring material loading manipulator 83 is used for transporting the jump ring on the material guide rail 82 to removing tool 2 on. The clamp spring feeding manipulator 83 comprises a moving platform, a suction nozzle 831 arranged at the bottom of the moving platform and a lifting slide block 832 arranged on the suction nozzle 831 in a sleeved mode, the suction nozzle 831 is connected with the moving platform through a telescopic rod, the suction nozzle 831 is used for sucking clamp springs on the conveying guide rail 82, and the lifting slide block 832 is used for separating the clamp springs from the suction nozzle 831 and pressing the clamp springs on an assembly body of the moving jig 2. The spin riveting machine 9 fixes the clamp spring on the assembly body in a spin riveting mode.

Further, still including the size test subassembly, the size test subassembly is used for detecting the length of backplate, size such as width and thickness, including length detection mechanism 34, width detection mechanism 32 and thickness detection mechanism 35, length detection mechanism 34 and width detection mechanism 32 all detect length and width through the mode of two mobilizable clamp splice clamp tight backplates and test the distance between the clamp splice, thickness detection mechanism 35 then compresses tightly the backplate through the splint, distance between the bottom plate through test splint and device backplate and then measure backplate thickness, detect out unqualified backplate through the size of the backplate, prevent to lead to the condition of the defective products appearing at last because the backplate is unqualified. In the present embodiment, the backboard is transported in the length detection mechanism 34 and the width detection mechanism 32 by the robot, the thickness detection mechanism 35 is disposed on the ring-shaped guide rail 1, and the thickness detection mechanism 35 measures the thickness of the backboard by testing the distance between the clamping plate and the movable jig 2.

Furthermore, the shockproof packaging box also comprises a film tearing assembly, and the shockproof sheet needs to be protected by a protective film after production, and the film tearing assembly is used for tearing off the protective film on the shockproof sheet. The film tearing assembly is a film tearing machine, and the protective film on the anti-vibration sheet is removed through the grinding roller, so that the further assembly process is facilitated.

Further, including certified products ejection of compact platform 14 and defective products exit conveyor 15, the product after detecting assembly 12 detects is got and is removed to certified products ejection of compact platform 14 or defective products exit conveyor 15 through ejection of compact manipulator 13 clamp, and defective products exit conveyor 15 will detect unqualified product and transport to the district that does not pass through, and certified products exit platform 14 transports qualified product to the district that passes through the third guide rail.

Further, the rivet surface cleaning device comprises a cleaning assembly, wherein the cleaning assembly comprises a cleaning mechanism 10 and an antirust processing mechanism 11, the cleaning mechanism 10 removes debris at the riveting position through wind power or cleaning agents to avoid surface unclean, and the antirust processing mechanism 11 is used for carrying out surface antirust processing on rivets at the riveting position to form a layer of antirust layer on the surfaces of the rivets or coating antirust paint or antirust liquid on the surfaces of the rivets.

When the concrete implementation, the utility model discloses an assembly process as follows:

(1) and detecting the size of the back plate. By detecting the length, the width and the thickness of the back plate, defective products are prevented from flowing into an assembly line;

(2) and putting the backboard which is qualified through detection into a backboard conveying production line. And (3) putting the qualified backboard to be detected into the automatic jig 2 of the backboard conveying assembly line through the backboard feeding assembly, and conveying the backboard to the next working procedure position by the automatic jig 2.

(3) The shockproof sheet is jointed with the shockproof sheet in a turnover mode. The shockproof sheet is conveyed to the upper part of the turnover manipulator 44 through the shockproof sheet feeding conveyor belt 41 and the four-station rotating platform 43, and the turnover manipulator 44 attaches the shockproof sheet to the back plate of the movable jig 2 in a turnover mode;

(4) and pressing and flattening the shockproof sheet on the back plate. The shockproof sheet attached to the back plate is further pressed and flattened through the pressing plate 52 of the pressing component 5, so that the shockproof sheet is conveniently and tightly assembled on the back plate;

(5) and the shockproof sheet is riveted on the back plate through the rivet. The shockproof sheet is fixed on the back plate in a riveting mode by a riveting machine;

(6) and (7) pad printing. After a pad printing head 71 of the pad printing machine dips ink on an ink tray 76, a pattern is printed on an assembly part consisting of a shockproof sheet and a back plate, after the pad printing head 71 is pad-printed for several times, the pad printing head 71 is moved to an adhesive tape 73, and redundant ink is removed through the adhesive tape 73;

(7) and (6) mounting a clamp spring. The circular vibrating plate 81 continuously supplies the clamp springs, the clamp spring feeding manipulator 83 sucks the clamp springs through the suction nozzles 831, and the clamp springs are pressed on the assembly parts through the lifting sliding blocks 832;

(8) and fixing the clamp spring on the assembly part in a spin riveting mode. The spin riveting machine 9 rivets the assembly part in a spin riveting mode, so that the clamp spring is fixedly connected to the assembly part;

(9) and detecting qualified products and defective products. The detection assembly 12 respectively carries out image detection on the installation position of the shockproof sheet and the printed pattern, and distinguishes qualified products and defective products in the products;

(10) and (5) transporting qualified products and defective products. Through going out material manipulator 13 and transporting qualified products to qualified products ejection of compact platform 14, transport defective products to defective products exit conveyor 15, qualified products transport to qualified area through qualified ejection of compact platform, and defective products transport to unqualified area through defective products exit conveyor 15.

In this embodiment, the dyestripping subassembly sets up on shockproof piece material loading conveyer belt 41, and clean subassembly setting is on ring rail 1, and its clean process setting is riveted the process and is detected between the process at the jump ring soon, and clean riveting position carries out rust-resistant treatment to riveting position afterwards. This embodiment carries out rapid Assembly on annular assembly line through removing tool 2, has realized the high-efficient and quick assembly process of shockproof piece is pasted to the backplate through each process and cooperation manipulator in proper order, has improved the production efficiency of brake block greatly.

The above description is only a preferred embodiment of the present invention, but the present invention is not limited to the above embodiments, and the technical effects of the present invention should be all included in the protection scope of the present invention as long as the technical effects are achieved by any of the same or similar means.

Claims (10)

1. The utility model provides an assembly line of shockproof piece assembly in brake block which characterized in that includes following subassembly:

the backboard conveying assembly line comprises an annular guide rail (1) and a movable jig (2) arranged on the annular guide rail (1);

the backboard feeding assembly is used for placing the backboard on the movable jig (2);

the shockproof sheet feeding assembly comprises a multi-station rotating platform and a turnover manipulator (44), wherein the turnover manipulator (44) attaches shockproof sheets on the multi-station rotating platform to the back plate in a turnover mode;

the pressing component (5) is used for pressing the shockproof sheet on the back plate;

the riveting component (6) is used for fixedly connecting the shockproof sheet to the back plate through a rivet;

a pad printing assembly (7) for printing a pattern;

and the detection component (12) is used for detecting qualified products and defective products.

2. The assembly line for assembling shock-proof pads to brake pads according to claim 1, wherein the pad printing assembly (7) comprises a movable pad printing head (71) and an ink absorbing mechanism arranged below the pad printing head (71), the ink absorbing mechanism comprises an adhesive tape (73) and a feeding shaft (74) and a winding shaft (75) arranged at both sides of the adhesive tape (73).

3. The assembly line for assembling the shockproof sheet on the brake pad as claimed in claim 1, wherein the multi-station rotary platform is a four-station rotary platform (43), four stations of the four-station rotary platform (43) are respectively provided with an open slot (431), the stations are used for loading the shockproof sheet, the turnover manipulator (44) comprises a moving base (442) and a turnover arm (441) rotatably connected with the moving base (442), the turnover arm (441) is provided with a suction head (444), and the turnover arm (441) upwardly rotates from the bottom of the open slot (431) to suck the shockproof sheet and attach the shockproof sheet to a back plate of the moving jig (2).

4. The assembly line for assembling the shockproof plate on the brake pad as claimed in claim 1, wherein the pressing assembly (5) comprises a pressing plate (52) and a pressing rod (51) arranged above the pressing plate (52), the top surface of the pressing plate (52) is provided with a hemispherical groove, the bottom of the pressing rod (51) is provided with a spherical pressing head (53) matched with the groove, and the pressing plate (52) is driven to press downwards by the pressing rod (51).

5. The assembly line for assembling the anti-vibration plate on the brake pad according to claim 1, further comprising a clamp spring feeding assembly, wherein the clamp spring feeding assembly comprises a clamp spring feeding mechanism and a spin riveting machine (9).

6. The assembly line for assembling the shockproof plate on the brake pad according to claim 5, wherein the clamp spring feeding mechanism comprises a circular vibration plate (81) and a clamp spring feeding manipulator (83), the clamp spring is loaded in the circular vibration plate (81), the clamp spring feeding manipulator (83) comprises a suction nozzle (831) and a lifting slide block (832) sleeved on the suction nozzle (831), and the clamp spring feeding manipulator (83) sucks the clamp spring through the suction nozzle (831) and pushes the clamp spring to be separated from the suction nozzle (831) through the lifting slide block (832) to be pressed on the backboard.

7. The assembly line for assembling the anti-vibration pad on the brake pad according to claim 1, further comprising a dimension testing assembly for detecting the dimension of the backing plate, wherein the dimension testing assembly comprises a length detecting mechanism (34), a width detecting mechanism (32) and a thickness detecting mechanism (35).

8. The assembly line for assembling the anti-vibration pad on the brake pad according to claim 1, further comprising an discharging assembly, wherein the discharging assembly comprises a qualified product discharging platform (14) and a defective product discharging conveyor belt (15).

9. The assembly line for assembling a crash pad to a brake pad as claimed in claim 1, further comprising a film tearing assembly for removing the protective film from the crash pad.

10. The assembly line for assembling anti-vibration pads on brake pads according to claim 1, characterized in that the detection assembly (12) comprises a CCD detection mechanism for detecting the pattern printed by the pad printing assembly (7).

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