CN212483168U - Novel tensile machine - Google Patents

Abstract

The utility model discloses a novel tensile machine, which comprises a tensile machine body, wherein a moving device is arranged on one side of the tensile machine body; fixing devices are arranged above the moving device and below the testing part of the tensile machine body; and an observation device is arranged on one side of the tensile machine body and one side of the fixing device. The beneficial effects of the utility model are that, adopt mobile device, fixing device cooperation, can be so that the test product be fixed in fixing device well on to mobile device can drive fixing device according to tensile machine body test position and remove, and the people of being convenient for use.

Description

Novel tensile machine

Technical Field

The utility model relates to a detect device of dynamometry in the electronic equipment, especially a novel pulling force machine.

Background

When the existing tensile machine is used, the position of the tensile machine cannot be adjusted according to the position of the upper end test fixture, and usually the lower fixing fixture is placed according to the position of the upper end test fixture, so that the mode is relatively rigid, the application range is small, the requirement on workers is relatively high, the workers are required to have sharp observation force, and the requirements of people cannot be met; moreover, the observation effect of the existing tension machine is not ideal, the observation is usually carried out manually, and only some objects on the surface can be observed by naked eyes, but some fine parts cannot be observed.

In view of the above, there is a need for an improved pulling force machine that can accommodate the current needs of people for pulling force machines.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems that the existing tensile machine can not move in double axes according to the position of the upper end test fixture, and the existing tensile machine adopts naked eyes to observe during working, so that the using effect is not good, and the mode can not realize the record storage of the working process; therefore, we have designed a novel tensile machine through the problem that exists above, thereby can carry out the biax according to the test fixture position of upper end and remove, excellent in use effect to can be to the detailed observation of tensile machine working process and record and keep.

The technical scheme of the utility model is that the novel tensile machine comprises a tensile machine body, wherein a moving device is arranged at one side of the tensile machine body; fixing devices are arranged above the moving device and below the testing part of the tensile machine body; and an observation device is arranged on one side of the tensile machine body and one side of the fixing device.

The moving device comprises an X-axis moving mechanism and a Y-axis moving mechanism, a first slide carriage is fixedly arranged below the Y-axis moving mechanism, a first transmission block is arranged in the middle of the lower portion of the first slide carriage, and the first transmission block is connected with a first screw rod on the X-axis moving mechanism.

And further supplementing the Y-axis moving mechanism, wherein a first connecting block is arranged below the first slide carriage, first moving blocks are arranged on the left side and the right side below the first connecting block, and the first moving blocks are clamped on a first slide rail on the X-axis moving mechanism.

The fixing device is arranged on the Y-axis moving mechanism and comprises a placing clamp for placing a product, a second slide carriage arranged below the clamp and a second transmission block arranged below the second slide carriage, the second slide carriage is fixedly connected with the placing clamp, the second transmission block is arranged in the middle position below the second slide carriage and fixedly connected with the lower surface of the second slide carriage, and a second lead screw on the Y-axis moving mechanism is connected with the second transmission block.

The fixing device further comprises second connecting blocks arranged on the left side and the right side below the second slide carriage and a second moving block arranged below the second slide carriage, the second connecting blocks are fixedly connected with the second slide carriage, the second connecting blocks are connected with the second moving block, and the second moving block is clamped on a second sliding rail on the Y-axis moving mechanism.

And further supplementing a placing clamp, wherein the placing clamp is a vacuum adsorption platform.

The observation device comprises a support column which plays a supporting role, a clamping block is arranged on one side, close to the fixing device, of the support column, the clamping block penetrates through the upper surface and the lower surface of the support column and is fixedly connected with the support column, and a product on the clamp is placed towards the direction of a camera lens of the industrial CCD camera on the clamping block.

The scheme is further supplemented, a damping platform is arranged below the tensile machine body, the fixing device, the observation device and the moving device, and an elastic supporting pad is arranged below the damping platform.

Further supplement to this scheme is equipped with the protection casing in the device outside.

The tensile machine has the beneficial effects that the test product can be well fixed on the fixing device by adopting the matching of the moving device and the fixing device, and the moving device can drive the fixing device to move according to the test position of the tensile machine body, so that the operation of workers is facilitated; the moving device comprises an X-axis moving mechanism and a Y-axis moving mechanism, so that the test product can move on the XY axes, the application range is wide, and the requirement on workers is low; the observation device adopts an industrial CCD camera, can observe the working process of product testing, and can capture images, thereby recording and providing certain data support for the staff to look up in the future.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic view of a first angle structure of the fixing device and the moving device according to the present invention;

fig. 3 is a second angle structure diagram of the fixing device and the moving device of the present invention;

in the figure, 1, a tensile machine body; 21. a Y-axis moving mechanism; 211. a second slide rail; 212. a second lead screw; 22. an X-axis moving mechanism; 221. a first slide rail; 222. a first lead screw; 31. placing a clamp; 32. a second slide carriage; 33. a second connecting block; 34. a second moving block; 35. a second transmission block; 41. a support pillar; 42. a clamping block; 43. an industrial CCD camera; 5. a first slide carriage; 6. a first connection block; 7. a first moving block; 8. a first transmission block; 9. a shock absorbing platform; 10. an elastic support pad.

Detailed Description

What need explain in advance, the utility model discloses a reform transform the basis is conventional pulling force machine, and the test mode is the same with current, but current pulling force machine can't carry out the biax and remove to its working process is often observed through people's naked eye, therefore we have designed a neotype pulling force machine, and this technical scheme is the improvement of making according to current pulling force machine.

In order to make the technical solution more clear to those skilled in the art, the following will explain the specific structure and operation principle of the technical solution with reference to fig. 1-3: the tensile machine mainly comprises a tensile machine body 1 used for detecting force, wherein the tensile machine body 1 adopts a high-precision force sensor, and a test chuck on the tensile machine body adopts a quick clamping device, so that different test chucks can be conveniently replaced; in order to enable a clamp for fixing a product to move according to the testing position of the tensile machine body 1, a moving device is arranged on one side of the tensile machine body 1; in order to fix a product and move along with the moving device so as to be convenient for the tensile machine body 1 to test the product, fixing devices are arranged above the moving device and below a testing part of the tensile machine body 1; in order to facilitate people to observe some fine parts in the working process of the tensile machine body 1 and record the fine parts, an observation device is arranged on one side of the tensile machine body 1 and one side of the fixing device; through the matching of the moving device, the fixing device and the observation device, the lower fixing clamp can move in a double-shaft mode according to the test clamp on the tensile machine body 1, so that the position of the lower fixing clamp can be adjusted, and the tensile machine body 1 can conveniently process the tensile machine body; the moving device, the fixing device and the observing device are the innovation points of the present invention, and the following description will be made in detail;

first, a moving means, which includes an X-axis moving mechanism 22 and a Y-axis moving mechanism 21, a first slide carriage 5 is fixedly arranged below the Y-axis moving mechanism 21, a first connecting block 6 is arranged below the first slide carriage 5, the left side and the right side below the first connecting block 6 are provided with first moving blocks 7, the first moving blocks 7 are clamped on the first slide rail 221 on the X-axis moving mechanism 22, a first transmission block 8 is arranged at the middle position below the first slide carriage 5, the first transmission block 8 is connected with a first screw rod 222 on the X-axis moving mechanism 22, so that the first transmission block 8 is driven to move by the first lead screw 222 on the X-axis moving mechanism 22 when the X-axis moving mechanism is operated, and then the Y-axis moving mechanism 21 is driven to move, and at this time, the first moving block 7 is mounted on the first slide rail 221 on the X-axis moving mechanism 22, so that the Y-axis moving mechanism 21 can be ensured to move stably.

Next, the fixing device is installed on the Y-axis moving mechanism 21, and the fixing device includes a placing jig 31 for placing a product, a second carriage 32 disposed below the jig, second connecting blocks 33 disposed on the left and right sides below the second carriage 32, a second moving block 34 disposed below the second carriage 32, and a second transmission block 35 disposed below the second carriage 32; the second slide carriage 32 is fixedly connected with the placing fixture 31, the second connecting block 33 is fixedly connected with the second slide carriage 32, the second connecting block 33 is connected with the second moving block 34, and the second moving block 34 is clamped on the second slide rail 211 on the Y-axis moving mechanism 21, so that the fixing device can slide on the second slide rail 211 through the second moving block 34; the second transmission block 35 is arranged at the middle position below the second slide carriage 32 and is fixedly connected with the lower surface of the second slide carriage, and the second screw rod 212 on the Y-axis moving mechanism 21 is connected with the second transmission block 35, so that when the Y-axis moving mechanism 21 works, the second screw rod 212 on the Y-axis moving mechanism can drive the second transmission block 35 to move, and the fixing device moves along with the second transmission block; in the process of moving the fixing device, the second moving block 34 slides on the second slide rail 211, so that the fixing device can be ensured to move smoothly.

For better product fixation, the placing fixture 31 will be further explained below, and the placing fixture 31 is a vacuum adsorption platform capable of rapidly fixing the test product.

The following elaboration is done observation device, observation device is including the support column 41 that plays the supporting role, support column 41 is close to fixing device one side and is equipped with grip block 42, grip block 42 runs through support column 41 upper and lower surface and rather than fixed connection, be equipped with industry CCD camera 43 on the grip block 42, can enlarge 500 times and be convenient for observe the micro region, and can snatch the image in operation process, the record is preserved to the people of being convenient for to industry CCD camera 43 camera lens orientation is placed the product on the anchor clamps 31, is convenient for observe the product at any time.

In order to prevent data failure caused by the installation position when the tensile machine body 1, the fixing device, the observation device and the mobile device work, the damping platform 9 is installed below the tensile machine body 1, the fixing device, the observation device and the mobile device, and the elastic supporting pad 10 is installed below the damping platform 9 to play a role in buffering and further protect the devices.

In order to prevent the data deviation from being influenced by human factors during the operation of the device, the device is placed in a place where people flow less or a protective cover is arranged outside the device, so that the device is convenient to operate efficiently and safely.

Above-mentioned technical scheme has only embodied the utility model discloses technical scheme's preferred technical scheme, some changes that this technical field's technical personnel probably made to some parts wherein have all embodied the utility model discloses a principle belongs to within the protection scope of the utility model.

Claims (8)

1. A novel tensile machine comprises a tensile machine body and is characterized in that a moving device is arranged on one side of the tensile machine body; fixing devices are arranged above the moving device and below the testing part of the tensile machine body; and an observation device is arranged on one side of the tensile machine body and one side of the fixing device.

2. The novel tensile machine as claimed in claim 1, wherein the moving device comprises an X-axis moving mechanism and a Y-axis moving mechanism, a first carriage is fixedly arranged below the Y-axis moving mechanism, a first transmission block is arranged at a middle position below the first carriage, and the first transmission block is connected with a first screw rod on the X-axis moving mechanism.

3. The novel tensile machine as claimed in claim 2, wherein a first connecting block is arranged below the first carriage, first moving blocks are arranged on the left and right sides below the first connecting block, and the first moving blocks are clamped on a first sliding rail on the X-axis moving mechanism.

4. The novel tensile machine according to claim 2 or 3, wherein the fixing device is mounted on the Y-axis moving mechanism, the fixing device comprises a placing clamp for placing a product, a second slide carriage arranged below the clamp, and a second transmission block arranged below the second slide carriage, the second slide carriage is fixedly connected with the placing clamp, the second transmission block is arranged at a middle position below the second slide carriage and fixedly connected with the lower surface of the second slide carriage, and a second screw rod on the Y-axis moving mechanism is connected with the second transmission block.

5. The novel tensile machine according to claim 4, wherein the fixing device further comprises second connecting blocks arranged on the left side and the right side below the second carriage, and a second moving block arranged below the second carriage, the second connecting blocks are fixedly connected with the second carriage, the second connecting blocks are connected with the second moving block, and the second moving block is clamped on a second slide rail on the Y-axis moving mechanism.

6. The novel tensile machine as claimed in claim 4, wherein the placing clamp is a vacuum suction platform.

7. The novel tensile machine as claimed in claim 5, wherein the observation device comprises a support pillar for supporting, a clamping block is arranged on one side of the support pillar close to the fixing device, the clamping block penetrates through the upper and lower surfaces of the support pillar and is fixedly connected with the support pillar, and an industrial CCD camera is arranged on the clamping block, and the camera lens faces towards a product placed on the clamp.

8. The novel tensile machine as claimed in claim 1, wherein a shock absorbing platform is installed below the tensile machine body, the fixing device, the observation device and the moving device, and an elastic supporting pad is installed below the shock absorbing platform.

Images