A quick-change fork head assembly for telescopic forks

By setting a fixing pin and limiting groove structure between the fixed seat and the fork head component of the telescopic fork, the problem of complicated operation of replacing telescopic forks is solved, realizing quick replacement and stable connection, and improving operation efficiency.

CN224430101UActive Publication Date: 2026-06-30TAICANG AILARD LOGISTICS EQUIP CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
TAICANG AILARD LOGISTICS EQUIP CO LTD
Filing Date
2025-07-21
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

The replacement of the fork head components of conventional telescopic forks is complex, making the replacement operation time-consuming and labor-intensive, thus affecting operational efficiency.

Method used

A quick-change fork head assembly including a fixed base and a fork head component is designed. By setting a fixing pin and a limiting groove structure between the fixed base and the fork head component, quick fixing and stable connection are achieved. Connecting seats and support blocks are set on the base body to enhance structural stability and support.

Benefits of technology

It enables quick replacement and stable connection of the telescopic fork head components, improves operational efficiency, and ensures the convenience, stability, and robustness of the structure.

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Abstract

This utility model discloses a quick-change fork head component for telescopic forks, relating to the field of logistics equipment technology. It includes a fixed base and a fork head component. The fork head component is horizontally inserted inside the fixed base, and an anti-slip pad is installed on the top surface of the fork head component away from the fixed base. A first fixing pin is vertically installed at the top of the connection between the fixed base and the fork head component, and second fixing pins are horizontally installed on both sides of the connection between the fixed base and the fork head component. This quick-change fork head component for telescopic forks, by having an insertion cavity in the middle of the base body, and with the limiting strip structure inside the insertion cavity, allows the fork head body, with a limiting groove at one end of its surface, to be tightly inserted into the cavity. This enables rapid assembly of the fixed base and the fork head component. Furthermore, the use of the first, second, and third fixing pins maximizes the structural stability of the connection between the fixed base and the fork head component.
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Description

Technical Field

[0001] This utility model relates to the field of logistics equipment technology, specifically to a quick-change fork head component for telescopic forks. Background Technology

[0002] Telescopic forks refer to the telescopic forks of stacker cranes. This is a telescopic mechanism used for storing, retrieving, or transferring goods in automated warehouses and logistics systems.

[0003] The replacement of the fork head components of conventional telescopic forks is relatively complex, and the replacement operation is time-consuming and labor-intensive, affecting work efficiency. Utility Model Content

[0004] The purpose of this invention is to provide a quick-change fork head component for telescopic forks to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a quick-change fork head component for telescopic forks, comprising a fixed base and a fork head component. The fork head component is horizontally inserted inside the fixed base, and an anti-slip pad is installed on the top surface of the fork head component away from the fixed base. A first fixing pin is vertically installed at the top of the connection between the fixed base and the fork head component, and second fixing pins are horizontally installed on the left and right sides of the connection between the fixed base and the fork head component. A third fixing pin is horizontally installed on the rear side of the connection between the fixed base and the fork head component. The fixed base includes a base body, a first fixing hole, and a second fixing hole. The base body includes a fixing hole, a third fixing hole, a support block, an insertion cavity, a limiting strip, a connecting seat, and mounting holes. The top surface of the base body has a first fixing hole vertically formed, the front left and right sides of the base body have a second fixing hole horizontally formed, the rear surface of the base body has a third fixing hole horizontally formed, and the lower front end of the base body is horizontally connected to a support block. The middle part of the base body has an insertion cavity, and the inner walls of the upper and lower sides of the insertion cavity are provided with limiting strips. The bottom of the base body has a connecting seat, and the left and right ends of the connecting seat have mounting holes vertically formed.

[0006] Furthermore, the first fixing hole is opened at the front and rear on the top surface of the base body, and the third fixing hole is symmetrically opened at the rear surface of the base body.

[0007] Furthermore, the base body, support block, and connecting seat are integrated into a single structure, and the support block adopts a triangular structure and is symmetrically arranged at the front end of the base body.

[0008] Furthermore, the connecting seat and the base body are symmetrically provided with triangular reinforcing ribs at the rear end of the connection point, and the limiting strips are symmetrically provided on the upper and lower inner wall surfaces of the insertion cavity.

[0009] Furthermore, the fork head component includes a fork head body, a combination groove, a limiting groove, a first connecting hole, a second connecting hole, and a third connecting hole. The top surface of the fork head body near the anti-slip pad is provided with a combination groove, and the upper and lower surfaces of the fork head body near the fixed seat are provided with limiting grooves. The top surface of the fork head body near the fixed seat is provided with a first connecting hole vertically in the middle, and the left and right sides of the fork head body near the fixed seat are provided with second connecting holes horizontally. At the same time, the rear surface of the fork head body near the fixed seat is provided with a third connecting hole horizontally.

[0010] Furthermore, the inner surface structure of the insertion cavity matches the outer surface structure of the fork head body near the fixed seat, and the inner surface structure of the limiting groove matches the outer surface structure of the limiting strip.

[0011] Furthermore, the anti-slip pad adopts a sunken structure that is tightly attached to the inside of the combined groove, and the inner surface structure of the combined groove matches the bottom surface structure of the anti-slip pad.

[0012] Furthermore, the first fixing pin, the second fixing pin, and the third fixing pin are respectively inserted into the first fixing hole, the second fixing hole, the third fixing hole, the first connecting hole, the second connecting hole, and the third connecting hole from the outside to the inside, and the first connecting hole, the second connecting hole, and the third connecting hole are respectively positioned relative to the first fixing hole, the second fixing hole, and the third fixing hole.

[0013] This utility model provides a quick-change fork tip component for telescopic forks, which has the following beneficial effects:

[0014] 1. This utility model, by providing an insertion cavity inside the base body, and symmetrically setting limiting strips on the upper and lower inner walls of the insertion cavity, and cooperating with a limiting groove on one end surface of the fork body that matches the surface structure of the limiting strips, allows one end of the fork component to be horizontally inserted into the middle of the fixed base. This structural design ensures the accuracy of the connection between the fixed base and the fork component, while also providing a certain degree of structural stability. Furthermore, the first, second, and third fixing holes on the surface of the base body are aligned with the first, second, and third connecting holes on one end surface of the fork body. By sequentially inserting the first, second, and third fixing pins into the first, second, and third fixing holes, as well as the limiting groove, first, second, and third connecting holes, rapid fixing of the fixed base and the fork component can be achieved. This structural design ensures both the convenience and simplicity of the structural assembly, as well as the stability and firmness of the structural assembly, thus guaranteeing the normal use of the fixed base.

[0015] 2. This utility model features a connecting seat at the lower end of the base body, with mounting holes on its surface. Using bolts, the entire fixed seat can be fixed to the surface of the telescopic fork structure, ensuring the structural integrity. Additionally, symmetrical triangular reinforcing ribs at the rear end of the connection between the connecting seat and the base body ensure structural strength. A support block at the lower front of the base body provides structural support at the bottom of the fork member, ensuring structural support and stability when the fork member lifts materials. Furthermore, an anti-slip pad is embedded in the top surface of the fork member, maximizing stability and friction when the fork member contacts the material surface, preventing unnecessary slippage. Attached Figure Description

[0016] Figure 1 This is a schematic diagram of the main body of the quick-change fork head component of a telescopic fork according to the present invention.

[0017] Figure 2 This is an exploded structural diagram of the main body of a quick-change fork head component for telescopic forks according to the present invention.

[0018] Figure 3 This is a three-dimensional structural diagram of the fixing seat for the quick-change fork head component of a telescopic fork according to the present invention.

[0019] Figure 4 This is a three-dimensional structural diagram of the fork head component of a quick-change fork head assembly for telescopic forks according to this utility model.

[0020] In the diagram: 1. Fixed base; 101. Base body; 102. First fixing hole; 103. Second fixing hole; 104. Third fixing hole; 105. Support block; 106. Insertion cavity; 107. Limiting strip; 108. Connecting seat; 109. Mounting hole; 2. Fork head component; 201. Fork head body; 202. Combination groove; 203. Limiting groove; 204. First connecting hole; 205. Second connecting hole; 206. Third connecting hole; 3. Anti-slip pad; 4. First fixing pin; 5. Second fixing pin; 6. Third fixing pin. Detailed Implementation

[0021] The embodiments of this utility model will be described in further detail below with reference to the accompanying drawings and examples. The following examples are for illustrative purposes only and should not be construed as limiting the scope of this utility model.

[0022] like Figures 1 to 4As shown, a quick-change fork head assembly for telescopic forks includes a fixed base 1 and a fork head component 2. The fork head component 2 is horizontally inserted inside the fixed base 1, and an anti-slip pad 3 is installed on the top surface of the fork head component 2 away from the fixed base 1. A first fixing pin 4 is vertically installed at the top of the connection between the fixed base 1 and the fork head component 2, and second fixing pins 5 are horizontally installed on the left and right sides of the connection between the fixed base 1 and the fork head component 2. At the same time, a third fixing pin 6 is horizontally installed on the rear side of the connection between the fixed base 1 and the fork head component 2. The fixed base 1 includes a base body 101 and a first fixing pin 4. The base body 101 includes a first fixing hole 102, a second fixing hole 103, a third fixing hole 104, a support block 105, an insertion cavity 106, a limiting strip 107, a connecting seat 108, and a mounting hole 109. The top surface of the base body 101 has a vertically formed first fixing hole 102, and the front ends of the left and right sides of the base body 101 have horizontally formed second fixing holes 103. The rear surface of the base body 101 has a horizontally formed third fixing hole 104, and the lower front end of the base body 101 is horizontally connected to a support block 105. An insertion cavity is formed in the middle of the base body 101. 106. Limiting strips 107 are provided on the inner wall surfaces of the upper and lower sides of the insertion cavity 106. A connecting seat 108 is provided at the bottom of the base body 101, and mounting holes 109 are vertically opened at both ends of the connecting seat 108. The first fixing hole 102 is opened at the front and rear on the top surface of the base body 101, and the third fixing hole 104 is symmetrically opened on the rear surface of the base body 101. The base body 101, the support block 105 and the connecting seat 108 are integrated into one structure, and the support block 105 adopts a triangular structure and is symmetrically arranged with the base body 101. At the front end of the body 101, the connecting seat 108 and the base body 101 are symmetrically provided with triangular reinforcing ribs at the rear end of the connection. The limiting strips 107 are symmetrically provided on the upper and lower inner wall surfaces of the insertion cavity 106. By providing an insertion cavity 106 inside the base body 101, and symmetrically providing limiting strips 107 on the upper and lower inner walls of the insertion cavity 106, and cooperating with the limiting groove 203 on one end surface of the fork body 201 that matches the surface structure of the limiting strips 107, one end of the fork member 2 can be horizontally inserted into the middle of the inside of the fixed seat 1.

[0023] like Figures 1 to 4As shown, the fork head component 2 includes a fork head body 201, a combination groove 202, a limiting groove 203, a first connecting hole 204, a second connecting hole 205, and a third connecting hole 206. The combination groove 202 is formed on the top surface of the end of the fork head body 201 near the anti-slip pad 3, and limiting grooves 203 are formed on the upper and lower surfaces of the end of the fork head body 201 near the fixed base 1. The first connecting hole 204 is vertically formed in the middle of the top surface of the end of the fork head body 201 near the fixed base 1, and the second connecting holes 205 are horizontally formed on both the left and right sides of the end of the fork head body 201 near the fixed base 1. The third connecting hole 206 is horizontally formed on the rear surface of the end of the fork head body 201 near the fixed base 1. The inner surface structure of the insertion cavity 106 matches the outer surface structure of the end of the fork head body 201 near the fixed base 1, and the inner surface structure of the limiting groove 203 matches the outer surface structure of the limiting strip 107, thus preventing slippage. The pad 3 adopts a recessed structure and is tightly attached to the inside of the combination groove 202. The inner surface structure of the combination groove 202 matches the bottom surface structure of the anti-slip pad 3. The first fixing pin 4, the second fixing pin 5, and the third fixing pin 6 are respectively inserted into the first fixing hole 102, the second fixing hole 103, the third fixing hole 104, the first connecting hole 204, the second connecting hole 205, and the third connecting hole 206 from the outside to the inside. The first connecting hole 204, the second connecting hole 205, and the third connecting hole 206 are respectively positioned opposite to the first fixing hole 102, the second fixing hole 103, and the third fixing hole 104. A connecting seat 108 is provided at the lower end of the base body 101. At the same time, a mounting hole 109 is provided on the surface of the connecting seat 108. By using the mounting hole 109 in conjunction with bolts, the entire fixing seat 1 can be fixed to the surface of the telescopic fork structure, ensuring the firmness of the installation structure.

[0024] In summary, as Figures 1 to 4 As shown, the quick-change fork head component of this telescopic fork is used by first using the mounting holes 109 on the surface of the bottom connecting seat 108 of the base body 101 and the use of bolts to structurally fix the entire fixed seat 1, and then the anti-slip pad 3 is tightly attached to the inside of the combination groove 202 on one end surface of the fork head body 201.

[0025] Subsequently, one end of the fork body 201, which has a limiting groove 203, a first connecting hole 204, a second connecting hole 205, and a third connecting hole 206, is horizontally inserted into the insertion cavity 106. During this process, the limiting strip 107 is slid into the limiting groove 203. In addition, the positions of the first fixing hole 102, the second fixing hole 103, the third fixing hole 104, the first connecting hole 204, the second connecting hole 205, and the third connecting hole 206 are aligned. Finally, the first fixing pin 4, the second fixing pin 5, and the third fixing pin 6 are inserted one by one to connect and fix the fixing seat 1 and the fork component 2.

[0026] The embodiments of this utility model are given for illustrative and descriptive purposes only, and are not intended to be exhaustive or to limit the utility model to the forms disclosed. Many modifications and variations will be apparent to those skilled in the art. The embodiments were chosen and described in order to better illustrate the principles and practical applications of this utility model, and to enable those skilled in the art to understand this utility model and design various embodiments with various modifications suitable for a particular purpose.

Claims

1. A quick-change fork head assembly for telescopic forks, comprising a mounting base (1) and a fork head component (2), characterized in that: The fixed base (1) has a fork head component (2) horizontally inserted inside, and an anti-slip pad (3) is installed on the top surface of the fork head component (2) away from the fixed base (1). A first fixing pin (4) is vertically installed at the top of the connection between the fixed base (1) and the fork head component (2), and a second fixing pin (5) is horizontally installed on the left and right sides of the connection between the fixed base (1) and the fork head component (2). At the same time, a third fixing pin (6) is horizontally installed on the rear side of the connection between the fixed base (1) and the fork head component (2). The fixed base (1) includes a base body (101), a first fixing hole (102), a second fixing hole (103), a third fixing hole (104), a support block (105), an insertion cavity (106), a limiting strip (107), and a connecting seat (10). 8) and mounting holes (109), the top surface of the base body (101) is provided with a first fixing hole (102) vertically, and the front ends of the left and right sides of the base body (101) are provided with a second fixing hole (103) horizontally, and the rear surface of the base body (101) is provided with a third fixing hole (104) horizontally, and the lower front end of the base body (101) is connected with a support block (105) horizontally, and the middle part of the base body (101) is provided with an insertion cavity (106), the inner wall surfaces of the upper and lower sides of the insertion cavity (106) are provided with limit strips (107), the bottom of the base body (101) is provided with a connecting seat (108), and the left and right ends of the connecting seat (108) are provided with mounting holes (109) vertically.

2. The quick-change fork head component for telescopic forks according to claim 1, characterized in that, The first fixing hole (102) is opened on the top surface of the base body (101) from the front and back, and the third fixing hole (104) is symmetrically opened on the rear surface of the base body (101) from left to right.

3. The quick-change fork head component for telescopic forks according to claim 1, characterized in that, The base body (101), support block (105) and connecting seat (108) are integrated into one structure, and the support block (105) adopts a triangular structure and is symmetrically arranged at the front end of the base body (101).

4. The quick-change fork head component for telescopic forks according to claim 1, characterized in that, The connecting seat (108) and the base body (101) are symmetrically provided with triangular reinforcing ribs at the rear end of the connection point, and the limiting strip (107) is symmetrically provided on the upper and lower inner wall surfaces of the insertion cavity (106).

5. A quick-change fork head component for telescopic forks according to claim 1, characterized in that, The fork head component (2) includes a fork head body (201), a combination groove (202), a limiting groove (203), a first connecting hole (204), a second connecting hole (205), and a third connecting hole (206). The top surface of the fork head body (201) near the anti-slip pad (3) is provided with a combination groove (202), and the upper and lower surfaces of the fork head body (201) near the fixed base (1) are provided with limiting grooves (203). The top surface of the fork head body (201) near the fixed base (1) is provided with a first connecting hole (204) vertically in the middle, and the left and right sides of the fork head body (201) near the fixed base (1) are provided with second connecting holes (205) horizontally. At the same time, the rear surface of the fork head body (201) near the fixed base (1) is provided with a third connecting hole (206) horizontally.

6. A quick-change fork head component for telescopic forks according to claim 5, characterized in that, The inner surface structure of the insertion cavity (106) matches the outer surface structure of the fork body (201) near the fixed seat (1), and the inner surface structure of the limiting groove (203) matches the outer surface structure of the limiting strip (107).

7. A quick-change fork head component for telescopic forks according to claim 5, characterized in that, The anti-slip mat (3) adopts a sunken structure and is closely attached to the inside of the combined groove (202), and the inner surface structure of the combined groove (202) matches the bottom surface structure of the anti-slip mat (3).

8. A quick-change fork head component for telescopic forks according to claim 5, characterized in that, The first fixing pin (4), the second fixing pin (5) and the third fixing pin (6) are respectively inserted into the first fixing hole (102), the second fixing hole (103), the third fixing hole (104) and the first connecting hole (204), the second connecting hole (205) and the third connecting hole (206) from the outside to the inside, and the first connecting hole (204), the second connecting hole (205) and the third connecting hole (206) are respectively positioned relative to the first fixing hole (102), the second fixing hole (103) and the third fixing hole (104).