A cantilevered conveyor platform for a reciprocating elevator
By designing a sliding connection structure and triangular reinforcing blocks in the cantilever conveyor platform, the problems of easy frame breakage and high friction were solved, resulting in a more stable and smoother lifting effect.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SHANGHAI LIEFTECH AUTOMATION SYST CO LTD
- Filing Date
- 2025-08-08
- Publication Date
- 2026-07-07
AI Technical Summary
Existing cantilever conveyor platforms lack connection and reinforcement structures between horizontal and vertical frame sections, making the frames prone to breakage. Furthermore, the absence of auxiliary sliding structures results in high friction, impacting usability and promotion.
A sliding connection structure for the horizontal and vertical frames was designed. Triangular reinforcing blocks were used to enhance the deformation resistance of the connection, and pulleys were installed on the frame to reduce friction. Quick connection and maintenance were achieved through the combination of reserved holes and positioning grooves.
It improves the connection stability and service life of the frame, reduces friction, enhances the stability and smoothness of the conveyor platform, and improves practicality.
Smart Images

Figure CN224466896U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of reciprocating elevator technology, specifically a cantilever conveying platform for reciprocating elevators. Background Technology
[0002] As a heavy and versatile piece of machinery, hoists play an indispensable role in many key areas such as industrial production and logistics transportation. In industrial production, they are used to vertically transport various boxes, pallets, bags, barrels, and packages to ensure smooth production processes. In logistics transportation, they are widely used for warehouse stacking and rapid handling of goods, greatly improving logistics efficiency. In addition, traditional hoists, with their stable and safe performance characteristics, have demonstrated wide application value in many other fields, becoming an indispensable tool in modern industrial production and logistics transportation. For reciprocating hoists, their cantilever conveyor platforms are also an essential component.
[0003] In existing technologies, although cantilever conveyor platforms are all L-shaped structures, they lack a connection structure between the horizontal and vertical frame sections, as well as a reinforcement structure between them. This makes the horizontal and vertical frame sections prone to breakage after prolonged use, affecting their normal operation. Furthermore, the lack of an auxiliary sliding structure for the conveyor platform results in high friction during lifting, hindering its mobility and reducing its practicality, thus limiting its widespread adoption. Summary of the Invention
[0004] The technical problem to be solved by this utility model is to provide a cantilever conveying platform for reciprocating elevators. It can effectively solve the problems in the prior art, which lacks a connection structure between the horizontal and vertical frame sections and a reinforcing structure between them. This makes the horizontal and vertical frame sections prone to breakage after long-term use, thus affecting normal use. Furthermore, the lack of an auxiliary sliding structure for the conveying platform makes it difficult to lift and lower due to high friction during the lifting process, resulting in poor practicality and hindering its widespread use.
[0005] The technical solution adopted by this utility model is: a cantilever conveying platform for a reciprocating elevator, including a reciprocating elevator body, a horizontal frame and a vertical frame. The horizontal frame and the vertical frame are slidably connected to the reciprocating elevator body. Mounting seat one and mounting seat two are fixedly installed at one end of the horizontal frame near the reciprocating elevator body. A hanging frame is provided on the horizontal frame.
[0006] The horizontal frame includes side frames, and at least two identical side frames are provided. A reinforcing rod is fixedly installed between the two side frames, and a top frame is fixedly installed at the end of the side frame away from the reinforcing rod.
[0007] The vertical frame includes a connecting rod, and a connecting frame is fixedly installed at one end of the connecting rod near the side frame. At least two identical connecting rods are provided, and a connecting crossbar is fixedly installed at the ends of the two connecting rods away from the connecting frame.
[0008] Preferably, a reserved hole is provided through one end of the side frame, and a positioning groove is provided through one end of the connecting frame near the side frame. The reserved hole and the positioning groove are the same size, and the side frame and the connecting frame are fitted together.
[0009] With the above technical solution, by cooperating with the reserved hole one and the positioning groove one, when connecting the side frame and the connecting frame, the connecting frame can be inserted into the side frame first. After selecting a suitable position, the reserved hole one and the positioning groove one can overlap and be locked by connecting bolts, etc., which can facilitate the quick connection of the side frame and the connecting frame, thus facilitating subsequent maintenance and replacement.
[0010] Preferably, a reinforcing block is fixedly installed at the connection between the connecting rod and the connecting frame, and the reinforcing block has a triangular cross-section.
[0011] The above technical solution, through the design of the triangular reinforcing block, can enhance the deformation resistance of the connection between the connecting rod and the connecting frame, thereby preventing the connecting rod and the connecting frame from breaking easily after long-term use, thus avoiding affecting their normal use and improving their service life.
[0012] Preferably, there are two identical vertical frames, which are located outside the horizontal frame and are distributed at equal intervals.
[0013] The above technical solution, through the design of two vertical frames, can improve the storage capacity of the vertical frames, increase the load-bearing capacity of the overall reciprocating elevator body, improve the overall practicality, and facilitate the lifting of multiple materials.
[0014] Preferably, the connecting rod one has a positioning groove two at one end away from the connecting frame, the connecting rod one is fixedly installed with the connecting rod two away from the connecting frame, and the connecting rod two has connecting holes at both ends near the connecting rod one, the connecting holes being aligned with the positioning groove two.
[0015] Through the above technical solution, and through the design of the second connecting rod, when connecting multiple vertical frames, the second connecting rod can be installed at the end of the vertical frame away from the horizontal frame. The two can be aligned through the connecting hole and the positioning groove, and then connected by fasteners such as bolts. This can enhance the deformation resistance between multiple vertical frames, thereby preventing them from easily tipping over.
[0016] Preferably, a pulley is rotatably mounted on the end of the mounting base away from the horizontal frame, and a reserved groove is provided at one end of the side frame. The pulley passes through the reserved groove and is slidably connected to the inner wall of the reciprocating elevator body.
[0017] Through the above technical solution, the design of pulley one allows mounting seat one to be installed on the inner wall of the horizontal frame. Then, pulley one fits against the inner wall of the reciprocating elevator body through the reserved groove two. During up and down movement, this reduces friction and facilitates rapid sliding.
[0018] Preferably, a pulley is rotatably mounted on the end of the mounting base away from the horizontal frame, and a slide rail is fixedly mounted on the end of the reciprocating elevator body close to the horizontal frame, with the pulley and the slide rail being slidably connected.
[0019] Through the above technical solution, the design of mounting base two makes it easy to install pulley two on the horizontal frame. Then, during lifting and lowering, pulley two can contact the slide rail. Combined with the design of pulley one, it can further reduce its friction, making it easier to lift and lower, and improving the stability and smoothness of the overall conveying platform.
[0020] Compared with the prior art, this utility model provides a cantilever conveying platform for reciprocating elevators, which has the following advantages:
[0021] 1. The cantilever conveyor platform of this reciprocating hoist, through the cooperation of the reserved hole one and the positioning groove one, when connecting the side frame and the connecting frame, the connecting frame can be inserted into the side frame first. After selecting a suitable position, the two can overlap through the reserved hole one and the positioning groove one, and can be locked by connecting bolts, etc., which can facilitate the quick connection of the side frame and the connecting frame, thereby facilitating subsequent maintenance and replacement. In addition, the design of the triangular reinforcing block can enhance the deformation resistance of the connection between the connecting rod one and the connecting frame, thereby preventing the connecting rod one and the connecting frame from breaking easily after long-term use.
[0022] 2. The cantilever conveyor platform of this reciprocating elevator, through the design of the second mounting base, can easily install the second pulley on the horizontal frame. Then, during lifting, the second pulley can contact the slide rail. Combined with the design of the first pulley, it can further reduce its friction, which can facilitate lifting and improve the stability and smoothness of the overall conveyor platform. Attached Figure Description
[0023] Figure 1 This is a schematic diagram of the three-dimensional structure of the present invention. Figure 1 ;
[0024] Figure 2 This is a schematic diagram of the three-dimensional structure of the present invention. Figure 2 ;
[0025] Figure 3 This is a schematic diagram of the installation structure of the horizontal and vertical frames of this utility model;
[0026] Figure 4 This is a schematic diagram of the installation structure of the horizontal and vertical frames of this utility model;
[0027] Figure 5 This is an exploded view of the horizontal and vertical frames of this utility model;
[0028] Figure 6 This is a schematic diagram of the exploded structure of the horizontal frame of this utility model.
[0029] The components are as follows: 1. Reciprocating hoist body; 2. Slide rail; 3. Horizontal frame; 301. Side frame; 302. Reserved hole one; 303. Reinforcing rod; 304. Reserved groove two; 305. Top frame; 4. Vertical frame; 401. Connecting rod one; 402. Reinforcing block; 403. Connecting frame; 404. Positioning groove one; 405. Connecting crossbar; 406. Positioning groove two; 5. Hanging frame; 6. Mounting seat one; 7. Pulley one; 8. Connecting rod two; 9. Connecting hole; 10. Mounting seat two; 11. Pulley two. Detailed Implementation
[0030] 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, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.
[0031] Example 1: As Figure 1-6 As shown, the present invention provides a cantilever conveying platform for a reciprocating elevator, including a reciprocating elevator body 1, a horizontal frame 3 and a vertical frame 4. The horizontal frame 3 and the vertical frame 4 are slidably connected to the reciprocating elevator body 1. A mounting base 1 6 and a mounting base 2 10 are fixedly installed on one end of the horizontal frame 3 near the reciprocating elevator body 1. A hanging frame 5 is provided on the horizontal frame 3.
[0032] The horizontal frame 3 includes side frame 301, at least two identical side frame 301 are provided, a reinforcing rod 303 is fixedly installed between the two side frame 301, and a top frame 305 is fixedly installed at the end of the side frame 301 away from the reinforcing rod 303.
[0033] The vertical frame 4 includes a connecting rod 401. A connecting frame 403 is fixedly installed at one end of the connecting rod 401 near the side frame 301. At least two identical connecting rods 401 are provided. A connecting crossbar 405 is fixedly installed at the end of the two connecting rods 401 away from the connecting frame 403.
[0034] Specifically, a pre-drilled hole 302 is provided through one end of the side frame 301, and a positioning groove 404 is provided through one end of the connecting frame 403 near the side frame 301. The pre-drilled hole 302 and the positioning groove 404 are the same size. The side frame 301 and the connecting frame 403 fit together. The advantage is that, through the cooperation of the pre-drilled hole 302 and the positioning groove 404, when connecting the side frame 301 and the connecting frame 403, the connecting frame 403 can be inserted into the side frame 301 first. After selecting a suitable position, the pre-drilled hole 302 and the positioning groove 404 can overlap and be locked by connecting bolts, etc., which can facilitate the quick connection of the side frame 301 and the connecting frame 403, thus facilitating subsequent maintenance and replacement.
[0035] Specifically, a reinforcing block 402 is fixedly installed at the connection between connecting rod 401 and connecting frame 403. The reinforcing block 402 has a triangular cross-section. The advantage is that the design of the triangular reinforcing block 402 can enhance the deformation resistance at the connection between connecting rod 401 and connecting frame 403, thereby preventing the connecting rod 401 and connecting frame 403 from breaking easily after long-term use, thus avoiding affecting their normal use and improving their service life.
[0036] Specifically, there are two identical vertical frames 4, which are located outside the horizontal frame 3 and are distributed at equal intervals. The advantage is that the design of two vertical frames 4 can improve the storage capacity of the vertical frames 4, improve the load-bearing capacity of the overall reciprocating elevator body 1, improve the overall practicality, and facilitate the lifting of multiple materials.
[0037] Example 2: Figure 2-6 As shown, this is an improvement on the previous embodiment.
[0038] Specifically, a positioning groove 406 is provided at the end of connecting rod 401 away from connecting frame 403. Connecting rod 8 is fixedly installed on connecting rod 401 away from connecting frame 403. Connecting holes 9 are provided at both ends of connecting rod 8 near connecting rod 401. The connecting holes 9 are aligned with the positioning groove 406. The advantage is that, through the design of connecting rod 8, when connecting multiple vertical frames 4, connecting rod 8 can be installed at the end of vertical frame 4 away from horizontal frame 3. The two can be aligned through the connecting holes 9 and the positioning groove 406, and then connected by bolts or other fasteners. This can enhance the deformation resistance between multiple vertical frames 4, thereby preventing them from easily tipping over.
[0039] Specifically, a pulley 7 is rotatably mounted on the end of the mounting base 6 away from the horizontal frame 3. A reserved groove 304 is provided at one end of the side frame 301. The pulley 7 passes through the reserved groove 304 and is slidably connected to the inner wall of the reciprocating elevator body 1. The advantage is that, through the design of the pulley 7, the mounting base 6 can be installed on the inner wall of the horizontal frame 3. Then, the pulley 7 is made to fit against the inner wall of the reciprocating elevator body 1 through the reserved groove 304. Then, during the up and down movement, it can reduce its friction and facilitate its rapid sliding.
[0040] Specifically, a pulley 11 is rotatably mounted on the end of the mounting base 2 10 away from the horizontal frame 3, and a slide rail 2 is fixedly mounted on the end of the reciprocating elevator body 1 close to the horizontal frame 3. The pulley 11 and the slide rail 2 are slidably connected. The advantage is that the design of the mounting base 2 10 makes it easy to install the pulley 11 on the horizontal frame 3. Then, during lifting, the pulley 11 can contact the slide rail 2. Combined with the design of the pulley 7, the friction can be further reduced, which facilitates lifting and improves the stability and smoothness of the overall conveying platform.
[0041] Working Principle: During use, by cooperating with the pre-drilled hole 302 and the positioning groove 404, when connecting the side frame 301 and the connecting frame 403, the connecting frame 403 can be inserted into the side frame 301 first. After selecting a suitable position, the pre-drilled hole 302 and the positioning groove 404 can overlap and be locked with connecting bolts, etc., which facilitates the quick connection of the side frame 301 and the connecting frame 403, thus facilitating subsequent maintenance and replacement. The design of the triangular reinforcing block 402 enhances the deformation resistance at the connection between the connecting rod 401 and the connecting frame 403, thereby preventing the connecting rod 401 and the connecting frame 403 from easily breaking after long-term use, thus avoiding affecting their normal use and improving their service life. The design of the two vertical frames 4 improves the storage capacity of the vertical frames 4, increases the load-bearing capacity of the overall reciprocating elevator body 1, improves the overall practicality, and facilitates the lifting of multiple... The design of connecting rod 28 allows for the installation of connecting rod 28 at the end of vertical frame 4 away from horizontal frame 3 when connecting multiple vertical frames 4. The connecting rod 28 aligns with the positioning groove 2 406 via connecting hole 9, and is then connected with bolts or other fasteners. This enhances the deformation resistance of multiple vertical frames 4, preventing them from easily tipping over. The design of pulley 17 allows mounting base 16 to be installed on the inner wall of horizontal frame 3, enabling pulley 17 to fit against the inner wall of reciprocating elevator body 1 via pre-reserved groove 2 304. This reduces friction during up-and-down movement, facilitating rapid sliding. The design of mounting base 2 10 allows for the installation of pulley 2 11 on horizontal frame 3. During lifting, pulley 2 11 contacts the slide rail 2. Combined with the design of pulley 17, this further reduces friction, facilitating lifting and improving the overall stability and smoothness of the conveying platform.
[0042] Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the present invention, the scope of which is defined by the appended claims and their equivalents.
Claims
1. A cantilever conveying platform for a reciprocating elevator, comprising a reciprocating elevator body (1), a horizontal frame (3), and a vertical frame (4), wherein the horizontal frame (3) and the vertical frame (4) are slidably connected to the reciprocating elevator body (1), characterized in that: The horizontal frame (3) is fixedly installed with mounting base one (6) and mounting base two (10) at one end near the reciprocating hoist body (1), and a hanging frame (5) is provided on the horizontal frame (3). The horizontal frame (3) includes side frames (301), at least two identical side frames (301) are provided, a reinforcing rod (303) is fixedly installed between the two side frames (301), and a top frame (305) is fixedly installed at the end of the side frame (301) away from the reinforcing rod (303). The vertical frame (4) includes a connecting rod (401), and a connecting frame (403) is fixedly installed at one end of the connecting rod (401) near the side frame (301). At least two identical connecting rods (401) are provided, and a connecting crossbar (405) is fixedly installed at one end of each connecting rod (401) away from the connecting frame (403).
2. The cantilever conveying platform for a reciprocating hoist according to claim 1, characterized in that: The side frame (301) has a pre-drilled hole (302) at one end, and the connecting frame (403) has a positioning groove (404) at one end near the side frame (301). The pre-drilled hole (302) and the positioning groove (404) are the same size, and the side frame (301) and the connecting frame (403) fit together.
3. The cantilever conveying platform for a reciprocating hoist according to claim 1, characterized in that: A reinforcing block (402) is fixedly installed at the connection between the connecting rod (401) and the connecting frame (403), and the cross-section of the reinforcing block (402) is a "triangular" structure.
4. The cantilever conveying platform for a reciprocating hoist according to claim 1, characterized in that: The vertical frame (4) is provided in two identical parts, and the two vertical frames (4) are located outside the horizontal frame (3) and are distributed at equal intervals.
5. A cantilever conveying platform for a reciprocating hoist according to claim 4, characterized in that: The first connecting rod (401) has a positioning groove (406) at one end away from the connecting frame (403). The second connecting rod (8) is fixedly installed on the first connecting rod (401) away from the connecting frame (403). The second connecting rod (8) has connecting holes (9) at both ends near the first connecting rod (401). The connecting holes (9) are opposite to the positioning groove (406).
6. The cantilever conveying platform for a reciprocating hoist according to claim 1, characterized in that: The mounting base (6) is rotatably mounted with a pulley (7) at one end away from the horizontal frame (3). A reserved groove (304) is provided at one end of the side frame (301). The pulley (7) passes through the reserved groove (304) and is slidably connected to the inner wall of the reciprocating elevator body (1).
7. A cantilever conveyor platform for a reciprocating hoist according to claim 1, characterized in that: The mounting base 2 (10) is rotatably mounted with pulley 2 (11) at the end away from the horizontal frame (3), and the reciprocating hoist body (1) is fixedly mounted with slide rail (2) at the end near the horizontal frame (3). The pulley 2 (11) and slide rail (2) are slidably connected.