CN220441093U - Coupling mechanism between adjacent industrial control products - Google Patents
Coupling mechanism between adjacent industrial control products Download PDFInfo
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- CN220441093U CN220441093U CN202322115763.8U CN202322115763U CN220441093U CN 220441093 U CN220441093 U CN 220441093U CN 202322115763 U CN202322115763 U CN 202322115763U CN 220441093 U CN220441093 U CN 220441093U
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- hook structure
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- locking groove
- industrial control
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- 230000008878 coupling Effects 0.000 title description 2
- 238000010168 coupling process Methods 0.000 title description 2
- 238000005859 coupling reaction Methods 0.000 title description 2
- 238000003780 insertion Methods 0.000 claims description 11
- 230000037431 insertion Effects 0.000 claims description 11
- 230000000149 penetrating effect Effects 0.000 claims description 3
- 238000009434 installation Methods 0.000 abstract description 11
- 238000000034 method Methods 0.000 description 3
- 230000006978 adaptation Effects 0.000 description 2
- 238000004891 communication Methods 0.000 description 2
- 238000010586 diagram Methods 0.000 description 2
- 238000012986 modification Methods 0.000 description 2
- 230000004048 modification Effects 0.000 description 2
- 230000002265 prevention Effects 0.000 description 2
- 230000007547 defect Effects 0.000 description 1
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Abstract
The utility model discloses a connecting mechanism between adjacent industrial control products, which comprises a first module and a second module which are adjacent; one end of the hook structure is arranged on the first module, and the other end of the hook structure is penetrated and arranged in the second module; the locking slide block is arranged corresponding to the hook structure and comprises an operation end and a limiting part, the limiting part is arranged inside the second module in a sliding mode along the direction perpendicular to the hook structure, one end of the limiting part is connected with the operation end, the operation end extends out of the second module, the other end of the limiting part is provided with a locking groove, a notch of the locking groove is arranged towards the hook structure, and the other end of the hook structure is inserted into the locking groove and is abutted to the side wall of the locking groove. The installation and the dismantlement between two modules are accomplished through the slip operation end to this application for the dismouting of adjacent industrial control product is simple convenient, in order to improve dismouting efficiency.
Description
Technical Field
The utility model relates to the technical field of industrial control product installation, in particular to a connecting mechanism between adjacent industrial control products.
Background
The industrial control product is a product used in the field of industrial control, such as a common industrial control complete machine, a communication board card, a sensor, a relay and the like, and is integrally assembled with different types of industrial control products so as to meet the requirement of multifunctional control.
At present, two connecting modes are usually adopted for fastening and connecting adjacent industrial control products, so that the communication among a plurality of industrial control products is stable, screws are arranged between the shells of one industrial control product and the adjacent industrial control product in a penetrating way and are fastened through nuts, but the connecting mode is adopted, the installation is complicated, and the installation efficiency is low; the shells of the second industrial control product and the adjacent industrial control product are connected through two buckles in a buckled mode, but the connection mode is inconvenient to detach and low in detachment efficiency.
In summary, how to provide a connection mechanism between adjacent industrial control products, so that the disassembly and assembly of the adjacent industrial control products are simple and convenient, so as to improve the disassembly and assembly efficiency, is a problem to be solved by those skilled in the art.
Disclosure of Invention
Therefore, the utility model aims to provide a connecting mechanism between adjacent industrial control products, which can enable the disassembly and assembly of the adjacent industrial control products to be simple and convenient, so as to improve the disassembly and assembly efficiency.
In order to achieve the above object, the present utility model provides the following technical solutions:
a connection mechanism between adjacent industrial control products, comprising:
adjacent first and second modules;
one end of the hook structure is arranged on the first module, and the other end of the hook structure penetrates through the second module;
the locking sliding block is arranged corresponding to the hook structure, the locking sliding block comprises an operation end and a limiting component, the limiting component is arranged inside the second module in a sliding mode along the direction perpendicular to the hook structure, one end of the limiting component is connected with the operation end, the operation end stretches out of the second module, a locking groove is formed in the other end of the limiting component, a notch of the locking groove faces the hook structure, and the other end of the hook structure is inserted into the locking groove and is abutted to the side wall of the locking groove.
Preferably, the hook structure comprises an extending rod and a protruding block, one end of the extending rod is fixedly arranged on the shell of the first module, and the protruding block is arranged at the other end of the extending rod;
the locking groove is of a U-shaped structure, the extending rod is perpendicular to the side wall of the locking groove, the extending rod is inserted between the two side walls of the locking groove, and the protruding block is in butt joint with the side wall of the locking groove and used for locking the extending rod.
Preferably, an insertion hole is formed in the housing of the second module at a position opposite to the hook structure, and the protruding block penetrates through the insertion hole to extend into the second module, and forms a clamping gap with the housing of the second module, wherein the clamping gap is used for inserting the limiting component.
Preferably, the limiting component is provided with a rear limiting buckle and a front limiting buckle which are distributed along the direction vertical to the hook structure, the side wall of the shell of the second module is provided with a locking limiting groove and an unlocking limiting groove, and the locking limiting groove and the unlocking limiting groove are distributed along the direction vertical to the hook structure;
when the rear limit buckle is clamped in the unlocking limit groove, the hook structure is separated from the locking groove; when the front limiting buckle is clamped in the locking limiting groove, the hook structure is inserted into the locking groove and locked.
Preferably, a guide rail is arranged on the side wall of the shell of the second module and at a position corresponding to the bottom of the limiting component, the guide rail extends along a direction perpendicular to the hook structure, and the limiting component is movably arranged in the guide rail.
Preferably, a mounting opening is formed in the end wall of the housing of the second module, the mounting opening is used for inserting the limiting component, and the movable cover of the operating end is arranged at the mounting opening.
Preferably, the limiting component is provided with an anti-falling buckle at a position close to the operating end, and the anti-falling buckle is used for limiting the limiting component to fall off from the mounting opening.
Preferably, the operation end is provided with a plurality of protrusions.
Compared with the background art, the connecting mechanism between the adjacent industrial control products is used for connecting the adjacent industrial control products, the first module and the shell side wall of the second module adjacent to the first module are oppositely arranged, one end of the hook structure is fixedly arranged on the shell side wall of the first module, the limiting part is inserted into the second module and can slide along the direction perpendicular to the hook structure, the limiting part is provided with the locking groove and is used for inserting the hook structure and locking the hook structure, when the connecting mechanism is installed, the other end of the hook structure penetrates through the shell side wall of the second module and extends into the interior of the shell side wall of the second module, and the sliding operation end drives the limiting part to move towards the hook structure, so that the other end of the hook structure is inserted into the locking groove and is abutted against the side wall of the locking groove to lock the hook structure, and therefore the installation between the adjacent industrial control products is achieved; when dismantling, contrary with above-mentioned process, sliding operation end drives spacing part and deviates from the couple structure and remove, and the couple structure loses spacing part's fastening effect, pulls the couple structure and can shift out it from the inside of second module to realize the dismantlement between the adjacent industrial control product. Therefore, the installation and the dismantlement between two modules are accomplished through the slip operation end to this application for the dismouting of adjacent industrial control product is simple convenient, in order to improve dismouting efficiency.
Drawings
In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are required to be used in the embodiments or the description of the prior art will be briefly described below, and it is obvious that the drawings in the following description are only embodiments of the present utility model, and that other drawings can be obtained according to the provided drawings without inventive effort for a person skilled in the art.
FIG. 1 is a schematic diagram of a connection mechanism between adjacent industrial control products in a disassembled state;
FIG. 2 is a schematic structural view of a connection mechanism between adjacent industrial control products in an installed state;
FIG. 3 is a schematic view of a locking slider according to the present utility model;
FIG. 4 is a schematic view of a second module for mounting a locking slide according to the present utility model;
fig. 5 is a schematic diagram of an internal structure of a second module according to the present utility model.
In fig. 1 to 5, reference numerals include:
1 is a first module;
2 is a second module, 21 is an insertion hole, 22 is an unlocking limit groove, 23 is a locking limit groove, 24 is a guide rail, and 25 is an installation hole;
3 is a hook structure, 31 is an extension rod, and 32 is a protruding block;
4 is a locking slide block, 41 is an operation end, 42 is a limiting component, 43 is a locking groove, 44 is a front limiting buckle, 45 is a rear limiting buckle, 46 is an anti-falling buckle, and 47 is a friction bulge;
and 5 is a clamping gap.
Detailed Description
The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.
The utility model provides a connecting mechanism between adjacent industrial control products, which can enable the disassembly and assembly of the adjacent industrial control products to be simple and convenient, so as to improve the disassembly and assembly efficiency.
It should be noted that, in the present embodiment, the orientation or positional relationship indicated by "upper", "lower", "front", "rear", etc. is based on the orientation or positional relationship shown in the drawings, and is merely for convenience of description of the present application and simplification of the description, and is not indicative or implying that the apparatus or element in question must have a specific orientation, be configured and operated in a specific orientation, and therefore, should not be construed as limiting the present application. Furthermore, the terms "first," "second," "third," "fourth," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.
Referring to fig. 1 to 4, the present application provides a connection mechanism between adjacent industrial control products, which includes adjacent first and second modules 1 and 2, a hook structure 3, and a locking slider 4; one end of the hook structure 3 is arranged on the first module 1, and the other end of the hook structure 3 is arranged inside the second module 2 in a penetrating way; the locking slider 4 corresponds with the couple structure 3 and sets up, the locking slider 4 includes operating end 41 and spacing part 42, spacing part 42 is along perpendicular to couple structure 3 the direction, slidable locate the inside of second module 2, the one end and the operating end 41 of spacing part 42 are connected, and the operating end 41 stretches out in the inside of second module 2, the other end of spacing part 42 is equipped with locking groove 43, locking groove 43's notch sets up towards couple structure 3, couple structure 3's the other end passes locking groove 43's notch, and the butt is on locking groove 43's lateral wall.
Specifically, the left side wall of the shell of the first module 1 and the right side wall of the shell of the second module 2 are oppositely arranged, one end of the hook structure 3 is fixedly arranged on the left side wall of the shell of the first module 1, the other end of the hook structure penetrates through the right side wall of the shell of the second module 2 and stretches into the second module 2, a limiting component 42 corresponding to the hook structure 3 is inserted into the second module 2, one end of the limiting component 42 is connected with an operating end 41 arranged outside the second module 2, the other end of the limiting component 42 is provided with a locking groove 43, a notch of the locking groove 43 is arranged towards the hook structure 3, the limiting component 42 can move along the direction perpendicular to the hook structure 3, so that the hook structure 3 can be movably inserted into the hook structure 3 and is abutted against the side wall of the locking groove 43 to lock the hook structure 3.
Therefore, during installation, the other end of the hook structure 3 penetrates through the right side wall of the shell of the second module 2 and extends into the shell, the operation end 41 is slid, the limiting part 42 is driven to move towards the hook structure 3, so that the other end of the hook structure 3 is inserted into the locking groove 43 and is abutted with the side wall of the locking groove 43 to lock the hook structure 3, and installation between adjacent industrial control products is achieved; when the assembly is disassembled, the operation end 41 is slid to drive the limiting component 42 to move away from the hook structure 3, the hook structure 3 loses the fastening function of the limiting component 42, and the hook structure 3 is dragged to move out of the second module 2 so as to realize the disassembly between adjacent industrial control products. Therefore, the installation and the dismantlement between two modules are accomplished through the slip operation end 41 to this application for the dismouting of adjacent industrial control product is simple convenient, in order to improve dismouting efficiency.
On the basis of the above embodiment, referring to fig. 3, the hook structure 3 includes an extension rod 31 and a protruding block 32, one end of the extension rod 31 is fixedly arranged on the housing of the first module 1, and the other end is provided with the protruding block 32; the locking groove 43 is in a U-shaped structure, the extending rod 31 is perpendicular to the side wall of the locking groove 43, the extending rod 31 penetrates through the notch of the locking groove 43 and is inserted between the two side walls of the locking groove 43, and the protruding block 32 is abutted with the side wall of the locking groove 43 and used for locking the extending rod 31.
Specifically, the locking groove 43 is a U-shaped groove, the notch of the U-shaped groove faces the protruding rod 31, so that when the limiting member 42 moves toward the hook structure 3, the protruding rod 31 is inserted between two side walls of the locking groove 43 through the notch of the U-shaped groove, and the protruding block 32 at the other end of the protruding rod 31 abuts against the side wall of the U-shaped groove to limit the protruding rod 31 from being separated from the locking groove 43, thereby rapidly locking the protruding rod 31. Similarly, when the limiting member 42 moves away from the hooking structure 3, the protruding rod 31 moves out of the locking groove 43 through the notch of the U-shaped groove, and the protruding block 32 is separated from the side wall of the U-shaped groove. Thus, in the above-described structure, the locking groove 43 is a U-shaped groove, so that the hooking structure 3 is conveniently inserted into the locking groove 43 or removed from the locking groove 43, and the protruding portion effectively prevents the extension rod 31 from sliding out of the U-shaped groove, so that the hooking structure 3 is firmly locked in the locking groove.
On the basis of the above embodiment, referring to fig. 2, an insertion hole 21 is provided on the housing of the second module 2 at a position opposite to the hook structure 3, and a protrusion block 32 extends into the second module 2 through the insertion hole 21, and forms a clamping gap 5 with the housing of the second module 2, where the clamping gap 5 is used for inserting a limiting member 42.
Specifically, the right side wall of the housing of the second module 2 is provided with the insertion hole 21, the aperture of the insertion hole 21 is not smaller than that of the protruding block 32, so that the hook structure 3 extends into the second module 2 through the insertion hole 21, and a certain distance is reserved between the protruding block 32 and the right side wall of the housing of the second module 2, so that a clamping gap 5 is formed between the protruding block 32 and the right side wall of the housing, so that two side walls of the locking groove 43 respectively move to two sides of the extending rod 31, and meanwhile, the protruding block 32 is abutted with the groove wall of the locking groove 43, so that the defect of insufficient clamping gap 5 is avoided, and the hook structure 3 cannot be locked in the locking groove.
On the basis of the above embodiment, please refer to fig. 3, the limiting component 42 is provided with a rear limiting buckle 45 and a front limiting buckle 44, which are distributed along the direction perpendicular to the hook structure 3, the side wall of the housing of the second module 2 is provided with a locking limiting groove 23 and an unlocking limiting groove 22, which are distributed along the direction perpendicular to the hook structure 3; when the rear limit buckle 45 is clamped in the unlocking limit groove 22, the hook structure 3 is separated from the locking groove 43; when the front limiting buckle 44 is clamped in the locking limiting groove 23, the hook structure 3 is inserted into the locking groove 43 and locked.
Specifically, the right side wall of the housing of the second module 2 is provided with a locking limit groove 23 and an unlocking limit groove 22, which are distributed along the direction perpendicular to the hook structure 3, the locking limit groove 23 and the unlocking limit groove 22 are respectively positioned in front of and behind the insertion hole 21, and two sides of the limit component 42 and along the direction perpendicular to the hook structure 3 are respectively provided with a rear limit buckle 45 adapted to the unlocking limit groove 22 and a front limit buckle 44 adapted to the locking limit groove 23.
When the locking hook structure 3 is needed to be locked in use, the operation end 41 is slid forwards, the rear anti-dragging buckle is separated from the unlocking limiting groove 22, the limiting component 42 moves forwards, namely moves towards the hook structure 3, the extending rod 31 passes through the notch of the locking groove 43 and is inserted between two side walls of the locking groove 43, meanwhile, the protruding block 32 is abutted with the side wall of the locking groove 43, at the moment, the front limiting buckle 44 is clamped with the locking limiting groove 23, so that the limiting component 42 is firmly installed in the second module 2, the firmness of the limiting component 42 is guaranteed, and the firm connection between adjacent industrial control products is further guaranteed; when the hook structure 3 needs to be unlocked, the operation end 41 is slid backwards, the front limiting buckle 44 is separated from the locking limiting groove 23, the limiting component 42 moves backwards, namely moves back to the hook structure 3, the extending rod 31 moves out of the notch of the locking groove 43, and meanwhile the protruding block 32 loosens the side wall of the locking groove 43 until the rear limiting buckle 45 is clamped with the unlocking limiting groove 22, so that the limiting component 42 is firmly installed in the second module 2, and meanwhile unlocking of the hook structure 3 is completed. Therefore, with the above structure, the limiting member 42 can be firmly inserted into the second module 2, thereby further ensuring the stable connection between the adjacent industrial control products.
On the basis of the above embodiment, referring to fig. 5, a guide rail 24 is disposed on a side wall of the housing of the second module 2 and at a position corresponding to the bottom of the limiting member 42, the guide rail 24 extends along a direction perpendicular to the hook structure 3, and the limiting member 42 is movably disposed in the guide rail 24.
Specifically, the guide rail 24 is disposed on the right side wall of the housing of the second module 2, and the guide rail 24 is disposed inside the second module 2 and is located at the bottom of the limiting component 42, and the limiting component 42 is slidably disposed in the sliding rail, so that the sliding rail limits the trend of the limiting component 42 due to the sliding rail extending along the direction perpendicular to the hook structure 3, so that the limiting component 42 cannot lock or unlock the hook structure 3 due to dislocation of the limiting component 42 is prevented.
On the basis of the above embodiment, the mounting opening 25 is provided on the end wall of the housing of the second module 2, so that the limiting member 42 is inserted into the second module 2, the top of the limiting member 42 is connected with the operating end 41, and the operating end 41 is covered at the mounting opening 25, so that the operating end 41 is placed outside the second module 2, so that the operator can slide the operating end 41, and meanwhile, the installation space is saved.
On the basis of the above embodiment, the stopper member 42 is provided with the escape prevention catch 46 at a position close to the operation end 41, and the escape prevention catch 46 is located inside the case end wall of the second module 2 to prevent the stopper member 42 from escaping from the mounting port 25.
Optionally, the limiting component 42 is in a plate structure, and two sides of the limiting component 42 are respectively provided with mutually symmetrical buckle mounting grooves along the direction of the hook structure 3, so as to place the anti-falling buckle 46, ensure the structural symmetry balance of the limiting component 42, and avoid shaking in the moving process of the limiting component 42.
On the basis of the above embodiment, the operating end 41 is provided with a plurality of friction protrusions 47 for increasing the finger friction force so as to facilitate the sliding operation of the operator.
Optionally, a plurality of hook structures 3 can be arranged on the left side wall of the shell of the first module 1, a plurality of locking sliding blocks 4 can be arranged in the second module 2, and the plurality of hook structures 3 and the plurality of locking sliding blocks 4 are arranged in one-to-one correspondence to ensure tight connection between adjacent industrial control products.
It should be noted that in this specification relational terms such as first and second are used solely to distinguish one entity from another entity without necessarily requiring or implying any actual such relationship or order between such entities.
In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other.
The connecting mechanism between the adjacent industrial control products provided by the utility model is described in detail. The principles and embodiments of the present utility model have been described herein with reference to specific examples, the description of which is intended only to facilitate an understanding of the method of the present utility model and its core ideas. It should be noted that it will be apparent to those skilled in the art that various modifications and adaptations of the utility model can be made without departing from the principles of the utility model and these modifications and adaptations are intended to be within the scope of the utility model as defined in the following claims.
Claims (8)
1. A connection mechanism between adjacent industrial control products, comprising:
adjacent first (1) and second (2) modules;
one end of the hook structure (3) is arranged on the first module (1), and the other end of the hook structure (3) is arranged inside the second module (2) in a penetrating way;
the locking sliding block (4) is arranged corresponding to the hook structure (3), the locking sliding block (4) comprises an operation end (41) and a limiting component (42), the limiting component (42) is arranged in the second module (2) in a sliding mode along the direction perpendicular to the hook structure (3), one end of the limiting component (42) is connected with the operation end (41), the operation end (41) extends out of the second module (2), a locking groove (43) is formed in the other end of the limiting component (42), a notch of the locking groove (43) faces the hook structure (3), and the other end of the hook structure (3) is inserted into the locking groove (43) and is abutted to the side wall of the locking groove (43).
2. The connecting mechanism between adjacent industrial control products according to claim 1, wherein the hook structure (3) comprises an extending rod (31) and a protruding block (32), one end of the extending rod (31) is fixedly arranged on the shell of the first module (1), and the protruding block (32) is arranged at the other end of the extending rod;
the locking groove (43) is of a U-shaped structure, the extending rod (31) is perpendicular to the side wall of the locking groove (43), the extending rod (31) is inserted between the two side walls of the locking groove (43), and the protruding block (32) is abutted to the side wall of the locking groove (43) and used for locking the extending rod (31).
3. The connection mechanism between adjacent industrial control products according to claim 2, wherein an insertion hole (21) is formed in the housing of the second module (2) at a position opposite to the hooking structure (3), the protruding block (32) extends into the second module (2) through the insertion hole (21) and forms a clamping gap (5) with the housing of the second module (2), and the clamping gap (5) is used for inserting the limiting component (42).
4. A connection mechanism between adjacent industrial control products according to claim 3, characterized in that the limiting component (42) is provided with a rear limiting buckle (45) and a front limiting buckle (44) which are distributed along the direction vertical to the hook structure (3), and the side wall of the shell of the second module (2) is provided with a locking limiting groove (23) and an unlocking limiting groove (22) which are distributed along the direction vertical to the hook structure (3);
when the rear limit buckle (45) is clamped in the unlocking limit groove (22), the hook structure (3) is separated from the locking groove (43); when the front limiting buckle (44) is clamped in the locking limiting groove (23), the hook structure (3) is inserted into the locking groove (43) and locked.
5. The connection mechanism between adjacent industrial control products according to any one of claims 1 to 4, characterized in that a guide rail (24) is provided on the side wall of the housing of the second module (2) at a position corresponding to the bottom of the limiting member (42), the guide rail (24) extends in a direction perpendicular to the hooking structure (3), and the limiting member (42) is movably provided in the guide rail (24).
6. The connection mechanism between adjacent industrial control products according to claim 5, wherein a mounting opening (25) is formed in the end wall of the housing of the second module (2) for inserting the limiting member (42), and the operating end (41) is movably covered at the mounting opening (25).
7. The connecting mechanism between adjacent industrial control products according to claim 6, wherein an anti-falling buckle (46) is arranged on the limiting component (42) and near the operating end (41) for limiting the limiting component (42) from falling out of the mounting opening (25).
8. The connection mechanism between adjacent industrial control products according to claim 6, characterized in that the operating end (41) is provided with a plurality of friction protrusions (47).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202322115763.8U CN220441093U (en) | 2023-08-08 | 2023-08-08 | Coupling mechanism between adjacent industrial control products |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202322115763.8U CN220441093U (en) | 2023-08-08 | 2023-08-08 | Coupling mechanism between adjacent industrial control products |
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CN220441093U true CN220441093U (en) | 2024-02-02 |
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CN202322115763.8U Active CN220441093U (en) | 2023-08-08 | 2023-08-08 | Coupling mechanism between adjacent industrial control products |
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- 2023-08-08 CN CN202322115763.8U patent/CN220441093U/en active Active
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