CN221006257U - Pin needle position degree automatic checkout device - Google Patents

Abstract

The utility model discloses an automatic pin needle position degree detection device, which comprises a base part, a carrier part, a detection head part and a detection head installation part, wherein the carrier part, the detection head part and the detection head installation part are sequentially installed above the base part; the base part comprises a bottom plate which is horizontally arranged and a detection supporting plate which is vertically arranged, two carrier supporting plates are symmetrically arranged on the bottom plate, the carrier supporting plates are perpendicular to the bottom plate, and a detection mounting plate is horizontally arranged above the detection supporting plates; the utility model solves the problems of high cost, low manual detection speed and consistency and repeatability of the existing position detection device at present, and can improve the equipment detection efficiency and save the cost.

Description

Pin needle position degree automatic checkout device

Technical Field

The utility model relates to the field of mechanical equipment, in particular to an automatic pin needle position degree detection device.

Background

Currently, most of the existing position detection devices in the market adopt a CCD lens or manual detection mode. The CCD lens has higher use cost, and the defects of manual detection are slow speed, difficult guarantee of consistency and repeatability, and the influence on productivity caused by the need of repeated detection.

Disclosure of utility model

The utility model aims to solve the technical problems of high cost, low manual detection speed and consistency and repeatability of the existing position degree detection device. In order to solve the technical problems, the utility model provides the pin needle position degree automatic detection device, which improves the equipment detection efficiency and saves the cost.

In order to solve the technical problems, the utility model provides an automatic pin needle position degree detection device, which comprises a base part, a carrier part, a detection head part and a detection head mounting part, wherein the carrier part, the detection head part and the detection head mounting part are sequentially arranged above the base part;

The base part comprises a bottom plate which is horizontally arranged and a detection supporting plate which is vertically arranged, two carrier supporting plates are symmetrically arranged on the bottom plate, the carrier supporting plates are perpendicular to the bottom plate, and a detection mounting plate is horizontally arranged above the detection supporting plates;

The carrier part is arranged above the bottom plate, the carrier part comprises a carrier mounting plate, a carrier is arranged above the carrier mounting plate, a left product clamping jaw and a right product clamping jaw are respectively arranged on two sides of the carrier, a sensor mounting block is respectively arranged on the left product clamping jaw and the right product clamping jaw, and a photoelectric sensor is arranged on the sensor mounting block; a carrier cylinder is arranged below the carrier mounting plate, one side end of the carrier cylinder is connected with a sensor mounting block through a cylinder connecting block, and the sensor mounting block is connected with a left clamping jaw of the product;

The detection head part is arranged above the detection supporting plate and comprises a detection head mounting plate, a probe wire passing plate, a probe positioning block B and a probe positioning block C are sequentially arranged above the detection head mounting plate, a cover plate is arranged above the probe wire passing plate, the probe positioning block B and the probe positioning block C, a probe positioning block A is arranged above the probe positioning block C, a wire passing cover plate is arranged at one side end part of the cover plate, which is close to the probe wire passing plate, a detection head is arranged at one side end part of the cover plate, which is close to the probe positioning block C, a product fixing sheet is arranged above and below the detection head, and a probe is arranged at the outer end part of the detection head;

The detection head installation part comprises a large linear rail, the large linear rail is installed below the detection head installation plate, a connecting plate is arranged above the large linear rail, a small linear rail is arranged above the middle part of the connecting plate, front and rear limiting blocks are arranged on two sides of the large linear rail, limiting blocks are arranged on the front and rear limiting blocks, buffers are arranged at two side ends of the front and rear limiting blocks, the connecting plate is connected with a detection cylinder through a connector, a cylinder connecting plate is arranged below the detection cylinder, and the detection cylinder is installed on the detection installation plate through the cylinder connecting plate.

Preferably, the detection support plate is two support plates which are arranged in parallel, and the support plates are of an I-shaped structure.

Preferably, the outer end parts of the two sides of the carrier mounting plate are horizontally provided with cylinders.

Preferably, an opening is arranged above the probe positioning block C on the cover plate, and a probe positioning block A is arranged above the probe positioning block C in the opening.

The utility model is characterized in that the base part is fixedly arranged by taking the bottom plate and the detection supporting plate as bases. The carrier support plate is connected to the bottom plate, the detection mounting plate is installed on the detection support plate, and whether detection screws are fastened after installation.

In the carrier part, the carrier mounting plate is installed on the carrier backup pad, and the carrier is installed on the carrier mounting plate, and the carrier cylinder passes through cylinder connecting block and cylinder connection at last carrier mounting plate. The left clamping jaw and the right clamping jaw are respectively arranged on the cylinder connecting block, so that the product is ensured to be placed on the cylinder connecting block to be clamped without obvious shaking. The photoelectric sensor is arranged on the sensor mounting block and then on the carrier mounting plate, so that the product can be detected by the photoelectric sensor of the carrier.

The detection head part is fixed on the small wire rail through the detection head mounting plate, and the probe is matched and positioned on the detection head mounting plate through the probe positioning block A, the probe positioning block B and the probe positioning block C. The product fixing piece is inserted into the probe in advance, and then the probe is sleeved on the positioned probe, so that each hole position of the probe can be well matched with the probe. After the probes are assembled, the welding wires flow out from the probe wire passing plate, and finally the cover plate and the wire passing plate are covered, so that the wires are ensured to be in the probe wire passing plate.

And the detection head mounting part is mounted on the detection mounting plate through a large linear rail, the connecting plate is fixed on the large linear rail, the detection cylinder is mounted on the detection mounting plate through a cylinder connecting plate, and the limiting block is mounted on the side edge of the connecting plate. The detection cylinder provides power to drive the connecting plate to move back and forth on the large linear rail through the connector, the front and back limiting blocks are arranged on the detection mounting plate, and the front and back limiting blocks and the buffer are matched to control the front and back moving distance.

Firstly, a product to be detected is placed into a carrier seat part, and the product is firmly fixed and clamped by the power provided by a carrier seat cylinder. After the product is fixed, the detection cylinder pushes the detection head part to detect, the detection end detection cylinder drives the detection head part to withdraw, the carrier cylinder releases the detected product, and the detected product is taken out and put into the next product to be detected. The integrated forming is not used as redundant action, the cycle detection is realized, the cost and the manpower resources are saved, and the operation is simple and the use is convenient.

The utility model is composed of a base part, a carrying seat part, a detection head part and a detection head mounting part, wherein the base part, the carrying seat part, the detection head part and the detection head mounting part are 4 parts, and the effect of automatic detection after discharging is achieved through mutual matching. Firstly, a product to be detected is placed into a carrier, the product is firmly fixed by the power provided by an air cylinder, the air cylinder of a detection head installation part pushes a detection head part to detect after the product is fixed, the detection head part air cylinder drives the detection head part to withdraw after the detection is finished, the detected product is taken out after the air cylinder of the carrier part is loosened, and the next product to be detected is placed after the product is taken out. The utility model is integrally formed, does not need redundant actions, circularly detects, saves cost and manpower resources, and is convenient and quick.

Through test verification and customer use feedback, the device has the advantages of high detection speed, high success rate, no need of repeated test and simple and convenient use. The product detection efficiency is greatly improved, the equipment standby time is reduced, and the production efficiency is improved.

Drawings

FIG. 1 is an overall assembly view of the present utility model;

FIG. 2 is a partial block diagram of a base of the present utility model;

FIG. 3 is a block diagram of a portion of a carrier of the present utility model;

FIG. 4 is a diagram of the structure of a detection head portion of the present utility model;

FIG. 5 is a block diagram of a mounting portion of the test head of the present utility model;

Wherein: 1-bottom plate, 2-carrier support plate, 3-detection support plate, 4-detection mounting plate, 5-carrier mounting plate, 6-carrier, 7-carrier cylinder, 8-product left clamping jaw, 9-product right clamping jaw, 10-photoelectric sensor, 11-sensor mounting block, 12-cylinder connecting block, 13-cylinder, 14-probe, 15-detection head, 16-product fixing piece, 17-probe positioning block A, 18-probe mounting plate, 19-probe positioning block B, 20-probe positioning block C, 21-probe wire passing plate, 22-cover plate, 23-wire passing cover plate, 24-connecting plate, 25-small wire rail, 26-large wire rail, 27-front and back limiting block, 28-limiting block, 29-buffer, 30-cylinder connecting plate, 31-detection cylinder and 32-connector.

Detailed Description

The preferred embodiments of the present utility model will be described in detail below with reference to the accompanying drawings so that the advantages and features of the present utility model can be more easily understood by those skilled in the art, thereby making clear and defining the scope of the present utility model.

As shown in fig. 1, the present embodiment provides an automatic pin needle position degree detection device, including a base portion, a carrier portion, a detection head portion, and a detection head mounting portion, which are sequentially mounted above the base portion;

As shown in fig. 2, the base part comprises a bottom plate 1 which is horizontally arranged and a detection supporting plate 3 which is vertically arranged, two carrier supporting plates 2 are symmetrically arranged on the bottom plate 1, the carrier supporting plates 2 are perpendicular to the bottom plate 1, and a detection mounting plate 4 is horizontally arranged above the detection supporting plate 3;

As shown in fig. 3, the carrier part is arranged above the bottom plate 1, the carrier part comprises a carrier mounting plate 5, a carrier 6 is arranged above the carrier mounting plate 5, a left product clamping jaw 8 and a right product clamping jaw 9 are respectively arranged on two sides of the carrier 6, a sensor mounting block 11 is respectively arranged on the left product clamping jaw 8 and the right product clamping jaw 9, and a photoelectric sensor 10 is arranged on the sensor mounting block 11; a carrier cylinder 7 is arranged below the carrier mounting plate 5, one side end of the carrier cylinder 7 is connected with a sensor mounting block 11 through a cylinder connecting block 12, and the sensor mounting block 11 is connected with a left clamping jaw 8 of the product;

As shown in fig. 4, the detection head part is mounted above the detection support plate 3, the detection head part comprises a detection head mounting plate 18, a probe wire passing plate 21, a probe positioning block B19 and a probe positioning block C20 are sequentially mounted above the detection head mounting plate 18, a cover plate 22 is arranged above the probe wire passing plate 21, the probe positioning block B19 and the probe positioning block C20, a probe positioning block a17 is arranged above the probe positioning block C20, a wire passing cover plate 23 is arranged at one end part of the cover plate 22 close to the probe wire passing plate 21, a detection head 15 is arranged at one end part of the cover plate 22 close to the probe positioning block C20, a product fixing plate 16 is arranged above and below the detection head 15, and a probe 14 is arranged at the outer end part of the detection head 15;

As shown in fig. 5, the detecting head mounting portion includes a large wire rail 26, the large wire rail 26 is mounted below the detecting head mounting plate 18, a connecting plate 24 is arranged above the large wire rail 26, a small wire rail 25 is arranged above the middle of the connecting plate 24, front and rear limiting blocks 27 are arranged on two sides of the large wire rail 26, limiting blocks 28 are arranged on the front and rear limiting blocks 27, buffers 29 are arranged on two side end portions of the front and rear limiting blocks 27, the connecting plate 24 is connected with a detecting cylinder 31 through a connector 32, a cylinder connecting plate 30 is arranged below the detecting cylinder 31, and the detecting cylinder 31 is mounted on the detecting mounting plate 4 through the cylinder connecting plate 30.

The detection supporting plate 3 is two supporting plates which are arranged in parallel, and the supporting plates are of an I-shaped structure. The outer end parts of the two sides of the carrier mounting plate 5 are horizontally provided with a cylinder 13. An opening is arranged above the probe positioning block C20 on the cover plate 22, and a probe positioning block A17 is arranged above the probe positioning block C20 in the opening.

As shown in fig. 2, the utility model is fixedly installed by a base part by taking a bottom plate 1 and a detection supporting plate 3 as bases. The carrier support plate 2 is connected to the bottom plate 1, the detection mounting plate 3 is mounted on the detection support plate 3, and whether the detection screws are fastened or not is detected after the detection mounting plate is mounted.

As shown in fig. 3, in the carrier section, a carrier mounting plate 5 is mounted on a carrier support plate 2, a carrier 6 is mounted on the carrier mounting plate 5, and a carrier cylinder 7 is connected to the upper carrier mounting plate 5 through a cylinder connection block 12 and a cylinder 13. The left clamping jaw 8 and the right clamping jaw 9 are respectively arranged on the cylinder connecting block 12, so that the product is placed on the cylinder connecting block to be clamped without obvious shaking. The photoelectric sensor 10 is arranged on the sensor mounting block 11 and then arranged on the carrier mounting plate 5, so that the photoelectric sensor can detect the product placed in the carrier.

As shown in fig. 4, the probe head is fixed to the small rail 25 by the probe head mounting plate 18, and the probe 14 is mounted to the probe head mounting plate 18 by the probe positioning block a17, the probe positioning block B19, and the probe positioning block C20 being positioned in cooperation. The product fixing piece 16 is inserted into the probe head 15 in advance, and then the probe head 15 is sleeved on the positioned probe 14, so that each hole position of the probe head 15 can be matched with the probe 14 to be positioned. After the probes 14 are assembled, the bonding wires flow out from the probe wire passing plate 21, and finally the cover plate 22 and the wire passing cover plate 23 are covered, so that the wires are all inside.

As shown in fig. 5, in the inspection head mounting portion, the large wire rail 26 is mounted on the inspection mounting plate 3, the connecting plate 24 is fixed on the large wire rail 26, the inspection cylinder 31 is mounted on the inspection mounting plate 3 through the cylinder connecting plate 31, and the stopper 28 is mounted on the side of the connecting plate 24. The detection cylinder 31 provides power to drive the connecting plate 24 to move back and forth on the large linear rail 26 through the connector 32, the front and back limiting block 27 is arranged on the detection mounting plate 3, and the limiting block 28 and the buffer 29 are matched to control the front and back moving distance.

Firstly, the product to be detected is put into a carrier part, and the carrier cylinder 7 provides power to fix and clamp the product. After the product is fixed, the detection cylinder 21 pushes the detection head part to detect, the detection end detection cylinder 21 drives the detection head part to withdraw, the carrier cylinder 7 releases the detected product, and the product is taken out and put into the next product to be detected. The integrated forming is not used as redundant action, the cycle detection is realized, the cost and the manpower resources are saved, and the operation is simple and the use is convenient.

The utility model is composed of a base part, a carrying seat part, a detection head part and a detection head mounting part, wherein the base part, the carrying seat part, the detection head part and the detection head mounting part are 4 parts, and the effect of automatic detection after discharging is achieved through mutual matching. Firstly, a product to be detected is placed into a carrier, the product is firmly fixed by the power provided by an air cylinder, the air cylinder of a detection head installation part pushes a detection head part to detect after the product is fixed, the detection head part air cylinder drives the detection head part to withdraw after the detection is finished, the detected product is taken out after the air cylinder of the carrier part is loosened, and the next product to be detected is placed after the product is taken out. The utility model is integrally formed, does not need redundant actions, circularly detects, saves cost and manpower resources, and is convenient and quick.

Through test verification and customer use feedback, the device has the advantages of high detection speed, high success rate, no need of repeated test and simple and convenient use. The product detection efficiency is greatly improved, the equipment standby time is reduced, and the production efficiency is improved.

The foregoing description is only illustrative of the present utility model and is not intended to limit the scope of the utility model, and all equivalent structures or equivalent processes or direct or indirect application in other related technical fields are included in the scope of the present utility model.

Claims (4)

1. The utility model provides a pin needle position degree automatic checkout device, includes base portion, carrier portion, detects head portion and detects head installation department, carrier portion, detect head portion and detect head installation department and install in proper order in base portion top, its characterized in that:

The base part comprises a bottom plate (1) which is horizontally arranged and a detection supporting plate (3) which is vertically arranged, two carrier supporting plates (2) are symmetrically arranged on the bottom plate (1), the carrier supporting plates (2) are perpendicular to the bottom plate (1), and a detection mounting plate (4) is horizontally arranged above the detection supporting plate (3);

The device comprises a base plate (1), and is characterized in that the base part is arranged above the base plate (1), the base part comprises a base mounting plate (5), a base (6) is arranged above the base mounting plate (5), a left product clamping jaw (8) and a right product clamping jaw (9) are respectively arranged on two sides of the base (6), a sensor mounting block (11) is respectively arranged on the left product clamping jaw (8) and the right product clamping jaw (9), and a photoelectric sensor (10) is arranged on the sensor mounting block (11); a carrier cylinder (7) is arranged below the carrier mounting plate (5), one side end part of the carrier cylinder (7) is connected with a sensor mounting block (11) through a cylinder connecting block (12), and the sensor mounting block (11) is connected with a left clamping jaw (8) of a product;

The detection head part is arranged above the detection support plate (3), the detection head part comprises a detection head mounting plate (18), a probe wire passing plate (21), a probe positioning block B (19) and a probe positioning block C (20) are sequentially arranged above the detection head mounting plate (18), a cover plate (22) is arranged above the probe wire passing plate (21), the probe positioning block B (19) and the probe positioning block C (20), a probe positioning block A (17) is arranged above the probe positioning block C (20), a wire passing cover plate (23) is arranged at one side end part of the cover plate (22) close to the probe wire passing plate (21), a detection head (15) is arranged at one side end part of the cover plate (22) close to the probe positioning block C (20), a product fixing sheet (16) is arranged on the upper portion and the lower portion of the detection head (15), and a probe (14) is arranged at the outer end part of the detection head (15);

The detection head mounting part comprises a large wire rail (26), the large wire rail (26) is mounted below the detection head mounting plate (18), a connecting plate (24) is arranged above the large wire rail (26), a small wire rail (25) is arranged above the middle of the connecting plate (24), front limiting blocks (27) are arranged on two sides of the large wire rail (26), limiting blocks (28) are arranged on the front limiting blocks (27), buffers (29) are arranged at two side ends of the front limiting blocks (27), the connecting plate (24) is connected with a detection cylinder (31) through a connector (32), a cylinder connecting plate (30) is arranged below the detection cylinder (31), and the detection cylinder (31) is mounted on the detection mounting plate (4) through the cylinder connecting plate (30).

2. The pin needle position degree automatic detection apparatus according to claim 1, wherein: the detection support plate (3) is two support plates which are arranged in parallel, and the support plates are of an I-shaped structure.

3. The pin needle position degree automatic detection apparatus according to claim 1, wherein: the outer end parts of the two sides of the carrier mounting plate (5) are horizontally provided with cylinders (13).

4. The pin needle position degree automatic detection apparatus according to claim 1, wherein: an opening is formed in the cover plate (22) and located above the probe locating block C (20), and a probe locating block A (17) is arranged in the opening and located above the probe locating block C (20).