CN208316067U - A kind of ring control cabinet damping compression-resistant structure - Google Patents

Abstract

The utility model provides a kind of ring control cabinet damping compression-resistant structure, including control cabinet ontology, pedestal, the first side plate, the second side plate, top plate, decoupling rod storage groove, the first decoupling rod, the second decoupling rod, third decoupling rod, the 4th decoupling rod, hinge, cabinet door, the first subplate, Hinge for cupboard door, the second subplate, the first recess hole, the second recess hole, rubber slab, spring stack, electric telescopic rod, connecting rod, threaded rod, thread bush, hydraulic shock-absorption bar, spring and support rod, the bottom end of control cabinet ontology is equipped with pedestal, and the bottom end of pedestal is equipped with rubber slab.The control cabinet has high-strength stability, have the function of damping compression-resistant, in the case where macroseism, control cabinet can be allowed not fall down, and it can shrink, it is readily transported, ensures that control cabinet will not topple under macroseism, ensure that the route in control cabinet will not be torn, to which huge loss will not be caused, electrical appliance can be continued work normally, structure is simple, facilitates popularization.

Description

A kind of ring control cabinet damping compression-resistant structure

Technical field

The utility model relates to a kind of control cabinets, and in particular to a kind of ring control cabinet damping compression-resistant structure.

Background technique

Control cabinet is that switchgear, measuring instrumentss, protection electric appliance and ancillary equipment are assembled in envelope by electrical wiring requirement Close or semiclosed metal safe in or screen width on, arrangement should meet the requirement of electric system normal operation, and easy access do not jeopardize The safety of the person and surrounding devices.It can be by manual or automatic switch connection or disjunction circuit when normal operation.Failure or not just By protection electric appliance cutting circuit or alarm when often operation.Running various parameters can be shown by means of measuring instrumentss, it can also be to certain A little electric parameters are adjusted, and are prompted or issued signal to normal operating conditions is deviateed.Existing control cabinet stability Difference, the function without damping compression-resistant cause control cabinet that can all topple in miniature earthquake, route are caused to pull apart, cause huge Loss, bring inconvenience.

Utility model content

The purpose of this utility model is that solve the above-mentioned problems and provides a kind of ring control cabinet damping compression-resistant structure, To solve the above problems.

In order to solve the above-mentioned technical problem, the utility model provides the following technical solution:

The utility model provides a kind of ring control cabinet damping compression-resistant structure, including control cabinet ontology, pedestal, the first side Plate, the second side plate, top plate, decoupling rod storage groove, the first decoupling rod, the second decoupling rod, third decoupling rod, the 4th decoupling rod, hinge Chain, the first subplate, Hinge for cupboard door, the second subplate, the first recess hole, the second recess hole, rubber slab, spring stack, electronic is stretched at cabinet door The bottom end of contracting bar, connecting rod, threaded rod, thread bush, hydraulic shock-absorption bar, spring and support rod, the control cabinet ontology is equipped with institute Pedestal is stated, the bottom end of the pedestal is equipped with the rubber slab, and the side of the control cabinet ontology is equipped with first side plate, described The other side of control cabinet ontology is equipped with second side plate, and the two sides of first side plate and second side plate are equipped with described Decoupling rod storage groove, the top of the control cabinet ontology are equipped with the top plate, and the side of the top plate is equipped with first damping The other side of bar and second decoupling rod, the top plate is equipped with the third decoupling rod and the 4th decoupling rod, the control Cabinet ontology processed is equipped with the cabinet door, and the cabinet door is equipped with the Hinge for cupboard door, and the side of the rubber slab is equipped with described the One subplate, the other side of the rubber slab are equipped with second subplate, and one end of first subplate and second subplate is set There are first recess hole and second recess hole, the rubber slab is equipped with several described spring stacks.

As a kind of optimal technical scheme of the utility model, first decoupling rod, second decoupling rod, described Three decoupling rods and the 4th decoupling rod by the connecting rod, the threaded rod, the thread bush, the hydraulic shock-absorption bar, The spring and the support rod are constituted.

As a kind of optimal technical scheme of the utility model, the connecting rod is connected by welding with the threaded rod, The threaded rod is connected with the thread bush by screw thread, and the thread bush is connected by welding with the hydraulic shock-absorption bar, institute It states hydraulic shock-absorption bar and is bolted with the support rod and is connected.

As a kind of optimal technical scheme of the utility model, the pedestal and the rubber slab pass through several described bullets Spring column is fixedly linked, and first subplate and second subplate pass through the electric telescopic rod and the rubber slab stationary phase Even.

As a kind of optimal technical scheme of the utility model, the cabinet door passes through the Hinge for cupboard door and the control cabinet Ontology is fixedly linked, and first decoupling rod, second decoupling rod, the third decoupling rod and the 4th decoupling rod are logical The hinge is crossed to be fixedly linked with the top plate.

As a kind of optimal technical scheme of the utility model, the control cabinet ontology is made of stainless steel, institute It states the first subplate and second subplate is all made of rubber material and is made.

The utility model beneficial effect achieved is: the device is a kind of ring control cabinet damping compression-resistant structure, the control Cabinet has high-strength stability, has the function of damping compression-resistant, in the case where macroseism, control cabinet can be allowed not fall down, and And can shrink, it is readily transported, ensures that control cabinet will not topple under macroseism, ensure that the route in control cabinet will not be torn, To which huge loss will not be caused, electrical appliance can be continued work normally, structure is simple, facilitates popularization.

Detailed description of the invention

Attached drawing is used to provide a further understanding of the present invention, and constitutes part of specification, practical with this Novel embodiment is used to explain the utility model together, does not constitute limitations of the present invention.In the accompanying drawings:

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the structural schematic diagram of the utility model decoupling rod；

Fig. 3 is the structural schematic diagram of the utility model subplate；

In figure: 1, control cabinet ontology；2, pedestal；3, the first side plate；4, the second side plate；5, top plate；6, decoupling rod storage groove； 7, the first decoupling rod；8, the second decoupling rod；9, third decoupling rod；10, the 4th decoupling rod；11, hinge；12, cabinet door；13, first Subplate；14, Hinge for cupboard door；15, the second subplate；16, the first recess hole；17, the second recess hole；18, rubber slab；19, spring stack； 20, electric telescopic rod；21, connecting rod；22, threaded rod；23, thread bush；24, hydraulic shock-absorption bar；25, spring；26, support rod.

Specific embodiment

It is illustrated below in conjunction with preferred embodiment of the attached drawing to the utility model, it should be understood that described herein excellent It selects embodiment to be only used for describing and explaining the present invention, is not used to limit the utility model.

Embodiment 1

As shown in Figure 1-3, the utility model provides a kind of ring control cabinet damping compression-resistant structure, including control cabinet ontology 1, bottom Seat the 2, first side plate 3, the second side plate 4, top plate 5, decoupling rod storage groove 6, the first decoupling rod 7, the second decoupling rod 8, third damping Bar 9, the 4th decoupling rod 10, hinge 11, cabinet door 12, the first subplate 13, Hinge for cupboard door 14, the second subplate 15, the first recess hole 16, Second recess hole 17, spring stack 19, electric telescopic rod 20, connecting rod 21, threaded rod 22, thread bush 23, hydraulic subtracts rubber slab 18 Bar 24, spring 25 and support rod 26 are shaken, the bottom end of control cabinet ontology 1 is equipped with pedestal 2, and the bottom end of pedestal 2 is equipped with rubber slab 18, control The side of cabinet ontology 1 processed is equipped with the first side plate 3, and the other side of control cabinet ontology 1 is equipped with the second side plate 4, the first side plate 3 and second The two sides of side plate 4 are equipped with decoupling rod storage groove 6, and the top of control cabinet ontology 1 is equipped with top plate 5, and the side of top plate 5 is equipped with first Decoupling rod 7 and the second decoupling rod 8, the other side of top plate 5 are equipped with third decoupling rod 9 and the 4th decoupling rod 10, on control cabinet ontology 1 Equipped with cabinet door 12, cabinet door 12 is equipped with Hinge for cupboard door 14, and the side of rubber slab 18 is equipped with the first subplate 13, rubber slab 18 it is another Side is equipped with the second subplate 15, and one end of the first subplate 13 and the second subplate 15 is equipped with the first recess hole 16 and the second recess hole 17, Rubber slab 18 is equipped with several spring stacks 19.

First decoupling rod 7, the second decoupling rod 8, third decoupling rod 9 and the 4th decoupling rod 10 are by connecting rod 21, threaded rod 22, thread bush 23, hydraulic shock-absorption bar 24, spring 25 and support rod 26 are constituted.

Connecting rod 21 is connected by welding with threaded rod 22, and threaded rod 22 is connected with thread bush 23 by screw thread, thread bush 23 are connected by welding with hydraulic shock-absorption bar 24, and hydraulic shock-absorption bar 24 is bolted with support rod 26 to be connected.

Pedestal 2 is fixedly linked with rubber slab 18 by several spring stacks 19, and the first subplate 13 and the second subplate 15 are logical Electric telescopic rod 20 is crossed to be fixedly linked with rubber slab 18.

Cabinet door 12 is fixedly linked by Hinge for cupboard door 14 with control cabinet ontology 1, the first decoupling rod 7, the second decoupling rod 8, the Three decoupling rods 9 and the 4th decoupling rod 10 are fixedly linked by hinge 11 with top plate 5.

Control cabinet ontology 1 is made of stainless steel, and the first subplate 13 and the second subplate 15 are all made of rubber material system At.

The device is a kind of ring control cabinet damping compression-resistant structure, including control cabinet ontology 1, pedestal 2, the first side plate 3, second Side plate 4, top plate 5, decoupling rod storage groove 6, the first decoupling rod 7, the second decoupling rod 8, third decoupling rod 9, the 4th decoupling rod 10, hinge Chain 11, cabinet door 12, the first subplate 13, Hinge for cupboard door 14, the second subplate 15, the first recess hole 16, the second recess hole 17, rubber slab 18, spring stack 19, electric telescopic rod 20, connecting rod 21, threaded rod 22, thread bush 23, hydraulic shock-absorption bar 24, spring 25 and support Bar 26, it is when use, control cabinet ontology 1 is fixed in place, then opened by the power supply on control cabinet ontology 1 It closes, allows electric telescopic rod 20 to power on, the first subplate 13 and the second subplate 15 are stretched out out of rubber slab 18 respectively, then led to It crosses and successively takes out the first decoupling rod 7, the second decoupling rod 8, third decoupling rod 9 and the 4th decoupling rod 10 in decoupling rod storage groove 6, Then the thread bush 23 on the first decoupling rod 7, the second decoupling rod 8, third decoupling rod 9 and the 4th decoupling rod 10 is rotated, Suitable length is adjusted, then the branch on the first decoupling rod 7, the second decoupling rod 8, third decoupling rod 9 and the 4th decoupling rod 10 Strut 26 is inserted on the recess hole on 13 second subplate 15 of the first subplate, is supported from side to control cabinet ontology 1, to mention The overall stability of high control cabinet ontology 1, and by spring stack 19, improve the damping effect of control cabinet ontology 1.

The utility model beneficial effect achieved is: the device is a kind of ring control cabinet damping compression-resistant structure, the control Cabinet has high-strength stability, has the function of damping compression-resistant, in the case where macroseism, control cabinet can be allowed not fall down, and And can shrink, it is readily transported, ensures that control cabinet will not topple under macroseism, ensure that the route in control cabinet will not be torn, To which huge loss will not be caused, electrical appliance can be continued work normally, structure is simple, facilitates popularization.

Finally, it should be noted that the above descriptions are merely preferred embodiments of the present invention, it is not limited to this Utility model, although the utility model is described in detail with reference to the foregoing embodiments, for those skilled in the art For, it is still possible to modify the technical solutions described in the foregoing embodiments, or to part of technical characteristic It is equivalently replaced.Within the spirit and principle of the utility model, any modification, equivalent replacement, improvement and so on, It should be included within the scope of protection of this utility model.

Claims (6)

1. a kind of ring control cabinet damping compression-resistant structure, including control cabinet ontology (1), pedestal (2), the first side plate (3), the second side plate (4), top plate (5), decoupling rod storage groove (6), the first decoupling rod (7), the second decoupling rod (8), third decoupling rod (9), the 4th subtract Shake bar (10), hinge (11), cabinet door (12), the first subplate (13), Hinge for cupboard door (14), the second subplate (15), the first recess hole (16), the second recess hole (17), rubber slab (18), spring stack (19), electric telescopic rod (20), connecting rod (21), threaded rod (22), thread bush (23), hydraulic shock-absorption bar (24), spring (25) and support rod (26), which is characterized in that the control cabinet ontology (1) bottom end is equipped with the pedestal (2), and the bottom end of the pedestal (2) is equipped with the rubber slab (18), the control cabinet ontology (1) side is equipped with first side plate (3), and the other side of the control cabinet ontology (1) is equipped with second side plate (4), institute The two sides for stating the first side plate (3) and second side plate (4) are equipped with the decoupling rod storage groove (6), the control cabinet ontology (1) top is equipped with the top plate (5), and the side of the top plate (5) is equipped with first decoupling rod (7) and second damping The other side of bar (8), the top plate (5) is equipped with the third decoupling rod (9) and the 4th decoupling rod (10), the control cabinet Ontology (1) is equipped with the cabinet door (12), and the cabinet door (12) is equipped with the Hinge for cupboard door (14), the rubber slab (18) Side is equipped with first subplate (13), and the other side of the rubber slab (18) is equipped with second subplate (15), and described first One end of subplate (13) and second subplate (15) is equipped with first recess hole (16) and second recess hole (17), institute Rubber slab (18) are stated equipped with several described spring stacks (19).

2. a kind of ring control cabinet damping compression-resistant structure according to claim 1, which is characterized in that first decoupling rod (7), second decoupling rod (8), the third decoupling rod (9) and the 4th decoupling rod (10) are by the connecting rod (21), the threaded rod (22), the thread bush (23), the hydraulic shock-absorption bar (24), the spring (25) and the support Bar (26) is constituted.

3. a kind of ring control cabinet damping compression-resistant structure according to claim 1, which is characterized in that the connecting rod (21) with The threaded rod (22) is connected by welding, and the threaded rod (22) is connected with the thread bush (23) by screw thread, the spiral shell Line set (23) is connected by welding with the hydraulic shock-absorption bar (24), and the hydraulic shock-absorption bar (24) and the support rod (26) are logical Bolt is crossed to be fixedly linked.

4. a kind of ring control cabinet damping compression-resistant structure according to claim 1, which is characterized in that the pedestal (2) and institute It states rubber slab (18) to be fixedly linked by several described spring stacks (19), first subplate (13) and second subplate (15) it is fixedly linked by the electric telescopic rod (20) and the rubber slab (18).

5. a kind of ring control cabinet damping compression-resistant structure according to claim 1, which is characterized in that the cabinet door (12) passes through The Hinge for cupboard door (14) is fixedly linked with the control cabinet ontology (1), first decoupling rod (7), second decoupling rod (8), the third decoupling rod (9) and the 4th decoupling rod (10) are fixed by the hinge (11) and the top plate (5) It is connected.

6. a kind of ring control cabinet damping compression-resistant structure according to claim 1, which is characterized in that the control cabinet ontology (1) it is made of stainless steel, first subplate (13) and second subplate (15) are all made of rubber material and are made.