Strap injection transfer device

Abstract

The utility model discloses a tie band injection mould transfer device, including fixed plate, the plug-in rod is fixedly arranged in one side of fixed plate, the top end surface of plug-in rod is set to the inclined plane, wherein the side of inclined plane away from fixed plate is lower than the other side, the limit baffle rod, the vertical limit baffle rod is movably embedded in the end of plug-in rod away from fixed plate, the limit baffle rod has at least first state and second state. The utility model discloses a limit baffle rod that is movably arranged on the plug-in rod, can make the limit baffle rod be in first state in the transfer process to prevent the tie band group from sliding down along the inclined plane of plug-in rod effectively, and after being transferred to the destination, the limit baffle rod is switched to second state through the adjusting assembly automatic, thereby allowing the tie band group to slide down by gravity, and the unloading process is simplified, and the transfer work efficiency is improved.

Description

Technical Field

[0001] This utility model belongs to the field of cable tie production technology, and in particular relates to a cable tie injection molding and transfer device. Background Technology

[0002] In the existing cable tie injection molding production process, after the cable ties are demolded, they usually form multiple cable tie groups connected together. These cable tie groups need to be transferred to the receiving device by a transfer device.

[0003] To ensure stability during the transfer of cable ties, existing cable tie transfer devices often employ fixed limiting structures. While this method can prevent cable ties from slipping to some extent, it limits the ease of operation during unloading. It usually requires additional manual operation or complex mechanical adjustments to remove or adjust the limiting structures, thus affecting the transfer efficiency. Utility Model Content

[0004] This utility model addresses the problems in the prior art by proposing the following technical solution:

[0005] This utility model provides a cable tie injection molding transfer device, comprising:

[0006] Fixing plate;

[0007] The insertion rod is fixedly mounted on one side of the fixing plate, and the top end face of the insertion rod is set as an inclined surface, wherein the side of the inclined surface away from the fixing plate is lower than the other side;

[0008] A limiting stop bar, a vertical limiting stop bar movably embedded in the end of the insert rod away from the fixed plate, the limiting stop bar having at least a first state and a second state:

[0009] First state: The top of the limiting stop bar is higher than the upper end face of the insertion rod, preventing the cable tie group from sliding down the inclined surface of the insertion rod;

[0010] Second state: The top of the limiting stop is lower than the upper end face of the insertion rod, and the cable tie group can slide down along the inclined surface of the insertion rod.

[0011] As a preferred embodiment of the above technical solution, it further includes an adjustment component, which includes a sleeve disposed on one side of the fixed plate and located directly below the insertion rod. A spring is disposed on the outer side wall of the sleeve near the limiting stop rod, and the other end of the spring is fixedly connected to the bottom of the limiting stop rod. The adjustment component also includes a traction structure, which is connected to the limiting stop rod and applies an external force to it.

[0012] As a preferred embodiment of the above technical solution, the traction structure includes an electric telescopic rod fixedly installed inside the sleeve, a slider fixedly connected to the output end of the electric telescopic rod, a traction rope provided at the other end of the slider, a fixed pulley provided inside the sleeve, and the other end of the traction rope passing around the fixed pulley and connected to the bottom end of the limit stop bar.

[0013] As a preferred embodiment of the above technical solution, the insertion rod, the limiting stop rod, and the adjusting component are provided in two sets, with the two insertion rods respectively inserted into two different gaps of the same cable tie set.

[0014] As a preferred embodiment of the above technical solution, a robotic arm is also included, wherein the robotic arm is fixedly connected to the end of the fixed plate away from the insertion rod.

[0015] The beneficial effects of this utility model are as follows:

[0016] This invention features a limiting stop that is movably mounted on the insertion rod. During transport, the limiting stop is in a first state, effectively preventing the cable tie assembly from sliding down the inclined surface of the insertion rod. After reaching the destination, the limiting stop is automatically switched to a second state by an adjustment component, allowing the cable tie assembly to slide down by gravity. This eliminates the need for additional manual operation or complex mechanical adjustments, simplifying the unloading process and improving transport efficiency. Attached Figure Description

[0017] Figure 1 The diagram shown is a schematic of the cable tie assembly in the embodiment;

[0018] Figure 2 The diagram shown is a front view of the transfer device in the embodiment;

[0019] Figure 3 The diagram shown is a side view of the transfer device in the embodiment;

[0020] Figure 4 The diagram shown is a top view of the transfer device in the embodiment.

[0021] Figure 5 The diagram shown is a front view of the transfer device in the embodiment.

[0022] Reference numerals: 1. Cable tie assembly; 2. Cable tie; 10. Fixing plate; 11. Robotic arm; 20. Insertion rod; 30. Limiting stop bar; 40. Adjustment assembly; 41. Spring; 42. Sleeve; 43. Electric telescopic rod; 44. Slider; 45. Traction rope; 46. Fixed pulley. Detailed Implementation

[0023] To make the objectives, technical solutions, and advantages of the present invention clearer, the technical solutions of the present invention will be clearly and completely described below in conjunction with the embodiments.

[0024] Example

[0025] like Figure 1 As shown, Figure 1 The diagram shown is a schematic of the cable tie assembly in the embodiment.

[0026] The cable tie group 1 applicable to this device includes several cable ties 2 arranged at intervals.

[0027] like Figure 2 , Figure 3 , Figure 4 As shown, Figure 2 The diagram shown is a front view of the transfer device in the embodiment; Figure 3 The diagram shown is a side view of the transfer device in the embodiment; Figure 4 The diagram shown is a top view of the transfer device in the embodiment;

[0028] This device includes:

[0029] Fixing plate 10;

[0030] Insert rod 20 is fixedly installed on one side of fixing plate 10. The top end face of insert rod 20 is set as an inclined surface, wherein the side of the inclined surface away from fixing plate 10 is lower than the other side.

[0031] The limit stop 30 is a vertical limit stop 30 that is movably embedded in the end of the insert rod 20 away from the fixed plate 10. The limit stop 30 has at least a first state and a second state:

[0032] First state: The top of the limit stop bar 30 is higher than the upper surface of the insertion bar 20, preventing the cable tie group 1 from sliding down the inclined surface of the insertion bar 20;

[0033] Second state: The top of the limit stop bar 30 is lower than the upper surface of the insertion bar 20, and the cable tie group 1 can slide down along the inclined surface of the insertion bar 20.

[0034] The fixing plate 10 provides the mounting base. During the transfer of the cable tie group 1, the horizontally arranged insertion rod 20 of this device is used to insert into the gap between adjacent cable ties 2. The state of the vertically movable limiting stop 30 embedded in the insertion rod 20 can be switched, so as to play different roles according to specific needs:

[0035] In the first state, the limit stop bar 30 acts as a limit stop during the transfer of the cable tie group 1, preventing the cable tie group 1 from slipping off the insertion bar 20 and stabilizing the transfer.

[0036] In the second state, after the cable tie assembly 1 is transported to its destination, the limit stop bar 30 allows the cable tie assembly 1 to slide down along the inclined surface of the insertion bar 20 by gravity, which facilitates the unloading of the cable ties.

[0037] Meanwhile, the limiting stop bar 30 in the second state also facilitates the receiving of the cable tie group 1 by this device, so that the insertion rod 20 can be smoothly inserted into the gap between adjacent cable ties 2.

[0038] It also includes a robotic arm 11, which is fixedly connected to the end of the fixed plate 10 away from the insertion rod 20.

[0039] The robotic arm 11 in the prior art provides power and directional control, enabling it to move between different working positions. Specifically, the robotic arm 11 enables the device to be transferred from the injection mold position of the cable tie group 1 to the receiving device position of the cable tie group 1.

[0040] like Figure 5 As shown, Figure 5 The diagram shown is a front view of the transfer device in the embodiment.

[0041] It also includes an adjustment component 40, which includes a sleeve 42 disposed on one side of the fixed plate 10 and located directly below the insertion rod 20. A spring 41 is disposed on the outer side wall of the sleeve 42 near the limit stop 30, and the other end of the spring 41 is fixedly connected to the bottom of the limit stop 30.

[0042] Specifically, the insert rod 20 is provided with a through hole for the limit stop rod 30 to be inserted. The spring 41 supports the limit stop rod 30 when the limit stop rod 30 is not subjected to external force, so that the limit stop rod 30 extends out of the upper end surface of the insert rod 20, thus making the limit stop rod 30 in the first state.

[0043] The adjustment assembly 40 also includes a traction structure, which is connected to the limit stop 30 and applies an external force to it.

[0044] The traction structure includes an electric telescopic rod 43 fixedly installed inside the sleeve 42. The output end of the electric telescopic rod 43 is fixedly connected to a slider 44. The other end of the slider 44 is provided with a traction rope 45. A fixed pulley 46 is also provided inside the sleeve 42. The other end of the traction rope 45 passes around the fixed pulley 46 and is connected to the bottom end of the limit stop bar 30.

[0045] The traction structure allows the limit stop bar 30 to automatically switch to the second state.

[0046] Specifically, the sleeve 42 has a through hole 2 for the traction rope 45 to pass through. By starting the electric telescopic rod 43, the slider 44 is moved, and the traction rope 45 pulls the limit stop 30 downward, so that the limit stop 30 moves downward until it is embedded in the through hole 1 on the insert rod 20, and the top end is lower than the upper end face of the insert rod 20.

[0047] The outer wall of the slider 44 slides in contact with the inner walls of the sleeve 42, and the fixed pulley 46 is designed to change the direction of the traction rope 45.

[0048] like Figure 3 , Figure 4 As shown, Figure 3 The diagram shown is a side view of the transfer device in the embodiment; Figure 4 The diagram shown is a top view of the transfer device in the embodiment;

[0049] There are two sets of insertion rods 20, limit stop rods 30 and adjustment components 40. The two insertion rods 20 are inserted into two different gaps of the same cable tie group 1.

[0050] This can further improve the stability of cable tie group 1 during transportation.

[0051] Working principle: When this device receives the cable tie group 1, the limiting stop bar 30 is in the second state. After the insertion rod 20 is smoothly inserted into the gap between the adjacent cable ties 2, the limiting stop bar 30 switches to the first state and then the transfer is carried out. During the transfer, the limiting stop bar 30 provides a blocking effect to ensure that the cable tie group 1 will not accidentally slip during the transfer, thereby ensuring the stability of the transfer process. After the transfer reaches the destination, the electric telescopic rod 43 is activated again. Through the action of the traction rope 45 and the fixed pulley 46, the limiting stop bar 30 is pulled down and switches to the second state again. At this time, the cable tie group 1 can slide down along the inclined surface of the insertion rod 20 by gravity to complete the unloading operation.

[0052] The above embodiments are only used to illustrate the technical solution of this utility model, and are not intended to limit it.

Claims

1. A cable tie injection molding transfer device, characterized in that, include: Fixing plate (10); Insert rod (20), the insert rod (20) is fixedly disposed on one side of the fixing plate (10), the top end face of the insert rod (20) is set as an inclined surface, wherein the side of the inclined surface away from the fixing plate (10) is lower than the other side; A limiting stop (30) is vertically mounted on the insert rod (20) at one end away from the fixed plate (10). The limiting stop (30) has at least a first state and a second state: First state: The top of the limiting stop (30) is higher than the upper end face of the insert (20), preventing the cable tie group from sliding down the inclined surface of the insert (20); Second state: The top of the limiting stop (30) is lower than the upper end face of the insert (20), and the cable tie group can slide down along the inclined surface of the insert (20).

2. The cable tie injection molding transfer device according to claim 1, characterized in that, It also includes an adjustment assembly (40), which includes a sleeve (42) disposed on one side of the fixed plate (10) and the sleeve (42) is located directly below the insertion rod (20). A spring (41) is disposed on the outer side wall of the sleeve (42) near the limiting stop (30). The other end of the spring (41) is fixedly connected to the bottom of the limiting stop (30). The adjustment assembly (40) also includes a traction structure, which is connected to the limiting stop (30) and applies external force to it.

3. The cable tie injection molding transfer device according to claim 2, characterized in that, The traction structure includes an electric telescopic rod (43) fixedly installed inside the sleeve (42), a slider (44) fixedly connected to the output end of the electric telescopic rod (43), a traction rope (45) provided at the other end of the slider (44), a fixed pulley (46) also provided inside the sleeve (42), and the other end of the traction rope (45) passing around the fixed pulley (46) and connected to the bottom end of the limit stop (30).

4. The cable tie injection molding transfer device according to claim 3, characterized in that, The insertion rod (20), the limiting stop rod (30), and the adjusting component (40) are provided in two sets, and the two insertion rods (20) are respectively inserted into two different gaps of the same cable tie set.

5. The cable tie injection molding transfer device according to claim 1, characterized in that, It also includes a robotic arm (11), which is fixedly connected to the end of the fixed plate (10) away from the plug (20).

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