CN214096433U

CN214096433U - Elasticity detection device

Info

Publication number: CN214096433U
Application number: CN202022510016.0U
Authority: CN
Inventors: 徐余才
Original assignee: Ningbo Lansheng Intelligent Technology Co Ltd
Current assignee: Ningbo Lansheng Intelligent Technology Co Ltd
Priority date: 2020-11-03
Filing date: 2020-11-03
Publication date: 2021-08-31
Anticipated expiration: 2030-11-03

Abstract

The utility model provides an elasticity detection device belongs to adhesive force and detects technical field, include: the detection device comprises a substrate, a detection platform and a detection unit, wherein the substrate is provided with a base; the pressing assembly is arranged on the substrate, and the product is fixed on the detection platform through the pressing assembly; the lifting assembly is arranged on the base plate, and the output end of the lifting assembly is connected with a transverse pushing assembly, wherein the transverse pushing assembly comprises a power source, the output end of the power source is connected with the deformation element through a connecting piece, the connecting piece is provided with a pressure sensor, and the pressure sensor and a part adhered to a product abut against a matched pushing block; and the display is electrically connected with the pressure sensor. The utility model provides a pair of elasticity detection device through deformation component, power supply and pressure sensor, will violently push away the thrust pressure value that the subassembly produced and show on the display, realizes the quantization of this thrust value to guarantee the qualification rate of product when dispatching from the factory.

Description

Elasticity detection device

Technical Field

The utility model belongs to the technical field of the adhesive force detects, a detection device, especially an elasticity detection device is related to.

Background

In automobile spare and accessory parts, a bonding process is a relatively conventional connecting process, for example, a buckle is bonded on a plate, in order to detect the bonding force between the buckle and the plate, the buckle is often manually pulled off in the past, if the buckle is not pulled off, the bonding force is qualified, and if the buckle is pulled off, the bonding force is unqualified.

However, the magnitude of the manual force of pulling cannot be quantified, so that whether the connection of the buckle meets the factory standard cannot be determined, and therefore, when a product is transported to a customer, the buckle often falls due to insufficient bonding strength, so that the customer complaints are suffered.

Disclosure of Invention

The utility model aims at having above-mentioned problem to current technique, provided a can quantify the detection device who detects the adhesive force.

The purpose of the utility model can be realized by the following technical proposal: an elastic force detecting device comprising:

the detection device comprises a substrate, a detection platform and a detection unit, wherein the substrate is provided with a base;

the pressing assembly is arranged on the substrate, and the product is fixed on the detection platform through the pressing assembly;

the lifting assembly is arranged on the base plate, and the output end of the lifting assembly is connected with a transverse pushing assembly, wherein the transverse pushing assembly comprises a power source, the output end of the power source is connected with the deformation element through a connecting piece, the connecting piece is provided with a pressure sensor, and the pressure sensor and a part adhered to a product abut against a matched pushing block;

and the display is electrically connected with the pressure sensor.

In the elasticity detection device, the output end of the lifting assembly is connected with the mounting plate, the transverse pushing assembly is connected to the mounting plate, and the mounting plate is provided with an adjusting assembly for adjusting the initial pressure of the deformation element.

The adjusting assembly in the elasticity detecting device comprises an adjusting rod, the adjusting rod is arranged opposite to the connecting piece, and two ends of the deformation element are located on the connecting piece and connected with the adjusting rod.

In the elasticity detection device, the mounting plate is connected with the mounting block, the mounting block and the deformation element are positioned on two sides of the connecting piece, and the pressure sensor is connected to the mounting block in a sliding manner through the connecting block.

In the elasticity detection device, a limiting part is arranged in the direction of horizontal movement of the connecting piece, and the limiting part and the deformation element are distributed up and down, wherein the limiting part comprises a limiting block and a limiting groove arranged on the mounting plate, and the limiting block is connected with the groove bottom of the limiting groove through a fastener.

In the above-mentioned elasticity detecting device, a traverse guide rail is provided between the connecting member and the mounting plate, wherein the connecting member is connected to the traverse guide rail in a sliding manner.

The pressing component in the elasticity detection device comprises a pressing structure and an abutting block arranged on the base, wherein the pressing structure comprises a pressing cylinder and a pressing block connected with the output end of the pressing cylinder.

Lifting unit includes the support among foretell elasticity detection device, and installs the lift cylinder on the support, and wherein, the output of this lift cylinder is connected with the mounting panel, and slides the cooperation through erectting to move the guide rail between mounting panel and support.

Compared with the prior art, the beneficial effects of the utility model are that:

(1) the utility model provides a pair of elasticity detection device through deformation component, power supply and pressure sensor, will violently push away the thrust pressure value that the subassembly produced and show on the display, realizes the quantization of this thrust value to guarantee the qualification rate of product when dispatching from the factory.

(2) The relative distance between the limiting block and the limiting groove is changed by rotating the fastening piece, so that on one hand, the pressure value of the deformation element in the initial state is adjusted, and on the other hand, the pressure value of the deformation element in the initial state is adjusted by the adjusting rod, and double adjustment of the deformation element is formed; on the other hand, the stroke of the connecting piece in the resetting process is controlled, so that the accuracy of the next pressure detection is improved.

Drawings

Fig. 1 is a schematic structural view of the elasticity detecting device of the present invention.

Fig. 2 is a usage status diagram of the elasticity detecting device of the present invention.

Fig. 3 is a partial usage state diagram of the elasticity detecting device of the present invention.

In the figure, 100, a substrate; 200. a base; 210. a detection platform; 300. a compression assembly; 310. a leaning block; 320. a pressing cylinder; 330. a compression block; 400. a lifting assembly; 410. a support; 420. a lifting cylinder; 430. vertically moving the guide rail; 500. a transverse pushing component; 510. a power source; 520. a connecting member; 530. a deformation element; 540. a pressure sensor; 550. a push block; 560. mounting a plate; 561. mounting blocks; 562. connecting blocks; 570. an adjustment assembly; 571. adjusting a rod; 580. a limiting part; 581. a limiting block; 582. a limiting groove; 583. a fastener; 590. and (5) transversely moving the guide rail.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1 to fig. 3, the utility model provides an elasticity detecting device, including: a substrate 100 on which a susceptor 200 is mounted, wherein an inspection stage 210 is disposed on the susceptor 200; a pressing assembly 300 installed on the substrate 100, wherein the product is fixed on the detection platform 210 through the pressing assembly 300; the lifting assembly 400 is installed on the base plate 100, and the output end of the lifting assembly 400 is connected with a transverse pushing assembly 500, wherein the transverse pushing assembly 500 comprises a power source 510, the output end of the power source 510 is connected with a deformation element 530 through a connecting piece 520, a pressure sensor 540 for detecting the pressure value of the deformation element 530 is installed on the connecting piece 520, and a push block 550 which is adhered on a product and is abutted and matched with a component; and a display electrically connected to the pressure sensor 540.

The utility model provides a pair of elasticity detection device, through deformation element 530, power supply 510 and pressure sensor 540, the thrust pressure value that will violently push away subassembly 500 production shows on the display, realizes the quantization of this thrust value to guarantee the qualification rate of product when dispatching from the factory.

Preferably, as shown in fig. 1 to 3, a mounting plate 560 is connected to an output end of the elevating assembly 400, and the traverse assembly 500 is connected to the mounting plate 560, wherein an adjusting assembly 570 for adjusting an initial pressure of the deforming member 530 is provided on the mounting plate 560.

Further preferably, the adjusting assembly 570 comprises an adjusting rod 571, and the adjusting rod 571 is disposed opposite to the connecting member 520, wherein the two ends of the deformation element 530 are connected to the connecting member 520 and the adjusting rod 571, and the initial deformation amount of the deformation element 530 is changed by rotating the adjusting rod 571 to form the initial pressure value. The operation is simple and convenient.

Preferably, as shown in fig. 1 to 3, a mounting block 561 is connected to the mounting plate 560, and the mounting block 561 and the deformation element 530 are located at both sides of the connection member 520, wherein the pressure sensor 540 is slidably connected to the mounting block 561 through a connection block 562.

In this embodiment, since the pressure sensor 540 needs to detect two pressure values, one of which is an initial pressure value of the deformation element 530, and the other is a constant pressure value (thrust) output by the deformation element 530 after deformation, after the two pressure values are measured, the pressure sensor 540 needs to be detached from the mounting block 561, and the convenience of detaching the pressure sensor 540 is facilitated, therefore, the mounting of the pressure sensor 540 is detachably connected, that is, the pressure sensor 540 is connected in a sliding fit manner, and the convenience of using the pressure sensor 540 is ensured.

Preferably, as shown in fig. 1 to 3, a position-limiting portion 580 is disposed along the direction in which the connecting member 520 moves horizontally, and the position-limiting portion 580 and the deforming member 530 are distributed vertically, wherein the position-limiting portion 580 includes a position-limiting block 581, and a position-limiting groove 582 opened on the mounting plate 560, and the position-limiting block 581 is connected to the groove bottom of the position-limiting groove 582 by a fastening member 583.

In this embodiment, by rotating the fastening member 583, the relative distance between the limiting block 581 and the limiting groove 582 is changed, so as to adjust the pressure value of the deformation element 530 in the initial state on the one hand, and adjust the pressure value of the deformation element 530 in the initial state by the adjusting rod 571, thereby forming a dual adjustment of the deformation element 530; and on the other hand, the travel of the connecting member 520 during the reset process, thereby improving the accuracy of the next pressure detection.

In the present embodiment, the installation positions of the specific structure of the transverse pushing assembly 500 are as follows: the power source 510 is a horizontal pushing cylinder, which is horizontally disposed, that is, the output end of the horizontal pushing cylinder moves horizontally, and the output end of the horizontal pushing cylinder is connected with a connecting member 520, so as to ensure the straightness of the horizontal movement of the connecting member 520 under the action of the horizontal pushing cylinder, a pair of horizontal moving rails 590 is disposed between the connecting member 520 and the mounting plate 560, wherein the connecting member 520 is slidably connected to the horizontal moving rails 590. In addition, a detachable pressure sensor 540 is provided at one side of the connector 520, and a deformation element 530 is provided at the other side of the connector 520.

Preferably, as shown in fig. 1 to 3, the pressing assembly 300 includes a pressing structure and an abutment block 310 mounted on the base 200, wherein the pressing structure includes a pressing cylinder 320, and a pressing block 330 connected to an output end of the pressing cylinder 320.

Preferably, as shown in fig. 1 to 3, the lifting assembly 400 includes a support 410, and a lifting cylinder 420 is mounted on the support 410, wherein an output end of the lifting cylinder 420 is connected with a mounting plate 560, and is slidably fitted between the mounting plate 560 and the support 410 through a vertical moving guide 430.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims

1. An elasticity detecting device, comprising:

the adjusting assembly is positioned below the transverse pushing assembly and is used for changing the initial pressure of the deformation element;

and the display is electrically connected with the pressure sensor.

2. The elasticity detecting device of claim 1, wherein a mounting plate is connected to the output end of the elevating assembly, and the traverse assembly is connected to the mounting plate, wherein the adjusting assembly is connected to the mounting plate.

3. The elasticity detecting device of claim 2, wherein the adjusting assembly comprises an adjusting rod disposed opposite to the connecting member, and wherein the deformation member is connected to the adjusting rod at two ends thereof.

4. The elasticity detecting device of claim 2, wherein a mounting block is connected to the mounting plate, and the mounting block and the deformation element are located at both sides of the connecting member, wherein the pressure sensor is slidably connected to the mounting block through the connecting block.

5. The elasticity detecting device according to claim 2, wherein a position limiting portion is provided along the direction in which the connecting member moves horizontally, and the position limiting portion and the deformation element are vertically distributed, wherein the position limiting portion includes a position limiting block and a position limiting groove formed in the mounting plate, and the position limiting block is connected to a groove bottom of the position limiting groove by a fastening member.

6. The apparatus of claim 2, wherein a traverse guide is disposed between the connecting member and the mounting plate, wherein the connecting member is slidably coupled to the traverse guide.

7. The elasticity detecting device of claim 1, wherein the pressing assembly comprises a pressing structure and an abutting block mounted on the base, wherein the pressing structure comprises a pressing cylinder and a pressing block connected with an output end of the pressing cylinder.

8. The elasticity detecting device of claim 2, wherein the lifting assembly comprises a support, and a lifting cylinder is mounted on the support, wherein a mounting plate is connected to an output end of the lifting cylinder, and the mounting plate and the support are slidably matched through a vertical moving guide rail.