CN220372911U - Mechano-electric automation equipment - Google Patents

Abstract

The utility model discloses mechanical and electrical automation equipment, which comprises a first mechanical polishing abrasive belt assembly and a second mechanical polishing abrasive belt assembly, wherein the first mechanical polishing abrasive belt assembly and the second mechanical polishing abrasive belt assembly are arranged on a displacement top seat assembly in a threaded manner, the first mechanical polishing abrasive belt assembly and the second mechanical polishing abrasive belt assembly form a polishing abrasive belt structure which moves close to or away from each other synchronously left and right on the displacement top seat assembly, a workpiece is always positioned between the first mechanical polishing abrasive belt assembly and the second mechanical polishing abrasive belt assembly, a polishing belt is wound between a driving belt roller and two driven belt rollers, the driven belt roller is tightly propped against the front end of a U-shaped seat by pushing of a first propping spring, and the first propping spring and the second propping spring are matched, so that the polishing belt can be attached to the surface of the workpiece when the polishing belt contacts the workpiece, and the surface of a curved surface of the workpiece can be polished conveniently by the way.

Description

Mechano-electric automation equipment

Technical Field

The utility model belongs to the technical field of workpiece processing, and particularly relates to mechanical and electrical automation equipment.

Background

A workpiece refers to a processing object in a machining process. It may be a single piece or a combination of several pieces that are secured together. The processing modes of the workpiece are various, and include turning, milling, planing, grinding, casting, forging and the like. The working procedures of the workpiece also change along with the change of the working mode, and the existing workpiece processing is mostly processed by adopting electric automation.

The prior art has the following problems: in order to ensure that the workpiece surface, particularly the plate workpiece surface, needs to be polished and polished when being processed, so as to facilitate the follow-up painting of the paste, but in the electric automation processing process, if the arc-shaped plate or the arc-shaped workpiece surface is encountered, the existing polishing and polishing automation device has high use cost, and on the other hand, the workpiece is easy to be stressed and shifted when being polished, so that equipment or a structure is needed to solve the problem.

Disclosure of Invention

To solve the problems set forth in the background art. The utility model provides mechanical and electrical automation equipment, which has the characteristic of convenient use.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the mechanical and electrical automation equipment comprises a first mechanical polishing abrasive belt assembly and a second mechanical polishing abrasive belt assembly, wherein the first mechanical polishing abrasive belt assembly and the second mechanical polishing abrasive belt assembly are arranged on a displacement top seat assembly in a threaded manner, and the first mechanical polishing abrasive belt assembly and the second mechanical polishing abrasive belt assembly form a polishing abrasive belt structure which moves close to or away from each other in a left-right synchronous manner on the displacement top seat assembly;

the first mechanical abrasive band subassembly of polishing includes L type frame, be provided with internal thread seat piece and support side lever in the L type frame, be provided with direction protruding slide bar on the internal thread seat piece, support side lever tip and be provided with U type seat platform, the front end of U type seat platform top and bottom all is provided with and runs through cross slot and back end platform, be provided with the support slide bar on the back end platform, the rear end at U type seat platform middle part is provided with driving motor, driving motor drive initiative belt roller rotates, the cover is equipped with second tight spring, area Kong Tai and the tight spring of first top on the support slide bar, area Kong Tai tip is provided with the tip brace table, the rotation is provided with driven belt roller on the tip brace table, be provided with the belt of polishing between initiative belt roller and the two driven belt rollers.

Preferably, the displacement footstock assembly comprises a footstock frame, and a bidirectional threaded screw rod, a footstock motor and an installation seat are arranged on the footstock frame.

Preferably, a connection arm plate is fixedly arranged between the strap Kong Tai and the end support table, and the connection arm plate between the strap Kong Tai and the end support table slides back and forth in the transverse through slot.

Preferably, the end supporting table and the strap Kong Tai are connected to the U-shaped seat plate body, two ends of the second tightening spring are respectively abutted to the back end table and the seat table with holes, and two ends of the first tightening spring are respectively abutted to the rear end of the U-shaped seat table and the seat table with holes.

Preferably, the polishing belt is wound between the driving belt roller and the two driven belt rollers, and the driven belt rollers tightly push the front ends of the U-shaped seat platforms through pushing of the first tight pushing springs.

Preferably, the internal thread seat blocks move in a threaded manner on the bidirectional threaded screw rod, and the internal thread seat blocks at two ends of the bidirectional threaded screw rod synchronously approach or synchronously depart on the displacement top seat assembly.

Preferably, the structure of the second mechanical polishing abrasive belt assembly is consistent with that of the first mechanical polishing abrasive belt assembly, and an automatic double-sided polishing structure of the mechanical workpiece is formed between the first mechanical polishing abrasive belt assembly and the second mechanical polishing abrasive belt assembly.

Compared with the prior art, the utility model has the beneficial effects that: when the movable belt type polishing belt is used, the two-way threaded screw rod and the top seat motor are arranged on the top seat frame, the first mechanical polishing belt assembly and the second mechanical polishing belt assembly are arranged on the displacement top seat assembly in a threaded manner, at the moment, the internal threaded seat blocks move on the two-way threaded screw rod in a threaded manner, the internal threaded seat blocks at two ends of the two-way threaded screw rod synchronously approach or synchronously move away on the displacement top seat assembly, in this way, the first mechanical polishing belt assembly and the second mechanical polishing belt assembly form a polishing belt structure which synchronously approaches or moves away left and right on the displacement top seat assembly, in this way, workpieces can be ensured to be always positioned between the first mechanical belt assembly and the second mechanical polishing belt assembly, excessive displacement during workpiece polishing is avoided, so that convenience and stability of polishing are ensured, meanwhile, a driven belt roller is rotatably arranged on the end support table, a polishing belt is wound between the driving belt roller and the two driven belt rollers, in this way, the driven belt roller is tightly props against the front end of the U-shaped seat table through the first pushing spring and the second pushing belt spring, in this way, the workpiece can be contacted with the surface of the workpiece can be polished, and the curved surface can be polished in a contact manner.

Drawings

FIG. 1 is a perspective view of the present utility model;

FIG. 2 is a perspective view of another view of the present utility model;

FIG. 3 is an exploded view of a first mechanical sanding belt assembly of the present utility model;

FIG. 4 is a perspective view of a displacement top seat assembly according to the present utility model;

in the figure: 100. a first mechanical sanding belt assembly; 101. an L-shaped frame; 102. an internally threaded seat block; 103. guiding the convex slide bar; 104. supporting side bars; 105. a first jack spring; 106. a tape Kong Tai; 107. a second jack spring; 108. an end support table; 109. a driven belt roller; 110. a driving motor; 111. supporting a slide bar; 112. a back end table; 113. penetrating through the transverse groove; 114. a driving belt roller; 115. polishing the belt; 116. a U-shaped seat stand; 200. a second mechanical sanding belt assembly; 300. a displacement top seat assembly; 301. a footstock frame; 302. a footstock motor; 303. a bidirectional threaded screw; 304. and a mounting base.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-4, the present utility model provides the following technical solutions: the mechano-electric automation equipment comprises a first mechanical polishing abrasive belt assembly 100 and a second mechanical polishing abrasive belt assembly 200, wherein the first mechanical polishing abrasive belt assembly 100 and the second mechanical polishing abrasive belt assembly 200 are arranged on a displacement top seat assembly 300 in a threaded manner, and the first mechanical polishing abrasive belt assembly 100 and the second mechanical polishing abrasive belt assembly 200 form a polishing abrasive belt structure which moves towards or away from each other synchronously on the displacement top seat assembly 300;

the first mechanical sanding belt assembly 100 comprises an L-shaped frame 101, an internal thread seat block 102 and a supporting side rod 104 are arranged on the L-shaped frame 101, a guiding convex slide bar 103 is arranged on the internal thread seat block 102, a U-shaped seat table 116 is arranged at the end part of the supporting side rod 104, a transverse through groove 113 and a back end table 112 are arranged at the front ends of the top and the bottom of the U-shaped seat table 116, a supporting slide bar 111 is arranged on the back end table 112, a driving motor 110 is arranged at the rear end of the middle part of the U-shaped seat table 116, the driving belt roller 114 is driven to rotate by the driving motor 110, a second jacking spring 107, a seat table 106 with holes and a first jacking spring 105 are sleeved on the supporting slide bar 111, an end supporting table 108 is arranged at the end part of the belt Kong Tai, a driven belt roller 109 is rotatably arranged on the end supporting table 108, a sanding belt 115 is arranged between the driving belt roller 114 and the two driven belt rollers 109, a connecting arm plate is fixedly arranged between the perforated seat table 106 and the end supporting table 108, the connecting arm plate between the perforated seat table 106 and the end supporting table 108 slides back and forth in the transverse groove 113, the end supporting table 108 and the perforated seat table 106 are connected with the U-shaped seat table 116 plate body, two ends of the second jacking spring 107 respectively prop against the back end table 112 and the perforated seat table 106, two ends of the first jacking spring 105 respectively prop against the back end of the U-shaped seat table 116 and the perforated seat table 106, a polishing belt 115 is wound between the driving belt roller 114 and the two driven belt rollers 109, the driven belt rollers 109 prop against the front end of the U-shaped seat table 116 through pushing of the first jacking spring 105, the internal thread seat blocks 102 move on the bidirectional thread screw 303 in a threaded manner, and the internal thread seat blocks 102 at two ends of the bidirectional thread screw 303 synchronously approach or synchronously separate on the displacement top seat assembly 300;

the displacement footstock assembly 300 comprises a footstock machine frame 301, a bidirectional threaded screw 303, a footstock motor 302 and a mounting seat 304 are arranged on the footstock machine frame 301, the structure of the second mechanical polishing abrasive belt assembly 200 is identical to that of the first mechanical polishing abrasive belt assembly 100, and an automatic double-sided polishing structure of mechanical workpieces is formed between the first mechanical polishing abrasive belt assembly 100 and the second mechanical polishing abrasive belt assembly 200.

The working principle and the using flow of the utility model are as follows: when the belt sander is used, the bidirectional threaded screw 303 and the footstock motor 302 are arranged on the footstock rack 301, the first mechanical sanding belt assembly 100 and the second mechanical sanding belt assembly 200 are arranged on the displacement footstock assembly 300 in a threaded manner, at the moment, the internal threaded seat blocks 102 move on the bidirectional threaded screw 303 in a threaded manner, the internal threaded seat blocks 102 at two ends of the bidirectional threaded screw 303 synchronously approach or synchronously move away on the displacement footstock assembly 300, in this way, the first mechanical sanding belt assembly 100 and the second mechanical sanding belt assembly 200 form a sanding belt polishing structure which synchronously approaches or moves away left and right on the displacement footstock assembly 300, in this way, workpieces can be always positioned between the first mechanical sanding belt assembly 100 and the second mechanical sanding belt assembly 200, excessive displacement during workpiece sanding and polishing is avoided, so that convenience and stability of the workpiece sanding and polishing are ensured, meanwhile, the end supporting table 108 is rotatably provided with the driven belt roller 109, the sanding belt 115 is wound between the driving belt roller 114 and the two driven belt rollers 109, the first clamping belt 105 is in contact with the front end of the driven belt roller 116 and the second clamping spring 116, and the clamping surface of the workpiece is in a clamping manner of the clamping spring 107 is realized, and the clamping surface of the workpiece is contacted with the first clamping belt 105 and the clamping surface of the second clamping belt 115 is in a clamping manner.

Although embodiments of the present utility model 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 therein without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. Mechano-electric automation device comprising a first mechanical sanding belt assembly (100) and a second mechanical sanding belt assembly (200), characterized in that: the first mechanical polishing abrasive belt assembly (100) and the second mechanical polishing abrasive belt assembly (200) are arranged on the displacement top seat assembly (300) in a threaded manner, and the first mechanical polishing abrasive belt assembly (100) and the second mechanical polishing abrasive belt assembly (200) form a polishing abrasive belt structure which moves close to or away from each other synchronously on the displacement top seat assembly (300);

the first mechanical sanding belt assembly (100) comprises an L-shaped frame (101), an internal thread seat block (102) and a supporting side rod (104) are arranged on the L-shaped frame (101), a guide convex sliding rod (103) is arranged on the internal thread seat block (102), a U-shaped seat table (116) is arranged at the end of the supporting side rod (104), transverse grooves (113) and a back end table (112) are formed in the front ends of the top and the bottom of the U-shaped seat table (116), a supporting sliding rod (111) is arranged on the back end table (112), a driving motor (110) is arranged at the rear end of the middle of the U-shaped seat table (116), a driving belt roller (114) is driven to rotate by the driving motor (110), a second jacking spring (107), a belt Kong Tai (106) and a first jacking spring (105) are sleeved on the supporting sliding rod (111), an end supporting table (108) is arranged at the end of the belt Kong Tai, a driven belt roller (109) is arranged on the end supporting table (108), and a driving belt roller (109) is arranged between the driving belt roller and the driven roller (109).

2. A mechano-electric automation device according to claim 1, characterized in that: the displacement footstock assembly (300) comprises a footstock machine frame (301), and a bidirectional threaded screw (303), a footstock motor (302) and an installation seat table (304) are arranged on the footstock machine frame (301).

3. A mechano-electric automation device according to claim 1, characterized in that: a connecting arm plate is fixedly arranged between the belt Kong Tai (106) and the end supporting table (108), and the connecting arm plate between the belt Kong Tai (106) and the end supporting table (108) slides back and forth in the transverse through groove (113).

4. A mechano-electric automation device according to claim 1, characterized in that: the end supporting table (108) and the belt Kong Tai (106) are connected with each other on the plate body of the U-shaped seat table (116), two ends of the second jacking spring (107) are respectively abutted against the back end table (112) and the belt Kong Tai (106), and two ends of the first jacking spring (105) are respectively abutted against the rear end of the U-shaped seat table (116) and the belt Kong Tai (106).

5. A mechano-electric automation device according to claim 1, characterized in that: the polishing belt (115) is wound between the driving belt roller (114) and the two driven belt rollers (109), and the driven belt rollers (109) are tightly propped against the front end of the U-shaped seat table (116) through pushing of the first propping springs (105).

6. A mechano-electric automation device according to claim 2, characterized in that: the internal thread seat blocks (102) move in a threaded mode on the bidirectional thread screw rod (303), and the internal thread seat blocks (102) at two ends of the bidirectional thread screw rod (303) synchronously move close to or synchronously move away from each other on the displacement top seat assembly (300).

7. A mechano-electric automation device according to claim 1, characterized in that: the structure of the second mechanical polishing abrasive belt assembly (200) is consistent with that of the first mechanical polishing abrasive belt assembly (100), and an automatic double-sided polishing structure of a mechanical workpiece is formed between the first mechanical polishing abrasive belt assembly (100) and the second mechanical polishing abrasive belt assembly (200).