CN214585124U - Bridge engineering detects uses auxiliary device - Google Patents

Abstract

The utility model discloses a bridge engineering detects uses auxiliary device belongs to auxiliary device technical field, including rack and check out test set, rack one side can be dismantled and be connected with fixed subassembly, the recess has been seted up to the rack top, the inside fixed mounting of recess has check out test set, rack below fixed mounting has rotation axis A, rotation axis A rotates in the below and is connected with support frame A, support frame A rotates in the below and is connected with rotation axis C, rotation axis C one side fixed mounting has the slider, the slider can be dismantled in one side and be connected with the crossbearer, the spout has been seted up on the crossbearer surface, rotation axis C rotates in the below and is connected with support frame B. The utility model discloses a spring A, spring B, pull rod, depression bar, support, branch, dead lever, pivot A, pivot B, recess and the draw-in groove of installation are convenient for fix check out test set, have fine practicality.

Description

Bridge engineering detects uses auxiliary device

Technical Field

The utility model relates to an auxiliary device technical field especially relates to a bridge engineering detects uses auxiliary device.

Background

Bridge engineering refers to the working process of bridge surveying, designing, constructing, maintaining, detecting and the like, and the scientific and engineering technology for researching the process, and is a branch of civil engineering. The development of bridge engineering is mainly dependent on the need for it by transportation. Bridge engineering mainly studies bridge crossing design, determines bridge aperture, considers navigation and line requirements to determine bridge deck height, considers that a base is not scoured or frozen to determine foundation embedment depth, designs a diversion building and the like; designing a bridge scheme; designing a bridge structure; constructing a bridge; bridge verification; bridge test; bridge maintenance and the like.

Patent No. 201922306608.8 discloses a building detection auxiliary device, the device through to the ultrasonic wave device that wall body concrete detected with to the wall body give sound insulation and the radio reception device that anti-noise detected integrate together, integrate the similar device of function originally, make the use of device and carry and become more convenient.

The building detection auxiliary device has the following disadvantages when in use:

1. above-mentioned building detection auxiliary device, during the use, the check out test set of being not convenient for fixes, influences the use.

2. Above-mentioned building detection auxiliary device, during the use, the height of the check out test set of being not convenient for adjust influences the use.

SUMMERY OF THE UTILITY MODEL

The utility model provides an auxiliary device for bridge engineering detection, which aims at the utility model aims at providing a bridge engineering detection device which comprises a spring A, a spring B, a pull rod, a press rod, a bracket, a support rod, a fixed rod, a rotary shaft A, a rotary shaft B, a groove and a clamping groove, when in use, the pull rod is firstly pulled to the left side, then the pull rod slides to the left inside of the clamping groove arranged above a placing rack, then the bracket arranged at the right side of the pull rod moves to the left, then the bracket drives the press rod to move to the left, then the spring B arranged above the bracket compresses to the left to generate elastic force, simultaneously the support rod at one side of the pull rod rotates through the rotary shaft A arranged at the right side of the fixed rod and the rotary shaft B arranged at the left side of the pull rod, then the spring A arranged below the support rod elongates upwards to generate elastic force, then a detection device is placed in the groove arranged above the placing rack, then the spring A contracts downwards to drive the support rod to rotate, the pull rod on the right side of the supporting rod moves rightwards, meanwhile, the spring B above the support on the right side of the pull rod drives the pressing rod mounted on the right side to move rightwards, and then the pressing rod is in contact with detection equipment in the groove, so that the detection equipment is fixed conveniently.

The utility model provides a specific technical scheme as follows:

the utility model provides a pair of bridge engineering detects uses auxiliary device, including rack and check out test set, rack one side can be dismantled and be connected with fixed subassembly, the recess has been seted up to the rack top, the inside fixed mounting of recess has check out test set, rack below fixed mounting has rotation axis A, rotation axis A below is rotated and is connected with support frame A, support frame A below is rotated and is connected with rotation axis C, rotation axis C one side fixed mounting has the slider, slider one side can be dismantled and be connected with the crossbearer, the spout has been seted up on the crossbearer surface, rotation axis C below is rotated and is connected with support frame B, support frame B right side fixed mounting has electric putter, support frame B below is rotated and is connected with rotation axis B, rotation axis B below can be dismantled and be connected with the chassis.

Optionally, the fixing assembly comprises a spring A, a spring B, a pull rod, a pressure rod, a support rod, a fixing rod, a rotating shaft A, a rotating shaft B and a clamping groove, the clamping groove is formed in one side of the placing frame, the inner side of the clamping groove is slidably connected with the pull rod, the left side of the pull rod is detachably connected with the rotating shaft B, the left side of the rotating shaft B is rotatably connected with the support rod, the rotating shaft A is fixedly installed on the left side of the support rod, the spring A is welded below the support rod, the fixing rod is fixedly installed on the left side of the rotating shaft A, the support is welded on the right side of the pull rod, the spring B is fixedly installed above the support, and the pressure rod is welded on the right side of the support.

Optionally, wheels are connected to the lower portion of the bottom frame in a rolling mode, and a pushing handle is welded to the right side of the bottom frame.

Optionally, the surface of the right end of the pushing handle is provided with anti-skid convex particles.

Optionally, the input end of the electric push rod is electrically connected with the output end of the external power supply.

The utility model has the advantages as follows:

1. the utility model discloses a spring A of installation, spring B, the pull rod, the depression bar, a support, a branch, the dead lever, pivot A, pivot B, recess and draw-in groove, when using, pull rod left side pull rod earlier, then the pull rod slides left in the draw-in groove inboard that the rack was seted up, then the support of pull rod right side installation moves left, then the support drives the depression bar and moves left, then spring B of support top installation compresses left and produces elasticity, simultaneously the branch of pull rod one side is rotated through pivot A of dead lever right side installation and pivot B of pull rod left side installation, then spring A of branch below installation lengthens upwards and produces elasticity, then put detection device into the recess of rack top, then spring A contracts down and drives the branch and rotate, then the pull rod on branch right side moves right, simultaneously spring B of pull rod right side support top drives the depression bar of right side installation and moves right, the pressure bar then contacts the test device in the recess, thereby facilitating the securement of the test device.

2. The utility model is provided with a rotating shaft A, a rotating shaft B, a rotating shaft C, a cross frame, a sliding chute, a sliding block, a supporting frame A, a supporting frame B and an electric push rod, when in use, firstly, an external power supply is connected, then an electric push rod switch arranged on one side of the underframe is turned on, then a driving motor arranged in the electric push rod converts the received electric energy into mechanical energy, then an inner rod of the electric push rod pushes a support frame B arranged on the left side, then the support frame B rotates to the left through a rotating shaft B arranged below, then a sliding block arranged on one side of a rotating shaft C above the supporting frame B slides leftwards on the inner side of a sliding groove formed on the surface of the transverse frame, then the rotation axis C of the support frame A of slider one side installation through the slider outside installation and the rotation axis A of rack below installation rotate right afterwards to be convenient for adjust the height of check out test set on the rack, improve work efficiency.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic overall structure diagram of an auxiliary device for bridge engineering detection according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a fixing assembly of an auxiliary device for bridge engineering detection according to an embodiment of the present invention;

in the figure: 1. placing a rack; 2. a rotation axis A; 3. a support frame A; 4. a support frame B; 5. a rotation axis B; 6. a chassis; 7. a wheel; 8. a rotation axis C; 9. a slider; 10. an electric push rod; 11. a chute; 12. a cross frame; 13. a pushing handle; 14. a fixing assembly; 15. a detection device; 16. a groove; 17. a card slot; 18. a spring A; 19. fixing the rod; 20. a rotating shaft A; 21. a rotating shaft B; 22. a support; 23. a pressure lever; 24. a strut; 25. a spring B; 26. a pull rod.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

An auxiliary device for bridge engineering inspection according to an embodiment of the present invention will be described in detail with reference to fig. 1 to 2.

Referring to fig. 1-2, an auxiliary device for bridge engineering inspection according to an embodiment of the present invention includes a placing frame 1 and an inspection apparatus 15, one side of the placing frame 1 is detachably connected with a fixing component 14, a groove 16 is arranged above the placing frame 1, the detection device 15 is fixedly arranged in the groove 16, a rotating shaft A2 is fixedly arranged below the placing rack 1, a support frame A3 is rotatably connected below the rotating shaft A2, a rotating shaft C8 is rotatably connected below the support frame A3, a slide block 9 is fixedly arranged at one side of the rotating shaft C8, a cross frame 12 is detachably connected at one side of the slide block 9, the surface of the transverse frame 12 is provided with a sliding groove 11, a supporting frame B4 is rotatably connected below the rotating shaft C8, an electric push rod 10 is fixedly mounted on the right side of the support frame B4, a rotating shaft B5 is rotatably connected below the support frame B4, and an underframe 6 is detachably connected below the rotating shaft B5.

For example, through the installed rotating shaft A2, rotating shaft B5, rotating shaft C8, cross frame 12, sliding slot 11, sliding block 9, supporting frame A3, supporting frame B4 and electric push rod 10, when in use, an external power supply is connected, then the switch of the electric push rod 10 installed on one side of the underframe 6 is opened, then a driving motor installed inside the electric push rod 10 converts received electric energy into mechanical energy, then an inner rod of the electric push rod 10 pushes the supporting frame B4 installed on the left side, then the supporting frame B4 rotates to the left through the rotating shaft B5 installed below, then the sliding block 9 installed on one side of the rotating shaft C8 above the supporting frame B4 slides to the left inside the sliding slot 11 opened on the surface of the cross frame 12, then the supporting frame A3 installed on one side of the sliding block 9 rotates to the right through the rotating shaft C8 installed on the outside of the sliding block 9 and the rotating shaft A2 installed below the placing frame 1, thereby facilitating the adjustment of the height of the detection equipment 15 on the placing frame 1, improve the working efficiency

Referring to fig. 2, fixed subassembly 14 includes spring a18, spring B25, pull rod 26, depression bar 23, support 22, branch 24, dead lever 19, pivot a20, pivot B21 and draw-in groove 17, draw-in groove 17 has been seted up to rack 1 one side, the inboard sliding connection of draw-in groove 17 has pull rod 26, pull rod 26 left side detachably connected with pivot B21, pivot B21 left side is rotated and is connected with branch 24, 24 left sides fixed mounting of branch has pivot a20, the welding of 24 below of branch has spring a18, pivot a20 left side fixed mounting has dead lever 19, the welding of pull rod 26 right side has support 22, support 22 top fixed mounting has spring B25, the welding of support 22 right side has depression bar 23.

By way of example, the detection device 15 is fixed conveniently through the installed spring A18, the spring B25, the pull rod 26, the pressing rod 23, the bracket 22, the supporting rod 24, the fixing rod 19, the rotating shaft A20, the rotating shaft B21 and the clamping groove 17.

Referring to fig. 1, wheels 7 are connected below the bottom frame 6 in a rolling manner, and a push handle 13 is welded on the right side of the bottom frame 6.

Movement of the device is facilitated, illustratively, by the mounting of wheels 7 and pushers 13.

Referring to fig. 1, the surface of the right end of the pushing handle 13 is provided with anti-skid convex particles.

Illustratively, the anti-slip convex particles are arranged to avoid slipping when the pushing handle 13 is pushed.

Referring to fig. 1, an input end of the electric putter 10 is electrically connected to an output end of an external power source.

Illustratively, the consumer operates normally by connecting to an external power source.

The embodiment of the utility model provides an auxiliary device for bridge engineering detection, during the use, pull rod 26 is pulled to the left side earlier, pull rod 26 slides to the left in draw-in groove 17 inboard that rack 1 was seted up afterwards, support 22 of pull rod 26 right side installation moves to the left afterwards, support 22 drives depression bar 23 and moves to the left afterwards, then spring B25 installed above support 22 compresses to the left and produces elasticity, branch 24 of pull rod 26 one side rotates through pivot A20 of dead lever 19 right side installation and pivot B21 of pull rod 26 left side installation simultaneously, the spring A18 of branch 24 below installation upwards produces the extension elasticity afterwards, then put into the recess 16 that rack 1 was seted up with check out test set 15 inside, spring A18 contracts downwards and drives branch 24 and rotate, then the pull rod 26 on branch 24 right side moves to the right, spring B25 above pull rod 26 right side support 22 drives the depression bar 23 of right side installation and moves to the right simultaneously, then the pressing rod 23 contacts with the detection equipment 15 in the groove 16, thereby facilitating the fixation of the detection equipment 15, then an external power supply is connected, then the switch of the electric push rod 10 installed on one side of the underframe 6 is opened, then the driving motor installed inside the electric push rod 10 converts the received electric energy into mechanical energy, then the inner rod of the electric push rod 10 pushes the support frame B4 installed on the left side, then the support frame B4 rotates to the left through the rotating shaft B5 installed below, then the sliding block 9 installed on one side of the rotating shaft C8 above the support frame B4 slides to the left inside the sliding groove 11 opened on the surface of the cross frame 12, then the support frame A3 installed on one side of the sliding block 9 rotates to the right through the rotating shaft C8 installed on the outer side of the sliding block 9 and the rotating shaft A2 installed below the placing frame 1, thereby facilitating the adjustment of the height of the detection equipment 15 on the placing frame 1 and improving the working efficiency.

The electric putter 10 is a 120TYD-ACR115M type which is commonly available on the market.

It should be noted that the utility model relates to an auxiliary device for bridge engineering detection, including rack 1, rotation axis A2, support frame A3, support frame B4, rotation axis B5, underframe 6, wheel 7, rotation axis C8, slider 9, electric push rod 10, chute 11, crossbearer 12, pushing hands 13, fixing component 14, detection equipment 15, groove 16, slot 17, spring A18, fixing rod 19, rotation axis A20, rotation axis B21, support 22, pressure bar 23, support bar 24, spring B25, pull rod 26, the above-mentioned electrical components are prior art products, the debugging operation of circuit is selected, installed and completed by the skilled person according to the needs of use, ensure that each electrical apparatus can normally work, the components are general standard components or components known by the skilled person, the structure and principle of the device can be known by the technical manual or by the conventional experimental method, the applicant does not make specific limitations herein.

It is apparent that those skilled in the art can make various changes and modifications to the embodiments of the present invention without departing from the spirit and scope of the embodiments of the present invention. Thus, if such modifications and variations of the embodiments of the present invention fall within the scope of the claims and their equivalents, the present invention is also intended to include such modifications and variations.

Claims (5)

1. An auxiliary device for bridge engineering detection comprises a placing rack (1) and detection equipment (15), and is characterized in that one side of the placing rack (1) is detachably connected with a fixing component (14), a groove (16) is formed above the placing rack (1), the detection equipment (15) is fixedly installed in the groove (16), a rotating shaft A (2) is fixedly installed below the placing rack (1), a supporting frame A (3) is rotatably connected below the rotating shaft A (2), a rotating shaft C (8) is rotatably connected below the supporting frame A (3), a sliding block (9) is fixedly installed on one side of the rotating shaft C (8), a cross frame (12) is detachably connected on one side of the sliding block (9), a sliding groove (11) is formed in the surface of the cross frame (12), and a supporting frame B (4) is rotatably connected below the rotating shaft C (8), support frame B (4) right side fixed mounting has electric putter (10), support frame B (4) below is rotated and is connected with rotation axis B (5), rotation axis B (5) below detachable is connected with chassis (6).

2. The auxiliary device for bridge engineering detection according to claim 1, wherein the fixing component (14) comprises a spring A (18), a spring B (25), a pull rod (26), a pressure rod (23), a bracket (22), a support rod (24), a fixing rod (19), a rotating shaft A (20), a rotating shaft B (21) and a clamping groove (17), the clamping groove (17) is formed in one side of the placing rack (1), the pull rod (26) is slidably connected to the inner side of the clamping groove (17), the rotating shaft B (21) is detachably connected to the left side of the pull rod (26), the support rod (24) is rotatably connected to the left side of the rotating shaft B (21), the rotating shaft A (20) is fixedly installed on the left side of the support rod (24), the spring A (18) is welded below the support rod (24), the fixing rod (19) is fixedly installed on the left side of the rotating shaft A (20), the right side bracket (22) is welded to the pull rod (26), a spring B (25) is fixedly mounted above the support (22), and a pressure rod (23) is welded on the right side of the support (22).

3. The auxiliary device for bridge engineering detection as claimed in claim 1, wherein wheels (7) are connected below the bottom frame (6) in a rolling manner, and a pushing handle (13) is welded on the right side of the bottom frame (6).

4. The auxiliary device for bridge engineering detection as claimed in claim 3, wherein the right end surface of the pushing handle (13) is provided with anti-skid convex particles.

5. The auxiliary device for bridge engineering detection according to claim 1, wherein an input end of the electric push rod (10) is electrically connected with an output end of an external power supply.

Images