阅读说明：本技术 一种工艺接线装置 (Process wiring device ) 是由 黄道红 于 2020-11-23 设计创作，主要内容包括：本发明公开了一种工艺接线装置,涉及接线装置技术领域,包括安置卡轨、接线机构和线号标记块,所述安置卡轨的中部开设有安装固定孔,且安置卡轨的两侧连接有可配线模块,所述安置卡轨的中部连接有不可配线模块,所述可配线模块的上下两侧与不可配线模块的上下两侧均设置有限位倒角。本发明通过设置于可配线模块中部的线号标记块,表面可以根据实际需要打印配线线号,便于对连接的配线进行标注区分,卡合的结构便于对线号标记块进行拆卸跟换,便于使用,使得每一配线线号定义在易观察平面位置,方便现场接线与查线,解决了传统工艺配线需要提前做工艺的缺点,同时线缆长度不再做工艺冗余,有效节约线缆材料成本。(The invention discloses a process wiring device, which relates to the technical field of wiring devices and comprises an arrangement clamping rail, a wiring mechanism and a wire number marking block, wherein the middle part of the arrangement clamping rail is provided with an installation fixing hole, two sides of the arrangement clamping rail are connected with a distributable module, the middle part of the arrangement clamping rail is connected with a distributable module, and the upper side and the lower side of the distributable module are respectively provided with a limiting chamfer angle. According to the invention, through the wire number marking block arranged in the middle of the distributable module, the surface can be printed with the wire number of the distribution according to actual needs, so that the connected distribution is conveniently marked and distinguished, the clamping structure is convenient for disassembling and replacing the wire number marking block, and the use is convenient, so that each distribution wire number is defined in a plane position easy to observe, the on-site wiring and wire checking are convenient, the defect that the traditional process distribution needs to be performed in advance is solved, meanwhile, the cable length is not subjected to process redundancy, and the material cost of the cable is effectively saved.)

1. A technology termination, including settling card rail (1), wiring mechanism (6) and line number mark block (9), its characterized in that: the utility model discloses a wire number marking device, including settle card rail (1), but settle the both sides of card rail (1) and have wiring module (3), the middle part of settling card rail (1) is connected with non-wiring module (4), the upper and lower both sides of wiring module (3) and the upper and lower both sides of non-wiring module (4) all are provided with spacing chamfer (5), wiring mechanism (6) set up in the inboard of wiring module (3), and the inboard of wiring mechanism (6) is connected with connecting wire (7), the middle part of wiring module (3) is provided with spacing block groove (8), wire number marking block (9) are connected in the inboard of spacing block groove (8), and the outside both sides of wire number marking block (9) are provided with recess (10).

2. A process connection assembly according to claim 1, wherein: the distributable modules (3) and the distributable modules (4) are vertically distributed with the mounting clamping rails (1), and clamping structures are formed between the distributable modules (3) and the distributable modules (4) and the mounting clamping rails (1).

3. A process connection assembly according to claim 1, wherein: the limiting chamfer (5) and the wiring module (3) are of an integrated structure, and the wiring module (3) is tightly attached to the wiring module (4) through the limiting chamfer (5).

4. A process connection assembly according to claim 1, wherein: the modules (3) capable of being distributed and the modules (4) incapable of being distributed are distributed in parallel, and a movable structure is arranged between the modules (3) capable of being distributed and the modules (4) incapable of being distributed.

5. A process connection assembly according to claim 1, wherein: the wiring mechanism (6) comprises a wiring port (601), a fixed clamping block (602), a placing groove (603), a moving groove (604), a limiting sliding groove (605), a limiting sliding block (606), a connecting block (607), a connecting rod (608), a pushing block (609), a reset spring (6010), a moving clamping block (6011) and an anti-slip layer (6012), wherein the fixed clamping block (602) is arranged on one side of the inner wall of the wiring port (601), the placing groove (603) is arranged at the lower end of the wiring port (601), the moving groove (604) is arranged in the middle of the outer side of the placing groove (603), the limiting sliding grooves (605) are arranged on two sides of the inner wall of the placing groove (603), the limiting sliding block (606) is connected to the inner side of the limiting sliding block (606), the connecting block (607) is connected to the other side of the limiting sliding block (606), and the connecting rod (608) is arranged at, the anti-skidding type hydraulic lifting device is characterized in that a pushing block (609) is arranged on the outer side of the lower portion of the connecting rod (608), a return spring (6010) is arranged on the outer side of the upper portion of the connecting rod (608), a movable clamping block (6011) is fixed to the top of the connecting rod (608), and an anti-skidding layer (6012) is arranged on the other side of the movable clamping block (6011).

6. A process connection block according to claim 5, wherein: the outer side size of the limiting sliding block (606) is matched with the inner side size of the limiting sliding groove (605), the limiting sliding blocks (606) are symmetrically distributed along the vertical central axis of the connecting block (607), meanwhile, the connecting rod (608) and the connecting block (607) are vertically distributed, and the connecting rod (608) forms a sliding structure with the arrangement groove (603) through the connecting block (607), the limiting sliding block (606), the limiting sliding groove (605).

7. A process connection block according to claim 5, wherein: the return springs (6010) are uniformly distributed on the outer side of the upper portion of the connecting rod (608), and the movable clamping block (6011) and the return springs (6010) form an elastic structure through the connecting rod (608).

8. A process connection block according to claim 5, wherein: the movable clamping block (6011) and the connecting rod (608) are distributed in a vertical mode, the outer side of the anti-slip layer (6012) is attached to the inner side of the movable clamping block (6011), the anti-slip layer (6012) is fixedly connected with the movable clamping block (6011), and the anti-slip layer (6012) is arranged on one side of the movable clamping block (6011) and one side of the fixed clamping block (602).

9. A process connection assembly according to claim 1, wherein: the limiting clamping groove (8) and the distributable module (3) are of an integrated structure, the size of the inner side of the limiting clamping groove (8) is matched with the size of the outer side of the line number marking block (9), and a clamping structure is formed between the line number marking block (9) and the limiting clamping groove (8).

Technical Field

The invention relates to the technical field of wiring devices, in particular to a process wiring device.

Background

The electric control cabinet is covered with a plurality of components, and the components are required to be connected in a process according to a wiring principle; the traditional mode is to add a wiring slot in the cabinet body and place a process line in the slot.

The process wiring device on the market looks neat that can make in appearance, but after opening the wire casing, the wiring of wire casing is often mixed and disorderly, also is inconvenient for checking the line if the wiring mistake appears, and moreover, the cable is mixed and disorderly arranged in the wire casing, still can probably cause the shortcoming of strong and weak electric interference.

Disclosure of Invention

The invention aims to provide a process wiring device, which solves the problems that the appearance of the process wiring device provided by the background art is neat, the wiring in a wire slot is messy after the wire slot is opened, the wiring is inconvenient to check if a wiring error occurs, and the cable is messy in the wire slot and can cause strong and weak current interference.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a technology termination, is including settling card rail, wiring mechanism and line number mark piece, the installation fixed orifices has been seted up at the middle part of settling the card rail, and the both sides of settling the card rail are connected with the module of can distributing, the middle part of settling the card rail is connected with the module of can not distributing, the upper and lower both sides of the module of can distributing and the upper and lower both sides of the module of can not distributing all are provided with spacing chamfer, wiring mechanism sets up in the inboard of the module of can distributing, and wiring mechanism's inboard is connected with the connector assembly, the middle part of the module of can distributing is provided with spacing block groove, line number mark piece is connected in the inboard in spacing block groove, and the outside both sides of line number mark.

Preferably, the distributable module and the non-distributable module are distributed perpendicular to the mounting rail, and a clamping structure is formed between the distributable module and the non-distributable module and the mounting rail.

Preferably, the limiting chamfer and the wiring module are of an integrated structure, and the wiring module is tightly attached to the wiring module through the limiting chamfer.

Preferably, the modules capable of being wired and the modules incapable of being wired are distributed in parallel, and a movable structure is arranged between the modules capable of being wired and the modules incapable of being wired.

Preferably, the wiring mechanism is including the wiring port, decide clamp splice, resettable groove, shifting chute, spacing spout, spacing slider, connecting block, connecting rod, promote piece, reset spring, move clamp splice and skid resistant course, and inner wall one side of wiring port is provided with decides the clamp splice, wiring port lower extreme is provided with the resettable groove, and has seted up the shifting chute in the middle part of the outside of resettable groove, spacing spout has been seted up to the inner wall both sides of resettable groove, and the inboard of spacing spout is connected with spacing slider, spacing slider's opposite side links up the connecting block, and the upper end central point of connecting block puts and is provided with the connecting rod, the lower part outside of connecting rod is provided with promotes the piece, and is provided with reset spring in the upper portion outside of connecting rod, the top of connecting rod is fixed with moves the clamp splice, and moves the opposite side of clamp.

Preferably, the outside size of the limiting slide block is matched with the inside size of the limiting slide groove, the limiting slide block is symmetrically distributed along the vertical central axis of the connecting block, meanwhile, the connecting rod and the connecting block are vertically distributed, and the connecting rod forms a sliding structure with the placing groove through the connecting block, the limiting slide groove and the placing groove.

Preferably, the return springs are uniformly distributed on the outer side of the upper part of the connecting rod, and the movable clamping blocks form an elastic structure through the connecting rod and the return springs.

Preferably, move the clamp splice and be the vertical form with the connecting rod and distribute, and the outside laminating of skid resistant course is in the inboard of moving the clamp splice, and the skid resistant course is fixed connection with moving the clamp splice simultaneously to one side of moving the clamp splice all is provided with the skid resistant course with one side of deciding the clamp splice.

Preferably, the limiting clamping groove and the wiring module are of an integrated structure, the inner side dimension of the limiting clamping groove is matched with the outer side dimension of the line number marking block, and a clamping structure is formed between the line number marking block and the limiting clamping groove.

The invention provides a process wiring device which has the following beneficial effects:

1. the wiring device is connected with the mounting clamping rail through the wiring modules and the non-wiring modules in a clamping mode, so that the positions and the number of the wiring modules can be conveniently configured according to actual needs, the wiring device is convenient to carry, has clear layers, can be randomly matched according to the actual needs, has multiple functions of a plurality of modules, is suitable for different occasions, improves the actual using effect and the using range of the wiring device, and can ensure the accuracy of the positions between the wiring modules and the non-wiring modules, and the wiring modules and the non-wiring modules are vertically distributed with the mounting clamping rail.

2. According to the wiring device, firmness between the wiring module and the wiring module can be ensured through the limiting chamfers with the integrated structure, the limiting chamfers are arranged on the upper side and the lower side of the wiring module, the wiring module and the wiring module can be conveniently assembled, meanwhile, a good limiting effect is achieved, the situation that the wiring module and the wiring module are deviated in position in the actual use process and the connection stability of the connecting wires is influenced is avoided, meanwhile, the wiring module and the wiring module are made of non-conductive materials, the strong and weak current interference situation is effectively avoided, and the use safety of the wiring device in the process is improved.

3. The connecting block can move in the arranging groove by the limiting sliding blocks arranged on the two sides of the connecting block and the limiting sliding grooves arranged on the two sides of the inner wall of the arranging groove, so that the connecting rod can move on a vertical straight line position, the situation that the clamping effect of the movable clamping block on the wiring is influenced due to the deviation in the actual moving process is avoided, and the movable clamping block can clamp the wiring inserted into the wiring port by the aid of the reset spring arranged in a matching mode, so that the stability of connection between the wiring port and the wiring is ensured.

4. The anti-slip device is characterized in that the pushing block is arranged on the outer side of the lower part of the connecting rod, the pushing block is arranged on the outer side of the upper part of the connecting rod, the pushing block is arranged on the outer side of the lower part of the connecting rod in a matched mode, the wire is clamped conveniently, the pushing block is pushed downwards to enable the movable clamping block to be loosened, the wire can be dismounted through manual pulling out of the wire, the anti-slip device is convenient to use, meanwhile, the anti-slip layer is arranged on the movable clamping block and one side in.

5. According to the invention, through the wire number marking block arranged in the middle of the distributable module, the surface can be printed with the wire number of the distribution according to actual needs, so that the connected distribution is conveniently marked and distinguished, the clamping structure is convenient for disassembling and replacing the wire number marking block, and the use is convenient, so that each distribution wire number is defined in a plane position easy to observe, the on-site wiring and wire checking are convenient, the defect that the traditional process distribution needs to be performed in advance is solved, meanwhile, the cable length is not subjected to process redundancy, and the material cost of the cable is effectively saved.

Drawings

FIG. 1 is a schematic view of a combination structure of a process wiring device according to the present invention;

FIG. 2 is a schematic view of a wiring mechanism of a process wiring device according to the present invention;

FIG. 3 is a schematic diagram of a module structure of a wiring device according to the present invention;

FIG. 4 is a schematic diagram of a non-wiring module of a process connection device according to the present invention;

FIG. 5 is an enlarged schematic view of a portion A of the wiring device of FIG. 1 according to the present invention;

FIG. 6 is an enlarged schematic view of a wiring device of the present invention shown in FIG. 2.

In the figure: 1. arranging a clamping rail; 2. mounting a fixing hole; 3. a module capable of wiring; 4. a non-distributable module; 5. limiting and chamfering; 6. a wiring mechanism; 601. a wiring port; 602. fixing the clamping block; 603. a placing groove; 604. a moving groove; 605. a limiting chute; 606. a limiting slide block; 607. connecting blocks; 608. a connecting rod; 609. a pushing block; 6010. a return spring; 6011. a movable clamping block; 6012. an anti-slip layer; 7. connecting wiring; 8. a limiting clamping groove; 9. a line number marking block; 10. and (4) a groove.

Detailed Description

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

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-6, the present invention provides a technical solution: a process wiring device comprises a mounting clamping rail 1, a mounting fixing hole 2, a wiring module 3, a non-wiring module 4, a limiting chamfer 5, a wiring mechanism 6, a wiring port 601, a fixed clamping block 602, a mounting groove 603, a moving groove 604, a limiting sliding groove 605, a limiting sliding block 606, a connecting block 607, a connecting rod 608, a pushing block 609, a reset spring 6010, a moving clamping block 6011, an anti-slip layer 6012, a connecting wiring 7, a limiting clamping groove 8, a wire number marking block 9 and a groove 10, wherein the mounting fixing hole 2 is formed in the middle of the mounting clamping rail 1, the wiring module 3 is connected to two sides of the mounting clamping rail 1, the non-wiring module 4 is connected to the middle of the mounting clamping rail 1, the wiring module 3 and the non-wiring module 4 are vertically distributed with the mounting clamping rail 1, a clamping structure is formed between the wiring module 3 and the non-wiring module 4 and the mounting clamping rail 1, the wiring module 3 and the non-wiring module 4 are connected with the mounting clamping rail 1 in a clamping manner, the positions and the number of the modules can be conveniently configured according to actual needs, the building is realized, the layers are clear, the products can be randomly matched according to the actual needs, the modules have multiple functions, the wiring device is suitable for different occasions, the actual using effect and the using range of the wiring device are improved, the modules 3 and 4 which can be wired and the modules which can not be wired are vertically distributed with the mounting clamping rails 1, and the position accuracy between the modules can be ensured;

the upper and lower sides of the module 3 capable of distributing wires and the upper and lower sides of the module 4 incapable of distributing wires are both provided with a limiting chamfer 5, the limiting chamfer 5 and the module 3 capable of distributing wires are in an integrated structure, the module 3 capable of distributing wires and the module 4 incapable of distributing wires are tightly attached through the limiting chamfer 5, the module 3 capable of distributing wires and the module 4 incapable of distributing wires are distributed in a parallel shape, a movable structure is arranged between the module 3 capable of distributing wires and the module 4 incapable of distributing wires, the firmness between the limiting chamfer 5 and the module 3 capable of distributing wires in the integrated structure can be ensured, the limiting chamfers 5 arranged on the upper and lower sides of the module 4 incapable of distributing wires are matched, the module 3 capable of distributing wires and the module 4 incapable of distributing wires can be conveniently assembled, a good limiting effect is achieved, the position deviation of the module 3 capable of distributing wires and the module 4 incapable of distributing wires, meanwhile, the modules 3 and 4 which can be wired are both made of non-conductive materials, so that the condition of strong and weak current interference is effectively avoided, and the use safety of the wiring device in the process is improved;

the wiring mechanism 6 is arranged on the inner side of the distributable module 3, the inner side of the wiring mechanism 6 is connected with the connecting wiring 7, the wiring mechanism 6 comprises a wiring port 601, a fixed clamping block 602, a placing groove 603, a moving groove 604, a limit sliding groove 605, a limit sliding block 606, a connecting block 607, a connecting rod 608, a pushing block 609, a reset spring 6010, a moving clamping block 6011 and an anti-skid layer 6012, one side of the inner wall of the wiring port 601 is provided with the fixed clamping block 602, the lower end of the wiring port 601 is provided with the placing groove 603, the middle part of the outer side of the placing groove 603 is provided with the moving groove 604, two sides of the inner wall of the placing groove 603 are provided with the limit sliding groove 605, the inner side of the limit sliding groove 605 is connected with the limit sliding block 606, the other side of the limit sliding block 606 is connected with the connecting block 607, the central position of the upper end of the connecting block 607 is provided, the top of the connecting rod 608 is fixed with a movable clamping block 6011, the other side of the movable clamping block 6011 is provided with an anti-slip layer 6012, the outside dimension of the limiting sliding block 606 is matched with the inside dimension of the limiting sliding groove 605, the limiting sliding blocks 606 are symmetrically distributed along the vertical central axis of the connecting block 607, the connecting rod 608 and the connecting block 607 are vertically distributed, the connecting rod 608 forms a sliding structure through the connecting block 607, the limiting sliding blocks 606 and the limiting sliding grooves 605 and the placing groove 603, the limiting sliding blocks 606 arranged at both sides of the connecting block 607 are matched with the limiting sliding grooves 605 arranged at both sides of the inner wall of the placing groove 603, so that the connecting block 607 can move in the placing groove 603, the connecting rod 608 can move on the vertical linear position, the situation that the deviation occurs in the actual moving process and the clamping effect of the movable clamping block 6011 on the wiring is affected is avoided, the movable clamping block 6010 is matched to clamp the wiring inserted into the wiring port 601, to ensure the stability of the connection between the connection port 601 and the wiring;

the reset springs 6010 are uniformly distributed on the outer side of the upper portion of the connecting rod 608, the movable clamping block 6011 forms an elastic structure with the reset springs 6010 through the connecting rod 608, the movable clamping block 6011 and the connecting rod 608 are distributed in a vertical shape, the outer side of the anti-slip layer 6012 is attached to the inner side of the movable clamping block 6011, the anti-slip layer 6012 is fixedly connected with the movable clamping block 6011, the anti-slip layer 6012 is arranged on one side of the movable clamping block 6011 and one side of the fixed clamping block 602, the reset springs 6010 arranged on the outer side of the upper portion of the connecting rod 608 are matched with the pushing block 609 arranged on the outer side of the lower portion of the connecting rod 608 to clamp the wiring, the pushing block 609 is pushed downwards to loosen the movable clamping block 6011, the wiring can be detached by manually pulling out, the wiring is convenient to use, and the anti-slip layer 6012 arranged on one side is matched to play a good anti-slip effect and prevent the wiring from moving in the, the connection stability is influenced, and meanwhile, the wiring can be well protected;

the middle part of the module 3 capable of distributing wires is provided with a limiting clamping groove 8, the wire number marking block 9 is connected to the inner side of the limiting clamping groove 8, the two outer sides of the wire number marking block 9 are provided with grooves 10, the limiting clamping groove 8 and the module 3 capable of distributing wires are of an integrated structure, the size of the inner side of the limiting clamping groove 8 is matched with the size of the outer side of the wire number marking block 9, a clamping structure is formed between the wire number marking block 9 and the limiting clamping groove 8, the wire number marking block 9 arranged in the middle part of the module 3 capable of distributing wires can be printed on the surface according to actual needs, and connected wires can be conveniently marked and distinguished, the clamping structure is convenient for disassembling and replacing the wire number marking block 9, the use is convenient, each wire number is defined at the position of a plane easy to observe, the on-site wire connection and wire inspection are convenient, and the defect that the traditional technology needs to, meanwhile, the length of the cable is not subjected to process redundancy any more, and the material cost of the cable is effectively saved.

In conclusion, when the wiring device is used, the arrangement clamping rail 1 is fixed through the installation fixing hole 2, then the distributable module 3 and the non-distributable module 4 are arranged on the outer side of the arrangement clamping rail 1, and the distributable module 3 and the non-distributable module 4 are connected with the arrangement clamping rail 1 in a clamping manner, so that the positions and the number can be conveniently configured according to actual needs, the random arrangement is realized, the layers are clear, the product is randomly matched according to the actual needs, the multiple functions of the modules are realized, the integrated structure is suitable for different occasions, the limiting chamfer 5 and the distributable module 3 can ensure the firmness, the limiting chamfer 5 arranged on the upper side and the lower side of the non-distributable module 4 is matched, the assembly between the distributable module 3 and the non-distributable module 4 is convenient, meanwhile, a good limiting effect is achieved, and the position deviation of the distributable module 3 and the non-distributable module 4 in the actual use process is avoided, the condition of influencing the connection stability of the connecting wiring 7, simultaneously, the wiring module 3 and the non-wiring module 4 are both made of non-conductive materials, the strong and weak current interference condition is effectively avoided, the use safety of the wiring device of the process is improved, then, the wiring is connected through the wiring mechanism 6, the reset spring 6010 arranged on the outer side of the upper part of the connecting rod 608 is matched with the pushing block 609 arranged on the outer side of the lower part of the connecting rod 608, the wiring is conveniently clamped, the pushing block 609 is pushed downwards to enable the movable clamping block 6011 to be loosened, the dismounting work of the wiring can be realized by manually pulling out the wiring, the use is convenient, the wire number marking block 9 arranged in the middle part of the wiring module 3 can be printed on the surface according to the actual requirement, the wiring number can be conveniently marked and distinguished on the connected wiring, the clamping structure is convenient for dismounting and replacing the wire number marking block 9, the use is convenient, and each wiring number, the cable is convenient to wire and check on site, the defect that the traditional process wiring needs to be processed in advance is overcome, meanwhile, the length of the cable is not required to be processed redundantly, and the material cost of the cable is effectively saved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be able to cover the technical scope of the present invention and the equivalent alternatives or modifications according to the technical solution and the inventive concept of the present invention within the technical scope of the present invention.