A lifting and sliding assembly for processing automobile roofs

By combining the sliding frame, the lifting frame, and the drive module, the car roof can be efficiently transferred between multiple workstations, solving the problems of time and labor costs in existing technologies, improving transfer efficiency, and saving human resources.

CN224467355UActive Publication Date: 2026-07-07RUGAO HONGYANGYU INTELLIGENT EQUIPMENT CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
RUGAO HONGYANGYU INTELLIGENT EQUIPMENT CO LTD
Filing Date
2025-07-23
Publication Date
2026-07-07

AI Technical Summary

Technical Problem

In current automotive roof manufacturing processes, the transfer operations between multiple workstations are time-consuming and labor-intensive, necessitating a sliding component that can improve transfer efficiency.

Method used

It employs a sliding frame, lifting frame, lifting drive module, and roof lifting unit. The lifting and lowering of the car roof is driven by a winch chain and scissor arms, combined with a rotary cylinder to avoid interference, achieving simple and efficient transfer.

Benefits of technology

It improves the efficiency of transferring the car roof between multiple workstations, saves manpower, has a simple structure, occupies little space, and has strong stability.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model relates to a kind of lifting sliding components for automobile roof processing, it is characterized by: including sliding frame, lifting frame, lifting drive module and roof lifting unit;In the utility model, the automobile roof between two stations is transferred by using the sliding sliding frame structure, the lifting of the automobile roof is driven by using winch chain cooperation scissor arm, it is simple to operate, and the structure is simple, small space occupation, strong stability;In addition, the height of lifting is greatly extended by using lifting frame structure;In addition, the interference that can be effectively avoided before roof tray contacts automobile roof by using rotary cylinder cooperation roof support plate;The device greatly improves the transfer efficiency between automobile roof.
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Description

Technical Field

[0001] This utility model relates to the field of automotive roof processing technology, and in particular to a lifting and sliding assembly for automotive roof processing. Background Technology

[0002] The processing of a typical car roof involves covering and fixing the roof fabric, as well as assembling other components. Therefore, multiple workstations are usually required for processing the car roof. A common approach is to place two workstations adjacent to each other. Since the connection between the two workstations is equipped with a structure to fix the car roof, the transfer of the car roof structure between the two workstations involves first removing it from one workstation and then transferring it from the side to the other workstation. This operation method is time-consuming and labor-intensive. Therefore, there is a need for a sliding component for processing car roofs that can improve the efficiency of transferring the car roof between workstations and save manpower. Utility Model Content

[0003] The technical problem to be solved by this utility model is to provide a lifting and sliding assembly for processing automotive roofs, which can solve the problem that it is inconvenient to move between multiple workstations using an additional transport frame.

[0004] To solve the above-mentioned technical problems, the technical solution of this utility model is: a lifting and sliding assembly for processing automobile roofs, the innovation of which is: including a sliding frame, a lifting frame, a lifting drive module and a roof support unit;

[0005] The sliding frame includes a top plate, a bottom plate, and connecting columns; the top plate and the bottom plate are arranged parallel to each other, and a plurality of sliders are arranged on the upper surface of the top plate along the extending direction; there are a plurality of connecting columns, and the connecting columns are vertically connected between the lower surface of the top plate and the upper surface of the bottom plate; the bottom plate is provided with guide holes;

[0006] The lifting frame includes an upper guide column, a movable guide column, a lower guide column, and a lifting plate. The upper guide columns are a pair and fixed vertically to the lower surface of the base plate. An upper slider is provided on the upper guide column. The movable guide column is vertically oriented, and guide rails are provided on both sides of the movable guide column. The guide rail on one side of the movable guide column engages with the upper slider on the upper guide column. The lower guide columns are a pair and parallel to the upper guide columns. The bottom end of the lower guide column is fixedly connected to the lifting plate. A lower slider is provided on the lower guide column, and the guide rail on the other side of the movable guide column engages with the lower slider on the lower guide column. The top end of the movable guide column can extend into a guide hole in the base plate. The lifting plate is parallel to the base plate.

[0007] The lifting drive module includes a chain box, a scissor arm, and a moving guide unit. The chain box is located on the upper surface of the base plate, and a winch chain is installed inside the chain box. The output end of the winch chain is connected to the upper surface of the lifting plate. A drive motor is installed on the chain box, which drives the winch chain to wind or unwind, thereby driving the lifting plate to lift vertically. The scissor arm is arranged vertically between the base plate and the lifting plate. The moving guide unit is located on the lower surface of the base plate and the upper surface of the lifting plate, and the top and bottom corners of the scissor arm are connected to the moving guide unit.

[0008] The roof support unit has several units and is disposed on the lower surface of the support plate. The roof support unit is used to support the car roof placed on the mold.

[0009] Furthermore, the moving guide unit includes a transverse guide rail and a transverse slider; the transverse guide rail is installed on the lower surface of the base plate and the upper surface of the lifting plate; the transverse slider is respectively installed on the top and bottom corners of the scissor arm to cooperate with the transverse guide rail; the moving guide unit realizes the guidance of the end of the scissor arm when it is raised and lowered.

[0010] Furthermore, the roof support unit includes a rotary cylinder and a roof support plate; the rotary cylinder has several units and is installed on the lower surface of the support plate, the roof support plate is installed on the output end of the rotary cylinder, and the roof support plate is driven by the rotary cylinder; the roof support plate is located directly below the support plate in the initial state, and when the roof support plate is used to support the car roof, the rotary cylinder rotates the roof support plate horizontally, and the edge of the roof support plate extends out of the side of the support plate to support the car roof.

[0011] Furthermore, the roof support plate is provided with a support block that mates with the edge of the car roof.

[0012] The advantages of this utility model are:

[0013] 1) In this utility model, a sliding frame structure is used to transfer car roofs between two workstations. A winch chain and a scissor arm are used to drive the lifting and lowering of the car roof. The operation is simple, the structure is simple, the space occupied is small, and the stability is strong. In addition, the lifting frame structure greatly extends the lifting height. Furthermore, the rotary cylinder used in conjunction with the roof tray can effectively avoid interference before the roof tray comes into contact with the car roof. This device greatly improves the efficiency of transferring car roofs between workstations. Attached Figure Description

[0014] The present invention will now be described in further detail with reference to the accompanying drawings and specific embodiments.

[0015] Figure 1This is a schematic diagram of the structure of a lifting and sliding assembly for processing an automotive roof according to the present invention.

[0016] Figure 2 This is another schematic diagram of the structure of a lifting and sliding component for processing an automobile roof according to this utility model. Detailed Implementation

[0017] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this utility model, and not all embodiments. The components of the embodiments of this utility model described and shown in the accompanying drawings can generally be arranged and designed in various different configurations.

[0018] Therefore, the following detailed description of the embodiments of the present invention provided in the accompanying drawings is not intended to limit the scope of the claimed invention, but merely to illustrate selected embodiments of the invention. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without inventive effort are within the scope of protection of the present invention.

[0019] like Figure 1 Figure 2 The illustrated car roof processing lifting and sliding assembly includes a sliding frame 1, a lifting frame 2, a lifting drive module 3, and a roof support unit 4.

[0020] The sliding frame 1 includes a top plate 11, a bottom plate 12, and connecting columns 13; the top plate 11 and the bottom plate 12 are arranged parallel to each other, and a plurality of sliders are arranged on the upper surface of the top plate 11 along the extension direction; there are a plurality of connecting columns 13 and the connecting columns 13 are connected vertically between the lower surface of the top plate 11 and the upper surface of the bottom plate 12; the bottom plate 12 is provided with guide holes.

[0021] The lifting frame 2 includes an upper guide column 21, a movable guide column 22, a lower guide column 23, and a lifting plate 24. The upper guide column 21 is a pair and fixed vertically to the lower surface of the base plate 12. An upper slider is provided on the upper guide column 21. The movable guide column 22 is vertically oriented, and guide rails are provided on both sides of the movable guide column 22. The guide rail on one side of the movable guide column 22 engages with the upper slider on the upper guide column 21. The lower guide column 23 is a pair and parallel to the upper guide column 21. The bottom end of the lower guide column 23 is fixedly connected to the lifting plate 24. A lower slider is provided on the lower guide column 23, and the guide rail on the other side of the movable guide column 22 engages with the lower slider on the lower guide column 23. The top end of the movable guide column 22 can extend into a guide hole in the base plate 12. The lifting plate 24 is parallel to the base plate 12.

[0022] The lifting drive module 3 includes a chain box 31, a scissor arm 32, and a moving guide unit 33. The chain box 31 is disposed on the upper surface of the base plate 12, and a winch chain is disposed inside the chain box 31. The output end of the winch chain is connected to the upper surface of the lifting plate 24. A drive motor is disposed on the chain box 31, which drives the winch chain to wind or unwind, thereby driving the lifting plate 24 to lift vertically. The scissor arm 32 is disposed vertically between the base plate 12 and the lifting plate 24. The moving guide unit 33 is disposed on the lower surface of the base plate 12 and the upper surface of the lifting plate 24, and the top and bottom corners of the scissor arm 32 are respectively connected to the moving guide unit 33.

[0023] The roof support unit 4 has several units and is disposed on the lower surface of the support plate 24. The roof support unit 4 is used to support the car roof placed on the mold.

[0024] The moving guide unit 33 includes a transverse guide rail and a transverse slider; the transverse guide rail is installed on the lower surface of the base plate 12 and the upper surface of the lifting plate 24; the transverse slider is installed on the top and bottom corners of the scissor arm 32 respectively to cooperate with the transverse guide rail; the moving guide unit 33 realizes the guidance of the end of the scissor arm 32 when it is raised and lowered.

[0025] The roof support unit 4 includes a rotary cylinder 41 and a roof support plate 42. The rotary cylinder 41 has several cylinders and is installed on the lower surface of the support plate 24. The roof support plate 42 is installed on the output end of the rotary cylinder 41 and is driven by the rotary cylinder. In the initial state, the roof support plate 42 is located directly below the support plate 24. When the roof support plate 42 is used to support the car roof, the rotary cylinder rotates the roof support plate 42 horizontally. The edge of the roof support plate 42 extends out of the side of the support plate 24 to support the car roof.

[0026] The roof support plate 42 is provided with a support block that matches the edge of the car roof.

[0027] The working principle of this utility model is as follows: This utility model uses a sliding frame structure to transfer car roofs between two workstations. A winch chain combined with a scissor arm drives the lifting and lowering of the car roof. It is simple to operate, has a simple structure, occupies little space, and has strong stability. In addition, the lifting frame structure greatly extends the lifting height. Furthermore, the rotary cylinder used in conjunction with the roof tray can effectively avoid interference before the roof tray comes into contact with the car roof. This device greatly improves the efficiency of transferring car roofs between workstations.

[0028] Those skilled in the art should understand that this utility model is not limited to the above embodiments. The embodiments and descriptions in the specification are merely illustrative of the principles of this utility model. Various changes and modifications can be made to this utility model without departing from its spirit and scope, and all such changes and modifications fall within the scope of this utility model as claimed.

Claims

1. A lifting and sliding assembly for automotive headliner processing, characterized by: The lifting frame comprises a sliding frame, a lifting frame, a lifting driving module and a ceiling lifting unit. The sliding frame comprises a top plate, a bottom plate and connecting columns; the top plate and the bottom plate are arranged in parallel to each other; a plurality of sliding blocks are arranged on the upper surface of the top plate along the extending direction; the connecting columns are arranged between the lower surface of the top plate and the upper surface of the bottom plate along the vertical direction; the bottom plate is provided with guide holes. The lifting frame comprises upper guide columns, movable guide columns, lower guide columns and a lifting plate; the upper guide columns are arranged on the lower surface of the bottom plate along the vertical direction; the upper guide columns are provided with upper sliding blocks; the movable guide columns are arranged along the vertical direction; the movable guide columns are provided with guide rails on both sides; the guide rail on one side of the movable guide column cooperates with the upper sliding block on the upper guide column; the lower guide columns are arranged in pairs and are parallel to the upper guide columns; the lower guide columns are fixedly connected to the lifting plate at the bottom end; the lower guide columns are provided with lower sliding blocks; the guide rail on the other side of the movable guide column cooperates with the lower sliding block on the lower guide column; the top end of the movable guide column can extend into the guide hole of the bottom plate; the lifting plate is parallel to the bottom plate. The lifting driving module comprises a chain box, a scissor arm and a moving guide unit; the chain box is arranged on the upper surface of the bottom plate; the chain box is provided with a winding chain; the output end of the winding chain is connected to the upper surface of the lifting plate; the chain box is provided with a driving motor; the driving motor drives the winding chain to wind or unwind, thereby driving the lifting plate to move up and down along the vertical direction; the scissor arm is arranged between the bottom plate and the lifting plate along the vertical direction; the moving guide unit is arranged on the lower surface of the bottom plate and the upper surface of the lifting plate respectively; the top end corner and the bottom end corner of the scissor arm are connected to the moving guide unit respectively. The ceiling lifting unit is arranged on the lower surface of the lifting plate; the ceiling lifting unit is used to lift the automobile ceiling placed on the mold.

2. The lifting-sliding assembly for processing automobile roof according to claim 1, characterized in that: The moving guide unit comprises a transverse guide rail and a transverse sliding block; the transverse guide rail is mounted on the lower surface of the bottom plate and the upper surface of the lifting plate; the transverse sliding block is mounted on the top end corner and the bottom end corner of the scissor arm respectively to cooperate with the transverse guide rail; the moving guide unit guides the end of the scissor arm when the scissor arm moves up and down.

3. The lifting and sliding assembly for processing of a roof of a vehicle according to claim 1, characterized in that: The ceiling lifting unit comprises a rotary air cylinder and a ceiling lifting plate; the rotary air cylinder is arranged on the lower surface of the lifting plate; the ceiling lifting plate is mounted on the output end of the rotary air cylinder; the ceiling lifting plate is driven by the rotary air cylinder; the ceiling lifting plate is located directly below the lifting plate in the initial state; the ceiling lifting plate is horizontally rotated by the rotary air cylinder when the ceiling lifting plate is used to support the automobile ceiling; the edge of the ceiling lifting plate extends out of the side of the lifting plate to support the automobile ceiling.

4. The lifting and sliding assembly for processing of a roof of a vehicle according to claim 3, characterized in that: The ceiling lifting plate is provided with support blocks matched with the edge of the automobile ceiling.