CN114667016B - Wiring mechanism for information system integrated control cabinet and wiring method thereof - Google Patents
Wiring mechanism for information system integrated control cabinet and wiring method thereof Download PDFInfo
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- CN114667016B CN114667016B CN202210296493.2A CN202210296493A CN114667016B CN 114667016 B CN114667016 B CN 114667016B CN 202210296493 A CN202210296493 A CN 202210296493A CN 114667016 B CN114667016 B CN 114667016B
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- 238000000034 method Methods 0.000 title claims abstract description 10
- 238000009434 installation Methods 0.000 claims abstract description 41
- 230000006835 compression Effects 0.000 claims description 19
- 238000007906 compression Methods 0.000 claims description 19
- 230000000149 penetrating effect Effects 0.000 claims description 2
- 238000001125 extrusion Methods 0.000 abstract description 3
- 230000010354 integration Effects 0.000 description 11
- 230000000694 effects Effects 0.000 description 2
- 238000005516 engineering process Methods 0.000 description 2
- 238000004804 winding Methods 0.000 description 2
- 230000006978 adaptation Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000008520 organization Effects 0.000 description 1
Classifications
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K5/00—Casings, cabinets or drawers for electric apparatus
- H05K5/02—Details
- H05K5/0247—Electrical details of casings, e.g. terminals, passages for cables or wiring
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- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K7/00—Constructional details common to different types of electric apparatus
- H05K7/02—Arrangements of circuit components or wiring on supporting structure
- H05K7/023—Stackable modules
-
- H—ELECTRICITY
- H05—ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
- H05K—PRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
- H05K7/00—Constructional details common to different types of electric apparatus
- H05K7/14—Mounting supporting structure in casing or on frame or rack
- H05K7/1438—Back panels or connecting means therefor; Terminals; Coding means to avoid wrong insertion
- H05K7/1447—External wirings; Wiring ducts; Laying cables
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02P—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN THE PRODUCTION OR PROCESSING OF GOODS
- Y02P90/00—Enabling technologies with a potential contribution to greenhouse gas [GHG] emissions mitigation
- Y02P90/02—Total factory control, e.g. smart factories, flexible manufacturing systems [FMS] or integrated manufacturing systems [IMS]
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- Engineering & Computer Science (AREA)
- Microelectronics & Electronic Packaging (AREA)
- Insertion, Bundling And Securing Of Wires For Electric Apparatuses (AREA)
Abstract
The application relates to a wiring mechanism for an information system integrated control cabinet and a wiring method thereof, and relates to the field of control cabinets, wherein the wiring mechanism comprises a control cabinet main body, a fixed adjusting part, a wiring installation part, a first wiring part and a second wiring part; two groups of fixed adjusting parts are symmetrically arranged in the control cabinet main body, a plurality of wiring installation parts are arranged between the two groups of fixed adjusting parts, and a plurality of first wiring parts for wiring are arranged in the wiring installation parts. Through setting up wiring installation component, first wiring component and second wiring component in the switch board main part, can guarantee that the connecting wire of different thickness can both be fixed by the chucking, the wiring of being convenient for avoids the connecting wire to receive the extrusion to take place to damage and appear rocking and connect not hard up to protection equipment's normal connection and use, cooperation fixed adjustment part simultaneously is convenient for carry out position control to wiring installation component, increases the application scope of switch board main part.
Description
Technical Field
The application relates to the field of control cabinets, in particular to a wiring mechanism for an information system integrated control cabinet and a wiring method thereof.
Background
The information system integration means that each separated device, function, information and the like are integrated into a system which is related to each other, unified and coordinated through a structured comprehensive wiring system and a computer network technology, so that resources are fully shared, the purposes of centralization, high efficiency, convenience in management and the like can be realized, the integration technology comprises function integration, network integration, software interface integration and the like, and the system is formed by integrating a plurality of subsystems such as hardware integration, software integration, data information integration, technical management integration, organization integration and the like.
At present, a PLC control cabinet is relatively common equipment in information system integration, is a programmable control cabinet, has overload, short circuit, phase failure protection and other protection functions, can be combined according to the actual control scale, can realize single cabinet automatic control, can also realize that a plurality of cabinets form a distributed control system through an industrial Ethernet or an industrial field bus network, and mainly comprises a control cabinet main body, a wiring supporting plate, various equipment installed in the cabinet body and the like, wherein the wiring supporting plate is provided with wiring grooves for wiring connecting wires of the equipment.
But the wiring groove on the existing switch board wiring layer board is evenly offered for the wiring groove size fixed in position just can't adjust, make wiring groove and connecting wire unable adaptation, it is limited to lead to the fixed effect of wiring groove to the connecting wire of thickness variation, can cause thicker connecting wire unable to pass the wiring groove even, perhaps, though can pass the wiring groove but can receive extrusion damage etc. be unfavorable for the wiring, simultaneously, the wiring groove also can't correspond with the position of connecting wire, lead to the connecting wire to take place to buckle easily after passing the wiring groove, receive pultrusion etc. probably can cause the connecting wire to take place not hard up, even damage, influence normal connection and the use of relevant equipment easily.
Disclosure of Invention
The application aims to: the wiring mechanism and the wiring method for the information system integrated control cabinet are provided, and wiring installation components, first wiring components and second wiring components are arranged in a control cabinet main body, so that connecting wires with different thicknesses can be ensured to be clamped and fixed, and meanwhile, the wiring installation components are matched with the fixed adjusting components, so that position adjustment is conveniently carried out on the wiring installation components, and the problems in the prior art are solved.
The technical scheme is as follows: the wiring mechanism for the information system integrated control cabinet comprises a control cabinet main body, a fixed adjusting part, a wiring installation part, a first wiring part and a second wiring part;
a control cabinet main body;
the two groups of fixed adjusting parts are symmetrically arranged in the control cabinet main body, a plurality of wiring installation parts are arranged between the two groups of fixed adjusting parts, a plurality of first wiring parts for wiring are arranged in the wiring installation parts, and a plurality of second wiring parts for wiring in cooperation with the first wiring parts are arranged in the first wiring parts.
In a further embodiment, the fixed adjustment component comprises a lateral adjustment rail, a lateral adjustment slider, a vertical adjustment rail, and a vertical adjustment slider;
the pair of transverse adjusting rails are symmetrically arranged in the control cabinet main body, and the pair of transverse adjusting rails are symmetrically arranged about the central axis of the control cabinet main body;
the two pairs of transverse adjusting sliding blocks are correspondingly arranged in the pair of transverse adjusting rails in a sliding manner;
the pair of vertical adjusting rails are symmetrically arranged on one surface of the pair of transverse adjusting rails far away from the inner wall of the control cabinet main body and are correspondingly connected with the two pairs of transverse adjusting sliding blocks, and the vertical adjusting sliding blocks used for connecting wiring installation components are arranged in the vertical adjusting rails in a sliding mode.
In a further embodiment, the fixed adjustment component further comprises a first screw hole, a first screw, a second screw hole, and a second screw;
the first screw holes are correspondingly formed in the transverse adjusting rail and the control cabinet main body, first screws used for fixing the transverse adjusting rail and the control cabinet main body are connected in the first screw holes in a threaded mode, and the transverse adjusting rail and the control cabinet main body are convenient to assemble and disassemble through the first screw holes and the threaded arrangement of the first screws;
the second screw holes are correspondingly and penetratingly arranged on the vertical adjusting rail and the transverse adjusting slide block, second screws used for fixing the vertical adjusting rail, the transverse adjusting slide block and the transverse adjusting rail are connected in the second screw holes in a threaded mode, and the vertical adjusting rail, the transverse adjusting slide block and the transverse adjusting rail are convenient to assemble and disassemble through the second screw holes and the threaded arrangement of the second screws.
In a further embodiment, the wiring mounting member includes a mounting bracket, a third screw hole, a third screw, a longitudinal wiring rail, a fourth screw hole, and a fourth screw;
the mounting frame is arranged between the two groups of fixed adjusting parts, a plurality of third screw holes are correspondingly formed in the mounting frame and the vertical adjusting slide block in a penetrating mode, third screws used for fixing the mounting frame, the vertical adjusting slide block and the vertical adjusting rail are connected in a threaded mode, and the mounting frame, the vertical adjusting slide block and the vertical adjusting rail are convenient to assemble and disassemble through the third screw holes and the threaded arrangement of the third screws;
the pair of longitudinal wiring rails are correspondingly arranged in the mounting frame and used for connecting the second wiring components, a plurality of fourth screw holes are correspondingly formed in the longitudinal wiring rails and the mounting frame, fourth screws used for fixing the longitudinal wiring rails and the mounting frame are connected with the fourth screw holes in an internal threaded mode, the pair of longitudinal wiring rails are symmetrically arranged relative to the central axis of the mounting frame, and the longitudinal wiring rails and the mounting frame are convenient to assemble and disassemble through the screw threads of the fourth screw holes and the fourth screws.
In a further embodiment, the first routing component includes a wire frame, a wire routing slider, a sixth screw hole, a sixth screw, and a wire routing slot;
the wiring frame is arranged in the wiring installation component, wiring sliding blocks matched with the longitudinal wiring rails are installed at two ends of the wiring frame, and the wiring frame is slidably installed between the pair of longitudinal wiring rails;
the pair of sixth screw holes are correspondingly and penetratingly arranged on the wiring frame and the wiring sliding block, sixth screws for fixing the wiring frame, the wiring sliding block and the longitudinal wiring rail are connected in the sixth screw holes in a threaded manner, and the wiring frame, the wiring sliding block and the longitudinal wiring rail are convenient to assemble and disassemble through the screw threads of the sixth screw holes and the sixth screws;
the wiring groove is arranged on the wiring frame and used for clamping the first connecting wire with the preset size, when the wiring groove is used, the first connecting wire with the preset size can be clamped by utilizing the wiring groove on the pair of adjacent wiring frames, the size of the wiring groove mainly refers to the diameter of a single connecting wire, and if a plurality of connecting wires are wound together, the wiring groove is regarded as the diameter of an circumscribed circle after winding.
In a further embodiment, the first wiring member further includes a pair of connection plates, a connection spring, a seventh screw hole, and a seventh screw;
the connecting plates are symmetrically arranged at two ends of the wiring sliding block, two seventh screw holes are correspondingly formed in the connecting plates and the wiring sliding block, seventh screws for fixing the connecting plates and the wiring sliding block are connected in the seventh screw holes in a threaded manner, the connecting plates are symmetrically arranged on the wiring sliding block along the sliding direction of the wiring sliding block, and the connecting plates and the wiring sliding block are convenient to assemble and disassemble through the arrangement of the threads of the seventh screw holes and the seventh screws;
and the connecting spring is connected to the connecting plate and is used for connecting two adjacent wire distribution frames and clamping and fixing the connecting wire by matching with the two adjacent wire distribution frames.
In a further embodiment, the first wiring member further includes a wire clamping adjustment rail, an eighth screw hole, an eighth screw, and a locking groove;
the wire clamping adjusting rails are symmetrically arranged in the wiring frame and used for connecting the second wiring component, a plurality of eighth screw holes are correspondingly formed in the wire clamping adjusting rails and the wiring frame, eighth screws used for fixing the wire clamping adjusting rails and the wiring frame are connected in the eighth screw holes in a threaded manner, and the wire clamping adjusting rails and the wiring frame are conveniently assembled and disassembled through the screw threads of the eighth screw holes and the eighth screws;
and the locking groove is arranged on the wire distribution frame and used for fixing the second wiring component.
In a further embodiment, the second wiring member includes a first snap ring, a wire clamping slider, a locking hole, a locking pin, a mounting groove, a mounting plate, and a first compression spring;
the first clamping rings are arranged in the first wiring component and used for clamping the connecting wire with the second preset size, and wire clamping sliding blocks matched with the wire clamping adjusting rails are arranged on the surfaces, away from each other, of the first clamping rings;
the locking hole is formed in the wire clamping sliding block, and locking nails which are matched with the locking grooves and used for fixing the wire clamping sliding block and the wire distribution frame are connected in a threaded mode in the wire clamping sliding block;
the wire clamping slide block is provided with a wire clamping slide block, a pair of mounting grooves are formed in the wire clamping slide block, a mounting plate is mounted in each mounting groove, a plurality of first compression springs are connected between the mounting plate and the first clamping rings, and the connecting wires can be clamped and fixed by the aid of the first compression springs in cooperation with the first clamping rings.
In a further embodiment, the second wiring member further includes a mounting hole, a mounting pin, a receiving block, a second hold-down spring, a receiving groove, a second snap ring, and a third hold-down spring;
the mounting holes are correspondingly formed in the mounting plate and the wire clamping slide block, and mounting bolts used for fixing the mounting plate and the wire clamping slide block are inserted into the mounting holes, so that the mounting plate and the wire clamping slide block can be conveniently dismounted;
the storage block is connected to one surface, close to the mounting plate, of the first clamping ring, a second compression spring is connected between the storage block and the mounting plate, and the second compression spring can be matched with the first compression spring to enable the first clamping ring to clamp and fix the connecting wire;
the storage groove is correspondingly formed in the storage block and the first clamping ring, one side, away from the mounting plate, of the first clamping ring is provided with a second clamping ring which is matched with the storage groove and used for clamping a connecting wire with a third preset size, and a third compression spring is connected between the second clamping ring and the inner wall of the storage groove.
The wiring method of the wiring mechanism for the information system integrated control cabinet comprises the following steps:
s1, installing a corresponding first wiring part and a corresponding second wiring part in a wiring installation part according to the condition of a connecting wire, and installing a fixed adjusting part and the wiring installation part in a control cabinet main body;
s2, moving the wire distribution frame to drive the wire distribution slider to slide in the longitudinal wire distribution rail, adjusting the position of the wire distribution frame to correspond to the position of the first preset-size connecting wire, and clamping the first preset-size connecting wire by utilizing a wire distribution groove matched with a connecting spring between a pair of adjacent wire distribution frames;
s3, moving a pair of first clamping rings to drive the wire clamping sliding blocks to slide in the wire clamping adjusting rail, adjusting the pair of first clamping rings to clamp the connecting wire with the second preset size, and screwing the wire clamping sliding blocks into the locking holes by using the locking nails to fix the wire clamping sliding blocks in the wire clamping adjusting rail;
and S4, simultaneously, moving a pair of first clamping rings to drive the wire clamping sliding blocks to slide in the wire clamping adjusting rail, and adjusting the pair of second clamping rings to clamp the connecting wire with the third preset size.
The beneficial effects are that: the application relates to a wiring mechanism for an information system integrated control cabinet and a wiring method thereof, wherein wiring installation components, a first wiring component and a second wiring component are arranged in a control cabinet main body, so that connecting wires with different thicknesses can be clamped and fixed, wiring is facilitated, the connecting wires are prevented from being damaged due to extrusion and loose connection due to shaking, normal connection and use of equipment are protected, and meanwhile, the wiring installation components are conveniently adjusted by matching with fixed adjusting components, so that the application range of the control cabinet main body is increased.
Drawings
Fig. 1 is a perspective view of the overall structure of the present application.
Fig. 2 is a perspective view of a control cabinet body according to the present application.
Fig. 3 is a perspective view showing a part of the structure of the fixed adjusting part of the present application.
Fig. 4 is an exploded view of a part of the structure of the fixed adjusting part of the present application.
Fig. 5 is a perspective view of the wiring installation member, the first wiring member, and the second wiring member of the present application.
Fig. 6 is a perspective view of the wiring installation member of the present application.
Fig. 7 is an exploded view of a part of the structure of the wiring installation member of the present application.
Fig. 8 is a perspective view of two first wiring members of the present application.
Fig. 9 is a partial enlarged view at a in fig. 8.
Fig. 10 is an exploded view of a first wiring member of the present application.
Fig. 11 is a perspective view of two second wiring members of the present application.
Fig. 12 is an exploded view of two second wiring members of the present application.
Fig. 13 is a view showing the effect of the partial structure of the present application.
The reference numerals in the drawings are as follows: 1. the control cabinet includes a cabinet body, 2. Fixed adjustment members, 201. Lateral adjustment rails, 202. First screw hole, 203. First screw, 204. Lateral adjustment slide, 205. Vertical adjustment rail, 206. Second screw hole, 207. Second screw, 208. Vertical adjustment slide, 3. Wiring installation member, 301. Mounting bracket, 302. Third screw hole, 303. Third screw, 304. Longitudinal wiring rail, 305. Fourth screw hole, 306. Fourth screw hole, 307. Fifth screw hole, 4. First wiring member, 401, wiring rack, 402, wiring slide, 403. Sixth screw hole, 404. Sixth screw hole, 304. Longitudinal wiring rail, 305. Fourth screw hole, 306. Fourth screw hole, 307. Fifth screw hole, 4. First wiring member, 401, wiring rack, 402, wiring slide, and third screw hole. 405, connecting plate, 406, connecting spring, 407, seventh screw hole, 408, seventh screw, 409, wiring groove, 410, wire clamping adjustment rail, 411, eighth screw hole, 412, eighth screw, 413, locking groove, 5, second wiring component, 501, first snap ring, 502, wire clamping slider, 503, locking hole, 504, locking pin, 505, mounting groove, 506, mounting plate, 507, mounting hole, 508, mounting bolt, 509, first compression spring, 510, receiving block, 511, second compression spring, 512, receiving groove, 513, second snap ring, 514, third compression spring.
Detailed Description
In the following description, numerous specific details are set forth in order to provide a more thorough understanding of the present application. It will be apparent, however, to one skilled in the art that the application may be practiced without one or more of these details. In other instances, well-known features have not been described in detail in order to avoid obscuring the application.
As shown in fig. 1 to 13, the application discloses a wiring mechanism for an information system integrated control cabinet and a wiring method thereof. Wherein, a wiring mechanism for an information system integrated control cabinet comprises a control cabinet main body 1, a fixed adjusting part 2, a wiring installation part 3, a first wiring part 4 and a second wiring part 5.
Specifically, two sets of fixed adjusting parts 2 are symmetrically installed in the control cabinet main body 1, a plurality of wiring installation parts 3 are installed between the two sets of fixed adjusting parts 2, a plurality of first wiring parts 4 for wiring are installed in the wiring installation parts 3, and a plurality of second wiring parts 5 for wiring in cooperation with the first wiring parts 4 are arranged in the first wiring parts 4.
As shown in fig. 1 to 4, the fixed adjustment member 2 includes a lateral adjustment rail 201, a lateral adjustment slider 204, a vertical adjustment rail 205, and a vertical adjustment slider 208.
The pair of transverse adjusting rails 201 are symmetrically installed in the control cabinet main body 1, and the pair of transverse adjusting rails 201 are symmetrically arranged about the central axis of the control cabinet main body 1.
Two pairs of transverse adjusting sliding blocks 204 are correspondingly and slidably arranged in the pair of transverse adjusting rails 201.
The pair of vertical adjusting rails 205 are symmetrically arranged on one surface of the pair of transverse adjusting rails 201 far away from the inner wall of the control cabinet main body 1 and correspondingly connected with the two pairs of transverse adjusting sliding blocks 204, and vertical adjusting sliding blocks 208 used for connecting the wiring installation components 3 are arranged in the vertical adjusting rails 205 in a sliding mode.
According to the application, two groups of fixed adjusting parts 2 are arranged, the two groups of fixed adjusting parts 2 are symmetrically arranged about the central axis of the control cabinet main body 1, each group of fixed adjusting parts 2 comprises at least one transverse adjusting rail 201 and one vertical adjusting rail 205, and are used for connecting the control cabinet main body 1 and the wiring installation part 3, the vertical adjusting rails 205 can move on the transverse adjusting rails 201 through the transverse adjusting sliding blocks 204, the wiring installation part 3 can move on the vertical adjusting rails 205 through the vertical adjusting sliding blocks 208, and the positions of the wiring installation part 3 on the vertical adjusting rails 205 can be adjusted, so that the positions of the wiring installation part 3 and a connecting wire can be adjusted, the first wiring part 4 and the second wiring part 5 can clamp the connecting wire for wiring, meanwhile, the vertical adjusting rails 205 can move on the transverse adjusting rails 201 through the transverse adjusting sliding blocks 204, the wiring installation parts 3 with different sizes can be adaptively installed, and the positions of the connecting wire can be conveniently adapted.
As shown in fig. 3 to 4, the fixing and adjusting member 2 further includes a first screw hole 202, a first screw 203, a second screw hole 206, and a second screw 207.
Wherein, a plurality of first screw holes 202 are corresponding to be seted up on horizontal regulation rail 201 and switch board main part 1, and first screw 203 that is used for fixed horizontal regulation rail 201 and switch board main part 1 is connected with to first screw 202 internal thread, and the dismouting of horizontal regulation rail 201 and switch board main part 1 is convenient for through the screw setting of first screw 202 and first screw 203.
A plurality of second screw holes 206 correspondingly penetrate through and are formed in the vertical adjusting rail 205 and the transverse adjusting slide block 204, second screws 207 used for fixing the vertical adjusting rail 205, the transverse adjusting slide block 204 and the transverse adjusting rail 201 are connected in the second screw holes 206 in a threaded mode, and the vertical adjusting rail 205, the transverse adjusting slide block 204 and the transverse adjusting rail 201 are convenient to assemble and disassemble through the second screw holes 206 and the threaded arrangement of the second screws 207.
In use, tightening the second screw 207 can fix the vertical adjustment rail 205, the lateral adjustment slider 204, and the lateral adjustment rail 201, and loosening the second screw 207 can move the lateral adjustment slider 204 on the lateral adjustment rail 201, thereby allowing the vertical adjustment rail 205 to accommodate different sized wiring installation components 3.
As shown in fig. 1 to 7, the wiring mounting member 3 includes a mounting bracket 301, a third screw hole 302, a third screw 303, a longitudinal wiring rail 304, a fourth screw hole 305, and a fourth screw 306.
Wherein, mounting bracket 301 sets up between two sets of fixed adjusting part 2, corresponds on mounting bracket 301 and the vertical adjustment slider 208 and runs through and offer a plurality of third screw 302, and third screw 302 female connection has the third screw 303 that is used for fixed mounting bracket 301, vertical adjustment slider 208 and vertical adjustment rail 205, and the screw setting through third screw 302 and third screw 303 is convenient for mounting bracket 301, vertical adjustment slider 208 and vertical adjustment rail 205's dismouting.
When the novel control cabinet is used, the mounting frame 301, the vertical adjusting sliding block 208 and the vertical adjusting rail 205 can be fixed by screwing the third screw 303, the vertical adjusting sliding block 208 can be moved on the vertical adjusting rail 205 by loosening the third screw 303, and the position of the mounting frame 301 can be adjusted, so that the positions of the wiring installation part 3 and the connecting wire can be adjusted, the first wiring part 4 and the second wiring part 5 can clamp and wire the connecting wire conveniently, and the application range of the control cabinet main body 1 can be increased.
In addition, the installation positions, the number and the like of the devices in different control cabinet main bodies 1 are different, proper size and number of wiring supporting plates are required to be selected to be installed in the control cabinet main bodies 1 in order to adapt to the difference, so that the prior control cabinet main bodies 1 lack generality, and the wiring installation part 3 can be matched with the fixed adjustment part 2 to adjust the positions, so that the different control cabinet main bodies 1 are adapted, the function of 'one cabinet with multiple functions' is realized, and the wiring installation part 3 is provided with multiple sizes, so that the application range of the control cabinet main bodies 1 can be further increased.
A pair of longitudinal wiring rails 304 are correspondingly installed in the mounting frame 301 and are used for connecting the second wiring members 5, a plurality of fourth screw holes 305 are correspondingly formed in the longitudinal wiring rails 304 and the mounting frame 301, and fourth screws 306 used for fixing the longitudinal wiring rails 304 and the mounting frame 301 are connected in an internal threaded mode to the fourth screw holes 305.
The pair of longitudinal wiring rails 304 are symmetrically arranged about the central axis of the mounting frame 301, the longitudinal wiring rails 304 and the mounting frame 301 are convenient to assemble and disassemble through the screw thread arrangement of the fourth screw holes 305 and the fourth screws 306, and meanwhile, a plurality of fifth screw holes 307 are symmetrically formed in the mounting frame 301 and can be used for fixing and changing the positions of the longitudinal wiring rails 304, so that connecting wires at different positions are adapted.
As shown in fig. 1 to 10, the first wiring member 4 includes a wiring frame 401, a wiring slider 402, a sixth screw hole 403, a sixth screw 404, and a wiring groove 409.
The wiring frame 401 is disposed in the wiring mounting member 3, and wiring sliders 402 adapted to the longitudinal wiring rails 304 are mounted at both ends of the wiring frame 401 for slidably mounting the wiring frame 401 between the pair of longitudinal wiring rails 304.
A pair of sixth screw holes 403 are correspondingly and penetratingly formed on the wiring frame 401 and the wiring slider 402, sixth screws 404 for fixing the wiring frame 401, the wiring slider 402 and the longitudinal wiring rail 304 are connected to the sixth screw holes 403 in an internal thread manner, and the mounting and dismounting of the wiring frame 401, the wiring slider 402 and the longitudinal wiring rail 304 are facilitated by the screw arrangement of the sixth screw holes 403 and the sixth screws 404.
When the intelligent control cabinet is used, the wire distribution frame 401, the wire distribution slider 402 and the longitudinal wire distribution rail 304 can be fixed by screwing the sixth screw 404, the wire distribution slider 402 can move on the longitudinal wire distribution rail 304 by loosening the sixth screw 404, the positions of the wire distribution frame 401 can be adjusted, a pair of adjacent wire distribution frames 401 are convenient to clamp and fix connecting wires, meanwhile, the application range of the control cabinet main body 1 is increased, and connecting wires in different positions can be adapted.
The wiring groove 409 is formed on the wiring frame 401 and is used for clamping the connecting wire with the first predetermined size.
In use, the first predetermined size of connection wire may be clamped by the wire grooves 409 of the pair of adjacent wire distribution frames 401, where the size mainly refers to the diameter of a single connection wire, and if a plurality of connection wires are wound together, the diameter is regarded as the diameter of the circumscribed circle after winding.
As shown in fig. 8 to 10, the first wiring member 4 further includes a pair of connection plates 405, a connection spring 406, a seventh screw hole 407, and a seventh screw 408.
The connecting plates 405 are symmetrically arranged at two ends of the wiring slide block 402, two seventh screw holes 407 are correspondingly formed in the connecting plates 405 and the wiring slide block 402, and seventh screws 408 for fixing the connecting plates 405 and the wiring slide block 402 are connected in the seventh screw holes 407 in a threaded manner.
The pair of connection plates 405 are symmetrically arranged on the wiring slide block 402 along the sliding direction of the wiring slide block 402, and the connection plates 405 and the wiring slide block 402 are convenient to assemble and disassemble through the screw thread arrangement of the seventh screw hole 407 and the seventh screw 408.
The connecting spring 406 is connected to the connecting plate 405 and is used for connecting two adjacent wiring frames 401 and clamping and fixing the connecting wire by matching with the two adjacent wiring frames 401.
When the application is used, if a plurality of wire distribution frames 401 are installed, after the positions of the wire distribution frames 401 are adjusted, one of the wire distribution frames 401 can be fixed with the longitudinal wire distribution rail 304 by using the sixth screw 404, the rest of the wire distribution frames 401 can be relatively fixed by using the connecting springs 406, and after connecting wires pass through the wire distribution grooves 409 on the two adjacent wire distribution frames 401, the two adjacent wire distribution frames 401 can elastically compress and fix the connecting wires by using the connecting springs 406, so that the first preset size, namely the connecting wires with larger sizes, can be conveniently adapted.
Meanwhile, if the distribution of the connection lines is scattered, the plurality of distribution frames 401 and the longitudinal distribution rail 304 may be fixed, at this time, two adjacent distribution frames 401 with a longer distance may be connected without the connection springs 406, and may be selectively installed and fixed according to specific situations during actual use.
As shown in fig. 8 to 10, the first wiring member 4 further includes a wire clamping adjustment rail 410, an eighth screw hole 411, an eighth screw 412, and a locking groove 413.
Wherein, a pair of card line adjusting rails 410 are symmetrically installed in the wiring frame 401 and are used for connecting the second wiring component 5, a plurality of eighth screw holes 411 are correspondingly formed on the card line adjusting rails 410 and the wiring frame 401, eighth screws 412 used for fixing the card line adjusting rails 410 and the wiring frame 401 are connected in the eighth screw holes 411 in a threaded manner, and the card line adjusting rails 410 and the wiring frame 401 are conveniently assembled and disassembled through the screw threads of the eighth screw holes 411 and the eighth screws 412.
A locking groove 413 is provided in the wiring frame 401 for fixing the second wiring member 5.
As shown in fig. 1 to 12, the second wiring member 5 includes a first snap ring 501, a wire catching slider 502, a locking hole 503, a locking nail 504, a mounting groove 505, a mounting plate 506, and a first hold-down spring 509.
Wherein, a pair of first snap rings 501 are disposed in the first wiring component 4 and used for clamping the connecting wire with the second predetermined size, and the surfaces of the first snap rings 501 away from each other are provided with wire clamping sliders 502 adapted to the wire clamping adjusting rail 410, where the connecting wire with the second predetermined size, that is, the size is moderate.
The first clamping ring 501 can be driven to move by moving the clamping line sliding block 502 on the clamping line adjusting rail 410, so that the first clamping ring 501 is adapted to the positions of different connecting lines, and the connecting lines with the size larger than or equal to the second preset size can be clamped and fixed by the first clamping ring 501.
The locking hole 503 is formed on the wire clamping slider 502, and the locking nail 504 which is matched with the locking groove 413 and used for fixing the wire clamping slider 502 and the wiring frame 401 is connected with the inner thread of the wire clamping slider 502.
After the first snap ring 501 corresponds to the connecting line, the locking nail 504 is screwed into the locking hole 503 through the locking groove 413 to fix the wire clamping slider 502 on the wire clamping adjusting rail 410, and after the locking nail 504 is loosened, the wire clamping slider 502 can move on the wire clamping adjusting rail 410 and can be used for adjusting the position of the first snap ring 501, so that the position of the first snap ring 501 corresponds to the position of the connecting line.
A pair of mounting grooves 505 are formed in the wire clamping slider 502, a mounting plate 506 is mounted in the mounting grooves 505, a plurality of first compression springs 509 are connected between the mounting plate 506 and the first clamping ring 501, and the first compression springs 509 are matched with the first clamping ring 501 to clamp and fix a connecting wire.
As shown in fig. 1 to 13, the second wiring member 5 further includes a mounting hole 507, a mounting bolt 508, a receiving block 510, a second hold-down spring 511, a receiving groove 512, a second snap ring 513, and a third hold-down spring 514.
Wherein, a pair of mounting holes 507 are correspondingly arranged on the mounting plate 506 and the wire clamping slide block 502, and mounting bolts 508 for fixing the mounting plate 506 and the wire clamping slide block 502 are inserted in the mounting holes 507, so that the mounting plate 506 and the wire clamping slide block 502 are convenient to assemble and disassemble.
The storage block 510 is connected to one side of the first snap ring 501, which is close to the mounting plate 506, and a second compression spring 511 is connected between the storage block 510 and the mounting plate 506, and the second compression spring 511 can be matched with the first compression spring 509 to enable the first snap ring 501 to clamp and fix the connecting wire.
The accommodating groove 512 is correspondingly formed in the accommodating block 510 and the first clamping ring 501, one side, away from the mounting plate 506, of the first clamping ring 501 is provided with a second clamping ring 513 which is matched with the accommodating groove 512 and used for clamping a connecting wire with a third preset size, namely a connecting wire with a smaller size, and a third compression spring 514 is connected between the second clamping ring 513 and the inner wall of the accommodating groove 512.
In actual use, the connecting springs 406 with different elastic coefficients, the first clamping rings 501 with different inner diameters and the second clamping rings 513 with different inner diameters can be selected, and the ranges of the first preset size, the second preset size and the third preset size can be adjusted, so that connecting wires with different sizes can be adapted.
Meanwhile, in the present application, the first predetermined size is equal to or larger than the second predetermined size, and the second predetermined size is equal to or larger than the third predetermined size, for example: when the three are equal, the connecting wires can be pressed and fixed together, when the first preset size is larger than the second preset size, and the second preset size is larger than the third preset size, the pair of adjacent wire distribution frames 401 can clamp and fix the connecting wires with the first preset size, the corresponding first clamping rings 501 can clamp and fix the connecting wires with the second preset size, the corresponding second clamping rings 513 can clamp and fix the connecting wires with the third preset size, and the like.
The connecting wires with different sizes can be clamped and fixed through the arrangement of the connecting springs 406, the first clamping ring 501 and the second clamping ring 513, wiring is facilitated, a plurality of connecting wires can be separated and fixed, a user can find a needed connecting wire at the first time, meanwhile, the connecting wire can be conveniently cooled when in use, the connecting wire can be prevented from being extruded to be damaged, normal use of the connecting wire is protected, the connecting wires with different thicknesses can be guaranteed to be fixed, the connecting wires are prevented from shaking to be connected loose, and normal connection and use of protecting equipment are guaranteed.
Based on the technical scheme, the specific working process of the application is as follows: depending on the case of the connection wires, the corresponding first wiring members 4 and second wiring members 5 are mounted in the wiring mounting member 3, and "case" here includes the number, size, position, etc. of the connection wires, the corresponding number and size of the second wiring members 5 are mounted in the first wiring members 4, the corresponding number of the first wiring members 4 are mounted in the wiring mounting member 3, the wiring mounting member 3 is mounted in the corresponding position on the fixed adjustment member 2, and the fixed adjustment member 2 is mounted in the control cabinet main body 1.
Then, the moving wire distribution frame 401 drives the wire distribution slider 402 to slide in the longitudinal wire distribution rail 304, the wire distribution frame 401 is adjusted to correspond to the position of the first predetermined-size connecting wire, the wire distribution groove 409 between the adjacent wire distribution frames 401 is matched with the connecting spring 406 to clamp the first predetermined-size connecting wire, the pair of first clamping rings 501 is moved to drive the wire clamping slider 502 to slide in the wire clamping adjusting rail 410, the pair of first clamping rings 501 is adjusted to clamp the second predetermined-size connecting wire, the locking nails 504 are screwed into the locking holes 503 to fix the wire clamping slider 502 in the wire clamping adjusting rail 410, and meanwhile the pair of first clamping rings 501 is moved to drive the wire clamping slider 502 to slide in the wire clamping adjusting rail 410 to clamp the third predetermined-size connecting wire.
As above, although the present application has been shown and described with reference to certain preferred embodiments, it is not to be construed as limiting the application itself. Various changes in form and details may be made therein without departing from the spirit and scope of the application as defined by the appended claims.
Claims (2)
1. The utility model provides a wiring mechanism for information system integrated control cabinet which characterized in that includes:
a control cabinet main body;
two groups of fixed adjusting parts are symmetrically arranged in the control cabinet main body, a plurality of wiring installation parts are arranged between the two groups of fixed adjusting parts, a plurality of first wiring parts for wiring are arranged in the wiring installation parts, and a plurality of second wiring parts for wiring in cooperation with the first wiring parts are arranged in the first wiring parts;
wherein the fixed adjustment component comprises:
the pair of transverse adjusting rails are symmetrically arranged in the control cabinet main body;
the two pairs of transverse adjusting sliding blocks are correspondingly arranged in the pair of transverse adjusting rails in a sliding manner;
the pair of vertical adjusting rails are symmetrically arranged on one surface of the pair of transverse adjusting rails far away from the inner wall of the control cabinet main body and are correspondingly connected with the two pairs of transverse adjusting sliding blocks, and the vertical adjusting sliding blocks for connecting the wiring installation parts are arranged in the vertical adjusting rails in a sliding manner;
the first screw holes are correspondingly formed in the transverse adjusting rail and the control cabinet main body, and first screws used for fixing the transverse adjusting rail and the control cabinet main body are connected in the first screw holes in a threaded mode;
the second screw holes are correspondingly and penetratingly arranged on the vertical adjusting rail and the transverse adjusting slide block, and second screws used for fixing the vertical adjusting rail, the transverse adjusting slide block and the transverse adjusting rail are connected in an internal thread mode;
the wiring mounting member includes:
the mounting frame is arranged between the two groups of fixed adjusting parts, a plurality of third screw holes are correspondingly formed in the mounting frame and the vertical adjusting slide block in a penetrating mode, and third screws used for fixing the mounting frame, the vertical adjusting slide block and the vertical adjusting rail are connected in a threaded mode;
the pair of longitudinal wiring rails are correspondingly arranged in the mounting frame and used for connecting the second wiring components, a plurality of fourth screw holes are correspondingly formed in the longitudinal wiring rails and the mounting frame, and fourth screws used for fixing the longitudinal wiring rails and the mounting frame are connected in the fourth screw holes in a threaded manner;
the first wiring member includes:
the wiring frame is arranged in the wiring installation component, wiring sliding blocks matched with the longitudinal wiring rails are installed at two ends of the wiring frame, and the wiring frame is slidably installed between the pair of longitudinal wiring rails;
the pair of sixth screw holes are correspondingly and penetratingly arranged on the wiring frame and the wiring sliding block, and sixth screws for fixing the wiring frame, the wiring sliding block and the longitudinal wiring rail are connected in the sixth screw holes in a threaded manner;
the wiring groove is arranged on the wiring frame and used for clamping the connecting wire with the first preset size;
the connecting plates are symmetrically arranged at two ends of the wiring sliding block, two seventh screw holes are correspondingly formed in the connecting plates and the wiring sliding block, and seventh screws for fixing the connecting plates and the wiring sliding block are connected in the seventh screw holes in a threaded manner;
the connecting spring is connected to the connecting plate and is used for connecting two adjacent wire distribution frames and clamping and fixing the connecting wire by matching with the two adjacent wire distribution frames;
the wire clamping adjusting rails are symmetrically arranged in the wiring frame and used for connecting the second wiring component, a plurality of eighth screw holes are correspondingly formed in the wire clamping adjusting rails and the wiring frame, and eighth screws used for fixing the wire clamping adjusting rails and the wiring frame are connected in the eighth screw holes in a threaded manner;
the locking groove is arranged on the wire distribution frame and used for fixing the second wiring component;
the second wiring member includes:
the first clamping rings are arranged in the first wiring component and used for clamping the connecting wire with the second preset size, and wire clamping sliding blocks matched with the wire clamping adjusting rails are arranged on the surfaces, away from each other, of the first clamping rings;
the locking hole is formed in the wire clamping sliding block, and locking nails which are matched with the locking grooves and used for fixing the wire clamping sliding block and the wire distribution frame are connected in a threaded mode in the wire clamping sliding block;
the pair of mounting grooves are formed in the wire clamping slide block, a mounting plate is mounted in each mounting groove, and a plurality of first compression springs are connected between the mounting plate and the first clamping ring;
the mounting holes are correspondingly formed in the mounting plate and the wire clamping slide block, and mounting bolts used for fixing the mounting plate and the wire clamping slide block are inserted into the mounting holes;
the storage block is connected to one surface, close to the mounting plate, of the first clamping ring, and a second compression spring is connected between the storage block and the mounting plate;
the storage groove is correspondingly formed in the storage block and the first clamping ring, one side, away from the mounting plate, of the first clamping ring is provided with a second clamping ring which is matched with the storage groove and used for clamping a connecting wire with a third preset size, and a third compression spring is connected between the second clamping ring and the inner wall of the storage groove.
2. The wiring method of the wiring mechanism for the information system integrated control cabinet according to claim 1, characterized by comprising the steps of:
s1, installing a corresponding first wiring part and a corresponding second wiring part in a wiring installation part according to the condition of a connecting wire, and installing a fixed adjusting part and the wiring installation part in a control cabinet main body;
s2, moving the wire distribution frame to drive the wire distribution slider to slide in the longitudinal wire distribution rail, adjusting the position of the wire distribution frame to correspond to the position of the first preset-size connecting wire, and clamping the first preset-size connecting wire by utilizing a wire distribution groove matched with a connecting spring between a pair of adjacent wire distribution frames;
s3, moving a pair of first clamping rings to drive the wire clamping sliding blocks to slide in the wire clamping adjusting rail, adjusting the pair of first clamping rings to clamp the connecting wire with the second preset size, and screwing the wire clamping sliding blocks into the locking holes by using the locking nails to fix the wire clamping sliding blocks in the wire clamping adjusting rail;
and S4, simultaneously, moving a pair of first clamping rings to drive the wire clamping sliding blocks to slide in the wire clamping adjusting rail, and adjusting the pair of second clamping rings to clamp the connecting wire with the third preset size.
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CN202210296493.2A CN114667016B (en) | 2022-03-24 | 2022-03-24 | Wiring mechanism for information system integrated control cabinet and wiring method thereof |
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Effective date of registration: 20231116 Address after: 350000 Unit A of the Second Floor of Building 1, No. 10 Yangqi Branch Road, Gaishan Town, Cangshan District, Fuzhou City, Fujian Province Applicant after: Fujian Manku Electric Co.,Ltd. Address before: 211100 innovation cooperative space, floor 2, building 4, No. 128, Jiangjun Avenue, Jiangning Development Zone, Nanjing, Jiangsu Province (Jiangning Development Zone) Applicant before: Nanjing hetilian Technology Co.,Ltd. |
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