CN215115179U

CN215115179U - Safety belt switch controller check out test set

Info

Publication number: CN215115179U
Application number: CN202120930383.8U
Authority: CN
Inventors: 向光能; 文明山; 李兵
Original assignee: EA Electric Dongguan Co ltd
Current assignee: EA Electric Dongguan Co ltd
Priority date: 2021-04-30
Filing date: 2021-04-30
Publication date: 2021-12-10
Anticipated expiration: 2031-04-30

Abstract

The utility model provides a safety belt switch controller detection device, which comprises a workbench, a material rack arranged on the workbench, a feeding mechanism, an elasticity detection mechanism and two groups of circuit detection mechanisms; a material groove for conveying products is formed in the material frame; the feeding mechanism is arranged in the material rack and used for controlling the products on the material groove to be gradually conveyed from left to right; the tightness detection mechanism and the two groups of circuit detection mechanisms are respectively arranged beside the material rack; the tightness detection mechanism is used for shifting a substrate on a product to detect whether the tightness is abnormal or not; the two groups of circuit detection mechanisms are respectively used for carrying out NO detection and NC detection on the product; the circuit detection mechanism comprises a first positioning device and a detection device; the first positioning device is used for controlling the front and back positions of the substrate; the utility model discloses can the automated inspection safety belt switch controller elasticity and the detection of circuit, convenient to use, it is efficient, the measurement accuracy is high moreover, saves the labour.

Description

Safety belt switch controller check out test set

Technical Field

The utility model relates to a check out test set technical field, in particular to safety belt switch controller check out test set.

Background

I have laid down newly and developed a safety belt switch controller, contain the balladeur train, contact piece and base plate, the equipment is good and is required to carry out the test of twice resistance, still need detect the elasticity of base plate on the balladeur train, the base plate is stirred through the manual work to the test of elasticity in the past, whether the manual work judges too loosely or too tightly, place after the position of readjustment base plate for contact piece and test on the resistance test machine, need pass through twice regulation, whole test accuracy is low, the efficiency is slow, consequently, the urgent need design a detection equipment that the section corresponds in order to solve this technical problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a safety belt switch controller check out test set mentions the problem in order to solve the background art.

In order to achieve the above object, the present invention provides the following technical solutions:

a safety belt switch controller detection device comprises a workbench, a material rack arranged on the workbench, a feeding mechanism, an elasticity detection mechanism and two groups of circuit detection mechanisms; a material groove for conveying products is formed in the material frame; the feeding mechanism is arranged in the material rack and used for controlling the products on the material groove to be gradually conveyed from left to right; the tightness detection mechanism and the two groups of circuit detection mechanisms are respectively arranged beside the material rack; the tightness detection mechanism is used for shifting a substrate on a product to detect whether the tightness is abnormal or not; the two groups of circuit detection mechanisms are respectively used for carrying out NO detection and NC detection on the product; the circuit detection mechanism comprises a first positioning device and a detection device; the first positioning device is used for controlling the front and back positions of the substrate.

For further description of the present invention, the feeding mechanism includes a first cylinder, a mounting plate, a second cylinder and a drawing frame; the mounting plate can be mounted on the material rack in a vertically sliding manner; the first air cylinder is fixed on the workbench, and the power output end is connected with the mounting plate; the material pulling frame is arranged above the mounting plate in a left-right sliding manner; a plurality of material pulling lugs are distributed on the left and right above the material pulling frame; the second cylinder is fixed on the mounting plate and the power output end is connected with the material pulling frame.

For further description of the present invention, the tightness detecting mechanism includes a sliding table, a material pushing frame and two sets of detecting components; the sliding table is arranged on one side of the material pushing frame, and the power output end of the sliding table is connected with the material pushing frame and used for driving the material pushing frame to move back and forth; the material pushing frame is positioned above the material groove; the bottoms of the front side and the rear side of the material pushing frame are respectively provided with a convex block; the lug is provided with a sliding hole arranged along the front-back direction; a strip-shaped hole communicated with the sliding hole is arranged above the corresponding sliding hole on the lug; the two groups of detection components are respectively arranged on the two convex blocks; the detection assembly comprises a clamping block, an elastic sheet, a sliding block and two contact elements; the clamping block is arranged above the lug and forms a square hole with the lug; the two contact pieces are respectively arranged on the front side and the rear side of the clamping block and extend into the square holes; the elastic sheet is vertically fixed on the clamping block and is in contact with the contact element on the inner side; the sliding block is connected in the sliding hole in a sliding mode; the sliding block is provided with a jacking piece; the top pressing piece penetrates through the strip-shaped hole and extends into the square hole to be in contact with the inner side of the elastic piece.

For further description of the present invention, the circuit detecting structure further comprises a vertical frame; the first positioning device comprises a third air cylinder and a first material pushing block; the first material pushing block is arranged on the vertical frame in a front-back sliding manner; the third cylinder is fixed on the vertical frame, and the power output end of the third cylinder is connected with the first material pushing block; the detection device comprises a fourth air cylinder, a pressure head, a fifth air cylinder and a detection head; the fourth cylinder is arranged above the vertical frame, and the power output end of the fourth cylinder is connected with the pressure head to drive the pressure head to move up and down; and the fifth cylinder is arranged below the vertical frame, and the power output end of the fifth cylinder is connected with the detection head to drive the detection head to move up and down.

The utility model is further described, which also comprises a marking mechanism; the marking mechanism is arranged beside the right end of the material rack; the marking mechanism comprises a marking machine and a second positioning device; the marking machine is arranged on the rear side of the material rack; the second positioning device comprises a sixth air cylinder and a second material pushing block; the sixth air cylinder is arranged on the front side of the material rack, and the power output end of the sixth air cylinder is connected with the second material pushing block to drive the second material pushing block to move back and forth.

The utility model is further described, which also comprises a pre-material shifting mechanism; the pre-stirring mechanism is arranged on the left side of the tightness detection mechanism; the pre-material-shifting mechanism comprises a seventh cylinder and a material-shifting plate; the seventh cylinder is arranged beside the material rack, and the power output end of the seventh cylinder is connected with the material shifting plate to drive the material shifting plate to move back and forth.

The utility model is further described, which also comprises a material receiving mechanism arranged at the left end of the material rack; the material receiving mechanism comprises an eighth cylinder and a material receiving plate; a material receiving groove is formed in the material receiving plate; the eighth air cylinder is erected beside the material rack, and the power output end of the eighth air cylinder is connected with the material receiving plate to drive the material receiving plate to move up and down.

To the utility model discloses a further description, still including setting up the feed chute rail at the work or material rest right-hand member.

The utility model has the advantages that:

the utility model discloses can the automated inspection safety belt switch controller elasticity and the detection of circuit, convenient to use, it is efficient, the measurement accuracy is high moreover, saves the labour.

Drawings

Fig. 1 is a structural diagram of the seat belt switch controller of the present invention;

FIG. 2 is an overall structure of the present invention;

fig. 3 is a structural diagram of the receiving mechanism of the present invention;

FIG. 4 is a structural diagram of the material rack and the feeding mechanism of the present invention;

FIG. 5 is a structural diagram of the pre-stirring mechanism of the present invention;

FIG. 6 is a structural diagram of the tightness detecting mechanism of the present invention;

FIG. 7 is an enlarged view of a portion of FIG. 6;

fig. 8 is a structural diagram of the circuit detecting mechanism of the present invention;

fig. 9 is a structural view of the marking mechanism of the present invention.

Detailed Description

The invention is further explained below with reference to the drawings:

as shown in the figure, the safety belt switch controller detection device is used for detecting a safety belt switch controller 100, and the safety belt switch controller 100 of the design comprises a sliding frame 101, a contact piece and a base piece 102, wherein the contact piece is fixedly installed in the sliding frame 101, and the base piece 102 is connected in the sliding frame 101 in a sliding mode.

The safety belt switch controller 100 detection equipment mainly comprises a workbench 1, a material rack 2 arranged on the workbench 1, a feeding mechanism 3, an elasticity detection mechanism 4, two groups of circuit detection mechanisms 5, a material receiving mechanism 6, a pre-shifting mechanism 7 and a marking mechanism 8; the receiving mechanism 6 is located at the left end of the material rack 2, and the pre-poking mechanism 7, the tightness detection mechanism 4, the two groups of circuit detection mechanisms 5 and the marking mechanism 8 are sequentially distributed at the side of the material rack 2 from left to right.

The material rack 2 is provided with a material groove 21 for conveying products (namely, a safety belt switch controller 100).

The material receiving mechanism 6 comprises an eighth cylinder 61 and a material receiving plate 62; the material receiving plate 62 is provided with a material receiving groove 21; the eighth cylinder 61 is erected on the side of the material rack 2, the power output end of the eighth cylinder is connected with the material receiving plate 62 to drive the material receiving plate 62 to move up and down, the device is in butt joint with assembly equipment, the assembly equipment is used for assembling products, and after the assembly equipment is completed and the detection is qualified, the eighth cylinder 61 drives the material receiving plate 62 to descend, so that the products can be sent into the material groove 21 of the device from the assembly equipment.

The feeding mechanism 3 is arranged in the material rack 2 and used for controlling the products on the material groove 21 to be conveyed step by step from left to right; the feeding mechanism 3 comprises a first cylinder 31, a mounting plate 32, a second cylinder 33 and a material pulling frame 34; the mounting plate 32 is mounted on the rack 2 in a vertically sliding manner; the first cylinder 31 is fixed on the workbench 1, and the power output end is connected with the mounting plate 32; the material pulling frame 34 is arranged above the mounting plate 32 in a left-right sliding manner; a plurality of material pulling lugs 421341 are distributed on the left and right above the material pulling frame 34; the second cylinder 33 is fixed on the mounting plate 32, and the power output end of the second cylinder is connected with the material pulling frame 34; the first cylinder 31 controls the mounting plate 32 to move left and right, the second cylinder 33 controls the material pulling frame 34 to move up and down, and the material pulling bump 421341 on the material pulling frame 34 can be inserted into the sliding frame 101, so that the first cylinder 31 and the second cylinder 33 are linked to drive the product in the trough 21 to be conveyed from left to right step by step, and each mechanism operates the product once every time the product is conveyed.

The pre-material-stirring mechanism 7 comprises a seventh cylinder 71 and a stirring plate 72; the seventh cylinder 71 is arranged beside the material rack 2, and the power output end of the seventh cylinder is connected with the material shifting plate 72 to drive the material shifting plate 72 to move back and forth; when the product is conveyed to the pre-material-poking mechanism 7, the seventh cylinder 71 drives the material-poking plate 72 to move back and forth, the material-poking belt pushes the substrate 102 on the product, and the substrate 102 is driven to slide forwards and backwards once to prepare for the subsequent tightness detection mechanism 4.

The tightness detection mechanism 4 is used for toggling the substrate 102 on the product to detect whether the tightness is abnormal; the tightness detection mechanism 4 comprises a sliding table 41, a material pushing frame 42 and two groups of detection components 43; the sliding table 41 is arranged on one side of the material rack 2, and the power output end of the sliding table is connected with the material pushing rack 42 and used for driving the material pushing rack 42 to move back and forth; the material pushing frame 42 is positioned above the material groove 21; the bottoms of the front side and the rear side of the material pushing frame 42 are respectively provided with a convex block 421; the lug 421 is provided with a slide hole 4211 arranged along the front-back direction; a strip-shaped hole 4212 communicated with the sliding hole 4211 is formed in the bump 421 and corresponds to the upper part of the sliding hole 4211; the two groups of detection assemblies 43 are respectively mounted on the two bumps 421; the detection assembly 43 comprises a clamping block 431, an elastic sheet 432, a sliding block 433 and two contact pieces 434; the clamping block 431 is arranged above the lug 421 and forms a square hole 401 with the lug 421; the two contact elements 434 are respectively arranged on the front side and the rear side of the clamping block 431 and extend into the square hole 401, and the contact elements 434 are screws in the design; the elastic sheet 432 is vertically fixed on the clamping block 431 and is in contact with the contact 434 on the inner side; the sliding block 433 is connected in a sliding hole 4211 in a sliding mode; a jacking part 4331 is arranged on the sliding block 433; the pushing member 4331 penetrates through the strip hole 4212 and extends into the square hole 401 to be in contact with the inner side of the elastic sheet 432, when the sliding table 41 drives the pushing frame 42 to move forward, the substrate 102 pushes the sliding block 433 on the rear side, the sliding block 433 pushes the lower end of the elastic sheet 432 to bend backward through the pushing member 4331, if the substrate 102 can push the sliding block 433 to move, the elastic sheet 432 leaves the inner side contact element 434 and the elastic sheet 432 cannot be in contact with the outer side contact element 434, the sliding is normal, if the substrate cannot leave the inner side contact element 434, the substrate 102 is determined to be too loose, if the substrate contacts the outer side contact element 434, the substrate 102 is determined to be too tight and difficult to slide, in both cases, an abnormal signal is sent, the determination principle is the same when the pushing member is pushed backward, the above-described inner side refers to a side close to the center position of the pushing frame 42, and the outer side refers to a side far from the center position of the pushing frame 42.

The two groups of circuit detection mechanisms 5 are respectively used for carrying out NO detection and NC detection on the product; the circuit detection mechanism 5 comprises a stand 51, a first positioning device 52 and a detection device 53; the first positioning device 52 is used for controlling the front and back positions of the substrate 102; the first positioning device 52 comprises a third cylinder 521 and a first pushing block 522; the first material pushing block 522 is arranged on the vertical frame 51 in a back-and-forth sliding manner; the third cylinder 521 is fixed on the vertical frame 51, and the power output end is connected with the first material pushing block 522; the detection device 53 comprises a fourth air cylinder 531, a pressure head 532, a fifth air cylinder 533 and a detection head 534; the fourth cylinder 531 is arranged above the vertical frame 51, and the power output end of the fourth cylinder is connected with the pressure head 532 to drive the pressure head 532 to move up and down; the fifth cylinder 533 is arranged below the vertical frame 51, and the power output end of the fifth cylinder is connected with the detection head 534 to drive the detection head 534 to move up and down; the left circuit detection mechanism 5 is used for carrying out NC detection, the right circuit detection mechanism 5 is used for carrying out NO detection, during detection, the third air cylinder 521 on the first positioning device 52 pushes the substrate 102 to a specified position, then the fourth air cylinder 531 drives the pressure head 532 to press down and push against the upper part of the substrate 102, and the fifth air cylinder 533 drives the detection head 534 to ascend and push against the lower part of the substrate 102 for detection.

The marking machine also comprises a marking mechanism 8; the marking mechanism 8 is arranged beside the right end of the material rack 2; the marking mechanism 8 comprises a marking machine 81 and a second positioning device 82; the marking machine 81 is arranged at the rear side of the material rack 2; the second positioning device 82 comprises a sixth cylinder 821 and a second pusher block 822; the sixth cylinder 821 is arranged on the front side of the rack 2, the power output end of the sixth cylinder 821 is connected with the second pushing block 822 to drive the second pushing block 822 to move back and forth, and the second positioning device 82 pushes the substrate 102 to a designated position through the sixth cylinder 821 and marks the substrate 102 through the marking machine 81.

Still including setting up the unloading grooved rail 9 at work or material rest 2 right-hand member, after the product detection is accomplished, see off from work or material rest 2 right-hand member and carry out direction whereabouts through this unloading grooved rail 9.

The working principle of the embodiment is as follows:

the products enter the material groove 21 of the material rack 2 in a butt joint mode through the material receiving mechanism 6, and the feeding mechanism 3 drives the products in the material groove 21 to be conveyed step by step from left to right; when the product is conveyed to the pre-material-poking mechanism 7, the seventh air cylinder 71 drives the material-poking plate 72 to move back and forth, the material-poking belt pushes the substrate 102 on the product, and the substrate 102 is driven to slide forwards and backwards once to prepare for the subsequent tightness detection mechanism 4; when the product is conveyed to the tightness detection mechanism 4, the tightness detection mechanism 4 detects the tightness of the substrate 102 in the sliding frame 101, if the detection is good, the operation is continued, and if the detection is abnormal, a signal is sent out; the product passes through two groups of circuit detection mechanisms 5 in sequence, NC detection and NO detection are carried out after the substrate 102 of the product is positioned respectively, whether the circuit is connected or disconnected is detected after the substrate 102 is moved to the corresponding position, if the detection is good, the circuit continues to work, and if the detection is abnormal, a signal is sent out; the product is conveyed to the marking mechanism 8, positioned and marked, and finally sent out from the right end.

The above description is not intended to limit the technical scope of the present invention, and any modification, equivalent change and modification made to the above embodiments according to the technical spirit of the present invention are still within the scope of the technical solution of the present invention.

Claims

1. The utility model provides a safety belt switch controller check out test set which characterized in that: the automatic feeding device comprises a workbench, a material rack arranged on the workbench, a feeding mechanism, an elasticity detection mechanism and two groups of circuit detection mechanisms; a material groove for conveying products is formed in the material frame; the feeding mechanism is arranged in the material rack and used for controlling the products on the material groove to be gradually conveyed from left to right; the tightness detection mechanism and the two groups of circuit detection mechanisms are respectively arranged beside the material rack; the tightness detection mechanism is used for shifting a substrate on a product to detect whether the tightness is abnormal or not; the two groups of circuit detection mechanisms are respectively used for carrying out NO detection and NC detection on the product; the circuit detection mechanism comprises a first positioning device and a detection device; the first positioning device is used for controlling the front and back positions of the substrate.

2. The seatbelt switch controller detecting apparatus according to claim 1, wherein: the feeding mechanism comprises a first cylinder, a mounting plate, a second cylinder and a material pulling frame; the mounting plate can be mounted on the material rack in a vertically sliding manner; the first air cylinder is fixed on the workbench, and the power output end is connected with the mounting plate; the material pulling frame is arranged above the mounting plate in a left-right sliding manner; a plurality of material pulling lugs are distributed on the left and right above the material pulling frame; the second cylinder is fixed on the mounting plate and the power output end is connected with the material pulling frame.

3. The seatbelt switch controller detecting apparatus according to claim 1, wherein: the tightness detection mechanism comprises a sliding table, a material pushing frame and two groups of detection assemblies; the sliding table is arranged on one side of the material pushing frame, and the power output end of the sliding table is connected with the material pushing frame and used for driving the material pushing frame to move back and forth; the material pushing frame is positioned above the material groove; the bottoms of the front side and the rear side of the material pushing frame are respectively provided with a convex block; the lug is provided with a sliding hole arranged along the front-back direction; a strip-shaped hole communicated with the sliding hole is arranged above the corresponding sliding hole on the lug; the two groups of detection components are respectively arranged on the two convex blocks; the detection assembly comprises a clamping block, an elastic sheet, a sliding block and two contact elements; the clamping block is arranged above the lug and forms a square hole with the lug; the two contact pieces are respectively arranged on the front side and the rear side of the clamping block and extend into the square holes; the elastic sheet is vertically fixed on the clamping block and is in contact with the contact element on the inner side; the sliding block is connected in the sliding hole in a sliding mode; the sliding block is provided with a jacking piece; the top pressing piece penetrates through the strip-shaped hole and extends into the square hole to be in contact with the inner side of the elastic piece.

4. The seatbelt switch controller detecting apparatus according to claim 1, wherein: the circuit detection structure further comprises a stand; the first positioning device comprises a third air cylinder and a first material pushing block; the first material pushing block is arranged on the vertical frame in a front-back sliding manner; the third cylinder is fixed on the vertical frame, and the power output end of the third cylinder is connected with the first material pushing block; the detection device comprises a fourth air cylinder, a pressure head, a fifth air cylinder and a detection head; the fourth cylinder is arranged above the vertical frame, and the power output end of the fourth cylinder is connected with the pressure head to drive the pressure head to move up and down; and the fifth cylinder is arranged below the vertical frame, and the power output end of the fifth cylinder is connected with the detection head to drive the detection head to move up and down.

5. The seatbelt switch controller detecting apparatus according to claim 1, wherein: the marking device also comprises a marking mechanism; the marking mechanism is arranged beside the right end of the material rack; the marking mechanism comprises a marking machine and a second positioning device; the marking machine is arranged on the rear side of the material rack; the second positioning device comprises a sixth air cylinder and a second material pushing block; the sixth air cylinder is arranged on the front side of the material rack, and the power output end of the sixth air cylinder is connected with the second material pushing block to drive the second material pushing block to move back and forth.

6. The seatbelt switch controller detecting apparatus according to claim 1, wherein: the device also comprises a pre-stirring mechanism; the pre-stirring mechanism is arranged on the left side of the tightness detection mechanism; the pre-material-shifting mechanism comprises a seventh cylinder and a material-shifting plate; the seventh cylinder is arranged beside the material rack, and the power output end of the seventh cylinder is connected with the material shifting plate to drive the material shifting plate to move back and forth.

7. The seatbelt switch controller detecting apparatus according to claim 1, wherein: the material receiving mechanism is arranged at the left end of the material rack; the material receiving mechanism comprises an eighth cylinder and a material receiving plate; a material receiving groove is formed in the material receiving plate; the eighth air cylinder is erected beside the material rack, and the power output end of the eighth air cylinder is connected with the material receiving plate to drive the material receiving plate to move up and down.

8. The seatbelt switch controller detecting apparatus according to claim 1, wherein: still including setting up the unloading groove rail at the work or material rest right-hand member.