Full-automatic cable drum machine

By designing the feeding, changing, and conveying mechanisms of the fully automatic tumbler machine, the problems of cumbersome operation and low automation of existing tumbler machines have been solved, achieving better winding effect and automated feeding.

CN224493237UActive Publication Date: 2026-07-14XIAMEN MAPLE LEAF YUAN TECHNOLOGY CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
XIAMEN MAPLE LEAF YUAN TECHNOLOGY CO LTD
Filing Date
2025-09-10
Publication Date
2026-07-14

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  • Figure CN224493237U_ABST
    Figure CN224493237U_ABST
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Abstract

The utility model relates to cable production technical field, concretely is a full -automatic swing tray machine for cable production, including frame, the inner wall of frame and the surface of wire arranging frame are provided with wire arranging feeding mechanism, the surface of winding frame and connecting plate is provided with convenient replacement mechanism, the surface of support platform and cable body is provided with automatic feeding mechanism. The utility model not only makes the swing tray machine use when being able to carry out wire arranging feeding to the cable body of winding, makes the winding effect of cable body better when the swing tray machine uses, makes the swing tray machine use when being able to replace the winding frame of required size and carry out winding to the cable body, makes the swing tray machine use more to satisfy the use demand of user, and makes the swing tray machine use when being able to automatically feed the cable body after winding to the packing area, makes the swing tray machine use without manual unloading, and the degree of automation is higher.
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Description

Technical Field

[0001] This utility model relates to the field of cable production technology, specifically to a fully automatic cable production winch machine. Background Technology

[0002] A cable is an electrical energy or signal transmission device, typically composed of several or groups of conductors, and has the characteristics of being internally energized and externally insulated. Cables can be used to transmit electrical (magnetic) energy and information, and realize electromagnetic energy conversion. They are widely used in urban underground power grids, power plant lead-out lines, internal power supply of industrial and mining enterprises, and underwater power transmission lines across rivers and seas. A churning machine is needed when producing cables. However, existing churning machines have some shortcomings in use. In order to meet market needs, a fully automatic churning machine for cable production is required.

[0003] Existing cable winding machines are often cumbersome to operate and have complex structures. Their cable feeding efficiency is also inadequate, resulting in reduced cable winding effectiveness. Furthermore, changing the winding frame is inconvenient, failing to meet user needs. In addition, existing machines typically lack automatic feeding functionality, preventing the automatic delivery of wound cables to the packaging area and necessitating manual unloading, thus limiting automation. Utility Model Content

[0004] The purpose of this utility model is to provide a fully automatic cable reeling machine for cable production, so as to solve the problems mentioned in the background art, such as poor cable feeding effect, inconvenience when changing the winding frame, and lack of automatic feeding function.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a fully automatic cable reeling machine, comprising a frame, a controller mounted on the surface of the frame, an mounting plate mounted on one side of the frame by screws, a support platform mounted on the surface of the frame, the support platform being located below the mounting plate, an operating table mounted on the top surface of the support platform, a housing mounted on the top of the mounting plate, a turntable mounted on the bottom surface of the housing, the turntable being located above the operating table, through slots formed on the surface of the housing, a second electric push rod mounted inside the housing, a winding rack inside the housing, a connecting plate mounted on the output end of the second electric push rod, a cable tray mounted on the inner wall of the frame, a cable body mounted on the surface of the frame, a reciprocating motion assembly mounted inside the support platform, a cable feeding mechanism mounted on the inner wall of the frame and the surface of the cable tray, a convenient replacement mechanism mounted on the surface of the winding rack and the connecting plate, and an automatic feeding mechanism mounted on the surface of the support platform and the cable body.

[0006] Preferably, a motor housing is mounted on the surface of the mounting plate, and a drive motor is mounted inside the motor housing by screws. The input end of the drive motor is electrically connected to the output end of the controller. A rotating shaft is mounted on the output end of the drive motor via a coupling. A rotating rod is mounted on the surface at the bottom of the rotating shaft. The bottom end of the rotating rod passes through the mounting plate and is fixed to the surface at the center of the top of the machine housing. The input end of the second electric push rod is electrically connected to the output end of the controller. The bottom end of the winding frame passes through the machine housing and the turntable in sequence and extends below the turntable. The surface at the bottom of the winding frame rotates in relation to the surface of the operating table. A fixed seat is mounted on the inner wall of the frame, and a guide wheel assembly is mounted on the surface of the fixed seat by screws. A tension sensor is mounted on the inner wall of the frame by screws. The output end of the tension sensor is electrically connected to the input end of the controller. Both sides of the inner wall of the frame are equipped with... The system comprises a plate body, a blade holder mounted on its surface, a cutting blade mounted on its surface, a first electric push rod mounted on its surface, an input end of which is electrically connected to the output end of a controller, and an output end of which penetrates the plate body and is fixed to the surface at the center of the blade holder. A cable tray is slidably fitted to the inner wall of the frame, and a first cable tray wheel is provided on the inner wall of the cable tray, rotating with the inner wall of the cable tray. A second cable tray wheel is also provided on the inner wall of the cable tray, rotating with the inner wall of the cable tray. A meter counter is mounted on the surface of the cable tray, and its output end is electrically connected to the input end of the controller. One end of the cable body penetrates the frame and is wound around the surface of a winding frame. The surface of the cable body contacts the surfaces of a tension sensor, a guide wheel assembly, the first cable tray wheel, and the second cable tray wheel.

[0007] Preferably, the feeding mechanism consists of a guide block, a guide groove, a servo motor, a shaft, an adjusting screw, and an adjusting cylinder. The adjusting screw is installed inside the frame and rotates with the inner wall of the frame through a bearing. The adjusting cylinder is threaded onto the surface of the adjusting screw, and a guide block is installed on the surface of the adjusting cylinder. The inner wall of the frame has a guide groove, and the guide groove slides with the surface of the guide block.

[0008] Preferably, a servo motor is mounted on the inner wall of the frame by screws. The input end of the servo motor is electrically connected to the output end of the controller. The output end of the servo motor is mounted with a shaft via a coupling. The surface at the bottom of the shaft is fixed to the surface of the adjusting screw, and the surface of the adjusting screw is fixed to the surface of the cable tray.

[0009] Preferably, the easy-to-replace mechanism consists of fastening studs, L-shaped brackets, fastening screws, and mounting plates. The surfaces of the connecting plates are all threaded with fastening studs, one end of which passes through the connecting plate and is threadedly fastened to the surface of the winding frame. The surfaces of the connecting plates are all equipped with L-shaped brackets.

[0010] Preferably, the L-shaped frame is threaded with a fastening screw, one end of which passes through the L-shaped frame and extends to the inside of the L-shaped frame. The inner wall of the L-shaped frame is provided with a mounting plate, which rotates with the surface of one end of the fastening screw. The inner wall of the mounting plate is in contact with the surface of the winding frame.

[0011] Preferably, the automatic feeding mechanism consists of a wheel body, a wheel frame, a feeding plate, and a third electric push rod. The surface of the support platform is provided with a feeding plate, which cooperates with the reciprocating motion component. The inner side of the feeding plate is provided with a wheel frame, and the inner wall of the wheel frame is provided with a wheel body. The wheel body and the inner wall of the wheel frame rotate with each other, and the surface of the wheel body is in contact with the surface of the cable body.

[0012] Preferably, a third electric push rod is installed on the surface of each feeding plate. The input end of the third electric push rod is electrically connected to the output end of the controller, and the output end of the third electric push rod passes through the feeding plate and is fixed to the surface of the wheel frame.

[0013] Compared with the prior art, the beneficial effects of this utility model are: the fully automatic cable reeling machine for cable production not only enables the reeling machine to feed the cable body during winding, resulting in better winding effect of the cable body, but also allows the reeling machine to change the winding frame of the required size to wind the cable body, making the reeling machine more able to meet the user's needs, and also enables the reeling machine to automatically feed the wound cable body to the packaging area, so that the reeling machine does not need manual feeding, and has a higher degree of automation.

[0014] 1. By setting up a cable feeding mechanism, the shaft is driven to rotate under the action of a servo motor. When the shaft rotates, the adjusting screw and the adjusting cylinder are engaged by the thread, and the adjusting cylinder is guided by the guide block and the guide groove. When the adjusting cylinder moves, it drives the cable feeding frame, the first cable feeding wheel and the second cable feeding wheel to move up and down in a reciprocating motion on the inner wall of the frame, thereby feeding and winding the cable body between the first cable feeding wheel and the second cable feeding wheel. This realizes the cable feeding function of the chuck machine, so that the chuck machine can feed and wind the cable body when winding, and the winding effect of the chuck machine on the cable body is better when using it.

[0015] 2. With a convenient replacement mechanism, the user can loosen the fastening screws on the L-shaped frame surface through the through slot, causing the fastening screws to move the mounting plate away from the surface of the winding frame. Then, the user can loosen the fastening studs on the surface of the connecting plate and remove the fastening studs from the surface of the connecting plate. This allows the user to remove the winding frame from the surface of the connecting plate and replace it with a winding frame of different sizes to meet the needs of winding the cable body. This realizes the function of convenient replacement of the winding frame of the chuck machine, so that the chuck machine can change the winding frame of the required size to wind the cable body during use, making the chuck machine more able to meet the user's needs.

[0016] 3. By setting up an automatic feeding mechanism, the third electric push rod on the surface of the feeding plate is controlled to work. Under the action of the third electric push rod, the wheel frame and the wheel body move, so that the wheel frame drives the wheel body to contact the surface of the cable body. The third electric push rod applies a certain force to the feeding plate and the wheel body, so that the wheel body can clamp the wound cable body. The controller controls the reciprocating motion component to work. Under the action of the reciprocating motion component, the wound cable body moves to the packaging area for packaging, realizing the automatic feeding function of the chuck machine. Thus, when the chuck machine is used, it can automatically feed the wound cable body to the packaging area, so that the chuck machine does not need manual feeding, and the degree of automation is higher. Attached Figure Description

[0017] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0018] Figure 2 This is a schematic diagram of the front cross-sectional structure of this utility model;

[0019] Figure 3 For the present utility model Figure 2 Enlarged structural diagram of the feeding mechanism on the middle conveyor line;

[0020] Figure 4 For the present utility model Figure 2 An enlarged structural diagram of the mechanism for easy replacement;

[0021] Figure 5 For the present utility model Figure 2 An enlarged schematic diagram of the automatic feeding mechanism.

[0022] In the diagram: 1. Frame; 11. Controller; 12. Meter counter; 101. Mounting plate; 102. Support platform; 103. Operating platform; 104. Knife holder; 105. Tension sensor; 106. Cable body; 107. Guide wheel assembly; 108. Cutting knife; 109. Fixing base; 110. Plate; 111. First electric push rod; 112. Cable guide frame; 113. First cable guide wheel; 114. Rotating shaft; 115. Drive motor; 116. Motor housing; 117. Rotating rod; 118. Machine casing; 119. Through slot; 120. Second electric push rod; 121, turntable; 122, winding frame; 123, reciprocating motion assembly; 124, second wire feeding wheel; 125, connecting plate; 2. Wire feeding mechanism; 21, guide block; 22, guide groove; 23, servo motor; 24, shaft; 25, adjusting screw; 26, adjusting screw barrel; 3. Easy replacement mechanism; 31, fastening stud; 32, L-shaped frame; 33, fastening screw; 34, mounting clamp; 4. Automatic feeding mechanism; 41, wheel body; 42, wheel frame; 43, feeding plate; 44, third electric push rod. Detailed Implementation

[0023] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, not all embodiments. In addition, the terms "first", "second", "third", "upper", "lower", "left", "right", etc. are used for descriptive purposes only and should not be construed as indicating or implying relative importance. At the same time, in the description of the present utility model, unless otherwise explicitly specified and limited, the terms "connected" and "linked" should be interpreted broadly. For example, it can be a fixed connection, a detachable connection, or an integral connection; it can be a mechanical connection or an electrical connection; it can be a direct connection or an indirect connection through an intermediate medium. Based on the embodiments of the present utility model, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present utility model.

[0024] The structure of the fully automatic chuck machine for cable production provided by this utility model is as follows: Figure 1 and Figure 2As shown, the device includes a frame 1. A controller 11, which can be of the LA series, is mounted on the surface of the frame 1. A mounting plate 101 is mounted on one side of the frame 1 with screws. A support platform 102 is mounted on the surface of the frame 1, located below the mounting plate 101. An operating table 103 is mounted on the top of the support platform 102. A housing 118 is mounted on the top of the mounting plate 101. A turntable 121 is mounted on the bottom of the housing 118, located above the operating table 103. A motor housing 116 is mounted on the surface of the mounting plate 101. A drive motor 115, which can be of the JO series, is mounted inside the motor housing 116 with screws. The input terminal of drive motor 115 is electrically connected to the output terminal of controller 11. The output terminal of drive motor 115 is mounted with a rotating shaft 114 via a coupling. A rotating rod 117 is mounted on the surface of the bottom position of rotating shaft 114. The bottom end of rotating rod 117 passes through mounting plate 101 and is fixed to the surface of the top center position of housing 118. Through slots 119 are opened on the surface of housing 118. A second electric push rod 120 is installed inside housing 118. The model of the second electric push rod 120 can be DG series. The input terminal of the second electric push rod 120 is electrically connected to the output terminal of controller 11. A winding frame 122 is provided inside housing 118. The bottom end of winding frame 122 passes through housing 118 and turntable 121 in sequence and extends to the bottom of turntable 121. The output end of the second electric push rod 120 is equipped with a connecting plate 125. The surface of the bottom position of the take-up frame 122 rotates with the surface of the operating table 103. A fixed seat 109 is installed on the inner wall of the frame 1. A guide wheel assembly 107 is installed on the surface of the fixed seat 109 by screws. A tension sensor 105 is installed on the inner wall of the frame 1 by screws. The tension sensor 105 can be of the BTS series. The output end of the tension sensor 105 is electrically connected to the input end of the controller 11. Plates 110 are installed on the inner walls of both sides of the frame 1. A knife holder 104 is installed on the surface of the plate 110. A cutting blade 108 is installed on the surface of the knife holder 104. A first electric push rod 111 is installed on the surface of the plate 110. The rod 111 can be of the DG series. The input end of the first electric push rod 111 is electrically connected to the output end of the controller 11. The output end of the first electric push rod 111 passes through the plate 110 and is fixed to the surface at the center of the knife holder 104. A wire guide frame 112 is provided on the inner wall of the frame 1. The wire guide frame 112 slides and engages with the inner wall of the frame 1. A first wire guide wheel 113 is provided on the inner wall of the wire guide frame 112. The first wire guide wheel 113 rotates and engages with the inner wall of the wire guide frame 112. A second wire guide wheel 124 is provided on the inner wall of the wire guide frame 112. The second wire guide wheel 124 rotates and engages with the inner wall of the wire guide frame 112. A meter counter 12 is mounted on the surface of the wire guide frame 112. The meter counter 12 can be of the RZJ series.The output of the meter counter 12 is electrically connected to the input of the controller 11. A cable body 106 is mounted on the surface of the frame 1. One end of the cable body 106 passes through the frame 1 and is wound around the surface of the winding frame 122. The surface of the cable body 106 contacts the surfaces of the tension sensor 105, the guide wheel assembly 107, the first winding wheel 113, and the second winding wheel 124. A reciprocating motion assembly 123 is installed inside the support platform 102.

[0025] Furthermore, such as Figure 2 and Figure 3 As shown, a cable feeding mechanism 2 is provided on the inner wall of the frame 1 and the surface of the cable tray 112. The cable feeding mechanism 2 consists of a guide block 21, a guide groove 22, a servo motor 23, a shaft 24, an adjusting screw 25, and an adjusting screw barrel 26. An adjusting screw 25 is provided inside the frame 1. The adjusting screw 25 rotates with the inner wall of the frame 1 through a bearing. The adjusting screw barrel 26 is threaded on the surface of the adjusting screw 25. A guide block 21 is installed on the surface of the adjusting screw barrel 26. A guide groove 22 is provided on the inner wall of the frame 1. The guide groove 22 slides with the surface of the guide block 21. A servo motor 23 is installed on the inner wall of the frame 1 by screws. The servo motor 23 can be of the HF series. The input end of the servo motor 23 is electrically connected to the output end of the controller 11. The output end of the servo motor 23 is installed with a shaft 24 through a coupling. The surface of the bottom position of the shaft 24 is fixed to the surface of the adjusting screw 25. The surface of the adjusting screw barrel 26 is fixed to the surface of the cable tray 112.

[0026] During implementation, the servo motor 23 drives the shaft 24 to rotate. When the shaft 24 rotates, it drives the adjusting screw 25 to rotate inside the frame 1. Under the threaded engagement of the adjusting screw 25 and the adjusting screw cylinder 26, the adjusting screw cylinder 26 moves, causing the adjusting screw cylinder 26 to drive the guide block 21 to slide inside the guide groove 22. Under the combined action of the guide block 21 and the guide groove 22, the adjusting screw cylinder 26 is guided. When the adjusting screw cylinder 26 moves, it drives the cable tray 112, the first cable tray wheel 113 and the second cable tray wheel 124 to move up and down in a reciprocating motion on the inner wall of the frame 1, thereby winding and coiling the cable body 106 between the first cable tray wheel 113 and the second cable tray wheel 124, so as to realize the function of cable feeding of the chuck machine.

[0027] Furthermore, such as Figure 2 and Figure 4As shown, the surfaces of the winding frame 122 and the connecting plate 125 are provided with a convenient replacement mechanism 3. The convenient replacement mechanism 3 consists of a fastening stud 31, an L-shaped frame 32, a fastening screw 33, and a mounting clamp 34. The surface of the connecting plate 125 is threaded with fastening studs 31. One end of the fastening stud 31 passes through the connecting plate 125 and is threadedly fastened to the surface of the winding frame 122. The surface of the connecting plate 125 is mounted with an L-shaped frame 32. The surface of the L-shaped frame 32 is threaded with a fastening screw 33. One end of the fastening screw 33 passes through the L-shaped frame 32 and extends to the inside of the L-shaped frame 32. The inner wall of the L-shaped frame 32 is provided with a mounting clamp 34. The surface of the mounting clamp 34 and one end of the fastening screw 33 rotate and engage with each other. The inner wall of the mounting clamp 34 is in contact with the surface of the winding frame 122.

[0028] In practice, the user loosens the fastening screws 33 on the surface of the L-shaped frame 32 through the through groove 119, causing the fastening screws 33 to move the mounting clamp 34 away from the surface of the winding frame 122. Then, the user loosens the fastening studs 31 on the surface of the connecting plate 125 and removes the fastening studs 31 from the surface of the connecting plate 125. This allows the winding frame 122 to be removed from the surface of the connecting plate 125 and replaced with winding frames 122 of different sizes to meet the winding requirements of the cable body 106, thus enabling the reel machine to easily replace the winding frame 122.

[0029] Furthermore, such as Figure 2 and Figure 5 As shown, an automatic feeding mechanism 4 is provided on the surface of the support platform 102 and the cable body 106. The automatic feeding mechanism 4 consists of a wheel 41, a wheel frame 42, a feeding plate 43, and a third electric push rod 44. The surface of the support platform 102 is provided with a feeding plate 43, which cooperates with the reciprocating motion component 123. The inner side of the feeding plate 43 is provided with a wheel frame 42, and the inner wall of the wheel frame 42 is provided with a wheel 41. The wheel 41 and the inner wall of the wheel frame 42 rotate and cooperate with each other. The surface of the wheel 41 is in contact with the surface of the cable body 106. The surface of the feeding plate 43 is equipped with a third electric push rod 44. The model of the third electric push rod 44 can be selected from the DG series. The input end of the third electric push rod 44 is electrically connected to the output end of the controller 11. The output end of the third electric push rod 44 passes through the feeding plate 43 and is fixed to the surface of the wheel frame 42.

[0030] During implementation, the reciprocating motion assembly 123 drives the feeding plate 43 to slide on the surface of the operating table 103, causing the feeding plate 43 to move to one side of the wound cable body 106. The controller 11 controls the third electric push rod 44 on the surface of the feeding plate 43 to work. Under the action of the third electric push rod 44, the wheel frame 42 and the wheel body 41 move, causing the wheel frame 42 to drive the wheel body 41 to contact the surface of the cable body 106. The third electric push rod 44 applies a certain force to the feeding plate 43 and the wheel body 41, so that the wheel body 41 can clamp the wound cable body 106. Subsequently, the controller 11 controls the reciprocating motion assembly 123 to work, and under the action of the reciprocating motion assembly 123, the wound cable body 106 moves to the packaging area for packaging, so as to realize the automatic feeding function of the chuck machine.

[0031] Working principle: In use, first place the frame 1 in the designated position. The external feeding mechanism places one end of the cable body 106 on the surface of the operating table 103. At this time, the second electric push rod 120 drives the winding frame 122 to move downward, causing the winding frame 122 to slide on the inner wall of the turntable 121. When the winding frame 122 moves downward, it contacts the surface at the top of the operating table 103. At the same time, the winding frame 122 can hold the cable body 106 tightly to prevent it from coming off. After the feeding is completed, the feeding mechanism moves away from the inside of the frame 1. The controller 11 controls the drive motor 115 inside the motor box 116 to work. Under the action of the drive motor 115... The rotating shaft 114 is driven to rotate. When the rotating shaft 114 rotates, it drives the rotating rod 117 to rotate on the inner wall of the mounting plate 101, thereby driving the housing 118, turntable 121, and winding frame 122 to rotate. When the housing 118, turntable 121, and winding frame 122 rotate, the cable body 106 is wound onto the surface of the winding frame 122. When the cable body 106 is being wound, it is guided by the guide wheel group 107. The tension of the cable body 106 during winding is monitored by the tension sensor 105, and the monitoring result is sent to the controller 11, enabling the controller 11 to control the speed of the drive motor 115. During cable winding, the cable body 106 is positioned between the second winding pulley 124 and the first winding pulley 113 on the surface of the winding frame 112. The combined action of the first winding pulley 113 and the second winding pulley 124 limits the movement of the cable body 106. The cable body 106 drives the first winding pulley 113 and the second winding pulley 124 to rotate on the inner wall of the winding frame 112. The meter counter 12 calculates the winding length of the cable body 106. When the meter counter 12 detects that the cable body 106 has been wound to the required length on the surface of the winding frame 122, the meter counter 12 sends a signal to the controller 11. The controller 11 receives the signal from the meter counter. After the signal is sent by 12, the first electric push rod 111 on the surface of the automatic control plate 110 works. Under the action of the first electric push rod 111, the knife holder 104 and the cutting knife 108 move relative to each other. Under the action of the cutting knife 108, the cable body 106 is cut. When the winding frame 122 finishes winding the cable body 106, the controller 11 controls the second electric push rod 120 inside the housing 118 to work. Under the action of the second electric push rod 120, the connecting plate 125 and the winding frame 122 move upward, so that the winding frame 122 moves away from the inner wall of the wound cable body 106, and the winding frame 122 moves into the interior of the housing 118 and the turntable 121.

[0032] Subsequently, when the winding frame 122 winds up the cable body 106, the controller 11 controls the servo motor 23 inside the frame 1 to work. Under the action of the servo motor 23, the shaft 24 is driven to rotate. When the shaft 24 rotates, it drives the adjusting screw 25 to rotate inside the frame 1. Under the threaded engagement of the adjusting screw 25 and the adjusting screw cylinder 26, the adjusting screw cylinder 26 is driven to move, causing the adjusting screw cylinder 26 to drive the guide block 21 to slide inside the guide groove 22. Under the combined action of the guide block 21 and the guide groove 22, the cable body is adjusted. The adjusting screw 26 guides the cable. When the adjusting screw 26 moves, it drives the cable tray 112, the first cable tray 113, and the second cable tray 124 to move up and down in a reciprocating motion on the inner wall of the frame 1. This winds up and winds the cable body 106 between the first cable tray 113 and the second cable tray 124, thus realizing the cable feeding function of the chuck machine. This allows the chuck machine to wind up and feed the cable body 106 during winding, resulting in a better winding effect of the cable body 106 during use.

[0033] Subsequently, due to different requirements for the inner diameter of the cable body 106 during winding, the winding frame 122 needs to be replaced. The user loosens the fastening screws 33 on the surface of the L-shaped frame 32 through the through slot 119, causing the fastening screws 33 to move the mounting plate 34 away from the surface of the winding frame 122. Then, the user loosens the fastening studs 31 on the surface of the connecting plate 125 and removes the fastening studs 31 from the surface of the connecting plate 125. The winding frame 122 can then be removed from the surface of the connecting plate 125, allowing for the replacement of winding frames 122 of different sizes to meet the winding requirements of the cable body 106. This enables the spooling machine to easily replace the winding frame 122, allowing the spooling machine to replace the winding frame 122 of the required size to wind the cable body 106, thus better meeting the user's needs during use.

[0034] Subsequently, the controller 11 controls the motor body of the reciprocating motion assembly 123 to operate. Under the action of the reciprocating motion assembly 123, the feeding plate 43 is driven to slide on the surface of the operating table 103, so that the feeding plate 43 moves to one side of the wound cable body 106. The controller 11 controls the third electric push rod 44 on the surface of the feeding plate 43 to operate. Under the action of the third electric push rod 44, the wheel frame 42 and the wheel body 41 move, so that the wheel frame 42 drives the wheel body 41 to contact the surface of the cable body 106. The third electric push rod 44 applies a certain force to the feeding plate 43 and the wheel body 41, so that the wheel body 41... The controller 11 can clamp the wound cable body 106. Then, the controller 11 controls the reciprocating motion component 123 to work. Under the action of the reciprocating motion component 123, the wound cable body 106 is driven to the packaging area for packaging, so as to realize the automatic feeding function of the chuck machine. This allows the chuck machine to automatically feed the wound cable body 106 to the packaging area when in use, so that the chuck machine does not need to be manually unloaded when in use, and the degree of automation is higher. The specific structure and working principle of the reciprocating motion component 123 are existing technologies and will not be described in detail here. Finally, the use of the chuck machine is completed.

[0035] It will be apparent to those skilled in the art that this invention is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or essential characteristics of this invention. Therefore, the embodiments should be considered illustrative and non-limiting in all respects, and the scope of this invention is defined by the appended claims rather than the foregoing description. Thus, it is intended that all variations falling within the meaning and scope of equivalents of the claims be included within this invention. No reference numerals in the claims should be construed as limiting the scope of the claims.

Claims

1. A fully automatic cable reeling machine, comprising a frame (1), characterized in that: A controller (11) is mounted on the surface of the frame (1). A mounting plate (101) is mounted on one side of the frame (1) by screws. A support platform (102) is mounted on the surface of the frame (1). The support platform (102) is located below the mounting plate (101). An operating table (103) is mounted on the top of the support platform (102). A housing (118) is provided on the top of the mounting plate (101). A turntable (121) is mounted on the bottom of the housing (118). The turntable (121) is located above the operating table (103). Through slots (119) are provided on the surface of the housing (118). A second [device / device] is installed inside the housing (118). An electric push rod (120) is provided inside the housing (118), a winding rack (122) is provided inside the housing (118), a connecting plate (125) is installed at the output end of the second electric push rod (120), a cable tray (112) is provided on the inner wall of the frame (1), a cable body (106) is provided on the surface of the frame (1), a reciprocating motion assembly (123) is provided inside the support platform (102), a cable feeding mechanism (2) is provided on the inner wall of the frame (1) and the surface of the cable tray (112), a convenient replacement mechanism (3) is provided on the surface of the winding rack (122) and the connecting plate (125), and an automatic feeding mechanism (4) is provided on the surface of the support platform (102) and the cable body (106).

2. The fully automatic cable reel machine for cable production according to claim 1, characterized in that: A motor housing (116) is mounted on the surface of the mounting plate (101). A drive motor (115) is mounted inside the motor housing (116) by screws. The input end of the drive motor (115) is electrically connected to the output end of the controller (11). A rotating shaft (114) is mounted on the output end of the drive motor (115) via a coupling. A rotating rod (117) is mounted on the surface at the bottom of the rotating shaft (114). The bottom end of the rotating rod (117) passes through the mounting plate (101) and is fixed to the surface at the center of the top of the housing (118). The input end of the second electric push rod (120) is electrically connected to the output end of the controller (11). The bottom end of the winding rack (122) passes through the housing (118) and the turntable (121) in sequence and extends to the bottom of the turntable (121). The surface of the bottom position of the winding rack (122) rotates with the surface of the operating table (103). A fixed seat (109) is installed on the inner wall of the frame (1). A guide wheel assembly (107) is installed on the surface of the fixed seat (109) by screws. A tension sensor (105) is installed on the inner wall of the frame (1) by screws. The output end of the tension sensor (105) is electrically connected to the input end of the controller (11). Plates (110) are installed on the inner walls on both sides of the frame (1). A blade holder (104) is mounted on the surface of the plate (110), and a cutting blade (108) is mounted on the surface of the blade holder (104). A first electric push rod (111) is mounted on the surface of the plate (110). The input end of the first electric push rod (111) is electrically connected to the output end of the controller (11). The output end of the first electric push rod (111) passes through the plate (110) and is fixed to the surface at the center of the blade holder (104). The cable tray (112) slides with the inner wall of the frame (1). A first cable tray wheel (113) is provided on the inner wall of the cable tray (112). The first cable tray wheel (113) and the cable tray (112) are connected. The inner walls of the two are mutually rotating and engaged. The inner wall of the cable tray (112) is provided with a second cable tray wheel (124). The second cable tray wheel (124) and the inner wall of the cable tray (112) are mutually rotating and engaged. The surface of the cable tray (112) is equipped with a meter counter (12). The output end of the meter counter (12) is electrically connected to the input end of the controller (11). One end of the cable body (106) passes through the frame (1) and is wound around the surface of the winding frame (122). The surface of the cable body (106) is in contact with the surface of the tension sensor (105), the guide wheel group (107), the first cable tray wheel (113), and the second cable tray wheel (124).

3. The fully automatic cable reeling machine for cable production according to claim 1, characterized in that: The feeding mechanism (2) is composed of a guide block (21), a guide groove (22), a servo motor (23), a shaft (24), an adjusting screw (25), and an adjusting cylinder (26). The frame (1) is equipped with an adjusting screw (25). The adjusting screw (25) rotates with the inner wall of the frame (1) through a bearing. The adjusting cylinder (26) is threaded on the surface of the adjusting screw (25). The adjusting cylinder (26) is mounted on the surface of the adjusting cylinder (26). The inner wall of the frame (1) is provided with a guide groove (22). The guide groove (22) and the surface of the guide block (21) slide with each other.

4. The fully automatic cable reeling machine according to claim 3, characterized in that: The inner wall of the frame (1) is fitted with a servo motor (23) by screws. The input end of the servo motor (23) is electrically connected to the output end of the controller (11). The output end of the servo motor (23) is fitted with a shaft (24) by a coupling. The surface at the bottom of the shaft (24) is fixed to the surface of the adjusting screw (25). The surface of the adjusting cylinder (26) is fixed to the surface of the cable tray (112).

5. The fully automatic cable reeling machine for cable production according to claim 1, characterized in that: The easy replacement mechanism (3) consists of a fastening stud (31), an L-shaped frame (32), a fastening screw (33), and a mounting plate (34). The surface of the connecting plate (125) is threaded with fastening studs (31). One end of the fastening stud (31) passes through the connecting plate (125) and is threadedly fastened to the surface of the winding frame (122). The surface of the connecting plate (125) is equipped with an L-shaped frame (32).

6. The fully automatic cable reeling machine for cable production according to claim 5, characterized in that: The L-shaped frame (32) is threaded with a fastening screw (33). One end of the fastening screw (33) passes through the L-shaped frame (32) and extends to the inside of the L-shaped frame (32). The inner wall of the L-shaped frame (32) is provided with a mounting plate (34). The mounting plate (34) and the surface of one end of the fastening screw (33) rotate and cooperate with each other. The inner wall of the mounting plate (34) is in contact with the surface of the winding frame (122).

7. The fully automatic cable reeling machine for cable production according to claim 1, characterized in that: The automatic feeding mechanism (4) is composed of a wheel body (41), a wheel frame (42), a feeding plate (43) and a third electric push rod (44). The surface of the support platform (102) is provided with a feeding plate (43). The feeding plate (43) and the reciprocating motion component (123) cooperate with each other. The inner side of the feeding plate (43) is provided with a wheel frame (42). The inner wall of the wheel frame (42) is provided with a wheel body (41). The wheel body (41) and the inner wall of the wheel frame (42) rotate and cooperate with each other. The surface of the wheel body (41) is in contact with the surface of the cable body (106).

8. The fully automatic cable reel machine for cable production according to claim 7, characterized in that: The surface of each feeding plate (43) is equipped with a third electric push rod (44). The input end of the third electric push rod (44) is electrically connected to the output end of the controller (11). The output end of the third electric push rod (44) passes through the feeding plate (43) and is fixed to the surface of the wheel frame (42).