CN117177502A - Electric power energy storage control device - Google Patents

Abstract

The invention discloses an electric power energy storage control device, which comprises a case main body, wherein the case main body comprises a case, a movable plate is rotatably connected to the side surface of the case through a hinge, a combining part comprises a vertical plate, the vertical plate is slidably connected with a lifting frame assembly through a T-shaped groove arranged in the vertical plate, one side of the vertical plate, which is far away from the T-shaped groove, is fixedly connected with the inner wall of the case, and a combining frame is detachably arranged on the outer surface of the lifting frame assembly. This electric power energy storage controlling means can solve among the prior art effectively, and when the switch board carried out the component installation, generally adopted the fastener to fix between it and the mounting panel, because the component is too much, and the distribution is denser, and then the staff installs and dismantle the in-process, and is very inconvenient, especially when increasing on original basis, receives the influence of both sides wall, and the installation is wasted time and energy, and is efficient, problem that the practicality is not strong.

Description

Electric power energy storage control device

Technical Field

The invention relates to the technical field of power control, in particular to a power energy storage control device.

Background

PLC switch board is popular in market more and more, and its compact structure, multiple functional, stable performance have its figure to exist in many fields, have extensive application in industry, agriculture, electric power, chemical industry, sewage treatment etc..

At present, when the control cabinet is used for element installation, the fastener is generally adopted to fix the control cabinet and the mounting plate, and because the elements are too many and are distributed densely, the control cabinet is inconvenient to install and disassemble in the process, is influenced by two side walls particularly when being increased on the original basis, and the control cabinet is time-consuming and labor-consuming to install, low in efficiency and weak in practicability.

Disclosure of Invention

Aiming at the defects existing in the prior art, the invention provides the electric power energy storage control device which can effectively solve the problems that in the prior art, when a control cabinet is used for installing elements, the elements are generally fixed with an installation plate by adopting fasteners, and the elements are too many and are distributed densely, so that workers are very inconvenient to install and disassemble, and are influenced by two side walls particularly when the elements are increased on the basis of the prior art, the installation is time-consuming and labor-consuming, the efficiency is low, and the practicability is not strong.

In order to achieve the above purpose, the invention is realized by the following technical scheme:

the invention provides an electric power energy storage control device, comprising:

the case comprises a case body, wherein the side surface of the case is rotationally connected with a movable plate through a hinge;

the combined part comprises a vertical plate, the vertical plate is slidably connected with a lifting frame assembly through a T-shaped groove formed in the vertical plate, one side of the vertical plate, which is far away from the T-shaped groove, is fixedly connected with the inner wall of the chassis, and a combined frame is detachably arranged on the outer surface of the lifting frame assembly and used for placing external elements;

wherein, fly leaf is close to riser one side fixedly connected with and the extrusion strip of crane subassembly side laminating mutually.

Further, the inner wall of the case is fixedly connected with reinforcing ribs attached to the outer surface of the movable plate, the reinforcing ribs are located between the movable plate and the vertical plate, and the extrusion strips and the reinforcing ribs are sequentially distributed in a staggered mode from top to bottom.

Further, a plurality of groups of heat dissipation holes are formed in the movable plate, and a tongue lock is fixedly connected to one side, close to the extrusion strip, of the movable plate.

Further, the crane assembly comprises a T-shaped block, the outer surface of the T-shaped block is in sliding connection with the inner wall of the T-shaped groove, the T-shaped block is provided with a tight supporting block through a built-in cavity formed in the T-shaped block, an external block in sliding connection with the inner wall of the built-in cavity is tightly attached to the inclined surface of the tight supporting block, and one end of the tight supporting block penetrates through the T-shaped block and is fixedly connected with a square rod.

Further, the outer surface of the abutting block is fixedly connected with a powerful spring connected with the inner wall of the built-in cavity through a convex block, the two outer blocks are symmetrically distributed by taking the abutting block as a center, a plurality of groups of tooth grooves are formed in the inner wall of the T-shaped groove, and one side, far away from the abutting block, of the outer block penetrates through the T-shaped block and is fixedly connected with a toothed plate clamped with the inner wall of the tooth groove.

Further, the trapezoid groove is formed in the outer surface of the square rod and is in sliding connection with the outer side of the combined frame, a rotating cavity and a square hole are formed in the square rod respectively, a sliding groove is formed in one side, away from the abutting block, of the square rod, and a antiskid plate is connected in the sliding groove in a sliding mode.

Further, the square rod is internally and slidably connected with a reciprocating rod, a pair of reset springs are fixedly connected between adjacent ends of the reciprocating rod, and the inner wall of the rotary cavity is rotationally connected with a rotary push plate which is attached to the outer surface of the antiskid plate.

Further, one side of the rotating push plate far away from the antiskid plate is of a hollow design, a moving hole is formed in the rotating push plate, and a hard rod which is in sliding connection with the inner wall of the moving hole is fixedly connected to the outer surface of the circumference of the reciprocating rod.

Compared with the prior art, the technical scheme provided by the invention has the following beneficial effects:

the invention is provided with the movable plate, the lifting frame component and the combined frame, the components are stably placed in the combined frame, then the movable plate is opened by rotating the rotary tongue lock, the extrusion strip is separated from the end part of the reciprocating rod, and then the combined frame containing the components is aligned with the trapezoid groove on the square rod to slide in.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is evident that the drawings in the following description are only some embodiments of the present invention and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

FIG. 1 is a schematic view of a three-dimensional structure of an embodiment of the present invention;

FIG. 2 is a schematic view of a partially and three-dimensionally expanded structure of a movable plate according to an embodiment of the present invention;

FIG. 3 is a schematic view of the structure of FIG. 2 with a partial enlargement according to an embodiment of the present invention;

FIG. 4 is a schematic view of a structure of a joint portion according to an embodiment of the present invention;

FIG. 5 is a schematic view of a three-dimensional partial separation structure of a joint according to an embodiment of the present invention;

FIG. 6 is a schematic view of a three-dimensional partial cross-section of a crane assembly according to an embodiment of the invention;

FIG. 7 is a schematic view of a three-dimensional partially separated structure of a crane assembly according to an embodiment of the invention;

FIG. 8 is a schematic view of a three-dimensional partial cross-section of a square shank and cleat according to an embodiment of the present invention.

Reference numerals in the drawings represent respectively: 1. a case main body; 11. a chassis; 111. reinforcing ribs; 12. a movable plate; 121. a heat radiation hole; 122. a tongue lock; 2. a joint; 21. a riser; 211. a T-shaped groove; 212. tooth slots; 22. a crane assembly; 221. a T-shaped block; 2211. a built-in cavity; 222. a tightening block; 2221. a strong spring; 223. an outer joint block; 224. square rods; 2241. a trapezoid groove; 2242. a rotating chamber; 2243. square holes; 2244. a chute; 225. a toothed plate; 226. a cleat; 227. a reciprocating lever; 2271. a return spring; 2272. a hard rod; 228. a rotary push plate; 2281. a moving hole; 23. a combination frame; 24. extruding the strip.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It will be apparent that the described embodiments are some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention is further described below with reference to examples.

Examples:

referring to fig. 1-8, the present invention provides a technical solution: an electrical energy storage control device comprising:

the case comprises a case body 1, wherein the case body 1 comprises a case 11, and a movable plate 12 is rotatably connected to the side surface of the case 11 through a hinge;

the combined part 2, the combined part 2 comprises a vertical plate 21, the vertical plate 21 is connected with a lifting frame assembly 22 in a sliding way through a T-shaped groove 211 formed in the vertical plate 21, one side of the vertical plate 21 far away from the T-shaped groove 211 is fixedly connected with the inner wall of the chassis 11, a combined frame 23 is detachably arranged on the outer surface of the lifting frame assembly 22 and used for placing external elements, the combined frame 23 on the combined part 2 is used for replacing a conventional fastener, the combined frame 23 is formed in a hollow integral mode (a heat dissipation space is formed around), through holes formed in the top of the combined frame 23 are matched with the sizes of the elements, the elements can slide in along the through holes formed in the top of the combined frame 23, the space surrounded by the combined frame 23 is tightly attached to the outer surface of the elements, and the elements and the combined frame 23 are combined into a whole;

wherein, the movable plate 12 is fixedly connected with an extrusion strip 24 attached to the side surface of the lifting frame assembly 22 near to the side of the vertical plate 21.

The inner wall of the case 11 is fixedly connected with a reinforcing rib 111 attached to the outer surface of the movable plate 12, and is mainly used for reinforcing the case 11, and is secondly used for arranging auxiliary lines, the reinforcing rib 111 is positioned between the movable plate 12 and the vertical plate 21, and the extrusion bars 24 and the reinforcing rib 111 are sequentially staggered from top to bottom.

A plurality of groups of heat dissipation holes 121 are formed in the movable plate 12, and a tongue lock 122 is fixedly connected to one side of the movable plate 12 close to the extrusion strip 24 and used for opening and closing the movable plate 12.

The lifting frame assembly 22 comprises a T-shaped block 221, the outer surface of the T-shaped block 221 is slidably connected with the inner wall of the T-shaped groove 211, the T-shaped block 221 is slidably connected with a tightening block 222 through a built-in cavity 2211 formed in the T-shaped block 221, an external block 223 slidably connected with the inner wall of the built-in cavity 2211 is tightly attached to the inclined surface of the tightening block 222, and one end of the tightening block 222 penetrates through the T-shaped block 221 and is fixedly connected with a square rod 224.

The outer surface of the abutting block 222 is fixedly connected with a powerful spring 2221 connected with the inner wall of the built-in cavity 2211 through a convex block, two external blocks 223 are symmetrically distributed by taking the abutting block 222 as a center, a plurality of groups of tooth grooves 212 are formed in the inner wall of the T-shaped groove 211, and one side, far away from the abutting block 222, of the external blocks 223 penetrates through the T-shaped block 221 and is fixedly connected with a toothed plate 225 clamped with the inner wall of the tooth groove 212. Manual pulling of square rod 224 outwards drives abutting block 222 to slide outwards along inner wall of built-in cavity 2211, the inclined plane of abutting block 222 and the inclined plane of external block 223 slide relatively, powerful spring 2221 compresses further, at the same time, two external blocks 223 receive elastic rope tension action between them, the inclined plane of external block 223 and the inclined plane of abutting block 222 are closely attached all the time, the two are close to each other to drive toothed plate 225 to separate from tooth slot 212, and then lifting frame assembly 22, combining frame 23 and element can be adjusted freely in vertical direction (non-reinforcing rib 111 shielding area, reinforcing rib 111 width area is smaller), and the position of element and combining frame 23 can be adjusted freely in a certain range

The square 224 has an outer surface provided with a trapezoid slot 2241 slidably connected to the outer side of the joint frame 23, a rotary chamber 2242 and a square hole 2243 are provided in the square 224, and a chute 2244 is provided on a side of the square 224 away from the abutting block 222, and a cleat 226 is slidably connected in the chute 2244.

The square rod 224 is connected with a reciprocating rod 227 in a sliding way, a reset spring 2271 is fixedly connected between adjacent ends of the pair of reciprocating rods 227, and a rotating push plate 228 attached to the outer surface of the antiskid plate 226 is rotatably connected to the inner wall of the rotating cavity 2242.

The side of the rotary push plate 228 far away from the antiskid plate 226 is hollow, so that the rotary push plate 228 is convenient to rotate, shielding of the reciprocating rod 227 is avoided, a moving hole 2281 is formed in the rotary push plate 228, and the outer surface of the circumference of the reciprocating rod 227 is fixedly connected with a hard rod 2272 which is in sliding connection with the inner wall of the moving hole 2281. Closing the movable plate 12 and locking by utilizing the tongue lock 122, in the rotating and closing process of the movable plate 12, driving the extrusion strip 24 to synchronously rotate, when the extrusion strip 24 contacts the end part of the reciprocating rod 227, starting to inwards push the reciprocating rod 227, simultaneously driving the rotation push plate 228 to synchronously rotate by utilizing the hard rod 2272 on the outer surface of the reciprocating rod 227, sliding the hard rod 2272 along the inner wall of the moving hole 2281, rotating the push plate 228 along the inner wall of the rotating cavity 2242, and further driving the anti-skid plate 226 to outwards slide along the inner wall of the sliding chute 2244 by the rotation push plate 228 until the anti-skid plate 226 abuts against the outer surface of the outer block 223, so that the vertical plate 21, the lifting frame assembly 22, the plurality of groups of combined frames 23 and the plurality of groups of elements are combined into a whole at one time.

Referring to fig. 1-8, when the current control cabinet is used for installing elements, the elements are generally fixed with the installation plate by adopting fasteners, and the elements are too many and are densely distributed, so that the installation and the disassembly processes of workers are very inconvenient, particularly when the elements are increased on the basis of the prior art, the elements are influenced by two side walls, the installation is time-consuming and labor-consuming, the efficiency is low, and the practicability is not strong;

in order to overcome the defects, the invention designs an electric energy storage control device.

Quick installation of components:

the traditional components are fixed with the mounting plate by adopting the fasteners, the invention uses the combination frame 23 on the combination part 2 to replace the conventional fasteners, the combination frame 23 is hollow and integrally formed (the periphery is provided with a heat dissipation space), the through holes arranged at the top of the combination frame 23 are matched with the sizes of the components, the components can slide in along the through holes arranged at the top of the combination frame 23 (the directions of the components are noted), the space enclosed by the combination frame 23 is tightly attached to the outer surfaces of the components, the components and the combination frame 23 are combined into a whole, the components are stably placed in the combination frame 23, then the movable plate 12 is opened by rotating the tongue lock 122, the extrusion strip 24 is separated from the end part of the reciprocating rod 227, then the combination frame 23 containing the components is aligned with the trapezoid slot 2241 on the square rod 224 to slide in (the movable plate 12 is closed later and can be positioned at one time), compared with the traditional fasteners, the traditional fastener is fixed one by one, the invention, the components are only clamped in the combination frame 23 and then slide into the trapezoid slot 2241, the components are stably placed in the combination frame 23, and the components are directly removed, and the components are easy to be easily maintained, and the components are easy to be maintained, and then in the combination.

The movable plate 12 adopts the rotary design advantage:

firstly, the invention combines the element and the combining frame 23 into a whole, then slides in from the entrance of the trapezoid slot 2241 on the outer surface of the square rod 224, and the movable plate 12 can be freely opened (and releases the limit on the reciprocating rod 227), so the sliding in of the element and the combining frame 23 is not influenced by the two side walls of the chassis 11, and the installation is fast and the efficiency is high.

The second advantage is that the coupling frame 23 can slide freely in the trapezoid slot 2241, so that the components can be increased and decreased at will on the original basis (the conventional components are dead by fastening means, and are not easy to mount and dismount).

The third advantage, rotatory fly leaf 12 of opening makes things convenient for the inside dust of quick clearance of quick-witted case 11, and louvre 121 not only can realize outside quick-witted case 11 in addition to realizing inboard quick-witted case 11 (need not be plugged into to the hand, and the dust of clearance also can not fall into in the quick-witted case 11).

Correction of the position of the element:

the traditional element is generally fixed with the mounting plate by adopting a fastener, the position of the element cannot be adjusted after the element is mounted, and when the subsequent wiring is carried out, the element and the line trend have asymmetric conditions, so that the line joint is bent, and the transverse and vertical free adjustment of the element and the combined frame 23 can be realized. Since the element and the coupling frame 23 are combined into one body, the element can slide in from the entrance of the trapezoid slot 2241, and the element and the coupling frame 23 can be freely adjusted in the transverse direction; then, the square rod 224 is pulled outwards manually to drive the abutting block 222 to slide outwards along the inner wall of the built-in cavity 2211, the inclined plane of the abutting block 222 and the inclined plane of the external connecting block 223 slide relatively, the powerful spring 2221 is further compressed, meanwhile, the two external connecting blocks 223 are subjected to the tension action of elastic ropes between the two external connecting blocks, the inclined planes of the external connecting blocks 223 and the inclined planes of the abutting block 222 are always tightly attached, the two external connecting blocks are mutually close to each other to drive the toothed plate 225 to separate from the tooth grooves 212 (limit of the toothed plate 225 by the tooth grooves 212 disappears), and then the lifting frame assembly 22, the combined frame 23 and the elements can be adjusted freely in the vertical direction (the shielding area of the non-reinforcing ribs 111 is smaller, and the width area of the reinforcing ribs 111 is smaller), so that the positions of the elements and the combined frame 23 can be adjusted freely within a certain range. Secondly, after determining the position, loosening the square rod 224 and resetting to tightly block 222, pushing the external connection block 223 again to drive the toothed plate 225 to slide outwards, clamping the toothed plate 225 again by the toothed groove 212, realizing the position fixation of the lifting frame assembly 22, the combined frame 23 and the element, and when the subsequent wiring is carried out, the screw driver needs to tightly press the element knob, the tightly pressing force of the screw driver further presses the square rod 224, and the elastic force of the powerful spring 2221 is matched, so that the combination between the toothed groove 212 and the toothed plate 225 is more compact, and the lifting frame assembly 22 is prevented from loosening during wiring.

The element is positioned once:

the traditional elements need fasteners, namely one knob is arranged on the mounting plate, and the invention can realize the limit locking of all the combined frames 23 and elements at one time.

The movable plate 12 adopts a rotary design to achieve the advantages of fourth, after all the combination frames 23 and the element positions are corrected, the movable plate 12 is rotationally closed, and the tongue lock 122 is utilized to lock, in the rotational closing process of the movable plate 12, the extrusion strip 24 is driven to synchronously rotate, when the extrusion strip 24 contacts the end of the reciprocating rod 227, the reciprocating rod 227 starts to be pushed inwards (the return spring 2271 is further compressed), meanwhile, the reciprocating rod 227 drives the rotation push plate 228 to synchronously rotate by utilizing the hard rod 2272 on the outer surface (the rotation range of the rotation push plate 228 is 0-45 degrees), the hard rod 2272 slides along the inner wall of the moving hole 2281, the rotation push plate 228 rotates along the inner wall of the rotating cavity 2242, and then the rotation push plate 228 pushes the anti-skid plate 226 to outwards slide along the inner wall of the sliding groove 2244 until the anti-skid plate 226 abuts against the outer surface of the outer joint block 223, so that the vertical plate 21, the lifting frame assembly 22, a plurality of groups of combination frames 23 and a plurality of groups of elements are combined into a whole at one time (the extrusion strip 24 is provided with a rubber pad on one side close to the reciprocating rod 227), the extrusion strip 24 abuts against the reciprocating rod 227, and the lifting frame assembly 22 is further prevented from loosening by the lifting frame assembly 22, and the combination stability between the vertical plate 21 and the lifting frame assembly 22 is greatly improved. Meanwhile, the rotating push plates 228 are provided with a plurality of groups, and the reciprocating rod 227 can drive the plurality of groups of rotating push plates 228 to synchronously rotate, so that the multipoint stress pushing of the antiskid plate 226 is realized, and the defect that the force of the antiskid plate 226 locally abutting against the combining frame 23 is insufficient to influence the position fixing of the combining frame 23 is avoided.

The above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; these modifications or substitutions do not depart from the essence of the corresponding technical solutions from the protection scope of the technical solutions of the embodiments of the present invention.

Claims (8)

1. An electric power energy storage control device, characterized by comprising:

the mobile phone comprises a case body (1), wherein the case body (1) comprises a case (11), and a movable plate (12) is rotatably connected to the side surface of the case (11) through a hinge;

the combined part (2), the combined part (2) comprises a vertical plate (21), the vertical plate (21) is connected with a lifting frame assembly (22) in a sliding way through a T-shaped groove (211) formed in the vertical plate, one side, far away from the T-shaped groove (211), of the vertical plate (21) is fixedly connected with the inner wall of the case (11), and a combined frame (23) is detachably arranged on the outer surface of the lifting frame assembly (22) and used for placing external elements;

the movable plate (12) is fixedly connected with an extrusion strip (24) attached to the side face of the lifting frame assembly (22) at one side close to the vertical plate (21).

2. The electrical energy storage control device of claim 1, wherein: the inner wall of the case (11) is fixedly connected with a reinforcing rib (111) attached to the outer surface of the movable plate (12), the reinforcing rib (111) is positioned between the movable plate (12) and the vertical plate (21), and the extrusion strips (24) and the reinforcing rib (111) are sequentially staggered from top to bottom.

3. The electrical energy storage control device of claim 1, wherein: a plurality of groups of heat dissipation holes (121) are formed in the movable plate (12), and a tongue lock (122) is fixedly connected to one side, close to the extrusion strip (24), of the movable plate (12).

4. The electrical energy storage control device of claim 1, wherein: the lifting frame assembly (22) comprises a T-shaped block (221), the outer surface of the T-shaped block (221) is in sliding connection with the inner wall of the T-shaped groove (211), the T-shaped block (221) is connected with a tight supporting block (222) in a sliding manner through a built-in cavity (2211) formed in the T-shaped block, an external block (223) in sliding connection with the inner wall of the built-in cavity (2211) is tightly attached to the inclined surface of the tight supporting block (222), and one end of the tight supporting block (222) penetrates through the T-shaped block (221) and is fixedly connected with a square rod (224).

5. The electrical energy storage control device of claim 4, wherein: the external surface of the propping block (222) is fixedly connected with a powerful spring (2221) connected with the inner wall of the built-in cavity (2211) through a convex block, the external block (223) is provided with two toothed plates (225) which are symmetrically distributed by taking the propping block (222) as a center, a plurality of groups of tooth grooves (212) are formed in the inner wall of the T-shaped groove (211), and one side, away from the propping block (222), of the external block (223) penetrates through the T-shaped block (221) and is fixedly connected with the toothed plates (225) clamped with the inner wall of the tooth grooves (212).

6. The electrical energy storage control device of claim 4, wherein: the square rod (224) surface is offered with combination frame (23) outside sliding connection's dovetail groove (2241), rotation chamber (2242) and square hole (2243) have been seted up respectively to square rod (224) inside, square rod (224) keep away from to support tight piece (222) one side and have seted up spout (2244), inside sliding connection of spout (2244) has antiskid plate (226).

7. The electrical energy storage control device of claim 6, wherein: the square rod (224) is internally connected with a reciprocating rod (227) in a sliding way, a pair of reset springs (2271) are fixedly connected between adjacent ends of the reciprocating rod (227), and a rotary push plate (228) attached to the outer surface of the antiskid plate (226) is rotationally connected to the inner wall of the rotary cavity (2242).

8. The electrical energy storage control device of claim 7, wherein: the anti-skid plate is characterized in that one side, far away from the anti-skid plate (226), of the rotating push plate (228) is hollow, a moving hole (2281) is formed in the rotating push plate (228), and a hard rod (2272) which is in sliding connection with the inner wall of the moving hole (2281) is fixedly connected to the outer surface of the circumference of the reciprocating rod (227).