CN220683698U - Guide rail for chain conveying - Google Patents

Abstract

The utility model relates to the technical field of chain guide rails, in particular to a guide rail for conveying chains, which comprises a guide rail block, a supporting component and a limiting component, wherein the supporting component is arranged on the guide rail block, the limiting component comprises an inner chain plate, a limiting plate, a positioning convex strip, a baffle plate, a fixed column and a transmission member, the inner chain plate is arranged on the guide rail block, the limiting plate is arranged on the inner wall of the guide rail block, the positioning convex strip is fixedly arranged on the guide rail block, the baffle plate is fixedly arranged on the guide rail block, the fixed column is fixedly arranged on the guide rail block, the transmission member is arranged on the guide rail block, the inner chain plate is enabled to move on the guide rail block through an external controller, the positioning convex strip and the fixed column limit the inner chain plate, the limiting plate guides the movement of the inner chain plate, the baffle plate prevents dust from falling on the guide rail block and influences the movement of the inner chain plate, so that the inner chain plate can not swing left and right in the conveying process, the inner wall of the guide rail block is scratched, and the inner chain plate is prevented from being worn, and the processing precision of the device is influenced.

Description

Guide rail for chain conveying

Technical Field

The utility model relates to the technical field of chain guide rails, in particular to a guide rail for chain conveying.

Background

The chain guide rail is made of ultra-high molecular polyethylene material. The chain guide rail has the functions of fixing and supporting in a linear guide manner, reducing abrasion, reducing noise and delaying service life, and is made of ultra-high molecular polyethylene materials, so that the chain guide rail has the characteristics of self-lubricity, high abrasion resistance, low sliding friction coefficient and the like, and is widely applied to different industries such as mechanical industry, mining industry, vehicle manufacturing and transportation industry and the like.

The utility model provides a guide rail for chain transportation of current chinese patent publication No. CN218344421U, includes guide rail mounting and dog, guide rail mounting detachably connects on the support, the dog sets up one side of guide rail mounting, install the chain guide in the guide rail mounting, the chain slides on the chain guide, the dog with the guide rail mounting forms the vacancy, the chain guide is installed in the vacancy. The guide rail fixing piece is provided with the groove, the chain guide rail is arranged in the groove, three sides of the groove are surrounded by the transverse baffle and the longitudinal baffle, the chain guide rail is surrounded by the baffle block matched with the other side, the height of the chain guide rail is higher than that of the guide rail fixing piece, the chain guide rail is conveniently taken out from the groove, the baffle blocks are matched with the two ends of the guide rail fixing piece, a room is reserved for deformation of the chain guide rail, and the chain guide rail can be disassembled and replaced rapidly after being worn and deformed.

However, when the guide rail of the prior patent is used, the inner chain plate is placed on the guide rail, and the guide rail does not limit the inner chain plate in the conveying process, so that the inner chain plate can swing left and right easily and scratch the inner wall of the guide rail, thereby easily wearing chains and affecting the processing precision of the device.

Disclosure of Invention

The utility model aims to provide a guide rail for conveying chains, which solves the problems that the inner chain plate is easy to swing left and right and scratch the inner wall of the guide rail due to the fact that the guide rail does not limit the inner chain plate in the conveying process of the guide rail, so that the chains are easy to abrade and the machining precision of a device is affected.

In order to achieve the above purpose, the utility model provides a guide rail for conveying chains, which comprises a guide rail block, a supporting component and a limiting component, wherein the supporting component is installed on the guide rail block, the limiting component comprises an inner chain plate, a limiting plate, a positioning convex strip, a baffle plate, a fixed column and a transmission member, the inner chain plate is installed on the guide rail block, the inner chain plate is in sliding connection with the guide rail block, the limiting plate is installed on the inner wall of the guide rail block, the positioning convex strip is fixedly installed on the guide rail block, the baffle plate is fixedly installed on the guide rail block, the fixed column is fixedly installed on the guide rail block and is positioned on one side of the guide rail block, which is close to the positioning convex strip, and the transmission member is installed on the guide rail block.

The transmission component comprises an outer chain plate, a connecting pin shaft and a connecting part, wherein the connecting pin shaft is fixedly arranged on the inner chain plate; the outer chain plate is arranged on the connecting pin shaft and is rotationally connected with the connecting pin shaft; the connecting part is mounted on the inner link plate.

Wherein the connecting part comprises a connecting rod, a roller and a guiding element, and the connecting rod is arranged on the inner chain plate; the roller is arranged on the connecting pin shaft and is rotationally connected with the connecting pin shaft; the guide element is mounted on the limiting plate.

The guide element comprises a guide rod and an abutting column, one end of the guide rod is fixedly arranged on the inner chain plate, the other end of the guide rod is arranged on the limiting plate, and the guide rod is in sliding connection with the limiting plate; one end of the abutting column is fixedly arranged on the connecting pin shaft, the other end of the abutting column is arranged on the limiting plate, and the abutting column is in sliding connection with the limiting plate.

The support assembly comprises a support plate and a support block, wherein the support plate is fixedly arranged on the guide rail block and is positioned at one side of the guide rail block far away from the positioning convex strips; the supporting block is fixedly arranged on the supporting plate.

According to the guide rail for conveying the chains, the limiting plate is arranged on the guide rail block, the positioning convex strips are arranged on the guide rail block, the baffle plate is fixedly arranged on the guide rail block, the fixing columns are fixedly arranged on the guide rail block, the inner chain plates are enabled to move through the external controller, the connecting pin shafts drive the outer chain plates to move, the rollers rotate, the inner chain plates drive the guide rods to slide on the limiting plate, the connecting pin shafts drive the abutting columns to slide on the limiting plate, the positioning convex strips are matched with the fixing columns, the inner chain plates are located between the positioning convex strips and the fixing columns, meanwhile, the fixing columns support the outer chain plates to move, so that the inner chain plates cannot swing left and right in the conveying process, the inner chain plates are scratched, and the inner wall of the guide rail block is prevented from being worn, and the machining precision of the device is prevented from being affected.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic view showing the overall structure of a guide rail for chain conveyance according to a first embodiment of the present utility model.

Fig. 2 is a schematic view of a mounting structure of a connection pin according to a first embodiment of the present utility model.

Fig. 3 is a schematic view of a mounting structure of a support block according to a second embodiment of the present utility model.

In the figure: 101-guide rail blocks, 102-inner chain plates, 103-limiting plates, 104-positioning convex strips, 105-baffle plates, 106-fixing columns, 107-outer chain plates, 108-connecting pin shafts, 109-connecting rods, 110-rollers, 111-guide rods, 112-abutting columns, 201-supporting plates and 202-supporting blocks.

Detailed Description

The following detailed description of embodiments of the utility model, examples of which are illustrated in the accompanying drawings and, by way of example, are intended to be illustrative, and not to be construed as limiting, of the utility model.

The first embodiment of the application is as follows:

referring to fig. 1 and 2, fig. 1 is a schematic view showing the overall structure of a guide rail for chain conveying according to a first embodiment of the present utility model; fig. 2 is a schematic view of a mounting structure of a connection pin according to a first embodiment of the present utility model.

The utility model provides a guide rail for chain conveying, which comprises: including guide rail block 101, supporting component and spacing subassembly, spacing subassembly includes inner link joint 102, limiting plate 103, location sand grip 104, baffle 105, fixed column 106 and transmission component, transmission component includes outer link joint 107, connecting pin 108 and connecting component, connecting component includes connecting rod 109, roller 110 and guide element, guide element includes guide bar 111 and butt post 112. The problem that the inner chain plate is easy to swing left and right and scratch the inner wall of the guide rail due to the fact that the guide rail does not limit the inner chain plate in the conveying process in the process of conveying the guide rail is solved through the scheme, so that the chain is easy to abrade and the processing precision of the device is affected is solved.

In this embodiment, the support assembly is installed on the guide rail block 101, and the limiting assembly is installed on the guide rail block 101, so that the inner link plate 102 does not swing left and right in the conveying process, and the inner wall of the guide rail block 101 is scraped and rubbed, so that the inner link plate 102 is prevented from being worn, and the processing precision of the device is prevented from being affected.

The inner chain plate 102 is mounted on the guide rail block 101, the inner chain plate 102 is in sliding connection with the guide rail block 101, the limiting plate 103 is mounted on the inner wall of the guide rail block 101, the positioning convex strips 104 are fixedly mounted on the guide rail block 101, the baffle 105 is fixedly mounted on the guide rail block 101, the fixing columns 106 are fixedly mounted on the guide rail block 101 and are located on one side, close to the positioning convex strips 104, of the guide rail block 101, and the transmission component is mounted on the guide rail block 101. The inner chain plate 102 is arranged on the guide rail block 101, and the limiting plate 103 guides the inner chain plate 102; the positioning raised strips 104 are made of polyethylene material, and the positioning raised strips 104 limit the inner chain plate 102; the baffle 105 is made of polyethylene material, and the baffle 105 is dustproof and prevents dust from falling on the guide rail block 101 to influence the movement of the inner chain plate 102; the fixing columns 106 are made of polyethylene, and the fixing columns 106 are matched with the positioning raised strips 104, so that the inner chain plates 102 are positioned between the fixing columns 106 and the positioning raised strips 104; the transmission component transmits the object; the inner chain plate 102 is enabled to move on the guide rail block 101 through the external controller, the positioning convex strips 104 and the fixing columns 106 limit the inner chain plate 102, the limiting plates 103 guide the movement of the inner chain plate 102, the baffle plates 105 prevent dust from falling on the guide rail block 101 and affecting the movement of the inner chain plate 102, so that the inner chain plate 102 cannot swing left and right in the conveying process, scratch the inner wall of the guide rail block 101, avoid abrasion of the inner chain plate 102 and affect the machining precision of the device.

Secondly, the connecting pin shaft 108 is fixedly installed on the inner link plate 102; the outer chain plate 107 is mounted on the connecting pin shaft 108, and the outer chain plate 107 is rotatably connected with the connecting pin shaft 108; the connecting member is mounted on the inner link plate 102. The connecting pin shaft 108 is made of stainless steel, and the connecting pin shaft 108 is connected with the inner chain plate 102 and the outer chain plate 107 to drive the outer chain plate 107 to move; the outer chain plate 107 is made of stainless steel, the outer chain plate 107 is matched with the inner chain plate 102, and objects are conveyed through the connecting parts; when the inner link plate 102 moves, the connecting pin shaft 108 is driven to move the outer link plate 107, so that the outer link plate 107 is matched with the inner link plate 102, and objects are conveyed through the connecting component.

Again, the connecting rod 109 is mounted on the inner link plate 102; the roller 110 is mounted on the connecting pin shaft 108, and the roller 110 is rotatably connected with the connecting pin shaft 108; the guide element is mounted on the limiting plate 103. The connecting rod 109 is made of stainless steel, and the connecting rod 109 supports object conveying; the roller 110 is made of stainless steel, and the roller 110 rotates on the connecting pin shaft 108 to support object conveying; the guide element is mounted on the limiting plate 103; when the inner link plate 102 is engaged with the outer link plate 107, the connecting pin 108 drives the roller 110 to rotate by the movement of the guide member on the guide rail block 101, thereby conveying the object.

Then, one end of the guide rod 111 is fixedly mounted on the inner link plate 102, the other end of the guide rod 111 is mounted on the limiting plate 103, and the guide rod 111 is slidably connected with the limiting plate 103; one end of the abutting column 112 is fixedly mounted on the connecting pin shaft 108, the other end of the abutting column 112 is mounted on the limiting plate 103, and the abutting column 112 is slidably connected with the limiting plate 103. The limiting plate 103 has a sliding groove for supporting the sliding of the guide rod 111 and the abutment post 112; the guide rod 111 guides the movement of the inner link plate 102 to prevent the inner link plate 102 from derailing during the movement; the abutment post 112 guides the movement of the outer link plate 107, preventing the outer link plate 107 from derailing during movement; when the inner link plate 102 and the outer link plate 107 move on the guide rail block 101, the guide rod 111 guides the movement of the inner link plate 102, and the abutment post 112 guides the movement of the outer link plate 107, thereby preventing the inner link plate 102 and the outer link plate 107 from derailing during the movement.

When the guide rail for conveying chains is used, the outer link plate 102 is moved through the external controller, the connecting pin shaft 108 drives the outer link plate 107 to move, the roller 110 rotates, the inner link plate 102 drives the guide rod 111 to slide on the limiting plate 103, the connecting pin shaft 108 drives the abutting column 112 to slide on the limiting plate 103, the positioning convex strips 104 and the fixing columns 106 are matched, the inner link plate 102 is located between the positioning convex strips 104 and the fixing columns 106, and meanwhile the fixing columns 106 support the outer link plate 107 to move, so that the inner link plate 102 cannot swing left and right in the conveying process, scratch the inner wall of the guide rail block 101, and avoid abrasion of the inner link plate 102 and influence on the machining precision of the device.

The second embodiment of the present application is:

the support assembly provided by the utility model comprises a support plate 201 and a support block 202.

Wherein, the supporting plate 201 is fixedly installed on the guide rail block 101 and is positioned at one side of the guide rail block 101 away from the positioning convex strip 104; the support block 202 is fixedly mounted on the support plate 201. The supporting plate 201 is made of polyethylene, and the supporting plate 201 supports the supporting block 202; the supporting block 202 is made of polyethylene, and the supporting block 202 is limited; when the length of the guide rail block 101 is not long enough, other guide rail blocks 101 are clamped on the supporting block 202, and the other guide rail blocks 101 are fixed on the supporting plate 201, so that the guide rail block 101 is conveniently lengthened according to actual needs.

When the guide rail for chain conveying in this embodiment is used, when the length of the guide rail block 101 is not long enough, other guide rail blocks 101 are clamped on the supporting block 202, so that other guide rail blocks 101 are fixed on the supporting plate 201, and the guide rail block 101 is conveniently lengthened according to actual needs.

The foregoing disclosure is only illustrative of one or more preferred embodiments of the present application and is not intended to limit the scope of the claims hereof, as it is to be understood by those skilled in the art that all or part of the process of implementing the described embodiment may be practiced otherwise than as specifically described and illustrated by the appended claims.

Claims (5)

1. A guide rail for chain conveying comprises a guide rail block and a support assembly, wherein the support assembly is arranged on the guide rail block,

the device also comprises a limiting component;

the limiting assembly comprises an inner chain plate, a limiting plate, a positioning convex strip, a baffle, a fixing column and a transmission member, wherein the inner chain plate is installed on the guide rail block, the inner chain plate is in sliding connection with the guide rail block, the limiting plate is installed on the inner wall of the guide rail block, the positioning convex strip is fixedly installed on the guide rail block, the baffle is fixedly installed on the guide rail block, the fixing column is fixedly installed on the guide rail block and located on one side, close to the positioning convex strip, of the guide rail block, and the transmission member is installed on the guide rail block.

2. A guide rail for chain transport as set forth in claim 1, characterized in that,

the transmission component comprises an outer chain plate, a connecting pin shaft and a connecting part, and the connecting pin shaft is fixedly arranged on the inner chain plate; the outer chain plate is arranged on the connecting pin shaft and is rotationally connected with the connecting pin shaft; the connecting part is mounted on the inner link plate.

3. A guide rail for chain transport as set forth in claim 2, wherein,

the connecting part comprises a connecting rod, a roller and a guide element, wherein the connecting rod is arranged on the inner chain plate; the roller is arranged on the connecting pin shaft and is rotationally connected with the connecting pin shaft; the guide element is mounted on the limiting plate.

4. A guide rail for chain transport as set forth in claim 3, characterized in that,

the guide element comprises a guide rod and an abutting column, one end of the guide rod is fixedly arranged on the inner chain plate, the other end of the guide rod is arranged on the limiting plate, and the guide rod is in sliding connection with the limiting plate; one end of the abutting column is fixedly arranged on the connecting pin shaft, the other end of the abutting column is arranged on the limiting plate, and the abutting column is in sliding connection with the limiting plate.

5. A guide rail for chain transport as set forth in claim 1, characterized in that,

the support assembly comprises a support plate and a support block, wherein the support plate is fixedly arranged on the guide rail block and is positioned at one side of the guide rail block far away from the positioning convex strips; the supporting block is fixedly arranged on the supporting plate.