CN219187487U - Glue rolling system for drum brake pad - Google Patents

Abstract

The utility model discloses a glue rolling system for a drum brake pad, which comprises a brake pad conveying device, a brake pad glue rolling device and a heating and baking device; the brake pad conveying device comprises a horizontal conveying mechanism and clamping mechanisms; clamping and limiting the drum brake pad by a clamping mechanism; the brake pad glue rolling device is used for carrying out glue rolling treatment on the drum brake pad; the heating and baking device is used for heating and baking the drum brake pad after glue rolling. This a rubberizing system for drum brake block utilizes the cooperation of horizontal conveying mechanism and each fixture, can carry out the centre gripping spacing and the running water formula transportation to drum brake block to carry out the rubberizing through brake block rubberizing device one by one and handle, effectively improve the production efficiency of drum brake block.

Description

Glue rolling system for drum brake pad

Technical Field

The utility model relates to a brake pad glue rolling system, in particular to a glue rolling system for a drum brake pad.

Background

In the production process of the brake pad, a certain amount of glue is required to be coated on the back plate of the brake pad, and then the friction plate is hot-pressed on the back plate coated with the glue, so that the combination property of the friction plate and the back plate is effectively enhanced. But because the structural feature of drum brake block, inconvenient tiling carries out the rubberizing on the conveyer belt, consequently still adopts manual operation's mode to carry out the rubber coating to drum brake block among the prior art, and rubber coating inefficiency.

Disclosure of Invention

The utility model aims at: the utility model provides a glue rolling system for drum brake block can carry out running water formula glue rolling to drum brake block and handle to effectively improve the production efficiency of drum brake block.

In order to achieve the above object, the present utility model provides a glue rolling system for drum brake pads, comprising a brake pad conveying device, a brake pad glue rolling device and a heating and baking device; the brake pad conveying device comprises a horizontal conveying mechanism and clamping mechanisms; each clamping mechanism is arranged on the horizontal conveying mechanism at intervals, the clamping mechanism clamps and limits the drum brake pad, and the horizontal conveying mechanism drives each clamping mechanism to horizontally transport; the brake pad glue rolling device is arranged on the feeding side of the horizontal conveying mechanism and is used for carrying out glue rolling treatment on each drum brake pad clamped and limited on the clamping mechanism; the heating and baking device is arranged in the middle of the horizontal conveying mechanism and is used for heating and baking the drum brake pad after glue rolling.

Further, the brake pad glue rolling device comprises a glue storage box, a glue rolling driving motor, a rotary transmission mechanism and glue rolling wheels; the glue storage box is fixedly arranged above the feeding side of the horizontal conveying mechanism, and the rotary transmission mechanism is arranged on the glue storage box; each glue rolling wheel is rotatably arranged on the rotary transmission mechanism, the glue rolling driving motor rotatably drives each glue rolling wheel through the rotary transmission mechanism, and glue is rolled by the contact of the glue rolling wheel and the drum brake block; the glue storage box conveys glue to each glue rolling wheel through each glue conveying mechanism.

Further, the rotary transmission mechanism comprises a synchronous driving shaft, each diagonal bracing adjusting unit and each transmission branch; the synchronous driving shaft is rotatably arranged on the bottom of the glue storage box, and the glue rolling driving motor is used for rotatably driving the synchronous driving shaft; the upper ends of the transmission branches are arranged on the synchronous driving shafts, the rubber rolling wheels are respectively and rotatably arranged on the lower ends of the transmission branches, and the synchronous driving shafts synchronously drive the rubber rolling wheels through the transmission branches; each diagonal bracing adjusting unit is used for obliquely supporting each transmission branch and adjusting the height of each rubber roller.

Further, the glue feeding mechanism comprises a glue feeding hose and a glue homogenizing box; the glue homogenizing box is arranged at a position close to the glue rolling wheel and is provided with a glue leakage strip-shaped hole; the edge of the rubber rolling wheel is locally embedded into the rubber leakage strip-shaped hole; one end of the glue feeding hose is communicated with the lower part of the glue storage box, and the other end is communicated with the top of the glue homogenizing box.

Further, the heating and baking device comprises a strip-shaped heating cover and electric heating pipes; the strip heating cover covers the upper part of the middle part of the horizontal conveying mechanism, the heating ends of the electric heating pipes extend into the strip heating cover, and the wiring terminals of the electric heating pipes extend into the junction box at the outer side of the strip heating cover.

Further, the horizontal conveying mechanism comprises a strip-shaped supporting frame, a conveying driving motor and two conveying driving shafts; the two conveying driving shafts are respectively and rotatably arranged at two ends of the strip-shaped supporting frame, and the conveying driving motor is used for driving one conveying driving shaft to rotate; two conveying driving chain wheels are fixedly arranged on the two conveying driving shafts, and the conveying driving chain wheels at corresponding positions on the two conveying driving shafts are synchronously rotated and transmitted through conveying supporting chains; and each supporting roller is rotatably arranged on the strip-shaped supporting frame and positioned between the two conveying driving shafts, and is supported below the conveying supporting chain on the upper layer.

Further, the clamping mechanism comprises an installation support bar, a bar-shaped supporting seat, a transverse butt-clamping mechanism and a longitudinal butt-clamping mechanism; the mounting support bars of each clamping mechanism are arranged on the horizontal conveying mechanism at intervals; the strip-shaped supporting seat is detachably arranged on the mounting supporting bar; the transverse butt-clamping mechanism and the longitudinal butt-clamping mechanism are both arranged on the strip-shaped supporting seat and used for respectively carrying out relative clamping and limiting from the transverse direction and the longitudinal direction of the drum brake block.

Further, the longitudinal butt-clamping mechanism comprises a longitudinal butt-clamping bolt and two longitudinal butt-clamping blocks; the middle part of the longitudinal butt-clamping bolt is longitudinally and rotatably arranged on the strip-shaped supporting seat, and threads at two ends of the longitudinal butt-clamping bolt are oppositely screwed; the two longitudinal opposite clamping blocks are respectively installed on the two ends of the longitudinal opposite clamping bolt in a penetrating threaded screwing manner.

Further, a height adjusting block is arranged on the opposite side surfaces of the two longitudinal opposite clamping blocks, and the height of the height adjusting block relative to the longitudinal opposite clamping blocks is adjustable.

Further, the transverse butt-clamping mechanism comprises a transverse butt-clamping bolt and two transverse butt-clamping blocks; the middle part of the transverse butt-clamping bolt is longitudinally and rotatably arranged on the strip-shaped supporting seat, and threads at two ends of the transverse butt-clamping bolt are oppositely screwed; the two transverse butt clamp blocks are respectively installed on the two ends of the transverse butt clamp bolt in a penetrating threaded screwing mode.

The utility model has the beneficial effects that: the horizontal conveying mechanism and the clamping mechanisms are matched, so that the drum brake pad can be clamped, limited and transported in a running water mode, and the glue rolling device of the brake pad is used for carrying out glue rolling treatment one by one, so that the production efficiency of the drum brake pad is effectively improved; the drum brake pad after glue rolling can be primarily baked by the heating baking device, so that glue is fully adhered to the back plate of the drum brake pad, and mutual adhesion during transfer of subsequent processes is reduced.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic diagram of a brake pad glue rolling device according to the present utility model;

FIG. 3 is a schematic view of a partially cut-away configuration of a brake pad glue rolling device of the present utility model;

FIG. 4 is a schematic view of the mounting structure of the clamping mechanism of the present utility model;

FIG. 5 is a schematic top view of the present utility model;

fig. 6 is a schematic view of a clamping mechanism according to the present utility model in use.

Detailed Description

The technical scheme of the present utility model will be described in detail with reference to the accompanying drawings, but the scope of the present utility model is not limited to the embodiments.

Example 1:

as shown in fig. 1 to 6, the glue rolling system for drum brake pad according to the present utility model comprises: the brake pad conveying device, the brake pad glue rolling device and the heating and baking device; the brake pad conveying device comprises a horizontal conveying mechanism and clamping mechanisms; each clamping mechanism is arranged on the horizontal conveying mechanism at intervals, the clamping mechanism clamps and limits the drum brake pad, and the horizontal conveying mechanism drives each clamping mechanism to horizontally transport; the brake pad glue rolling device is arranged on the feeding side of the horizontal conveying mechanism and is used for carrying out glue rolling treatment on each drum brake pad clamped and limited on the clamping mechanism; the heating and baking device is arranged in the middle of the horizontal conveying mechanism and is used for heating and baking the drum brake pad after glue rolling.

The horizontal conveying mechanism and the clamping mechanisms are matched, so that the drum brake pad can be clamped, limited and transported in a running water mode, and the glue rolling device of the brake pad is used for carrying out glue rolling treatment one by one, so that the production efficiency of the drum brake pad is effectively improved; the drum brake pad after glue rolling can be primarily baked by the heating baking device, so that glue is fully adhered to the back plate of the drum brake pad, and mutual adhesion during transfer of subsequent processes is reduced.

Further, the brake pad glue rolling device comprises a glue storage box 9, a glue rolling driving motor 21, a rotary transmission mechanism and glue rolling wheels 15; the glue storage box 9 is fixedly arranged above the feeding side of the horizontal conveying mechanism through a glue box bracket, and the rotary transmission mechanism is arranged on the glue storage box 9; the glue box bracket comprises two side edge supporting units, the side edge supporting units are provided with supporting side lugs 23 and side edge supporting columns 8, and the supporting side lugs 23 are fixedly arranged on the side edges of the glue storage box 9; the upper ends of the side support columns 8 are fixed on the support side lugs 23, and the lower ends are fixed on the strip-shaped support frames 1 of the horizontal conveying mechanism; each glue rolling wheel 15 is rotatably arranged on a rotary transmission mechanism, a glue rolling driving motor 21 rotatably drives each glue rolling wheel 15 through the rotary transmission mechanism, and glue is rolled by the contact of the glue rolling wheels 15 and a drum brake block; the glue storage box 9 conveys glue to each glue roller 15 through each glue conveying mechanism. The back plates of the drum brake pads are glued by utilizing the glue rolling wheels 15 which rotate, so that a good glue smearing effect can be achieved, and small passing resistance can be achieved when the back plates of the drum brake pads pass through.

Further, the rotary transmission mechanism comprises a synchronous drive shaft 28, each diagonal-bracing adjustment unit and each transmission branch; the synchronous drive shaft 28 is rotatably arranged on the bottom of the glue storage box 9 through two shaft end supports 24, and the glue rolling drive motor 21 is used for rotatably driving the synchronous drive shaft 28; the upper ends of the transmission branches are arranged on a synchronous driving shaft 28, the rubber-tyring wheels 15 are respectively and rotatably arranged on the lower ends of the transmission branches, and the synchronous driving shaft 28 synchronously drives the rubber-tyring wheels 15 through the transmission branches; each diagonal bracing adjusting unit is used for obliquely supporting each transmission branch and adjusting the height of each rubber roller 15. The inclination of the transmission branch can be adjusted by using the inclined strut adjusting unit, so that the height of each rubber roller 15 is adjusted, and the rubber rolling requirements of drum brake blocks with different sizes and heights are met; the respective transmission branches can be driven synchronously by means of a synchronous drive shaft 28, so that the respective glue wheels 15 rotate synchronously.

Further, the drive branch includes a branch sleeve 10, a branch drive shaft 22, an upper side gear box 26, and a lower side gear box 16; the upper gear box 26 and the lower gear box 16 are fixedly installed on the upper and lower ends of the branch sleeve 10, respectively, and a synchronous driving shaft 28 is penetratingly rotatably installed on each upper gear box 26; the branch transmission shaft 22 is rotatably arranged on the branch sleeve 10, and two ends of the branch transmission shaft respectively extend into the upper side gear box 26 and the lower side gear box 16; an upper driving bevel gear 25 is arranged on the synchronous driving shaft 28 and positioned in the upper gear box 26, a roller shaft 17 is rotatably arranged on the side edge of the lower gear box 16, the rubber roller 15 is fixedly arranged on the roller shaft 17, and a lower driving bevel gear 18 is arranged on the roller shaft 17 and positioned in the lower gear box 16; the upper end of the branch transmission shaft 22 extends into the upper gear box 26, and an upper transmission bevel gear 27 meshed with the upper driving bevel gear 25 is fixedly arranged on the extending end part; the lower end of the branch transmission shaft 22 extends into the lower gear box 16, and a lower transmission bevel gear 19 that meshes with the lower driving bevel gear 18 is fixedly installed on the extending end. The branch sleeve 10 and the branch transmission shaft 22 are rotatably matched, so that the rotary driving of the rubber roller 15 can be realized through the branch transmission shaft 22 under the swinging supporting function of the rubber roller 15 by the branch sleeve 10.

Further, the diagonal-bracing adjusting unit includes a diagonal-bracing screw 47 and a diagonal-bracing hinge seat 46; a diagonal support 12 is arranged on the lower side surface of the glue storage box 9, and a waist-shaped hinge hole is arranged on the diagonal support 12; the diagonal bracing hinge seat 46 is hinged on the waist-shaped hinge hole through a hinge pin, and the diagonal bracing screw 47 is arranged on the diagonal bracing hinge seat 46 in a penetrating threaded screwing manner; an adjusting support 45 is arranged in the middle of the branch sleeve 10, and a supporting end 48 is arranged on the adjusting support 45 in a swinging hinged manner; the ends of the diagonal-bracing screws 47 are rotatably mounted on support tips 48. By utilizing the cooperation of the diagonal bracing screw 47 and the diagonal bracing hinging seat 46, the adjustment of the diagonal bracing distance can be realized, thereby realizing the inclination adjustment of the branch sleeve 10; the end of the diagonal-bracing screw 47 can be pivoted and rotatably mounted by means of a support head 48.

Further, a hand-twisting grip 13 is provided on the end of the diagonal-bracing screw 47, thereby facilitating quick manual adjustment.

Further, the glue feeding mechanism comprises a glue feeding hose 11 and a glue homogenizing box 14; the glue homogenizing box 14 is arranged on the branch sleeve 10 near the glue rolling wheel 15, and a glue leakage strip-shaped hole 52 is arranged on the glue homogenizing box 14; the edge of the rubber roller 15 is partially embedded into the rubber-leaking strip-shaped hole 52; one end of the glue feeding hose 11 is communicated with the lower part of the glue storage box 9, and the other end is communicated with the top of the glue homogenizing box 14. By utilizing the matching of the glue leakage strip-shaped holes 52 and the glue rolling wheel 15, the glue can be continuously taken out from the glue leakage strip-shaped holes 52 when the glue rolling wheel 15 rotates, so that the glue can be continuously adhered to the back plate of the drum brake block.

Further, a valve 20 is connected in series to the end of the glue feeding hose 11, so as to control the on-off of the glue feeding hose 11, and the glue rolling wheel 15 not participating in the glue rolling operation cuts off the glue supply.

Further, the heating and baking device comprises a strip-shaped heating cover 2 and electric heating pipes; the strip-shaped heating cover 2 covers the upper part of the middle part of the horizontal conveying mechanism, the heating ends of the electric heating pipes extend into the strip-shaped heating cover 2, and the wiring terminals of the electric heating pipes extend into the junction box 3 outside the strip-shaped heating cover 2. The safety of the electric heating tube terminal can be enhanced by the junction box 3.

Further, the horizontal conveying mechanism comprises a strip-shaped supporting frame 1, a conveying driving motor 7 and two conveying driving shafts; the strip-shaped supporting frame 1 is horizontally and fixedly installed through supporting legs 5; the two conveying driving shafts are respectively and rotatably arranged at the two ends of the strip-shaped supporting frame 1, and the conveying driving motor 7 is used for driving one conveying driving shaft to rotate; two conveying driving chain wheels 4 are fixedly arranged on the two conveying driving shafts, and the conveying driving chain wheels 4 at corresponding positions on the two conveying driving shafts are synchronously rotated and transmitted through a conveying supporting chain 29; on the bar-shaped support frame 1, between the two conveying drive shafts, respective support rollers 6 are rotatably mounted, and the respective support rollers 6 are supported below the conveying support chain 29 on the upper layer. The stability of the two conveying support chains 29 can be enhanced by each support roller 6, and the stability of the horizontal movement of each clamping mechanism can be ensured.

Further, the clamping mechanism comprises a mounting support bar 30, a bar-shaped support seat 32, a transverse butt-clamping mechanism and a longitudinal butt-clamping mechanism; the mounting support bars 30 of each clamping mechanism are arranged on the conveying support chains 29 of the horizontal conveying mechanism at intervals, and reinforcing rib plates 31 are arranged at the mounting positions; the strip-shaped supporting seat 32 is detachably mounted on the mounting support bar 30; the transverse and longitudinal clamping mechanisms are mounted on the strip support 32 for relative clamping limiting from the transverse and longitudinal directions of the drum brake pad, respectively. The strip-shaped supporting seat 32 is detachably arranged on the mounting support bar 30, so that the strip-shaped supporting seat 32 with different sizes can be replaced according to the needs, and the clamping mechanism has good universality.

Further, the longitudinal butt clamp mechanism comprises a longitudinal butt clamp bolt 40 and two longitudinal butt clamp blocks 35; the middle part of the longitudinal butt-clamping bolt 40 is longitudinally and rotatably arranged on the strip-shaped supporting seat 32, and threads at two ends of the longitudinal butt-clamping bolt 40 are oppositely rotated; two longitudinal butt clamp blocks 35 are respectively mounted on both ends of the longitudinal butt clamp bolt 40 by penetrating screw threads. The two longitudinal butt clamping blocks 35 can be synchronously driven to move by the longitudinal butt clamping bolts 40, and the longitudinal distance is adjusted, so that the limit placement of rib plates below the back plates of different drum brake blocks is met, the back plates of the brake blocks are kept upward, and the back plates are convenient for glue rolling.

Further, two longitudinal guide grooves 50 are longitudinally provided on the bar-shaped supporting seat 32; the two ends of the longitudinal butt-clamping bolt 40 extend into the two longitudinal guide grooves 50; the two longitudinal opposite clamping blocks 35 are respectively and slidably arranged on the two longitudinal guide grooves 50; a longitudinal lock nut 41 is screw-fitted to the longitudinal split bolt 40, and the longitudinal lock nut 41 is pressed against the end face of the longitudinal guide groove 50 by a longitudinal pressing washer 42. The stability of the longitudinal butt clamp block 35 can be enhanced by utilizing the sliding fit of the longitudinal guide groove 50 and the longitudinal butt clamp block 35; the longitudinal clamping bolts 40 can be locked and fixed by the longitudinal locking nuts 41, so that after the proper spacing is adjusted, the placing spacing is locked, and all that is needed is to directly place each drum brake block on the drum brake block.

Further, a height adjusting block 36 is installed on opposite sides of the two longitudinal pair of clamping blocks 35, and the height of the height adjusting block 36 is adjustable with respect to the longitudinal pair of clamping blocks 35. The height of the limit can be adjusted by utilizing the height adjusting block 36, so that rib plates at different heights can be clamped and limited, and the universality of the clamping mechanism is enhanced.

Further, a T-shaped adjusting chute 51 is vertically provided on opposite sides of the two longitudinal opposite clamp blocks 35, and the height adjusting block 36 is slidably inserted into the T-shaped adjusting chute 51; a strip-shaped adjusting hole communicated with the T-shaped adjusting sliding groove 51 is vertically formed in the longitudinal opposite clamping block 35, a locking screw rod 37 penetrating out of the strip-shaped adjusting hole is fixed on the height adjusting block 36, and an adjusting locking nut 38 is screwed on the locking screw rod 37. The stability of the height adjusting block 36 in height adjustment can be enhanced by the T-shaped adjusting chute 51; the height-adjusted height adjustment block 36 can be height-locked by the cooperation of the locking screw 37 and the adjustment locking nut 38.

Further, the transverse butt clamp mechanism comprises a transverse butt clamp bolt 44 and two transverse butt clamp blocks 39; the middle part of the transverse butt-clamping bolt 44 is longitudinally and rotatably arranged on the strip-shaped supporting seat 32, and threads at two ends of the transverse butt-clamping bolt 44 are oppositely rotated; two lateral counter clamp blocks 39 are respectively mounted on both ends of the lateral counter clamp bolts 44 in a penetrating threaded screwing manner. Two transverse butt bolts 44 are used to realize synchronous adjustment of the clamping blocks 39, so that transverse distance adjustment is realized, and two transverse ends of the drum brake pad are limited, so that accurate positioning is performed after the drum brake pad is placed.

Further, two transverse guide grooves 33 are transversely arranged on the strip-shaped supporting seat 32; two ends of the transverse butt-clamping bolt 44 penetrate through and extend into the two transverse guide grooves 33; one side edge of the transverse butt clamp block 39 is provided with a T-shaped driving sliding block 34 which is slidably arranged in the transverse guide groove 33, and the T-shaped driving sliding block 34 is in threaded fit with two ends of the transverse butt clamp bolt 44; a lateral lock nut 49 is screwed onto the lateral counter bolt 44, and the lateral lock nut 49 is pressed against the end face of the lateral guide groove 33 by the lateral pressing washer 43. The stability of the transverse pair of clamping blocks 39 can be enhanced by utilizing the matching of the transverse guide groove 33 and the T-shaped driving sliding block 34; the lateral clamp bolts 44 can be locked after lateral spacing adjustment by the lateral lock nuts 49, thereby preventing lateral spacing variations after long-term use.

When the glue rolling system for the drum brake pad disclosed by the utility model is operated, corresponding clamping mechanisms are replaced according to the placing requirements of drum brake pads of different types, and the corresponding clamping mechanisms are not required to be replaced in general, and the whole replacement is only carried out when the adjustment range of the longitudinal opposite clamping mechanism or the transverse opposite clamping mechanism of the clamping mechanisms cannot be met; according to the length of the back plate, the thickness of the rib plate and the arc-shaped height of the back plate of the drum brake pad, the distance between the two height adjusting blocks 36, the distance between the two longitudinal opposite clamping blocks 35 and the height of the two height adjusting blocks 36 are respectively adjusted, the drum brake pad is required to be ensured not to be fastened and fixed during adjustment, and only a simple limiting effect is achieved, so that the baked drum brake pad can automatically fall into a collecting frame below on the blanking side of the horizontal conveying mechanism; and then the heights of the glue rolling wheels 15 are adjusted by rotating the diagonal bracing screws 47, so that the glue rolling height requirements of different positions of the backboard are met.

As described above, although the present utility model has been shown and described with reference to certain preferred embodiments, it is not to be construed as limiting the utility model itself. Various changes in form and details may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (9)

1. A glue rolling system for a drum brake pad, characterized in that: comprises a brake pad conveying device, a brake pad glue rolling device and a heating and baking device; the brake pad conveying device comprises a horizontal conveying mechanism and clamping mechanisms; each clamping mechanism is arranged on the horizontal conveying mechanism at intervals, the clamping mechanism clamps and limits the drum brake pad, and the horizontal conveying mechanism drives each clamping mechanism to horizontally transport; the brake pad glue rolling device is arranged on the feeding side of the horizontal conveying mechanism and is used for carrying out glue rolling treatment on each drum brake pad clamped and limited on the clamping mechanism; the heating and baking device is arranged in the middle of the horizontal conveying mechanism and is used for heating and baking the drum brake pad after glue rolling;

the brake block glue rolling device comprises a glue storage box (9), a glue rolling driving motor (21), a rotary transmission mechanism and glue rolling wheels (15); the glue storage box (9) is fixedly arranged above the feeding side of the horizontal conveying mechanism, and the rotary transmission mechanism is arranged on the glue storage box (9); each glue rolling wheel (15) is rotatably arranged on the rotary transmission mechanism, the glue rolling driving motor (21) rotatably drives each glue rolling wheel (15) through the rotary transmission mechanism, and glue is rolled by the contact of the glue rolling wheels (15) and the drum brake block; the glue storage box (9) conveys glue to each glue rolling wheel (15) through each glue conveying mechanism.

2. The glue rolling system for drum brake blocks according to claim 1, wherein: the rotary transmission mechanism comprises a synchronous driving shaft (28), each diagonal bracing adjusting unit and each transmission branch; the synchronous driving shaft (28) is rotatably arranged on the bottom of the glue storage box (9), and the glue rolling driving motor (21) is used for rotatably driving the synchronous driving shaft (28); the upper ends of the transmission branches are arranged on a synchronous driving shaft (28), the rubber rolling wheels (15) are respectively and rotatably arranged on the lower ends of the transmission branches, and the synchronous driving shaft (28) synchronously drives the rubber rolling wheels (15) through the transmission branches; each diagonal bracing adjusting unit is used for obliquely supporting each transmission branch and adjusting the height of each rubber roller (15).

3. The glue rolling system for drum brake blocks according to claim 1, wherein: the glue feeding mechanism comprises a glue feeding hose (11) and a glue homogenizing box (14); the glue homogenizing box (14) is arranged at a position close to the glue rolling wheel (15), and a glue leakage strip-shaped hole (52) is formed in the glue homogenizing box (14); the edge of the rubber rolling wheel (15) is locally embedded into the rubber leakage strip-shaped hole (52); one end of the glue feeding hose (11) is communicated with the lower part of the glue storage box (9), and the other end is communicated with the top of the glue homogenizing box (14).

4. The glue rolling system for drum brake blocks according to claim 1, wherein: the heating and baking device comprises a strip-shaped heating cover (2) and electric heating pipes; the strip-shaped heating cover (2) covers the upper part of the middle part of the horizontal conveying mechanism, the heating ends of the electric heating pipes extend into the strip-shaped heating cover (2), and the wiring terminals of the electric heating pipes extend into the junction box (3) at the outer side of the strip-shaped heating cover (2).

5. The glue rolling system for drum brake blocks according to claim 1, wherein: the horizontal conveying mechanism comprises a strip-shaped supporting frame (1), a conveying driving motor (7) and two conveying driving shafts; the two conveying driving shafts are respectively and rotatably arranged at two ends of the strip-shaped supporting frame (1), and the conveying driving motor (7) is used for driving one conveying driving shaft to rotate; two conveying driving chain wheels (4) are fixedly arranged on the two conveying driving shafts, and the conveying driving chain wheels (4) at corresponding positions on the two conveying driving shafts are synchronously rotated and transmitted through a conveying supporting chain (29); on the bar-shaped supporting frame (1) and between the two conveying driving shafts, supporting rollers (6) are rotatably installed, and the supporting rollers (6) are supported below the conveying supporting chain (29) on the upper layer.

6. The glue rolling system for drum brake blocks according to claim 1, wherein: the clamping mechanism comprises an installation support bar (30), a bar-shaped supporting seat (32), a transverse butt-clamping mechanism and a longitudinal butt-clamping mechanism; the mounting support bars (30) of each clamping mechanism are arranged on the horizontal conveying mechanism at intervals; the strip-shaped supporting seat (32) is detachably arranged on the mounting supporting bar (30); the transverse butt-clamping mechanism and the longitudinal butt-clamping mechanism are both arranged on the strip-shaped supporting seat (32) and used for respectively carrying out relative clamping and limiting from the transverse direction and the longitudinal direction of the drum brake block.

7. The glue rolling system for drum brake blocks of claim 6, wherein: the longitudinal butt-clamping mechanism comprises a longitudinal butt-clamping bolt (40) and two longitudinal butt-clamping blocks (35); the middle part of the longitudinal butt-clamping bolt (40) is longitudinally and rotatably arranged on the strip-shaped supporting seat (32), and threads at two ends of the longitudinal butt-clamping bolt (40) are opposite in screwing direction; two longitudinal opposite clamping blocks (35) are respectively installed on two ends of the longitudinal opposite clamping bolt (40) in a penetrating threaded screwing mode.

8. The glue rolling system for drum brake blocks of claim 7, wherein: a height adjusting block (36) is arranged on the opposite side surfaces of the two longitudinal opposite clamping blocks (35), and the height of the height adjusting block (36) relative to the longitudinal opposite clamping blocks (35) is adjustable.

9. The glue rolling system for drum brake blocks of claim 6, wherein: the transverse butt clamp mechanism comprises a transverse butt clamp bolt (44) and two transverse butt clamp blocks (39); the middle part of the transverse butt-clamping bolt (44) is longitudinally and rotatably arranged on the strip-shaped supporting seat (32), and threads at two ends of the transverse butt-clamping bolt (44) are oppositely screwed; two transverse butt clamp blocks (39) are respectively installed on two ends of a transverse butt clamp bolt (44) in a penetrating threaded screwing mode.

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