CN213714908U - Movable electron tensile testing machine - Google Patents

Abstract

The application relates to a movable electron tensile testing machine, it includes testing machine body and a plurality of universal wheel, and a plurality of universal wheels are fixed to be set up in the bottom of testing machine body, and the bottom of testing machine body is provided with first supporting component and second supporting component, and first supporting component and second supporting component set up respectively in the relative both sides in testing machine body bottom, and first supporting component and second supporting component all articulate with the testing machine body. This application is through setting up the testing machine body, first supporting component and second supporting component, it needs to remove electron tensile testing machine to have at the staff, promote the testing machine body, remove electron tensile testing machine assigned position, then rotate first supporting component and second supporting component, thereby make first supporting component and second supporting component support the testing machine body, and then make universal wheel and ground separation, finally reach the effect that increases electron tensile testing machine during operation stability.

Description

Movable electron tensile testing machine

Technical Field

The application relates to the technical field of experimental equipment, in particular to a movable electronic tension testing machine.

Background

The tension tester is a mechanical stress tester for testing the mechanical properties of various materials such as static load, tension, compression, tearing, peeling and the like, and is suitable for testing various physical and mechanical properties of materials such as plastic plates, pipes, profiled bars, steel and the like.

In the related art, as the chinese utility model patent with publication number CN207610915U, a height adjusting device for an electronic tensile testing machine is disclosed, comprising a base, a testing machine, a transmission bin and a tensile block, wherein the testing machine is installed on the top of the base through bolts, and the transmission bins are arranged on both sides in the testing machine, the tensile block is arranged between the transmission bins, a motor box is installed on one side of the bottom of the transmission bin, and a forward and reverse motor is arranged in the motor box, a speed reducing motor is installed on the driving end of the forward and reverse motor, a slide rail is arranged on one side of the transmission bin, and a rotating chain is installed on one side of the slide rail through a rotating shaft, a rotating fluted disc is installed on the forward and reverse motor through a driving end, and the working end of the rotating disc is located on the rotating chain, walking blocks are arranged at both ends of the tensile block, and the walking blocks are located on the rotating chain, sliders are arranged on, set up the pulling force through the installation piece between the pulling force piece and detain, a side-mounting radiator fan in the motor case, and motor incasement top installation dehumidifier, the testing machine surface sets up the scale, the base bottom is through pivot installation gyro wheel. The height adjusting device for the electronic tension tester is reasonable in design and convenient to operate.

In view of the above-mentioned related art, the inventor thinks that when the height adjusting device for the electronic tension tester is used to detect a test piece, if the height adjusting device for the electronic tension tester is placed on an unstable ground, the height adjusting device for the electronic tension tester will slide along the ground, and then the defect that the height adjusting device for the electronic tension tester is unstable during operation exists.

SUMMERY OF THE UTILITY MODEL

In order to alleviate the unstable problem of high adjusting device during operation for electronic tensile test machine, this application provides a movable electron tensile test machine.

The application provides a movable electron tensile testing machine adopts following technical scheme:

the utility model provides a movable electron tensile testing machine, includes testing machine body and a plurality of universal wheel, and is a plurality of the fixed bottom that sets up at the testing machine body of universal wheel, the bottom of testing machine body is provided with first supporting component and second supporting component, first supporting component and second supporting component set up respectively in the relative both sides in testing machine body bottom, first supporting component and second supporting component all articulate with the testing machine body.

Through adopting above-mentioned technical scheme, when the staff need remove electron tensile test machine, the push test machine body, make universal wheel and ground take place relative roll, then remove electron tensile test machine to the assigned position, then rotate first supporting component and second supporting component, thereby make first supporting component and second supporting component support the test machine body, and then make universal wheel and ground separation, finally reach the effect that increases electron tensile test machine during operation stability.

Optionally, the first supporting component comprises a first connecting rod and two first supporting legs, wherein the two first supporting legs are respectively arranged at two ends of the first connecting rod, and are fixedly connected with the first connecting rod in a perpendicular mode, and the two first supporting legs are hinged to the testing machine body.

Through adopting above-mentioned technical scheme, when the staff rotated first supporting component, rotate the head rod, the head rod drives two first supporting legs and rotates, two first supporting legs support the testing machine body with ground butt simultaneously, finally make the universal wheel and the ground separation that are close to first supporting component, with first supporting leg fixed connection at the both ends of head rod, can make the head rod drive two first supporting legs and move, and then reduce the step when the staff operates first supporting component.

Optionally, the second supporting component includes second connecting rod and two second supporting legs, two the second supporting leg sets up respectively at the both ends of second connecting rod, and two the second supporting leg all with the perpendicular fixed connection of second connecting rod, and two the second supporting leg all articulates with the testing machine body, two the one end that the testing machine body was kept away from to the second supporting leg all is provided with the wheel that rolls, two the direction of rolling the wheel orientation or the direction of keeping away from first supporting leg.

Through adopting above-mentioned technical scheme, when the staff need support the testing machine body, rotate the second connecting rod, the second connecting rod drives two second supporting leg motions, then make the roll wheel on two second supporting legs together with ground butt, thereby make the universal wheel and the ground separation that are close to the second supporting leg, then drive the head rod, make first bracing piece and ground butt and support the testing machine body simultaneously, carry out the in-process that complete support was carried out to the testing machine body at first bracing piece and ground butt, roll wheel on the second bracing piece takes place relative roll with ground, thereby make the roll wheel drive the motion of second supporting leg towards first supporting leg locking direction, finally reach the convenience when increasing the staff and supporting the testing machine body.

Optionally, two all be provided with the extension spring on first supporting leg and the two second supporting legs, many the one end of extension spring all articulates with the testing machine body, many the other end of extension spring articulates with first supporting leg, the second supporting leg that corresponds separately respectively.

Through adopting above-mentioned technical scheme, when the staff removed the electron tensile test, first supporting leg, second supporting leg are in the same place with the testing machine body butt under the effect of extension spring to reduce first supporting leg and second supporting leg and ground butt and influence the removal of testing machine body under the effect of self gravity.

Optionally, the testing machine body is provided with a locking assembly for locking the first supporting leg, the second supporting leg and the testing machine body to rotate relatively.

Through adopting above-mentioned technical scheme, support the back well with first supporting leg and second supporting leg to the testing machine body, operation locking subassembly for the locking subassembly is in the same place first supporting leg, second supporting leg and testing machine body locking, and then increases the stability of electron tensile testing machine during operation.

Optionally, the locking subassembly includes a plurality of locking poles and a plurality of locking section of thick bamboo, and is a plurality of a locking section of thick bamboo respectively with the first supporting leg, the second supporting leg fixed connection that correspond separately, it is a plurality of the locking pole is all along being close to or keeping away from a direction and the testing machine body sliding connection of a locking section of thick bamboo, and is a plurality of the one end of locking pole is inserted respectively in the locking section of thick bamboo that corresponds separately.

Through adopting above-mentioned technical scheme, support the back well to the testing machine body at first supporting leg and second supporting leg, the locking pole slides for locking pole and testing machine body with take place relative slip, make the one end of locking pole insert in the locking section of thick bamboo then simultaneously, thereby realize the locking between first supporting leg, second supporting leg and the testing machine body, finally reach the effect that increases electron tensile testing machine during operation stability.

Optionally, a plurality of the locking rods are all provided with a driving assembly for driving the locking rods to move.

Through adopting above-mentioned technical scheme, when the staff need with first supporting leg and second supporting leg and ground separation, operation drive assembly for drive assembly drives the direction motion of locking pole orientation keeping away from a locking section of thick bamboo, thereby realizes the unblock of locking subassembly, and then makes things convenient for the staff to operate the locking subassembly.

Optionally, drive assembly includes T type pole and spring, the one end and the locking pole of T type pole are articulated, the other end of T type pole is along being close to or keeping away from the direction and the testing machine body sliding connection of locking pole, the one end and the testing machine body fixed connection of spring, the other end and the side butt that T type pole deviates from locking pole one end of spring.

Through adopting above-mentioned technical scheme, when carrying out the unblock to locking subassembly, slip locking pole, the locking pole drives T type pole and takes place relative slip with experimental body, T type pole takes place relative rotation with the locking pole when the locking pole motion, when T type pole is in the horizontality with the locking pole, the spring is compressed, the power of T type pole towards the locking pole direction is applyed to the spring simultaneously, then make T type pole drive locking pole orientation keep away from a locking section of thick bamboo direction motion, thereby make the separation between locking pole and the locking section of thick bamboo, under the effect of spring force is applyed to T type pole, the locking pole keeps the state with a locking section of thick bamboo separation, and then make things convenient for the staff to operate first supporting leg and second supporting leg.

In summary, the present application includes at least one of the following beneficial technical effects:

1. by arranging the testing machine body, the first supporting component and the second supporting component, when a worker needs to move the electronic tension testing machine, the testing machine body is pushed, so that the universal wheel and the ground roll relatively, then the electronic tension testing machine is moved to a specified position, and then the first supporting component and the second supporting component are rotated, so that the first supporting component and the second supporting component support the testing machine body, the universal wheel is separated from the ground, and finally the effect of increasing the stability of the electronic tension testing machine during working is achieved;

2. by arranging the first supporting legs and the first connecting rods, when a worker rotates the first supporting assembly, the first connecting rods are rotated, the first connecting rods drive the two first supporting legs to rotate, meanwhile, the two first supporting legs are abutted against the ground and support the testing machine body, finally, the universal wheels close to the first supporting assembly are separated from the ground, the first supporting legs are fixedly connected to the two ends of the first connecting rods, the first connecting rods can drive the two first supporting legs to move, and the steps of the worker in operating the first supporting assembly are reduced;

3. through setting up second connecting rod and second bracing piece, when the staff need support the testing machine body, rotate the second connecting rod, the second connecting rod drives two second supporting leg movements, then make the wheel that rolls on two second supporting legs together with ground butt, thereby make the universal wheel and the ground separation that is close to the second supporting leg, then drive the head rod again, make first bracing piece and ground butt and support the testing machine body simultaneously, carry out the in-process that complete support was carried out to the testing machine body at first bracing piece and ground butt, the wheel that rolls on the second bracing piece takes place relative roll with ground, thereby make the wheel that rolls drive the motion of second supporting leg orientation first supporting leg locking direction, finally reach the convenience when increasing the staff and supporting the testing machine body.

Drawings

FIG. 1 is a schematic structural diagram of a mobile electronic tensile testing machine;

fig. 2 is an enlarged view of a portion a in fig. 1.

Description of reference numerals: 100. a testing machine body; 110. a universal wheel; 120. a chute; 130. a sliding groove; 140. a cavity; 200. a first support assembly; 210. a first connecting rod; 220. a first support leg; 221. a tension spring; 300. a second support assembly; 310. a second connecting rod; 320. a second support leg; 321. a rolling wheel; 400. a locking assembly; 410. a lock lever; 411. an operating lever; 420. a locking barrel; 500. a drive assembly; 510. a T-shaped rod; 511. a cross bar; 512. a longitudinal bar; 520. a spring.

Detailed Description

The present application is described in further detail below with reference to figures 1-2.

The embodiment of the application discloses movable electron tensile testing machine.

Referring to fig. 1, a movable electron tensile testing machine includes testing machine body 100 and a plurality of universal wheel 110, and a plurality of universal wheel 110 fixed connection are in the bottom of testing machine body 100, and first supporting component 200 and second supporting component 300 are installed to the bottom of testing machine body 100, and first supporting component 200 and second supporting component 300 are installed respectively in the relative both sides in testing machine body 100 bottom, and first supporting component 200 and second supporting component 300 all articulate with testing machine body 100.

In order to increase the stability of the first supporting component 200 and the second supporting component 300 when supporting the testing machine body 100, the first supporting component 200 includes a first connecting rod 210 and two first supporting legs 220, the two first supporting legs 220 are respectively installed at two ends of the first connecting rod 210, the two first supporting legs 220 are both vertically and fixedly connected with the first connecting rod 210, and the two first supporting legs 220 are hinged with the testing machine body 100. The second support assembly 300 comprises a second connecting rod 310 and two second support legs 320, the two second support legs 320 are respectively installed at two ends of the second connecting rod 310, the two second support legs 320 are both fixedly connected with the second connecting rod 310 in a perpendicular mode, the two second support legs 320 are both hinged to the testing machine body 100, rolling wheels 321 are installed at one ends, far away from the testing machine body 100, of the two second support legs 320, and the rolling directions of the two rolling wheels 321 face to or are far away from the direction of the first support legs 220.

When supporting testing machine body 100, operate second supporting leg 320 earlier, then operate first supporting leg 220 again, contact first supporting leg 220 with ground at first supporting leg 220 and carry out the support process to testing machine body 100 completely, take place relative roll between roll wheel 321 and the ground, and then make roll wheel 321 drive second supporting leg 320 towards the motion of first supporting leg 220 place direction, finally reach the effect that makes things convenient for the staff to support testing machine body 100.

In order to reduce the influence of the first support leg 220 and the second support leg 320 on the movement of the testing machine body 100, the two first support legs 220 and the two second support legs 320 are respectively provided with a tension spring 221, one end of each tension spring 221 is connected with the testing machine body 100 in a hanging mode, and the other end of each tension spring 221 is connected with the corresponding first support leg 220 and the corresponding second support leg 320 in a hanging mode. When the first support leg 220 and the second support leg 320 do not support the testing machine body 100, the tension spring 221 applies tension to the first support leg 220 and the second support leg 320, so that the first support leg 220 and the second support leg 320 move towards the testing machine body 100 under the action of the tension spring 221, and finally the first support leg 220 and the second support leg 320 are abutted to the testing machine body 100, and the influence of the contact between the first support leg 220 and the ground and the contact between the second support leg 320 and the ground on the movement of the testing machine body 100 is reduced.

Referring to fig. 1 and 2, in order to increase the stability of the tester body 100 when supported, a locking assembly 400 for locking the first support leg 220, the second support leg 320 and the tester body 100 to rotate relatively is mounted on the tester body 100. Locking subassembly 400 includes a plurality of locking poles 410 and a plurality of locking section of thick bamboo 420, and a plurality of locking section of thick bamboo 420 respectively with the first supporting leg 220 that correspond separately, second supporting leg 320 fixed connection, a plurality of locking poles 410 all along being close to or keeping away from the direction that corresponds locking section of thick bamboo 420 separately and testing machine body 100 sliding connection to during a plurality of one end of locking pole 410 inserted locking section of thick bamboo 420 that correspond separately respectively, equal fixedly connected with action bars 411 on a plurality of locking poles 410.

In order to facilitate the operation of the locking rods 410 by the worker, a driving assembly 500 for driving the locking rods 410 to move is mounted on each of the locking rods 410. The driving assembly 500 includes a T-bar 510 and a spring 520, and the T-bar 510 includes a cross bar 511 and a longitudinal bar 512 perpendicular to each other. The end of the longitudinal rod 512 far away from the cross rod 511 is hinged with the locking rod 410, and the cross rod 511 is connected with the testing machine body 100 in a sliding way along the direction close to or far away from the locking rod 410. One end of the spring 520 is fixedly connected with the testing machine body 100, and the other end of the spring 520 is abutted against the side of the balance rod departing from the locking rod 410.

In order to increase the stability of the locking rod 410 and the T-shaped rod 510 during movement, the testing machine body 100 is provided with a plurality of sliding grooves 120 corresponding to the plurality of locking rods 410 along the direction close to or away from the locking cylinder 420, and the locking rods 410 are slidably connected with the sliding grooves 120. The tester body 100 is provided with a sliding groove 130 corresponding to the T-shaped rod 510 along the direction close to or far from the locking rod 410, the cross bar 511 is connected with the sliding groove 130 in a sliding manner, and the bottom of the tester body 100 is provided with a cavity 140 corresponding to the movement range of the T-shaped rod 510 for the T-shaped rod 510 to rotate. The end of the spring 520 remote from the cross bar 511 is fixedly connected to the wall of the sliding groove 130.

When carrying out the locking to first supporting leg 220 and second supporting leg 320, the staff foot drives action bars 411, then make action bars 411 drive the motion of locking pole 410, locking pole 410 drives T type pole 510 motion simultaneously, in the motion of T type pole 510, vertical pole 512 takes place relative rotation with locking pole 410, thereby make horizontal pole 511 and sliding tray 130 take place relative slip, and then make spring 520 drive horizontal pole 511 and support, finally make in the stable locking section of thick bamboo 420 that inserts of locking pole 410.

The implementation principle of the movable electronic tensile testing machine in the embodiment of the application is as follows: after the staff moved the testing machine body 100 to the assigned position, the foot stepped on the second connecting rod 310, the second connecting rod 310 drove the motion of the second supporting leg 320, and the wheel 321 that rolls simultaneously supports the testing machine body 100 with ground butt, finally makes the universal wheel 110 that is close to the second supporting leg 320 separate with ground. The first connecting rod 210 is driven, the first connecting rod 210 drives the first supporting leg 220 to move, the first supporting leg 220 is abutted to the ground, the first supporting leg 220 supports the testing machine body 100, and finally the universal wheel 110 close to the first supporting leg 220 is separated from the ground.

The staff reuses the foot and operates action bars 411, and action bars 411 drive locking pole 410 and move, and under the effect of locking pole 410 and spring 520, horizontal pole 511 moves towards the direction at locking pole 410 place, inserts back in locking cylinder 420 at locking pole 410, and T type pole 510 makes locking pole 410 and locking cylinder 420 keep the state of pegging graft under the effect of spring 520, finally reaches the effect that increases electron tensile testing machine during operation stability.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a movable electron tensile testing machine which characterized in that: including testing machine body (100) and a plurality of universal wheel (110), it is a plurality of the fixed bottom that sets up at testing machine body (100) of universal wheel (110), the bottom of testing machine body (100) is provided with first supporting component (200) and second supporting component (300), first supporting component (200) and second supporting component (300) set up respectively in the relative both sides in testing machine body (100) bottom, first supporting component (200) and second supporting component (300) all articulate with testing machine body (100).

2. The portable electronic tensile testing machine of claim 1, wherein: first supporting component (200) include head rod (210) and two first supporting leg (220), two first supporting leg (220) set up respectively at the both ends of head rod (210), and two first supporting leg (220) all with head rod (210) perpendicular fixed connection, and two first supporting leg (220) are articulated with testing machine body (100).

3. The portable electronic tensile testing machine of claim 2, wherein: second supporting component (300) include second connecting rod (310) and two second supporting legs (320), two second supporting leg (320) sets up respectively at the both ends of second connecting rod (310), and two second supporting leg (320) all with second connecting rod (310) perpendicular fixed connection, and two second supporting leg (320) all articulate with testing machine body (100), two the one end that testing machine body (100) were kept away from in second supporting leg (320) all is provided with roll wheel (321), two the direction of rolling the direction orientation of wheel (321) or the direction of keeping away from first supporting leg (220).

4. A portable electronic tensile testing machine according to claim 3, wherein: two all be provided with extension spring (221), many on first supporting leg (220) and two second supporting legs (320) the one end of extension spring (221) all articulates with testing machine body (100), many the other end of extension spring (221) articulates with first supporting leg (220), second supporting leg (320) that correspond separately respectively.

5. The portable electronic tensile testing machine of claim 4, wherein: the testing machine body (100) is provided with a locking assembly (400) used for locking the first supporting leg (220), the second supporting leg (320) and the testing machine body (100) to rotate relatively.

6. The portable electronic tensile testing machine of claim 5, wherein: locking subassembly (400) include a plurality of locking poles (410) and a plurality of locking section of thick bamboo (420), and are a plurality of locking section of thick bamboo (420) respectively with the first supporting leg (220), the second supporting leg (320) fixed connection that correspond separately, it is a plurality of locking pole (410) all are along being close to or keeping away from the direction and testing machine body (100) sliding connection of locking section of thick bamboo (420), and are a plurality of the one end of locking pole (410) is inserted respectively in the locking section of thick bamboo (420) that corresponds separately.

7. The portable electronic tensile testing machine of claim 6, wherein: and a driving assembly (500) for driving the locking rod (410) to move is arranged on each of the locking rods (410).

8. The portable electronic tensile testing machine of claim 7, wherein: drive assembly (500) includes T type pole (510) and spring (520), the one end and the locking pole (410) of T type pole (510) are articulated, the other end of T type pole (510) is along being close to or keeping away from direction and testing machine body (100) sliding connection of locking pole (410), the one end and the testing machine body (100) fixed connection of spring (520), the other end and the side butt that T type pole (510) deviate from locking pole (410) one end of spring (520).

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