CN217237071U - Push-pull force test machine sensor accredited testing organization - Google Patents

Abstract

The utility model discloses a push-and-pull force test machine sensor accredited testing organization, including the tester body, the slot has been seted up to tester body back one side, tester body back one side is equipped with the plug that is located the slot, tester body one side fixedly connected with mounting panel is kept away from to the plug, tester body back is the symmetry and has seted up two spouts, sliding connection has the slider under being in the spout, tester body back is bilateral symmetry and is equipped with two backup pads, the backup pad is close to tester body one side and slider fixed connection, backup pad one side is equipped with spacing subassembly, plug back fixedly connected with power cord, the utility model discloses when using, have and carry on spacingly to plug and tester, guarantee test work and normally go on, improve detection efficiency's effect.

Description

Push-pull force test machine sensor accredited testing organization

Technical Field

The utility model relates to a accredited testing organization technical field especially relates to a push-and-pull force test machine sensor accredited testing organization.

Background

The push-pull force tester is a mechanical measuring instrument for testing push force and pull force. The device is suitable for push-pull load testing in industries such as electronic appliances, light industry textiles, building hardware, fire-fighting equipment, fishing gear, power machinery, scientific research institutions and the like.

When the push-pull force testing machine is used for testing the push-pull load of an object to be tested, the push-pull force sensor is required to be used for accurately detecting the push-pull force load limit of the object to be tested, the limit can be fed back to a corresponding display screen in a data form, before the push-pull force testing machine is produced, the accuracy of the push-pull sensor is often required to be detected firstly, the most common detection method is to connect the push-pull sensor with a tester, then place the sensor on the ground, then connect the tester with an external power supply by using a power line, then place a weight with a corresponding weight on the top of the push-pull force sensor stably, at the moment, the tester can feed back the weight of the weight to the display screen of the tester, and can quickly detect the accuracy of the push-pull force sensor by replacing weights with different weights, but then connect the power line with the tester, the power line is scattered on the ground due to a certain length, once workers walk around the power line, the power line is very easy to kick or trip, so that a plug of the power line is separated from a tester, the plug of the power line can only be connected with the tester again at the moment, the test work needs to be carried out again, and the test efficiency is reduced.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the shortcomings existing in the prior art related to the background art and providing a push-pull force testing machine sensor testing mechanism.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a push-pull force test machine sensor accredited testing organization, includes the tester body, the slot has been seted up to tester body back one side, tester body back one side is equipped with the plug that is located the slot, tester body one side fixedly connected with mounting panel is kept away from to the plug, tester body back is the symmetry and has seted up two spouts, be sliding connection in the spout about, tester body back is bilateral symmetry and is equipped with two backup pads, the backup pad is close to tester body one side and slider fixed connection, backup pad one side is equipped with spacing subassembly, plug back fixedly connected with power cord.

Preferably, the limiting assembly comprises a sleeve arranged at the top and the bottom of one side of the supporting plate, and three supporting rods fixedly connected with the supporting plate are fixedly connected to one side of the sleeve.

Preferably, a limiting rod is arranged inside the sleeve, and the surface of the limiting rod is fixedly connected with a sliding plate in sliding connection with the inner wall of the sleeve.

Preferably, the surface of the sliding plate is sleeved with a spring positioned in the sleeve, and two ends of the spring are fixedly connected with the inner wall of one side of the sliding plate and the inner wall of one side of the sleeve respectively.

Preferably, the two ends of the limiting rod penetrate through the two sides of the sleeve respectively and are in sliding connection with the sleeve, and one end of the limiting rod is fixedly connected with a silica gel cushion block which is in butt joint with the mounting plate.

Preferably, two the gag lever post other end is connected with a riser jointly, two common fixedly connected with diaphragm between the riser, the equal fixedly connected with in diaphragm top both sides and riser fixed connection's handle.

Preferably, the tester body back is two fixed plates of symmetry fixedly connected with, the trompil has all been seted up in the fixed plate and backup pad one side run through, fixed plate one side is equipped with the inserted bar that passes the trompil.

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

1. the utility model discloses when using, it is spacing to have plug and tester, guarantee that test work normally goes on, the effect of detection efficiency is improved, insert when the slot is inside when the plug, upwards the lifting removes in the time of pulling the handle, thereby it rises with the slider to drive the backup pad through spacing subassembly, rise after the assigned distance when the backup pad, loosen the riser, the riser is reset by extruded spring before can driving after being loosened, the spring resets and can drive the slide and remove, the slide removes and can drive gag lever post and silica gel cushion and move towards the direction of mounting panel, and then make the silica gel cushion tightly carry out the butt to the mounting panel, make the plug link together with the tester steadily, guarantee that the plug can not separate with the tester because of receiving the influence of external force.

2. The utility model discloses when using, still have and fix the backup pad fast, make things convenient for the effect of plug, when the silica gel cushion carries out tight butt to the mounting panel, pass the trompil with inserted bar one end, and then can fix the backup pad, the backup pad can't remove at will this moment, when using the completion needs to pull out the plug, break away from inserted bar one end from the trompil and take off, stimulate this moment and descend the handle, make silica gel cushion and mounting panel separate, the decline of handle can drive spacing subassembly and backup pad decline simultaneously, when the backup pad descends to suitable position department this moment, just can be convenient for pull out the plug, and then convenience when having improved the plug.

Drawings

Fig. 1 is a schematic view of a first view angle of an overall structure of a sensor testing mechanism of a push-pull force testing machine according to the present invention;

fig. 2 is a second schematic view of the overall structure of the sensor testing mechanism of the push-pull force testing machine according to the present invention;

fig. 3 is a schematic view of a split structure of the tester body and the plug in fig. 2 according to the present invention;

fig. 4 is a schematic view of a connection structure between the supporting plate and the limiting component in fig. 2 according to the present invention;

fig. 5 is a schematic view of the split structure of the sleeve and the slide plate in fig. 4 according to the present invention;

in the figure: 1. a tester body; 2. a slot; 3. a plug; 4. mounting a plate; 5. a chute; 6. a slider; 7. a support plate; 8. a limiting component; 801. a support bar; 802. a sleeve; 803. a limiting rod; 804. a slide plate; 805. a spring; 806. a silica gel cushion block; 807. a vertical plate; 808. a transverse plate; 809. a handle; 9. a power line; 10. a fixing plate; 11. opening a hole; 12. and (4) inserting a rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments.

Referring to fig. 1-5, a push-pull force tester sensor testing mechanism comprises a tester body 1, a slot 2 is arranged on one side of the back of the tester body 1, a plug 3 positioned in the slot 2 is arranged on one side of the back of the tester body 1, a mounting plate 4 is fixedly connected with one side of the plug 3 away from the tester body 1, two sliding grooves 5 are symmetrically arranged on the back of the tester body 1, sliding blocks 6 are slidably connected with the sliding grooves 5 in an up-down manner, two supporting plates 7 are symmetrically arranged on the back of the tester body 1 in a left-right manner, one sides of the supporting plates 7 close to the tester body 1 are fixedly connected with the sliding blocks 6, a limiting component 8 is arranged on one side of the supporting plates 7, a power cord 9 is fixedly connected with the back of the plug 3, when the plug 3 is inserted into the slot 2, then a handle 809 is pulled to move towards the direction away from the tester body 1, and the handle 809 can drive a transverse plate 808 and a vertical plate 807 to move, the vertical plate 807 moves to drive the limiting rod 803 to move, the limiting rod 803 moves to drive the sliding plate 804 to slide in the sleeve 802, the sliding plate 804 slides to extrude the spring 805, the silica gel cushion block 806 is far away from the tester body 1, the handle 809 is lifted upwards while the handle 809 is pulled, the handle 809 moves to be driven by the limiting component 8, the limiting component 8 moves to drive the supporting plate 7 to ascend, after the supporting plate 7 ascends to a specified position, the handle 809 is loosened, the handle 809 is reset without pulling, the spring 805 loses extrusion force and resets, the spring 805 resets to drive the sliding plate 804 to move towards the direction close to the tester body 1 in the sleeve 802, the sliding plate 804 moves to drive the limiting rod 803 to move, the limiting rod 803 moves to drive the silica gel cushion block 806 to abut against the mounting plate 4 tightly, and one end of the inserted rod 12 which is taken down before passes through the two openings 11, and then fix backup pad 7, this moment silica gel cushion 806 tightly supports the mounting panel 4, and then guarantees that test work goes on smoothly.

Referring to fig. 1-5, the limiting assembly 8 includes a sleeve 802 disposed on the top and the bottom of one side of the supporting plate 7, one side of the sleeve 802 is fixedly connected with three supporting rods 801 fixedly connected with the supporting plate 7, when the supporting plate 7 moves, the supporting rods 801 can be driven to move, at this time, the whole limiting assembly 8 can move along with the supporting plate 7 through the supporting rods 801, and the position of the limiting assembly 8 can be conveniently adjusted.

Referring to fig. 1-5, a limiting rod 803 is arranged inside a sleeve 802, a sliding plate 804 which is connected with the inner wall of the sleeve 802 in a sliding manner is fixedly arranged on the surface of the limiting rod 803, when the plug 3 needs to be fixed, a pulled handle 809 is loosened, at the moment, the spring 805 loses extrusion and begins to reset, and then the sliding plate 804 is driven to move in the sleeve 802, the sliding plate 804 moves to drive the limiting rod 803 and a silica gel cushion block 806 to move towards the direction of a mounting plate 4, so that the silica gel cushion block 806 can be abutted against the mounting plate 4, and the plug 3 is ensured not to drop randomly.

Referring to fig. 4 and 5, the surface cover of sliding plate 804 is equipped with the spring 805 that is located sleeve 802 inside, spring 805 both ends respectively with sliding plate 804 one side, sleeve 802 one side inner wall fixed connection, can extrude spring 805 and drive silica gel cushion 806 and keep away from mounting panel 4 through pulling handle 809, can make spring 805 reset and drive silica gel cushion 806 and remove towards the direction of mounting panel 4 through loosening handle 809, and then can fix a position plug 3 fast, improved the convenience when fixing a position plug 3.

Referring to fig. 4 and 5, two ends of the limiting rod 803 respectively penetrate through two sides of the sleeve 802 and are in sliding connection with the sleeve 802, one end of the limiting rod 803 is fixedly connected with a silica gel cushion block 806 which is abutted to the mounting plate 4, when the spring 805 resets, the limiting rod 803 can be driven to move towards the plug 3, the moving speed of the limiting rod 803 is high, the mounting plate 4 and the plug 3 cannot be damaged when the limiting rod 803 moves through the silica gel cushion block 806, and the service lives of the plug 3 and the mounting plate 4 are prolonged.

Referring to fig. 4 and 5, two gag lever post 803 other ends are connected with a riser 807 jointly, common diaphragm 808 of fixedly connected with between two risers 807, the equal fixedly connected with in diaphragm 808 top both sides and riser 807 fixed connection's handle 809, can drive diaphragm 808 and riser 807 when pulling handle 809 and remove, and then be convenient for adjust four gag lever posts 803, can drive two backup pad 7 synchronous motion when the lifting handle 809 that rises simultaneously again, be convenient for adjust the position of spacing subassembly 8, and then improved the device's practicality.

Referring to fig. 1-4, the back of the tester body 1 is symmetrically and fixedly connected with two fixing plates 10, one side of each fixing plate 10 and one side of the supporting plate 7 are both provided with an opening 11, one side of each fixing plate 10 is provided with an inserted link 12 penetrating through the opening 11, when the plug 3 needs to be positioned, one end of the inserted link 12 passes through the two openings 11, at the moment, the inserted link 12 limits the support plate 7 to ensure that the support plate 7 cannot move randomly, when the plug 3 needs to be plugged, the plugging rod 12 is pulled, so that one end of the plugging rod 12 is separated from the two openings 11, the supporting plate 7 can be freely moved, and then by pulling the handle 809 and moving the handle 809 downwards, the silica gel pad 806 can be quickly separated from the mounting plate 4, meanwhile, the limiting component 8 descends to the bottom of the back face of the tester body 1, and the plug 3 can be rapidly pulled out of the slot 2.

In the utility model, when the user needs to use the device, one end of the inserted link 12 is detached from the open pore 11 and taken down, then the support plate 7 can be moved freely, at the moment, the user pulls the handle 809, the handle 809 can drive the transverse plate 808 and the vertical plate 807 to descend when receiving downward pulling force, the vertical plate 807 descends to drive the limiting rod 803 and the sliding plate 804 to descend, the sliding plate 804 descends to drive the sleeve 802 to descend, the sleeve 802 descends to drive the support rod 801 to move, the support rod 801 moves to drive the support plate 7 to descend, the support plate 7 descends to drive the sliding block 6 to move in the sliding groove 5, when the support plate 7 descends to a proper position, the plug 3 is inserted into the slot 2, the mounting plate 4 is attached to the back of the tester body 1, then the handle 809 is pulled to move towards the direction away from the tester body 1, the handle 809 moves to drive the transverse plates 808 and the vertical plate 807 to move, the vertical plate 807 moves to drive the limiting rod 803 to move, the limiting rod 803 moves to drive the sliding plate 804 to slide in the sleeve 802, the sliding plate 804 slides to extrude the spring 805, the silica gel cushion 806 is far away from the tester body 1, the handle 809 is lifted upwards while the handle 809 is pulled, the handle 809 moves to be driven by the limiting component 8, the limiting component 8 moves to drive the supporting plate 7 to ascend, after the supporting plate 7 ascends to a specified position, the handle 809 is loosened, the handle 809 does not pull and then the spring 805 loses extrusion force to reset, the spring 805 resets to drive the sliding plate 804 to move in the direction close to the tester body 1 in the sleeve 802, the sliding plate 804 moves to drive the limiting rod 803 to move, the limiting rod 803 moves to drive the silica gel cushion 806 to abut against the mounting plate 4 tightly, and at the moment, one end of the inserted rod 12 which is taken down before passes through the two open holes 11, and then fix backup pad 7, this moment silica gel cushion 806 tightly supports the mounting panel 4, and backup pad 7 can't remove, and then can make plug 3 and tester body 1 tightly link together.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (7)

1. A push-pull force tester sensor testing mechanism comprises a tester body (1), it is characterized in that one side of the back of the tester body (1) is provided with a slot (2), one side of the back of the tester body (1) is provided with a plug (3) positioned in the slot (2), one side of the plug (3) far away from the tester body (1) is fixedly connected with a mounting plate (4), the back of the tester body (1) is symmetrically provided with two sliding chutes (5), the inside of the sliding chute (5) is connected with a sliding block (6) in an up-down sliding way, the back of the tester body (1) is symmetrically provided with two supporting plates (7) at the left and right sides, one side of the supporting plate (7) close to the tester body (1) is fixedly connected with the sliding block (6), one side of the supporting plate (7) is provided with a limiting component (8), and the back of the plug (3) is fixedly connected with a power line (9).

2. The sensor testing mechanism of a push-pull force testing machine as claimed in claim 1, wherein the limiting component (8) comprises a sleeve (802) disposed at the top and bottom of one side of the supporting plate (7), and three supporting rods (801) fixedly connected with the supporting plate (7) are fixedly connected to one side of the sleeve (802).

3. A push-pull force testing machine sensor testing mechanism as claimed in claim 2, characterized in that a limiting rod (803) is provided inside said sleeve (802), and a sliding plate (804) slidably connected to the inner wall of said sleeve (802) is fixedly connected to the surface of said limiting rod (803).

4. The mechanism as claimed in claim 3, wherein the sliding plate (804) is sleeved with a spring (805) inside the sleeve (802), and two ends of the spring (805) are respectively fixed to one side of the sliding plate (804) and one side of the sleeve (802).

5. The sensor testing mechanism of a push-pull force testing machine according to claim 4, wherein two ends of the limiting rod (803) respectively penetrate through two sides of the sleeve (802) and are slidably connected with the sleeve (802), and one end of the limiting rod (803) is fixedly connected with a silica gel cushion block (806) which is abutted against the mounting plate (4).

6. The push-pull force testing machine sensor testing mechanism as claimed in claim 5, wherein a vertical plate (807) is connected to the other end of each of the two limiting rods (803), a transverse plate (808) is fixedly connected between the two vertical plates (807), and handles (809) fixedly connected with the vertical plates (807) are fixedly connected to both sides of the top of the transverse plate (808).

7. The push-pull force testing machine sensor testing mechanism of claim 1, wherein the back of the tester body (1) is symmetrically and fixedly connected with two fixing plates (10), one side of each of the fixing plates (10) and the supporting plate (7) is provided with an opening (11), and one side of each of the fixing plates (10) is provided with an insertion rod (12) penetrating through the openings (11).

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