Industrial computer cable bundling management slot

Abstract

The utility model discloses a kind of industrial computer cable cluster management slots, belong to cable cluster management technical field;Including rotating shortening mechanism, the two sides of rotating shortening mechanism are respectively hinged to several mutually hinged protective sheaths, the rotating direction between any two protective sheaths can change;By setting rotating shortening mechanism, the length of cable can be adjusted by device, so that cable can be neat, and then reduce the security risk, by setting several mutually hinged protective sheaths on the two sides of rotating shortening mechanism, different cable can be separated when the device is used, so that electromagnetic interference is not prone to appear.

Description

Technical Field

[0001] This utility model provides an industrial control computer cable bundle management slot, belonging to the field of cable bundle management technology. Background Technology

[0002] Industrial control computers, also known as industrial control computers, are computer systems designed specifically for industrial environments. Compared to ordinary personal computers, industrial control computers have higher reliability, stability, and adaptability, and can run continuously for long periods of time in harsh working environments. They are widely used in many fields such as manufacturing automation, process control, data acquisition, and machine vision.

[0003] With the continuous improvement of industrial automation, industrial control computers, as key control units, are undertaking more and more tasks. In order to realize complex control functions, industrial control computers usually need to be connected to a large number of external devices, such as sensors, actuators, displays, etc. These devices are connected to the industrial control computer through various types of cables.

[0004] However, in practical applications, the lack of effective cable management measures often leads to the following problems: 1. Messy cables: Industrial control computers have a large number of cables of various types. Without scientific management methods, the cables will become messy and disorganized, which not only affects the aesthetics but also causes great inconvenience to daily maintenance. 2. Severe electromagnetic interference: Different types of cables are tangled together, which can easily generate electromagnetic interference, affect the signal transmission quality, and may even cause system failures. 3. Safety hazards: Loose cables are easily pulled or squeezed accidentally, increasing the risk of electrical short circuits and threatening the safety of operators. Utility Model Content

[0005] The technical problem this invention aims to solve is that current industrial control computers suffer from messy cabling, are prone to electromagnetic interference, and pose safety hazards.

[0006] To solve the above problems, the proposed technical solution is as follows: an industrial control computer cable bundle management slot, including a rotating shortening mechanism, with several mutually hinged protective sleeves on both sides of the rotating shortening mechanism, and the rotation direction between any two protective sleeves can be changed.

[0007] As an improvement, the rotary shortening mechanism includes a base plate, a rotating plate rotatably disposed in the middle of the base plate, fixing bars disposed on both sides of the rotating plate, an upper plate inserted into the upper part of the fixing bars, screws threaded on the upper end of the fixing bars to fix the position of the upper plate, and wire-passing blocks disposed on both sides of the base plate.

[0008] As an improvement, the cross-section of the fixing strip is convex, the upper plate fits the inner side of the wire-passing block, the outer edge of the screw head is located outside the upper outer edge of the fixing strip, and insertion holes are provided around the wire-passing block.

[0009] As an improvement, the protective cover includes a main body, one end of which is provided with a connecting frame and the other end is provided with triangular plates on both sides. The connecting frame is provided with insertion holes around its perimeter and the triangular plates are provided with insertion platforms on their inner sides.

[0010] The beneficial effects of this utility model are:

[0011] By setting up a rotating shortening mechanism, the device can adjust the length of the cable, thereby keeping the cable neat and reducing safety hazards. By setting up several interlocking protective sleeves on both sides of the rotating shortening mechanism, different cables can be separated during use, thus reducing the likelihood of electromagnetic interference. Attached Figure Description

[0012] Figure 1 This is a schematic diagram of the structure of a cable bundle management groove for an industrial control computer according to the present invention.

[0013] Figure 2 This is an exploded view of a rotary shortening mechanism for a cable bundle management slot for an industrial control computer, according to this utility model.

[0014] Figure 3 This is a schematic diagram of a protective sleeve for a cable bundle management channel for an industrial control computer, according to the present invention.

[0015] Figure 4 This is a schematic diagram of the rotation shortening mechanism and protective sleeve of the industrial control computer cable bundle management slot, and the connection between the protective sleeves.

[0016] 1. Rotary shortening mechanism; 101. Base plate; 102. Shift changer; 103. Fixing strip; 104. Top plate; 105. Screw; 106. Threading block; 2. Protective sleeve; 201. Main body; 202. Connecting frame; 203. Triangle plate; 3. Insertion hole; 4. Insertion platform. Detailed Implementation

[0017] The present invention will be further described below with reference to the accompanying drawings.

[0018] according to Figure 1As shown in Figure 4: This utility model provides a cable bundle management slot for industrial control computers, including a rotating shortening mechanism 1. The rotating shortening mechanism 1 includes a base plate 101, a rotating plate 102 rotatably disposed in the middle of the base plate 101, fixing strips 103 disposed on both sides of the rotating plate 102, an upper plate 104 inserted into the upper part of the fixing strips 103, and screws 105 threaded onto the upper end of the fixing strips 103 to fix the position of the upper plate 104. Cable guide blocks 106 are respectively provided on both sides of the base plate 101. The fixing strips 103 have a convex cross-section, the upper plate 104 fits against the inner side of the cable guide blocks 106, and the outer edge of the head of the screws 105 is located at the outer edge of the upper end of the fixing strips 103. On the outside, insertion holes 3 are provided around the four sides of the cable threading block 106; screws are also provided between the rotating plate 102 and the base plate 101 to fix their relative positions. In this way, after the cable passes through one cable threading block 106, the middle of two fixing strips 103, and another cable threading block 106 in sequence, and then the upper plate 104 is installed on the fixing strips 103, the position of the upper plate 104 is fixed with screws 105, and the upper plate 106 is rotated, which will drive the rotating plate 102 to rotate, so that the cable rotates around the two fixing strips 103, thereby adjusting the length of the cable. This way, the cable can be kept neat and is not easily pulled or squeezed by accident, reducing safety hazards.

[0019] The rotating shortening mechanism 1 has several mutually hinged protective sleeves 2 on both sides, and the rotation direction between any two protective sleeves 2 can be changed. The protective sleeve 2 includes a main body 201, one end of which is provided with a connecting frame 202, and the other end is provided with triangular plates 203 on both sides. The connecting frame 202 is provided with insertion holes 3 around its perimeter, and the triangular plates 203 are provided with insertion platforms 4 on their inner sides. In this way, different numbers of protective sleeves 2 can be installed as needed when the device is in use, and the rotation direction of the protective sleeve 2 can be adjusted by inserting the insertion platform 4 on the inner side of the triangular plate 203 of one protective sleeve 2 into the insertion hole 3 of the connecting frame 202 of another protective sleeve 2. This allows the device to be adjusted as needed, which not only protects the cable but also isolates the cables from each other, reducing the possibility of electromagnetic interference.

[0020] The principle of this utility model is as follows: In use, first insert the insert plate 4 inside the triangular plate 203 of one protective sleeve 2 into the insertion hole 3 of the connecting frame 202 of another protective sleeve 2, so that several protective sleeves 2 are connected together. Make two connected protective sleeves 2 in this way. Then determine the cable routing position. Next, place the base plate 101 in a suitable position and fix it. Then, place the two protective sleeves 2 on both sides of the rotating shortening mechanism 1 and adjust the length according to the cable routing. At the same time, adjust the position of the insertion hole 3 of the insert plate 4 according to the cable routing position, so that the device is neat, fits the ground or wall, and is fixed. Then, pass the cable through one protective sleeve 2, and then pass the cable through a cable guide block 106, the middle of two fixing strips 103, and another cable guide in sequence. Install block 106, then install the upper plate 104 onto the fixing strip 103, and then use screws 105 to fix the position of the upper plate 104. Then, continue to put the protective sleeve 2 on the cable. Next, insert the insertion platform 4 on the inner side of the triangular plate 203 of the two protective sleeves 2 near the cable block 106 into the insertion hole 3 of the cable block 106 on both sides. Then, rotate the upper plate 106 to drive the rotating plate 102 to rotate, so that the cable rotates around the two fixing strips 103, thereby adjusting the length of the cable. After the length of the cable is adjusted, fix the relative position between the rotating plate 102 and the base plate 101. The device is now set up. This makes the cable neat, easy to maintain, and less likely to be accidentally pulled or squeezed, reducing safety hazards. At the same time, it separates the cables and reduces the possibility of electromagnetic interference.

[0021] The present invention and its embodiments have been described above. This description is not restrictive, and the accompanying drawings are only one embodiment of the present invention; the actual structure is not limited thereto. In conclusion, if those skilled in the art are inspired by this description and design similar structures and embodiments without departing from the inventive spirit of the present invention, such designs should fall within the protection scope of the present invention.

Claims

1. A cable bundle management channel for industrial control computers; characterized in that: It includes a rotating shortening mechanism (1), on both sides of which are hinged a plurality of mutually hinged protective sleeves (2), and the rotation direction between any two protective sleeves (2) can be changed.

2. The industrial control computer cable bundle management channel according to claim 1, characterized in that: The rotating shortening mechanism (1) includes a base plate (101), a rotating plate (102) rotatably disposed in the middle of the base plate (101), fixing strips (103) disposed on both sides of the rotating plate (102), an upper plate (104) inserted into the upper part of the fixing strips (103), and screws (105) threaded on the upper end of the fixing strips (103) to fix the position of the upper plate (104). The base plate (101) is provided with wire-passing blocks (106) on both sides.

3. The industrial control computer cable bundle management channel according to claim 2, characterized in that: The cross-section of the fixing strip (103) is convex, the upper plate (104) fits the inner side of the wire threading block (106), the screw (105) has its head outer edge located outside the upper outer edge of the fixing strip (103), and the wire threading block (106) is provided with insertion holes (3) around its perimeter.

4. The industrial control computer cable bundle management channel according to claim 1, characterized in that: The protective sleeve (2) includes a main body (201), one end of which is provided with a connecting frame (202) and the other end is provided with triangular plates (203) on both sides. The connecting frame (202) is provided with insertion holes (3) around its perimeter and the triangular plates (203) are provided with insertion platforms (4) on their inner sides.

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