CN215398855U - Equipment antidetonation equipment for civil engineering - Google Patents

Abstract

The utility model discloses equipment anti-seismic equipment for civil engineering, which comprises a damping box, wherein an equipment placing frame is fixedly arranged at the top of the damping box, a damping rubber layer is fixedly arranged at the bottom of the damping box, an electric telescopic rod is fixedly arranged on the inner wall of one side of the damping box, a sliding block is fixedly arranged at the other end of the electric telescopic rod, a first hinge block is fixedly arranged on the other side of the sliding block, a second hinge block is fixedly arranged on the top wall of an inner cavity of the damping box, second sliding grooves are respectively formed in the side walls of the two sides of the inner cavity of the damping box, and a sliding rod is movably arranged in the second sliding grooves. Realize carrying out fine shock attenuation to equipment at the removal in-process through setting up traveller and buffer spring, when the uneven highway section in wheel construction site removed, the lifter plate can incline according to the highway section, extrudees buffer spring to realize the shock attenuation purpose, prevent to use equipment to receive jolt vibrations at the in-process that the construction ground removed and lead to using equipment to damage.

Description

Equipment antidetonation equipment for civil engineering

Technical Field

The utility model belongs to the technical field of civil engineering, and particularly relates to an anti-seismic device for civil engineering.

Background

Civil engineering is a general name of scientific technology for building various engineering facilities, and refers to applied materials, equipment and technical activities such as surveying, designing, constructing, maintaining and the like; and also refers to objects of engineering construction, i.e., various engineering facilities such as houses, roads, railways, transportation pipelines, tunnels, bridges, canals, dams, ports, power stations, airports, ocean platforms, water supply and drainage and protection works, etc., which are constructed on or under the ground, on land or in water, and serve directly or indirectly human life, production, military and scientific research.

Need carry out a lot of to civil engineering use equipment and remove in civil engineering's the construction, current moving means is mostly to put equipment and removes on the wooden handcart, perhaps artificial transport, because the construction ground is mostly uneven highway section, and the wooden handcart does not have the shock attenuation effect, leads to equipment to receive jolting easily on the wooden handcart, damages equipment easily, and artificial transport although equipment is difficult impaired, extravagant manpower.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide equipment anti-seismic equipment for civil engineering, which solves the problem that the equipment is easy to bump on a plate trailer and damage the equipment due to the fact that the plate trailer does not have a damping effect because the existing moving mode is mostly to move the equipment on the plate trailer or to carry the equipment manually and the construction area is mostly uneven in the using process of the existing equipment anti-seismic equipment proposed in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: an equipment anti-seismic device for civil engineering comprises a shock absorption box, wherein an equipment placing frame is fixedly mounted at the top of the shock absorption box, a shock absorption rubber layer is fixedly mounted at the bottom of the shock absorption box, an electric telescopic rod is fixedly mounted on the inner wall of one side of the shock absorption box, a sliding block is fixedly mounted at the other end of the electric telescopic rod, a first hinge block is fixedly mounted at the other side of the sliding block, a second hinge block is fixedly mounted at the top wall of an inner cavity of the shock absorption box, second sliding grooves are respectively formed in the side walls of the two sides of the inner cavity of the shock absorption box, a sliding rod is movably mounted in the second sliding groove, a lifting plate is fixedly mounted at one end, away from the second sliding groove, of the sliding rod, a third hinge block is fixedly mounted at the top of the lifting plate, a third sliding groove is formed in the top of the lifting plate, a sliding plate is movably mounted in the third sliding groove, and a fourth hinge block is fixedly mounted at the top of the sliding plate, the bottom fixed mounting of lifter plate has the wheel, the bottom fixed mounting of surge tank inner chamber has four travelers, four the equal fixed mounting in top of traveler has the limiting plate, the bottom fixed mounting of limiting plate has buffer spring, control button is installed to one side of surge tank.

Preferably, the bottom of the inner side of the equipment placing frame is fixedly provided with a first sponge layer, and the inner side of the equipment placing frame is fixedly provided with a second sponge layer.

Preferably, a first sliding groove is formed in the top wall of the inner cavity of the shock absorption box, the specification and the size of the sliding block are matched with those of the first sliding groove, and the sliding block is movably mounted inside the first sliding groove.

Preferably, the inside activity of first articulated piece articulates there is first articulated pole, the one end activity that first articulated piece was kept away from to first articulated pole articulates in the inside of third articulated piece, the inside activity of second articulated piece articulates there is the second articulated pole, the one end activity that second articulated piece was kept away from to the second articulated pole articulates in the inside of fourth articulated piece.

Preferably, four sliding columns are symmetrically sleeved on two sides of the lifting plate in a rectangular mode, and one end, far away from the limiting plate, of the buffer spring is fixedly installed at the top of the lifting plate.

Preferably, wheel holes are formed in the bottom of the shock absorption box and the inside of the shock absorption rubber layer, the positions of the wheel holes correspond to the positions of wheels, and a handle is fixedly mounted on one side of the equipment placing frame.

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

1. through setting up the surge tank, the lifter plate, electric telescopic handle, first articulated piece, the articulated piece of second, the third articulated piece, the articulated piece of fourth, the hinge bar, the cooperation in wheel and wheel hole is used, can conveniently remove equipment, when starting electric telescopic handle extension, first articulated piece can be close to the third articulated piece, the articulated piece of second can be close to the articulated piece of fourth, thereby it is vertical to make the hinge bar tend, make the lifter plate remove downwards, thereby release four wheels from four wheel holes, thereby make wheel contact ground, thereby realize the advantage of convenient removal, it is inconvenient to practice thrift the manpower, and the work efficiency is improved, very, the person of facilitating the use uses.

2. Realize carrying out fine shock attenuation to equipment at the removal in-process through setting up traveller and buffer spring, when uneven highway section in wheel construction site removes, the lifter plate can incline according to the highway section, extrude buffer spring, thereby realize the shock attenuation purpose, guarantee the steady of shock attenuation case top equipment placing frame, thereby guarantee the steady of equipment placing frame internal plant, prevent that equipment from receiving jolt vibrations and leading to equipment to damage, the inside of placing the frame at equipment is provided with the sponge layer in addition, can protect equipment better.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a front cross-sectional structural schematic view of the damper box of the present invention;

fig. 3 is a front sectional structural schematic view of the device placement frame of the present invention.

In the figure: 1. a device placement frame; 2. a damper box; 3. a damping rubber layer; 4. a control button; 5. a handle; 6. a second sponge layer; 7. a traveler; 8. a third hinge block; 9. a wheel; 10. a wheel hole; 11. a lifting plate; 12. a slide plate; 13. a fourth hinge block; 14. a third chute; 15. a slide bar; 16. a second chute; 17. a limiting plate; 18. an electric telescopic rod; 19. a slider; 20. a first hinge block; 21. a first hinge lever; 22. a second hinge lever; 23. a second hinge block; 24. a buffer spring; 25. a first sponge layer; 26. a first runner.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: an equipment anti-seismic device for civil engineering comprises a shock absorption box 2, an equipment placing frame 1 is fixedly installed at the top of the shock absorption box 2, a shock absorption rubber layer 3 is fixedly installed at the bottom of the shock absorption box 2, an electric telescopic rod 18 is fixedly installed on the inner wall of one side of the shock absorption box 2, a sliding block 19 is fixedly installed at the other end of the electric telescopic rod 18, a first hinge block 20 is fixedly installed at the other side of the sliding block 19, a second hinge block 23 is fixedly installed at the top wall of an inner cavity of the shock absorption box 2, second sliding grooves 16 are respectively formed in the side walls of the two sides of the inner cavity of the shock absorption box 2, a sliding rod 15 is movably installed in the second sliding groove 16, a lifting plate 11 is fixedly installed at one end, away from the second sliding groove 16, a third hinge block 8 is fixedly installed at the top of the lifting plate 11, a third sliding groove 14 is formed in the top of the lifting plate 11, a sliding plate 12 is movably installed in the third sliding groove 14, a fourth hinge block 13 is fixedly installed at the top of the sliding plate 12, the bottom fixed mounting of lifter plate 11 has wheel 9, and the bottom fixed mounting of 2 inner chambers of damper box has four travelers 7, and the equal fixed mounting in top of four travelers 7 has limiting plate 17, and the bottom fixed mounting of limiting plate 17 has buffer spring 24, and control button 4 is installed to one side of damper box 2.

In the embodiment, when the position of the equipment to be used needs to be moved, the equipment is firstly placed in the equipment placing frame 1, then the control button 4 starts the electric telescopic rod 18 to extend, so that the first hinged block 20 approaches to the third hinged block 8, the second hinged block 23 approaches to the fourth hinged block 13, so that the first hinged rod 21 and the second hinged rod 22 tend to be vertical, the lifting plate 11 moves downwards, the wheels 9 are pushed out from the wheel holes 10, the wheels 9 contact the ground, then the equipment to be used can be moved by pushing the handle 5, in the moving process, when the wheels 9 run to the uneven road surface of a construction ground, the lifting plate 11 can incline according to the road section to extrude the buffer spring 24, the stability of the equipment placing frame 1 at the top of the shock absorption box 2 is ensured, and the stability of the equipment in the equipment placing frame 1 is ensured, therefore, the purpose of shock absorption is achieved, and damage to the use equipment caused by bumping and shaking of the use equipment in the moving process is prevented.

Specifically, the bottom of the inner side of the equipment placing frame 1 is fixedly provided with a first sponge layer 25, and the inner side of the equipment placing frame 1 is fixedly provided with a second sponge layer 6.

In this embodiment, the first and second foam layers 25 and 6 function to protect the user equipment.

Specifically, a first sliding groove 26 is formed in the top wall of the inner cavity of the damper box 2, the specification and the size of the sliding block 19 are matched with those of the first sliding groove 26, and the sliding block 19 is movably mounted inside the first sliding groove 26.

In this embodiment, the slider 19 is slidable inside the first chute 26.

Specifically, the inside of the first hinge block 20 is movably hinged with a first hinge rod 21, one end of the first hinge rod 21, which is far away from the first hinge block 20, is movably hinged inside the third hinge block 8, the inside of the second hinge block 23 is movably hinged with a second hinge rod 22, and one end of the second hinge rod 22, which is far away from the second hinge block 23, is movably hinged inside the fourth hinge block 13.

In this embodiment, the electric telescopic rod 18 is extended to make the first hinge block 20 approach to the third hinge block 8 and the second hinge block 23 approach to the fourth hinge block 13, so that the first hinge rod 21 and the second hinge rod 22 tend to be vertical, the lifting plate 11 moves downward, and the wheel 9 is pushed out from the wheel hole 10.

Specifically, the four sliding columns 7 are symmetrically sleeved on two sides of the lifting plate 11 in a rectangular shape, and one end of the buffer spring 24, which is far away from the limiting plate 17, is fixedly installed on the top of the lifting plate 11.

In this embodiment, the buffer spring 24 is used for buffering the lifting plate 11 when the lifting plate 11 tilts, so as to prevent the lifting plate 11 from driving the whole device to tilt and bump, and play a role in shock absorption.

Specifically, wheel hole 10 has all been seted up to the inside on the bottom of surge tank 2 and shock attenuation rubber layer 3, and the position of wheel hole 10 corresponds with the position of wheel 9, and one side fixed mounting of frame 1 is placed to equipment has handle 5.

In this embodiment, when the lifting plate 11 moves downward, the wheel hole 10 is notified to push the wheel 9 out of the inside of the damper box 2.

The working principle and the using process of the utility model are as follows: when the position of the equipment is required to be moved, the equipment is firstly placed in the equipment placing frame 1, then the control button 4 is used for starting the electric telescopic rod 18 to extend, so that the first hinged block 20 is close to the third hinged block 8, the second hinged block 23 is close to the fourth hinged block 13, the first hinged rod 21 and the second hinged rod 22 tend to be vertical, the lifting plate 11 moves downwards, the wheels 9 are pushed out from the wheel holes 10, the wheels 9 are in contact with the ground, then the equipment can be moved by pushing the handle 5, in the moving process, when the wheels 9 are driven to an uneven road surface of a construction place, the lifting plate 11 can incline according to the road section, the buffer springs 24 are squeezed, the stability of the equipment placing frame 1 at the top of the shock absorption box 2 is ensured, the stability of the equipment placing frame 1 is ensured, and the shock absorption purpose is realized, the damage of the using equipment caused by bumping and shaking of the using equipment in the moving process is prevented.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides an equipment antidetonation equipment for civil engineering, includes surge tank (2), its characterized in that: the device placing frame (1) is fixedly mounted at the top of the shock absorption box (2), the shock absorption rubber layer (3) is fixedly mounted at the bottom of the shock absorption box (2), an electric telescopic rod (18) is fixedly mounted on the inner wall of one side of the shock absorption box (2), a sliding block (19) is fixedly mounted at the other end of the electric telescopic rod (18), a first hinged block (20) is fixedly mounted at the other side of the sliding block (19), a second hinged block (23) is fixedly mounted at the top wall of the inner cavity of the shock absorption box (2), second sliding grooves (16) are formed in the side walls of the two sides of the inner cavity of the shock absorption box (2), a sliding rod (15) is movably mounted inside the second sliding grooves (16), a lifting plate (11) is fixedly mounted at one end, far away from the second sliding rod (15), of the lifting plate (16), and a third hinged block (8) is fixedly mounted at the top of the lifting plate (11), third spout (14) have been seted up at the top of lifter plate (11), the inside movable mounting of third spout (14) has slide (12), the top fixed mounting of slide (12) has articulated piece (13) of fourth, the bottom fixed mounting of lifter plate (11) has wheel (9), the bottom fixed mounting of surge tank (2) inner chamber has four travelers (7), four the equal fixed mounting in top of traveler (7) has limiting plate (17), the bottom fixed mounting of limiting plate (17) has buffer spring (24), control button (4) are installed to one side of surge tank (2).

2. An earthquake-resistant equipment for civil engineering equipment according to claim 1, wherein: the bottom of the inner side of the equipment placing frame (1) is fixedly provided with a first sponge layer (25), and the inner side of the equipment placing frame (1) is fixedly provided with a second sponge layer (6).

3. An earthquake-resistant equipment for civil engineering equipment according to claim 1, wherein: first spout (26) have been seted up to the roof of damper box (2) inner chamber, the specification and dimension of slider (19) and the specification and dimension looks adaptation of first spout (26), and slider (19) movable mounting is in the inside of first spout (26).

4. An earthquake-resistant equipment for civil engineering equipment according to claim 1, wherein: the inside activity of first articulated piece (20) articulates there is first articulated pole (21), the one end activity that first articulated piece (20) were kept away from in first articulated pole (21) articulates in the inside of third articulated piece (8), the inside activity of the articulated piece of second (23) articulates there is second articulated pole (22), the one end activity that second articulated piece (23) were kept away from in second articulated pole (22) articulates in the inside of fourth articulated piece (13).

5. An earthquake-resistant equipment for civil engineering equipment according to claim 1, wherein: four travelers (7) are the rectangle symmetry and cup joint in the both sides of lifter plate (11), limiting plate (17) is kept away from in buffer spring (24) one end fixed mounting at the top of lifter plate (11).

6. An earthquake-resistant equipment for civil engineering equipment according to claim 1, wherein: wheel hole (10) have all been seted up to the inside of the bottom of surge tank (2) and shock attenuation rubber layer (3), the position of wheel hole (10) corresponds with the position of wheel (9), one side fixed mounting of frame (1) is placed to equipment has handle (5).

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