CN217417261U - Feeding device for measuring size of special-shaped electronic hand brake - Google Patents

Abstract

The utility model provides a heterotypic electron manual brake ware size measurement's loading attachment, blocks subassembly, material loading lift drive subassembly and manual brake ware upset material loading subassembly including automatic conveyer belt, longmen support body, manual brake ware feeding guide subassembly, manual brake ware feeding guide subassembly sets up on the longmen support body, manual brake ware blocks the subassembly setting on the longmen support body, material loading lift drive subassembly sets up on the longmen support body, manual brake ware upset material loading subassembly and material loading lift drive subassembly are connected. The utility model discloses an abnormal shape electron manual brake ware dimensional measurement's loading attachment can end the brake ware automation of carrying on the production line to through the cooperation of material loading lift drive subassembly and manual brake ware upset material loading subassembly, realize automatically that the decline gets the material, and realize 180 upset material loading, carry out dimensional measurement with supplying follow-up station, above-mentioned process automation goes on, need not artificial intervention, has improved the degree of automation of equipment, uses manpower sparingly simultaneously.

Description

Feeding device for measuring size of special-shaped electronic hand brake

Technical Field

The utility model belongs to the technical field of advanced production manufacturing and automation, specifically, relate to a heterotypic electron manual brake ware size measurement's loading attachment.

Background

The electronic hand brake is a technology for realizing parking brake in an electronic control mode, has the same working principle as a mechanical hand brake, and controls parking brake through friction force generated by a brake disc and a brake pad.

In the process of assembling the irregular electronic hand brake, the measurement of the external dimension of the electronic hand brake is required. The traditional measuring method mainly uses manpower to detect an object to be detected, but for the electronic hand brake, the traditional measuring method is obviously extremely low in working efficiency and difficult to measure accurate data.

In order to match the automated assembly line, a device for carrying out the dimensional measurement of the electronic handbrake is designed. However, on an automated assembly production line, how to realize the circulation of products on the production line, the technical problem to be solved is urgently needed at present.

SUMMERY OF THE UTILITY MODEL

Utility model purpose: the utility model aims at providing a heterotypic electron manual brake ware dimensional measurement's loading attachment has solved among the prior art electron manual brake ware when the circulation on the equipment production line, how with the problem on electron manual brake ware automatic feeding to the dimensional measurement equipment.

The technical scheme is as follows: the utility model provides a feeding device for measuring the size of a special-shaped electronic hand brake, which comprises an automatic conveying belt, a gantry frame body, a hand brake feeding guide component, a hand brake blocking component, a feeding lifting drive component and a hand brake overturning feeding component, wherein the gantry frame body is spanned on the automatic conveying belt, the automatic conveying belt is provided with a group of hand brakes to be measured, the hand brake feeding guide component is arranged on the gantry frame body, the hand brake feeding guide component is positioned at one side of the gantry frame body close to the starting end of the automatic conveying belt, the hand brake blocking component is arranged on the gantry frame body, the hand brake blocking component is positioned above the automatic conveying belt, the hand brake blocking component is positioned at the rear part of the hand brake feeding guide component along the conveying direction of the automatic conveying belt, the feeding lifting drive component is arranged on the gantry frame body, and the feeding lifting drive component is positioned at one side of the gantry frame body close to the tail end of the automatic conveying belt, and the hand brake overturning and feeding assembly is connected with the feeding lifting driving assembly and is positioned right above the hand brake blocking assembly. The utility model discloses an abnormal shape electron manual brake ware dimensional measurement's loading attachment can end the brake ware automation of carrying on the production line to through the cooperation of material loading lift drive subassembly and manual brake ware upset material loading subassembly, realize automatically that the decline gets the material, and realize 180 upset material loading, carry out dimensional measurement with supplying follow-up station, above-mentioned process automation goes on, need not artificial intervention, has improved the degree of automation of equipment, uses manpower sparingly simultaneously.

Furthermore, according to the feeding device for measuring the size of the special-shaped electronic hand brake, the feeding guide assembly of the hand brake comprises a guide driving assembly, a first horizontal linear slide rail, a first guide plate, a second guide plate, a first guide plate support and a second guide plate support, wherein the guide driving assembly and the first horizontal linear slide rail are arranged on the gantry frame body, the guide driving assembly is connected with the first guide plate support and the second guide plate support, the first guide plate support and the second guide plate support are connected with the first horizontal linear slide rail in a sliding mode, the first guide plate support and the second guide plate support are symmetrically arranged, the first guide plate and the second guide plate are located above the automatic conveying belt, one end of the first guide plate is connected with the first guide plate support, and one end of the second guide plate is connected with the second guide plate support. The motor drives the two guide plates I and the two guide plates II which are symmetrically arranged to be close to each other, so that a brake deviating from the hand brake blocking component direction on the automatic conveying belt can be shifted to be opposite to the hand brake blocking component, and the brake is guided.

Furthermore, foretell abnormal shape electronic manual brake ware size measurement's loading attachment, direction drive assembly includes direction driving motor, direction action wheel, direction from driving wheel, guide gear area, gear area splint one and gear area splint two, direction driving motor, direction action wheel, direction are all set up on the gantry frame body from the driving wheel, direction driving motor's pivot and direction action wheel are connected, the direction action wheel is connected from the driving wheel through guide gear area and direction, gear area splint one is connected with the upper strata in guide gear area, gear area splint two is connected with the lower floor in guide gear area, gear area splint one and gear area splint two can be close to each other or keep away from, deflector first support and gear area splint one fixed connection, deflector second support and gear area splint two fixed connection. Because gear belt clamp plate one and gear belt clamp plate two are connected with the gear from top to bottom respectively, therefore when the gear area pivoted for gear belt clamp plate one and gear belt clamp plate two are close to or keep away from.

Furthermore, according to the feeding device for measuring the size of the special-shaped electronic hand brake, one end of each of the opposite end surfaces of the first guide plate and the second guide plate, which is far away from the gantry frame body, is provided with the first inclined surface. The inclined plane that sets up conveniently carries out leading of brake.

Furthermore, the feeding device for measuring the size of the special-shaped electronic hand brake comprises a U-shaped support, two symmetrically arranged limiting plates and a blocking plate, wherein the U-shaped support is fixedly connected with a gantry frame body, the two symmetrically arranged limiting plates are fixedly connected with the lower end part of the U-shaped support, the two symmetrically arranged limiting plates are positioned on one sides of the first guide plate and the second guide plate away from the automatic conveying belt, the blocking plate is arranged between the two symmetrically arranged limiting plates, the blocking plate is positioned at one ends of the two symmetrically arranged limiting plates away from the first guide plate and the second guide plate, a U-shaped limiting groove is formed between the two symmetrically arranged limiting plates and the blocking plate, the U-shaped limiting groove is positioned between the first guide plate and the second guide plate, and the two symmetrically arranged limiting plates and the blocking plate are positioned above the automatic conveying belt, the manual brake device to be tested is arranged in the U-shaped limiting groove, and the manual brake device overturning and feeding assembly is located right above the manual brake device to be tested in the U-shaped limiting groove. The limiting plates and the blocking plates which are symmetrically arranged are located at a certain distance above the automatic conveying belt, so that the brake moving along the automatic conveying belt is blocked when the brake moves to the limiting plates and the blocking plates which are symmetrically arranged, the brake cannot be conveyed continuously, and the feeding is convenient.

Furthermore, foretell abnormal shape electron manual brake size measurement's loading attachment, material loading lift drive assembly includes that lift mounting panel, lift drive actuating cylinder, two parallel arrangement's vertical guide rail and vertical slide, lift mounting panel and longmen support body fixed connection, lift drive actuating cylinder and two parallel arrangement's vertical guide rail all fixed settings on the vertical lateral wall of lift mounting panel, lift drive actuating cylinder's piston rod and vertical slide connection, vertical slide and two parallel arrangement's vertical guide rail sliding connection, manual brake upset material loading assembly and vertical slide are connected. The lifting driving cylinder can be used for lowering the material taking structure to the upper portion of the automatic conveying belt to take materials.

Further, foretell abnormal shape electron manual brake ware size measurement's loading attachment, manual brake ware upset material loading subassembly includes revolving cylinder one, right angle mounting panel, revolving cylinder two, sucking disc mounting panel and a set of material loading sucking disc, revolving cylinder one and vertical slide fixed connection, a vertical face and the revolving cylinder one of right angle mounting panel are connected, revolving cylinder two sets up on another vertical face of right angle mounting panel to revolving cylinder two and sucking disc mounting panel are connected, a set of material loading sucking disc sets up on the sucking disc mounting panel to a set of material loading sucking disc is located the U type spacing inslot and awaits measuring the manual brake ware directly over, the hand brake ware that awaits measuring is in the adsorbable U type spacing inslot of a set of material loading sucking disc. The first rotary cylinder can upwards turn the brake adsorbed by the sucker so as to supply the brake to a subsequent station, and the second rotary cylinder can adjust the feeding angle of the brake according to the requirement of the next station.

Furthermore, according to the feeding device for measuring the size of the special-shaped electronic hand brake, the first guide plate support and the second guide plate support are connected with the first horizontal sliding block, and the first horizontal sliding block is connected with the first horizontal linear sliding rail in a sliding manner.

Furthermore, in the feeding device for measuring the size of the special-shaped electronic hand brake, one end of the limiting plate, which is close to the first guide plate and the second guide plate, is provided with a V-shaped raised head.

Further, foretell abnormal shape electron manual brake ware size measurement's loading attachment, one side that the gantry frame body is close to automatic conveyer belt is equipped with vertical mounting panel two, manual brake ware feeding direction subassembly sets up on vertical mounting panel two, be equipped with feeding direction buffer on the vertical mounting panel two, be connected with the buffer block on the deflector support, feeding direction buffer and buffer block contact.

Above-mentioned technical scheme can find out, the utility model discloses following beneficial effect has: abnormal shape electron manual brake ware size measurement's loading attachment, block the cooperation of subassembly, material loading lift drive subassembly and manual brake ware upset material loading subassembly through manual brake ware feeding direction subassembly, manual brake ware, can lead the brake ware of automatic conveying on the automatic conveying line just, end, upset material loading to can carry out good matching with automation line, feed mechanism reasonable in design makes things convenient for material loading to follow-up station, provides the guarantee for realizing automated production.

Drawings

Fig. 1 is a schematic structural view of a feeding device for measuring the size of the special-shaped electronic hand brake of the present invention;

fig. 2 is a schematic structural view of a hand brake feeding guide assembly of the present invention;

fig. 3 is a schematic structural view of the guiding driving assembly of the present invention;

fig. 4 is a first schematic structural view of the hand brake blocking assembly, the feeding lifting driving assembly and the hand brake overturning and feeding assembly of the present invention;

fig. 5 is the hand brake blocks the structural schematic diagram two of subassembly, material loading lift drive assembly and hand brake upset material loading subassembly.

In the figure: the automatic conveyor belt 1, the gantry body 2, a second vertical mounting plate 21, a feeding guide buffer 22, a manual brake feeding guide assembly 3, a guide driving assembly 31, a guide driving wheel 311, a guide driven wheel 312, a guide gear belt 313, a first gear belt clamping plate 314, a second gear belt clamping plate 315, a first horizontal linear slide rail 32, a first guide plate 33, a first inclined surface 331, a second guide plate 34, a first guide plate support 35, a first horizontal slide block 351, a buffer block 352, a second guide plate support 36, a manual brake blocking assembly 4, a U-shaped support 41, a limiting plate 42, a blocking plate 43, a U-shaped limiting groove 44, a feeding lifting driving assembly 5, a lifting mounting plate 51, a lifting driving cylinder 52, a vertical guide rail 53, a vertical sliding plate 54, a manual brake overturning feeding assembly 6, a first rotary cylinder 61, a right-angle mounting plate 62, a second rotary cylinder 63, a suction cup mounting plate 64 and a feeding suction cup 65.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "clockwise", "counterclockwise" and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and to simplify the description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or to implicitly indicate the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, unless otherwise specified, "a plurality" means two or more unless explicitly defined otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," and "fixed" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the present disclosure, unless expressly stated or limited otherwise, the first feature "on" or "under" the second feature may comprise direct contact between the first and second features, or may comprise contact between the first and second features not directly. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

Examples

The feeding device for measuring the size of the special-shaped electronic hand brake as shown in figure 1 comprises an automatic conveying belt 1, a gantry frame body 2, a hand brake feeding guide component 3, a hand brake blocking component 4, a feeding lifting drive component 5 and a hand brake overturning feeding component 6, wherein the gantry frame body 2 is arranged on the automatic conveying belt 1 in a spanning mode, a group of hand brakes to be measured are arranged on the automatic conveying belt 1, the hand brake feeding guide component 3 is arranged on the gantry frame body 2, the hand brake feeding guide component 3 is positioned on one side, close to the starting end of the automatic conveying belt 1, of the gantry frame body 2, the hand brake blocking component 4 is arranged on the gantry frame body 2, the hand brake blocking component 4 is positioned above the automatic conveying belt 1, the hand brake blocking component 4 is positioned behind the hand brake feeding guide component 3 along the conveying direction of the automatic conveying belt 1, the feeding lifting drive component 5 is arranged on the gantry frame body 2, and material loading lift drive assembly 5 is located the portal frame body 2 and is close to the terminal one side of automatic conveyer belt 1, manual brake upset material loading subassembly 6 and material loading lift drive assembly 5 are connected to manual brake upset material loading subassembly 6 is located the manual brake and blocks directly over subassembly 4.

The hand brake feeding guide assembly 3 shown in fig. 2 comprises a guide driving assembly 31, a first horizontal linear slide rail 32, a first guide plate 33, a second guide plate 34, a first guide plate bracket 35 and a second guide plate bracket 36, the guide driving assembly 31 and the first horizontal linear sliding rail 32 are both arranged on the gantry body 2, the guide driving assembly 31 is connected with a guide plate-one bracket 35 and a guide plate-two bracket 36, and the first guide plate bracket 35 and the second guide plate bracket 36 are connected with the first horizontal linear slide rail 32 in a sliding way, the first guide plate bracket 35 and the second guide plate bracket 36 are symmetrically arranged, the first guide plate 33 and the second guide plate 34 are symmetrically arranged, and a first guide plate 33 and a second guide plate 34 are positioned above the automatic conveying belt 1, one end of the first guide plate 33 is connected with a first guide plate bracket 35, and one end of the second guide plate 34 is connected with a second guide plate bracket 36.

The guide driving assembly 31 shown in fig. 3 includes a guide driving motor, a guide driving wheel 311, a guide driven wheel 312, a guide gear belt 313, a first gear belt clamp 314 and a second gear belt clamp 315, wherein the guide driving motor, the guide driving wheel 311 and the guide driven wheel 312 are all disposed on the gantry body 2, a rotating shaft of the guide driving motor is connected with the guide driving wheel 311, the guide driving wheel 311 is connected with the guide driven wheel 312 through the guide gear belt 313, the first gear belt clamp 314 is connected with an upper layer of the guide gear belt 313, the second gear belt clamp 315 is connected with a lower layer of the guide gear belt 313, the first gear belt clamp 314 and the second gear belt clamp 315 can be close to or far away from each other, the guide plate support 35 is fixedly connected with the first gear belt clamp 314, and the second guide plate support 36 is fixedly connected with the second gear belt clamp 315. The end faces of the first guide plate 33 and the second guide plate 34, which are opposite to each other, far away from the gantry body 2 are both provided with a first inclined face 331. The first horizontal sliding block 351 is connected to the first guide plate bracket 35 and the second guide plate bracket 36, and the first horizontal sliding block 351 is connected with the first horizontal linear sliding rail 32 in a sliding mode.

In addition, one side of the gantry frame body 2 close to the automatic conveying belt 1 is provided with a second vertical mounting plate 21, the hand brake feeding guide assembly 3 is arranged on the second vertical mounting plate 21, the second vertical mounting plate 21 is provided with a feeding guide buffer 22, the first guide plate bracket 35 is connected with a buffer block 352, and the feeding guide buffer 22 is in contact with the buffer block 352.

As shown in fig. 4 and 5, the hand brake blocking assembly 4 includes a U-shaped bracket 41, two symmetrically disposed limiting plates 42 and a blocking plate 43, the U-shaped bracket 41 is fixedly connected with the gantry frame body 2, the two symmetrically disposed limiting plates 42 are both fixedly connected with the lower end of the U-shaped bracket 41, the two symmetrically disposed limiting plates 42 are located on one side of the first guiding plate 33 and the second guiding plate 34 away from the automatic conveying belt 1, the blocking plate 43 is disposed between the two symmetrically disposed limiting plates 42, the blocking plate 43 is located on one end of the two symmetrically disposed limiting plates 42 away from the first guiding plate 33 and the second guiding plate 34, a U-shaped limiting groove 44 is formed between the two symmetrically disposed limiting plates 42 and the blocking plate 43, the two symmetrically disposed limiting plates 42 and the blocking plate 43 are located above the automatic conveying belt 1, be equipped with the manual brake ware that awaits measuring in the U type spacing groove 44, manual brake ware upset material loading subassembly 6 is located the manual brake ware that awaits measuring directly over U type spacing groove 44. One end of the limiting plate 42, which is close to the first guide plate 33 and the second guide plate 34, is provided with a V-shaped raised head.

In the structure, the feeding lifting driving assembly 5 comprises a lifting mounting plate 51, a lifting driving cylinder 52, two parallel vertical guide rails 53 and a vertical sliding plate 54, the lifting mounting plate 51 is fixedly connected with the gantry body 2, the lifting driving cylinder 52 and the two parallel vertical guide rails 53 are fixedly arranged on the vertical side wall of the lifting mounting plate 51, a piston rod of the lifting driving cylinder 52 is connected with the vertical sliding plate 54, the vertical sliding plate 54 is slidably connected with the two parallel vertical guide rails 53, and the hand brake overturning feeding assembly 6 is connected with the vertical sliding plate 54.

In addition, manual brake ware upset material loading subassembly 6 includes revolving cylinder 61, right angle mounting panel 62, two 63, sucking disc mounting panel 64 and a set of material loading sucking disc 65 of revolving cylinder, a 61 and vertical slide 54 fixed connection of revolving cylinder, a vertical face and a 61 of revolving cylinder of right angle mounting panel 62 are connected, two 63 settings of revolving cylinder are on another vertical face of right angle mounting panel 62 to two 63 and the sucking disc mounting panel 64 of revolving cylinder are connected, a set of material loading sucking disc 65 sets up on sucking disc mounting panel 64 to a set of material loading sucking disc 65 is located the manual brake ware that awaits measuring in the U type spacing groove 44 directly over, the manual brake ware that awaits measuring in the adsorbable U type spacing groove 44 of a set of material loading sucking disc 65.

The utility model discloses abnormal shape electron manual brake ware size measurement's loading attachment's theory of operation does:

the automatic conveying belt 1 conveys the brakes, the guiding driving motor is started, the first gear belt clamping plate 314 and the second gear belt clamping plate 315 move oppositely through the transmission of the guiding driving wheel 311, the guiding driven wheel 312 and the guiding gear belt 313, the first guide plate 33 and the second guide plate 3 approach each other, the brakes randomly placed on the automatic conveying belt 1 are pushed to the middle position of the automatic conveying belt 1 through the approach of the first guide plate 33 and the second guide plate 3, the brakes are right opposite to the U-shaped limiting groove 44 at the moment, the brakes are conveyed into the U-shaped limiting groove 44 along with the transmission of the automatic conveying belt 1, the blocking plate 43 prevents the brakes from advancing along with the automatic conveying belt 1 and stopping in the U-shaped limiting groove 44, the piston rods of the lifting driving cylinder 52 extend out to push a group of feeding suction cups 65 to fall to be in contact with the brakes, and the suction cups absorb the brakes, the piston rod that goes up and down to drive actuating cylinder 52 withdraws the certain distance, and at first, a set of material loading sucking disc 65 sets up down, and revolving cylinder 61 starts for a set of material loading sucking disc 65 sets up towards, because this brake of a set of material loading sucking disc 65 absorption this moment, so the brake is rotated by revolving cylinder 61 and is set up upwards, conveniently supplies with follow-up station and carries out size measurement.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications can be made without departing from the principles of the present invention, and these modifications should also be regarded as the protection scope of the present invention.

Claims (10)

1. The utility model provides a heterotypic electron manual brake ware size measurement's loading attachment which characterized in that: comprises an automatic conveying belt (1), a gantry frame body (2), a hand brake feeding guide component (3), a hand brake blocking component (4), a feeding lifting drive component (5) and a hand brake overturning feeding component (6), wherein the gantry frame body (2) is arranged on the automatic conveying belt (1) in a spanning mode, a group of hand brakes to be tested are arranged on the automatic conveying belt (1), the hand brake feeding guide component (3) is arranged on the gantry frame body (2), the hand brake feeding guide component (3) is positioned on one side, close to the starting end of the automatic conveying belt (1), of the gantry frame body (2), the hand brake blocking component (4) is arranged on the gantry frame body (2), the hand brake blocking component (4) is positioned above the automatic conveying belt (1), the hand brake blocking component (4) is positioned behind the hand brake feeding guide component (3) along the conveying direction of the automatic conveying belt (1), the automatic conveying belt conveyor is characterized in that the feeding lifting driving assembly (5) is arranged on the gantry frame body (2), the feeding lifting driving assembly (5) is located on one side, close to the tail end of the automatic conveying belt (1), of the gantry frame body (2), the manual brake overturning feeding assembly (6) is connected with the feeding lifting driving assembly (5), and the manual brake overturning feeding assembly (6) is located right above the manual brake blocking assembly (4).

2. The feeding device for measuring the size of the special-shaped electronic hand brake as claimed in claim 1, wherein: the hand brake feeding guide assembly (3) comprises a guide driving assembly (31), a first horizontal linear sliding rail (32), a first guide plate (33), a second guide plate (34), a first guide plate support (35) and a second guide plate support (36), wherein the guide driving assembly (31) and the first horizontal linear sliding rail (32) are arranged on the gantry frame body (2), the guide driving assembly (31) is connected with the first guide plate support (35) and the second guide plate support (36), the first guide plate support (35) and the second guide plate support (36) are in sliding connection with the first horizontal linear sliding rail (32), the first guide plate support (35) and the second guide plate support (36) are symmetrically arranged, the first guide plate (33) and the second guide plate (34) are symmetrically arranged, and the first guide plate (33) and the second guide plate (34) are positioned above the automatic conveying belt (1), one end of the first guide plate (33) is connected with the first guide plate bracket (35), and one end of the second guide plate (34) is connected with the second guide plate bracket (36).

3. The feeding device for measuring the dimension of the special-shaped electronic hand brake as claimed in claim 2, wherein: the guide driving assembly (31) comprises a guide driving motor, a guide driving wheel (311), a guide driven wheel (312), a guide gear belt (313), a gear belt clamping plate I (314) and a gear belt clamping plate II (315), wherein the guide driving motor, the guide driving wheel (311) and the guide driven wheel (312) are all arranged on the gantry body (2), a rotating shaft of the guide driving motor is connected with the guide driving wheel (311), the guide driving wheel (311) is connected with the guide driven wheel (312) through the guide gear belt (313), the gear belt clamping plate I (314) is connected with the upper layer of the guide gear belt (313), the gear belt clamping plate II (315) is connected with the lower layer of the guide gear belt (313), the gear belt clamping plate I (314) and the gear belt clamping plate II (315) can be close to or far away from each other, and the guide plate I support (35) is fixedly connected with the gear belt clamping plate I (314), and the second guide plate bracket (36) is fixedly connected with the second gear belt clamping plate (315).

4. The feeding device for measuring the dimension of the special-shaped electronic hand brake as claimed in claim 3, characterized in that: one end of the opposite end surfaces of the first guide plate (33) and the second guide plate (34), which are far away from the gantry frame body (2), is provided with a first inclined surface (331).

5. The feeding device for measuring the size of the special-shaped electronic hand brake as claimed in claim 1, wherein: the hand brake blocking assembly (4) comprises a U-shaped support (41), two limiting plates (42) and a blocking plate (43), wherein the two limiting plates (42) are symmetrically arranged, the U-shaped support (41) is fixedly connected with the gantry frame body (2), the two limiting plates (42) are symmetrically arranged and are fixedly connected with the lower end part of the U-shaped support (41), the two limiting plates (42) are symmetrically arranged and are positioned at one side, away from the automatic conveying belt (1), of the first guide plate (33) and the second guide plate (34), the blocking plate (43) is arranged between the two limiting plates (42) which are symmetrically arranged, the blocking plate (43) is positioned at one end, away from the first guide plate (33) and the second guide plate (34), of the two limiting plates (42) which are symmetrically arranged and the blocking plate (43) form a U-shaped limiting groove (44), and the U-shaped limiting groove (44) is positioned between the first guide plate (33) and the second guide plate (34), limiting plate (42) and blocking board (43) that two symmetries set up are located automatic conveyer belt (1) top, be equipped with the manual brake ware that awaits measuring in U type spacing groove (44), manual brake ware upset material loading subassembly (6) are located the manual brake ware that awaits measuring directly over in U type spacing groove (44).

6. The feeding device for measuring the dimension of the special-shaped electronic hand brake as claimed in claim 5, wherein: the feeding lifting driving assembly (5) comprises a lifting mounting plate (51), a lifting driving cylinder (52), two vertical guide rails (53) arranged in parallel and a vertical sliding plate (54), the lifting mounting plate (51) is fixedly connected with the gantry frame body (2), the lifting driving cylinder (52) and the two vertical guide rails (53) arranged in parallel are fixedly arranged on the vertical side wall of the lifting mounting plate (51), a piston rod of the lifting driving cylinder (52) is connected with the vertical sliding plate (54), the vertical sliding plate (54) is slidably connected with the two vertical guide rails (53) arranged in parallel, and the hand brake overturning feeding assembly (6) is connected with the vertical sliding plate (54).

7. The feeding device for measuring the dimension of the special-shaped electronic hand brake as claimed in claim 6, wherein: hand brake upset material loading subassembly (6) are including revolving cylinder (61), right angle mounting panel (62), two (63) of revolving cylinder, sucking disc mounting panel (64) and a set of material loading sucking disc (65), revolving cylinder (61) and vertical slide (54) fixed connection, a vertical face and the first (61) of revolving cylinder of right angle mounting panel (62) are connected, two (63) of revolving cylinder set up on another vertical face of right angle mounting panel (62) to revolving cylinder two (63) and sucking disc mounting panel (64) are connected, a set of material loading sucking disc (65) set up on sucking disc mounting panel (64) to a set of material loading sucking disc (65) are located the hand brake that awaits measuring directly over in U type spacing groove (44), the hand brake that awaits measuring in the adsorbable U type spacing groove (44) of a set of material loading sucking disc (65).

8. The feeding device for measuring the dimension of the special-shaped electronic hand brake as claimed in claim 2, wherein: the first guide plate bracket (35) and the second guide plate bracket (36) are connected with a first horizontal sliding block (351), and the first horizontal sliding block (351) is in sliding connection with a first horizontal linear sliding rail (32).

9. The feeding device for measuring the dimension of the special-shaped electronic hand brake as claimed in claim 5, wherein: one end of the limiting plate (42), which is close to the first guide plate (33) and the second guide plate (34), is provided with a V-shaped raised head.

10. The feeding device for measuring the size of the special-shaped electronic hand brake according to claim 2, characterized in that: one side of the gantry frame body (2) close to the automatic conveying belt (1) is provided with a second vertical mounting plate (21), the hand brake feeding guide assembly (3) is arranged on the second vertical mounting plate (21), the second vertical mounting plate (21) is provided with a feeding guide buffer (22), the first guide plate support (35) is connected with a buffer block (352), and the feeding guide buffer (22) is in contact with the buffer block (352).

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