CN216646061U - A accommodating device for materials of a universal testing machine - Google Patents

Abstract

The utility model relates to the technical field of universal testing machines, in particular to a material containing device of a universal testing machine, which comprises a universal testing machine, wherein a first rectangular groove is formed in the side end part of the universal testing machine, a transverse plate mechanism convenient for classifying and storing experimental materials is arranged on the universal testing machine, a clamping plate mechanism convenient for clamping the experimental materials is arranged on the transverse plate mechanism, the transverse plate mechanism comprises a baffle plate and a first fixed plate, a containing groove is formed in the side end part of the baffle plate, an arc-shaped groove is formed in the side end part of the containing groove, a first sliding groove is formed in the end part of the containing groove, and a first sliding groove is formed in the end part of the outer side wall of the baffle plate. According to the utility model, through arranging the baffle plate positioned in the first rectangular groove, when the universal testing machine is used for carrying out an experiment, an experimental material is stored in the universal testing machine, so that the experimental material is prevented from falling off or falling dust and the like when being exposed outside, the accuracy of the experiment is prevented from being influenced, and a certain protection effect is provided for the experimental material.

Description

A accommodating device for materials of a universal testing machine

technical field

The application relates to the technical field of universal testing machines, and in particular, to a device for accommodating materials of universal testing machines.

Background technique

The computer system of the universal testing machine controls the rotation of the servo motor through the controller and the speed regulating system. After deceleration by the deceleration system, the moving beam is driven up and down by the precision screw pair to complete the stretching, compression, bending, shearing, etc. of the sample. Various mechanical property tests.

The existing universal testing machine has the following shortcomings. In the experimental process of the existing universal testing machine, it is necessary to conduct experiments on multiple groups of materials and compare the experimental data. Therefore, it is necessary to classify the experimental materials of different specifications, but in general In the process of use, the materials are mixed together, and it is necessary to search for the materials during the experiment. It is a waste of time to carry out the experiment on the universal testing machine, which affects the user's experimental efficiency, and if the material is taken by mistake, the experimental data may be inaccurate.

Utility model content

The purpose of the present invention is to provide a material accommodating device for a universal testing machine, so as to solve the problems raised in the above background technology.

The following technical solutions are adopted in the embodiments of the present application: a device for accommodating materials of a universal testing machine, including a universal testing machine, a rectangular slot is opened at the side end of the universal testing machine, and a A horizontal plate mechanism for classifying and storing materials. The horizontal plate mechanism is provided with a plywood mechanism for clamping experimental materials. The horizontal plate mechanism includes a baffle plate and a fixed plate one. The side end of the accommodating groove is provided with an arc-shaped groove, the end of the accommodating groove is provided with a chute 1, the end of the outer side wall of the baffle is provided with a chute 1, and the end of the chute 1 is provided with a chute 1. A sliding rod is slidably installed on the inner side wall, the sliding rod is fixedly installed on the side end of the rectangular groove 1 on the universal testing machine, and the circumferential end of the sliding rod is fixedly installed with a limiting column, and the limiting column is located in the sliding groove 1. , a sliding block is fixedly installed on the side end of the fixing plate 1, the sliding block is slidably installed in the sliding groove 1, the upper end of the fixing plate 1 is provided with a rectangular groove 3, and the side of the fixing plate 1 A rectangular groove two is formed through the end, and a sliding groove two is formed on the side end of the fixed plate one away from the slider. The inner side wall of the rectangular groove two is slidably installed with two fixed plates two. The same spring 1 is fixedly installed between the two, the side ends of the two fixing plates 2 are fixedly installed with T-shaped bumps, and the two T-shaped bumps are slidably installed in the second chute. The upper ends of each of the second fixing plates are provided with rectangular grooves four

Preferably, the splint mechanism includes a triangular splint, the number of the triangle splint is two, the lower ends of the two triangular splints are fixedly installed with T-shaped sliders, and the two T-shaped sliders are fixed between Installed with the same spring three.

Preferably, the side ends of the two triangular splints are provided with blocks, the two springs are fixedly installed between the two triangular splints and the two blocks, and the side ends of the two triangular splints are Fixed installation with rubber pads

The above-mentioned at least one technical solution adopted in the embodiments of the present application can achieve the following beneficial effects:

First, the device is provided with a fixed plate 1 and a fixed plate 2, so that materials of different specifications can be classified and placed according to the needs of users, and it is more convenient for users to search and place materials when they use the universal testing machine for experiments. It is faster and more convenient for users to use the universal testing machine to conduct experiments on various materials, which makes the experimental data more accurate, and the fixed plate 1 and the fixed plate 2 on the device can be adjusted in the vertical direction according to the experimental materials. practicability.

Second, the device can clamp the experimental materials of different sizes and shapes by setting the spring 3 and the triangular splint, and the side end of the triangular splint is provided with a rubber pad, and the rubber pad is soft and has a certain quality. The friction force can help to hold the experimental material and at the same time play a certain protective effect on the experimental material.

Third, the device is provided with a baffle plate located in the rectangular groove 1. When the universal testing machine is conducting experiments, the experimental materials are stored in the universal testing machine to prevent the experimental materials from being exposed and falling or falling on dust, etc., which will affect the experimental performance. The accuracy has a certain protective effect on the experimental materials.

Description of drawings

The drawings described herein are used to provide further understanding of the present application and constitute a part of the present application. The schematic embodiments and descriptions of the present application are used to explain the present application and do not constitute an improper limitation of the present application. In the attached image:

Fig. 1 is the structural representation of the utility model universal testing machine;

Fig. 2 is the structural representation of the accommodating groove of the utility model;

3 is a schematic structural diagram of a sliding rod of the present invention;

4 is a schematic structural diagram of a fixed plate 1 of the present invention;

FIG. 5 is a schematic structural diagram of the second fixing plate of the present invention.

In the picture: 1. Universal testing machine; 11. Rectangular slot one; 2. Baffle plate; 21. Receiving slot; 22. Arc-shaped slot; 23. Chute one; Fixed plate one; 31, slider; 32, rectangular groove two; 33, rectangular groove three; 34, chute two; 4, fixed plate two; 41, rectangular groove four; 42, T-shaped bump; 43, spring one ; 5, triangular splint; 51, spring two; 52, block; 53, rubber pad; 54, spring three; 55, T-shaped slider.

Detailed ways

In order to make the objectives, technical solutions and advantages of the present application clearer, the technical solutions of the present application will be clearly and completely described below with reference to the specific embodiments of the present application and the corresponding drawings. Obviously, the described embodiments are only a part of the embodiments of the present application, but not all of the embodiments. Based on the embodiments in the present application, all other embodiments obtained by those of ordinary skill in the art without creative efforts shall fall within the protection scope of the present application.

The technical solutions provided by the embodiments of the present application will be described in detail below with reference to the accompanying drawings.

Please refer to FIG. 1 to FIG. 5 , a device for accommodating materials of a universal testing machine, including a universal testing machine 1 , a rectangular slot 11 is formed on the side end of the universal testing machine 1, and a The horizontal plate mechanism for classified storage. The horizontal plate mechanism is provided with a splint mechanism that is convenient for clamping experimental materials. The horizontal plate mechanism includes a baffle plate 2 and a fixed plate 1 3. The side end of the baffle plate 2 is provided with an accommodation groove 21 to accommodate The side end of the groove 21 is provided with an arc groove 22, the end of the accommodating groove 21 is provided with a chute 1 23, the end of the outer side wall of the baffle plate 2 is provided with a chute 1 23, and the inner side wall of the chute 23 is slidably installed There is a sliding rod 25, the sliding rod 25 is fixedly installed on the side end of the rectangular groove 11 on the universal testing machine 1, the circumferential end of the sliding rod 25 is fixedly installed with a limit post 24, and the limit post 24 is located in the chute 1 23. The setting of the limiting post 24 has a certain limiting effect on the baffle 2, preventing the baffle 2 from being completely pulled out from the sliding rod 25;

A sliding block 31 is fixedly installed on the side end of the fixing plate 1 3. The sliding block 31 is slidably installed in the sliding groove 1 23. A rectangular groove 33 is formed through the upper end of the fixing plate 1 3. The side end of the fixing plate 1 3 A rectangular groove 2 32 is formed through it, and a sliding groove 2 34 is opened at the side end of the fixing plate 1 3 away from the slider 31 . The same spring one 43 is fixedly installed between them, and T-shaped bumps 42 are fixedly installed on the side ends of the two fixing plates 4. The two T-shaped bumps 42 are slidably installed in the second chute 34. The upper ends of the two fixing plates 4 are provided with rectangular grooves 41 , and the two T-shaped bumps 42 can be pressed to approach each other. The first spring 43 is deformed. At this time, the ends of the two fixing plates 4 leave the arc groove 22 opened on the accommodating groove 21. The user can move the fixing plate 1 and the fixing plate 2 4 in the vertical direction and drive the sliding. The block 31 slides on the chute 1 23, after the fixing plate 2 4 and the fixing plate 1 3 are moved to the proper position, the user can release the two T-shaped bumps 42, at this time the spring 1 43 rebounds and pushes the two. The ends of the second fixing plates 4 re-enter into the chute 1 23, and at this time the first fixing plates 3 and the second fixing plates 4 stop moving;

The splint mechanism includes a triangular splint 5, the number of the triangular splint 5 is two, the lower ends of the two triangular splints 5 are fixedly installed with a T-shaped slider 55, and the same spring three is fixed between the two T-shaped sliders 55. 54, the side ends of the two triangular splints 5 are provided with stoppers 52, and the setting of the stoppers 52 can assist the triangular splints 5 to clamp the experimental material;

Spring II 51 is fixedly installed between the two triangular splints 5 and the two stoppers 52. When the fixing plate 1 3 and the fixing plate 2 4 are adjusted to appropriate positions, the experimental material can be placed with two triangular splints 5. At this time, the spring three 54 between the two T-shaped sliders 55 is stretched and deformed by force, and at the same time, a clamping force is provided to the experimental material to hold the experimental material;

Rubber pads 53 are fixedly installed on the side ends of the two triangular splints 5. The rubber pads 53 are soft and have a certain frictional force, which can help to clamp the experimental materials and at the same time play a certain protective role for the experimental materials.

working principle:

The first step is to use the handle on the pullable baffle 2 to move outward, the handle drives the baffle 2 to gradually move out of the rectangular slot 11, and the baffle 2 moves outward to drive the chute 1 23 to contact the limit on the slide bar 25. When the post 24 is positioned, the user can stop pulling the accommodating groove 21. At this time, the user can press the two T-shaped bumps 42 to approach each other. The two T-shaped bumps 42 approach each other and drive the two fixing plates 24 to approach each other and compress The first spring 43 is deformed. At this time, the ends of the two fixing plates 4 leave the arc groove 22 opened on the accommodating groove 21. The user can move the fixing plate 1 and the fixing plate 2 4 in the vertical direction and drive the sliding. The block 31 slides on the chute 1 23, after the fixing plate 2 4 and the fixing plate 1 3 are moved to the proper position, the user can release the two T-shaped bumps 42, at this time the spring 1 43 rebounds and pushes the two. The ends of the second fixing plates 4 re-enter the chute 1 23, and the fixing plates 1 3 and the second fixing plates 4 stop moving at this time. Experiment and compare the experimental data, so it is necessary to classify the experimental materials of different specifications, but in the general use process, the materials are mixed together, and the materials need to be searched during the experiment, and placed on the universal testing machine 1 to carry out the experiment, It is a waste of time and affects the user's experimental efficiency, and if the material is taken by mistake, the experimental data may be inaccurate. By setting the fixing plate 1 3 and the fixing plate 2 4, the device can make materials of different specifications according to the user's needs. Sorting and placing makes it easier for users to find and place materials when using the universal testing machine 1 for experiments, so that the user can use the universal testing machine 1 to conduct experiments on various materials more quickly and conveniently, making the experimental data more accurate, and this The first fixed plate 3 and the second fixed plate 4 on the device can be adjusted in position according to the experimental material in the vertical direction, which improves the practicability of the device.

In the second step, when in use, when the fixing plate 1 3 and the fixing plate 2 4 are adjusted to the appropriate positions, the experimental material can be placed between the two triangular splints 5. At this time, the two T-shaped sliders 55 The spring No. 3 54 in between is stretched and deformed by force, and at the same time, it will provide a clamping force to the experimental material to hold the experimental material. The experimental material is clamped, and the side end of the triangular splint 5 is provided with a rubber pad 53. The material of the rubber pad 53 is relatively soft and has a certain frictional force. protective effect.

The above descriptions are merely examples of the present application, and are not intended to limit the present application. Various modifications and variations of this application are possible for those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of this application shall be included within the scope of the claims of this application.

Claims (6)

1. A container for a universal testing machine material, comprising a universal testing machine (1), characterized in that: the side end of the universal testing machine (1) is provided with a rectangular slot one (11), and the universal testing machine (1) (1) There is a horizontal plate mechanism that is convenient for classifying and storing the experimental materials, and the horizontal plate mechanism is provided with a plywood mechanism that is convenient for clamping the experimental materials; The horizontal plate mechanism comprises a baffle plate (2) and a fixed plate one (3), a side end of the baffle plate (2) is provided with an accommodating groove (21), and a side end of the accommodating groove (21) is opened There is an arc groove (22), the end of the accommodating groove (21) is provided with a chute 1 (23), and the end of the outer side wall of the baffle (2) is provided with a chute 1 (23). A sliding rod (25) is slidably installed on the inner side wall of the first chute (23). 2. The material accommodating device of a universal testing machine according to claim 1, wherein the sliding rod (25) is fixedly installed on the side end of the rectangular groove one (11) on the universal testing machine (1). , a limit post (24) is fixedly installed on the circumferential end of the sliding rod (25), and the limit post (24) is located in the first chute (23). The accommodating device for materials of a universal testing machine according to claim 2, characterized in that: a slider (31) is fixedly installed on the side end of the first fixing plate (3), and the slider (31) ) is slidably installed in the first chute (23), the upper end of the fixed plate one (3) is provided with a rectangular groove three (33), and the side end of the fixed plate one (3) is provided with a rectangular groove. Two (32), the side end of the fixed plate one (3) away from the slider (31) is provided with a second chute (34). 4. The material accommodating device of a universal testing machine according to claim 3, characterized in that: two fixing plates (4) are slidably installed on the inner side walls of the rectangular groove two (32), and the two said The same spring one (43) is fixedly installed between the second fixing plates (4), and T-shaped bumps (42) are fixedly installed on the side ends of the two fixing plates (4). The T-shaped bumps (42) are all slidably installed in the second chute (34), and the upper ends of the two fixing plates (4) are both provided with a fourth rectangular slot (41). 5. The accommodating device of a universal testing machine material according to claim 1, wherein the splint mechanism comprises a triangular splint (5), and the number of the triangular splint (5) is two, and the two are A T-shaped sliding block (55) is fixedly installed on the lower end of the triangular splint (5), and the same spring three (54) is fixedly installed between the two T-shaped sliding blocks (55). The accommodating device for materials of a universal testing machine according to claim 5, characterized in that: the side ends of the two triangular splints (5) are provided with blocks (52), and the two triangular splints (5) are provided with blocks (52). Two springs (51) are fixedly installed between the splint (5) and the two stoppers (52), and rubber pads (53) are fixedly installed at the side ends of the two triangular splints (5).

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