A compressor linear guide device

By adjusting the components and the rotating shaft system driven by a micro motor, the width of the base connecting plate of the compressor linear guide device can be adjusted, solving the installation compatibility problem of different specifications of compression molding machines and improving the versatility of the equipment.

CN224433136UActive Publication Date: 2026-06-30HUBEI ERTE COMPRESSOR CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HUBEI ERTE COMPRESSOR CO LTD
Filing Date
2025-09-28
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

The fixed width of the base connecting plate of the existing compressor linear guide equipment cannot adapt to the installation requirements of different specifications or types of compression molding machines, resulting in poor versatility.

Method used

The machine employs an adjustment assembly, including a support plate, sliding block, rectangular track opening, and a micro-motor driven rotating shaft system. By adjusting the relative positions of the first and second machine base connecting plates, the width can be flexibly adjusted, and the compression molding machine is fixed by fixing screw holes.

Benefits of technology

It improves the versatility of linear guide equipment, enabling it to meet the installation and linear movement requirements of various compression molding machines, and avoids compatibility issues caused by fixed width.

✦ Generated by Eureka AI based on patent content.

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Abstract

This utility model relates to the field of guiding equipment technology, specifically to a compressor linear guiding device, including a linear guiding base and a limiting plate. A guiding drive motor is fixedly installed at one end of the linear guiding base, and linear track plates are fixedly installed on both sides of the upper end of the linear guiding base. The limiting plate is fixedly sleeved at the other end of the linear guiding base. By adjusting the components, the first machine base connecting plate and the second machine base connecting plate can move closer or further apart simultaneously, thereby flexibly adjusting the installation width according to different specifications or types of compression molding machines. Compared with the traditional machine base connecting plate, which adopts an integral structure and has a fixed width, this design avoids the inability to flexibly adjust the width of the machine base connecting plate according to the installation requirements of different specifications or types of compression molding machines, and avoids the linear guiding device being unable to meet the installation and linear movement requirements of various compression molding machines, thus improving the versatility of the linear guiding device.
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Description

Technical Field

[0001] This utility model relates to the field of guiding equipment technology, specifically to a compressor linear guiding device. Background Technology

[0002] Compressors are one of the key power devices in modern industry. Their functions encompass the compression, transportation, and circulation of air, gases, and refrigerants. They are widely used in various industrial fields such as chemical and metallurgical industries, refrigeration and air conditioning, environmental protection, and energy conservation. The movement of the compressor is driven by linear guide devices. Essentially, linear guides, sliders, and other guiding components define the compressor's movement trajectory, and a drive unit provides power, allowing the compressor to smoothly and precisely complete position adjustments along a fixed straight line.

[0003] The Chinese utility model patent with authorization announcement number "CN221257044U" is specifically "A linear guide device for a centrifugal compressor". By setting up a guide box, a drive motor, a central threaded rod, a linear slider, a linear slide groove, and a moving cylinder, the lateral movement of the moving cylinder can drive the bottom connecting plate to move and adjust. In turn, it can drive the centrifugal compressor to move laterally in a linear direction to adjust its position to adapt to different working environments and equipment layouts. By setting up a universal ball and an auxiliary slide groove, while the bottom connecting plate moves laterally, the universal ball can move flexibly in the auxiliary slide groove, thereby reducing the friction when the bottom connecting plate moves.

[0004] During the use of the above-mentioned device, the centrifugal compression molding machine is adjusted by linear movement on the machine base connecting plate. However, there are some drawbacks: because the machine base connecting plate adopts an integral structure, its width is fixed and can only be used to install centrifugal compression molding machines of a single specification. It is not possible to flexibly adjust the width of the machine base connecting plate according to the installation requirements of different specifications or types of compression molding machines. As a result, the linear guide device is difficult to be compatible with the installation and linear movement requirements of various compression molding machines, thus reducing the versatility of the linear guide device. Utility Model Content

[0005] In view of the above-mentioned shortcomings of the existing technology, the present invention provides a compressor linear guide device, which can effectively solve the problems mentioned in the background technology.

[0006] To achieve the above objectives, this utility model provides the following technical solution:

[0007] This utility model provides a compressor linear guide device, including a linear guide base and a limiting plate. A guide drive motor is fixedly installed at one end of the linear guide base, and linear track plates are fixedly installed on both sides of the upper end of the linear guide base. The limiting plate is fixedly sleeved at the other end of the linear guide base, and an adjustment component is provided at the upper end of the linear track plate.

[0008] The adjustment component includes a support plate, with guide sliding blocks fixedly installed at both ends of the bottom of the support plate, sliding grooves opened at both sides of the upper end of the support plate, and a rectangular track opening penetrating through the center of the inside of the support plate.

[0009] Furthermore, each of the sliding grooves has a movable block slidably fitted inside. The upper end of each movable block is fixedly installed with a first machine base connecting plate and a second machine base connecting plate. The interior of both the first and second machine base connecting plates is provided with a through-hole for fixing screws. The lower end of both the first and second machine base connecting plates is fixedly installed with a fixing sleeve on one side.

[0010] Furthermore, a ring block is fixedly connected to the center of the rectangular track opening, and a rotating shaft is rotatably connected inside the ring block. A micro motor is fixedly installed at one end of the rotating shaft, and the output shaft of the micro motor is connected to one end of the rotating shaft for transmission.

[0011] Furthermore, a fixed base plate is fixedly installed at one end of the micro motor, the output shaft of the micro motor passes through the interior of the fixed base plate, and one end of the fixed base plate is fixedly installed on one side of the support plate.

[0012] Furthermore, a rotating rod is fixedly connected to the outer wall of the rotating shaft, and a second connecting rod and a first connecting rod are respectively rotatably sleeved inside both ends of the rotating rod. A rotating guide post is rotatably sleeved inside one end of both the second connecting rod and the first connecting rod.

[0013] Furthermore, the outer sides of the rotating guide post all penetrate the interior of the rectangular track opening, and one end of the rotating guide post is fixedly sleeved inside the fixed sleeve.

[0014] The technical solution provided by this utility model has the following advantages compared with the known prior art:

[0015] This invention allows the first and second base connecting plates to move closer or further apart simultaneously via an adjustment component, enabling flexible adjustment of the installation width according to different specifications or types of compression molding machines. Once adjusted to the appropriate width for the compression molding machine, the compression molding machine is fixed to the base connecting plates using bolts through the fixing screw holes on the first and second base connecting plates for linear guide movement adjustment. Compared to traditional base connecting plates with an integral structure and fixed width, this invention avoids the inability to flexibly adjust the width of the base connecting plate according to the installation requirements of different specifications or types of compression molding machines, thus preventing the linear guide equipment from being incompatible with the installation and linear movement requirements of various compression molding machines and improving the versatility of the linear guide equipment.

[0016] Meanwhile, the rectangular track can limit the movement of the rotating guide column, effectively preventing the first and second machine bottom connecting plates from sliding out of the bearing plate during the movement and adjustment process. Attached Figure Description

[0017] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0018] Figure 1 This is a schematic diagram of the overall first-view structure of a compressor linear guide device according to this utility model;

[0019] Figure 2 This is a schematic diagram of the bearing plate, the first machine base connecting plate, and the fixing screw hole structure of a compressor linear guide device according to this utility model;

[0020] Figure 3 This is a schematic diagram of the rotating guide column, the first connecting rod, and the second connecting rod of a compressor linear guide device according to this utility model.

[0021] Figure 4 This is a schematic diagram of the disassembled structure of the adjustment component of a compressor linear guide device according to this utility model.

[0022] The labels in the diagram represent: 1. Linear guide base; 2. Guide drive motor; 21. Linear track plate; 22. Guide sliding block; 3. Limiting plate; 4. Adjustment component; 41. Bearing plate; 42. Sliding groove; 43. First base connecting plate; 44. Fixing screw hole; 45. Moving block; 46. Second base connecting plate; 47. Fixing sleeve; 48. Rotating guide post; 49. Second connecting rod; 410. First connecting rod; 411. Ring block; 412. Rectangular track opening; 413. Rotating shaft; 414. Fixed base plate; 415. Rotating rod; 416. Micro motor. Detailed Implementation

[0023] 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, not all, of the embodiments of this utility model. All other embodiments obtained by those skilled in the art based on the embodiments of this utility model without creative effort are within the scope of protection of this utility model.

[0024] The present invention will be further described below with reference to the embodiments.

[0025] Reference Figures 1 to 3 This is the first embodiment of the present invention, which discloses a compressor linear guide device, including a linear guide base 1 and a limiting plate 3. A guide drive motor 2 is fixedly installed at one end of the linear guide base 1. In the prior art, the operation of the guide drive motor 2 drives the entire compression molding machine to make linear guide movement and adjustment, which will not be described in detail here. A linear track plate 21 is fixedly installed on both sides of the upper end of the linear guide base 1. The limiting plate 3 is fixedly sleeved at the other end of the linear guide base 1. An adjustment component 4 is provided at the upper end of the linear track plate 21. The adjustment component 4 is used to adjust the width of the machine bottom connecting plate installation position to adapt to compression molding machines of different sizes.

[0026] The adjustment assembly 4 includes a support plate 41. Guide sliding blocks 22 are fixedly installed at both ends of the bottom of the support plate 41. The compression molding machine on the support plate 41 is linearly guided to move within the linear track plate 21 via the guide sliding blocks 22, thereby achieving linear guided movement adjustment of the compression molding machine. Sliding grooves 42 are provided on both sides of the upper end of the support plate 41. A rectangular track opening 412 is provided through the center of the interior of the support plate 41. Moving blocks 45 are slidably fitted inside the sliding grooves 42. A first machine base connecting plate 4 is fixedly installed on the upper end of each moving block 45. 3. The first machine base connecting plate 43 and the second machine base connecting plate 46, and the moving block 45 move inside the sliding groove 42 of the bearing plate 41, thereby driving the first machine base connecting plate 43 and the second machine base connecting plate 46 to move in opposite directions to adjust the width. This allows the first machine base connecting plate 43 and the second machine base connecting plate 46 to be adjusted in width to accommodate different specifications or types of compression molding machines. The first machine base connecting plate 43 and the second machine base connecting plate 46 are both provided with through fixing screw holes 44. The lower end of the first machine base connecting plate 43 and the second machine base connecting plate 46 are both fixedly installed on one side.

[0027] Reference Figures 3 to 4A ring block 411 is fixedly connected to the center of the rectangular track opening 412. A rotating shaft 413 is rotatably connected inside the ring block 411. A micro motor 416 is fixedly installed at one end of the rotating shaft 413. Driven by the micro motor 416, the rotating shaft 413 rotates within the ring block 411. The output shaft of the micro motor 416 is connected to one end of the rotating shaft 413. A fixed base plate 414 is fixedly installed at one end of the micro motor 416. The output shaft of the micro motor 416 passes through the interior of the fixed base plate 414. One end of the fixed base plate 414 is fixedly installed on a support plate. On one side of 41, a rotating rod 415 is fixedly connected to the outer wall of the rotating shaft 413. The two ends of the rotating rod 415 are respectively rotatably sleeved with a second connecting rod 49 and a first connecting rod 410. When the rotating rod 415 rotates through the rotating shaft 413, it further drives the second connecting rod 49 and the first connecting rod 410 to rotate in opposite directions. A rotating guide post 48 is rotatably sleeved at one end of the second connecting rod 49 and the first connecting rod 410. The outer side of the rotating guide post 48 passes through the inside of the rectangular track opening 412. One end of the rotating guide post 48 is fixedly sleeved inside the fixed sleeve 47.

[0028] The workflow of this utility model is as follows:

[0029] First, when the installation width needs to be adjusted according to different specifications or types of compression molding machines, the micro motor 416 is started. Its output shaft drives the rotating shaft 413 to rotate within the ring block 411. The fixed base plate 414 provides stable support for the micro motor 416. As the rotating shaft 413 rotates, the rotating rod 415 fixed to its outer wall rotates synchronously, thereby driving the first connecting rod 410 and the second connecting rod 49 at both ends to rotate in opposite directions. When the connecting rods rotate, they push or pull the rotating guide post 48 connected to them. Since the rotating guide post 48 passes through the rectangular track opening 412, it can only slide linearly along the length of the track opening.

[0030] Secondly, one end of the rotating guide post 48 is fixed in the fixed sleeve 47, which will drive the first machine base connecting plate 43 and the second machine base connecting plate 46 to move synchronously in the sliding groove 42 of the bearing plate 41 through the lower moving block 45, and the two move in opposite directions. The first machine base connecting plate 43 and the second machine base connecting plate 46 can move closer or further away at the same time to realize the adjustment of the installation width. When the width is adjusted to match the compression molding machine, the micro motor 416 stops working. At this time, the compression molding machine is fixed to the two connecting plates with bolts through the fixing screw holes 44 on the first machine base connecting plate 43 and the second machine base connecting plate 46, thus completing the entire adjustment and installation process. Compared with the traditional machine base connecting plate adopting an integral structure with a fixed width, it avoids the inability to flexibly adjust the width of the machine base connecting plate according to the installation requirements of different specifications or types of compression molding machines, and avoids the linear guide equipment being unable to be compatible with the installation and linear movement requirements of various compression molding machines, thereby improving the versatility of the linear guide equipment.

[0031] The remaining structure is the same as that in Example 1.

[0032] The above embodiments are only used to illustrate the technical solutions of this utility model, and are not intended to limit it. Although this utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some of the technical features. Such modifications or substitutions will not cause the essence of the corresponding technical solutions to deviate from the protection scope of the technical solutions of the embodiments of this utility model.

Claims

1. A compressor linear guide device, characterized in that; It includes a linear guide base and a limiting plate. A guide drive motor is fixedly installed at one end of the linear guide base. Linear track plates are fixedly installed on both sides of the upper end of the linear guide base. The limiting plate is fixedly sleeved at the other end of the linear guide base. An adjustment component is provided at the upper end of the linear track plate. The adjustment component includes a support plate, with guide sliding blocks fixedly installed at both ends of the bottom of the support plate, sliding grooves opened at both sides of the upper end of the support plate, and a rectangular track opening penetrating through the center of the inside of the support plate.

2. The compressor linear guide device according to claim 1, characterized in that, The sliding grooves are all fitted with movable blocks. The upper ends of the movable blocks are respectively fixedly installed with a first machine base connecting plate and a second machine base connecting plate. The interiors of the first machine base connecting plate and the second machine base connecting plate are all provided with through screw holes. The lower ends of the first machine base connecting plate and the second machine base connecting plate are all fixedly installed with a fixing sleeve on one side.

3. The compressor linear guide device according to claim 1, characterized in that, A ring block is fixedly connected to the center of the rectangular track opening. A rotating shaft is rotatably connected inside the ring block. A micro motor is fixedly installed at one end of the rotating shaft. The output shaft of the micro motor is connected to one end of the rotating shaft for transmission.

4. The compressor linear guide device according to claim 3, characterized in that, One end of the micro motor is fixedly mounted with a base plate, the output shaft of the micro motor passes through the interior of the base plate, and one end of the base plate is fixedly mounted on one side of the support plate.

5. The compressor linear guide device according to claim 3, characterized in that, A rotating rod is fixedly connected to the outer wall of the rotating shaft. A second connecting rod and a first connecting rod are respectively rotatably sleeved inside both ends of the rotating rod. A rotating guide post is rotatably sleeved inside one end of both the second connecting rod and the first connecting rod.

6. The compressor linear guide device according to claim 5, characterized in that, The outer sides of the rotating guide post all penetrate the interior of the rectangular track opening, and one end of the rotating guide post is fixedly sleeved inside the fixed sleeve.