CN216759357U - Sand blasting machine motion assembly for simultaneously polishing left surface and right surface - Google Patents

Abstract

The utility model discloses a sanding machine motion assembly for simultaneously sanding the left side and the right side, relates to the technical field of cutter sanding machines, and solves the problem of low efficiency of single-side sanding during cutter sanding in the existing cutter manufacturing industry. The efficiency of cutter is polished is improved. Including the right abrasive band wheel and the left abrasive band wheel of being connected with the sanding machine rotation, right wheel abrasive band wheel and the left abrasive band wheel all are provided with two sets ofly, and be the vertical setting of bilateral symmetry, right abrasive band wheel is connected with the abrasive band with the equal transmission of the surface of the abrasive band wheel on the left, synchronous sanding machine motion subassembly about this, through being provided with tensioning adjusting part, consequently when polishing the tool shank, remove the subassembly through the setting and drive two sets of abrasive bands and be close to the removal simultaneously, the cooperation through tensioning adjusting part is adjusted and is made the rate of tension unanimous of two sets of abrasive bands this moment, and contact with the handle of a knife, realize the technology that the handle of a knife two sides was polished simultaneously, promote the handle of a knife efficiency of polishing.

Description

Sand blasting machine motion assembly for simultaneously polishing left surface and right surface

Technical Field

The utility model relates to the technical field of a cutter grinding and sanding machine, in particular to a sanding machine movement assembly for simultaneously grinding the left surface and the right surface.

Background

The cutter is generally composed of a cutter handle and a cutter body, and the cutter handle is made of various materials, such as rubber, iron, wood and the like.

At present, in the tool industry, most of tool shank materials are plastic materials or wood materials, before polishing, the surfaces of the tool shanks are rough, the tool shanks are different in shapes, the surfaces of the tool shanks need to be polished smoothly in the industry, and for the tool shanks with two planar sides, single-side manual polishing or single-side polishing is performed by using a special grinding machine in the industry at present, so that in order to improve polishing efficiency of the tool shanks, the utility model provides a technology for simultaneously polishing the left side and the right side, a tool is placed on a bracket between two abrasive belts in the polishing process, the device drives the abrasive belts on the left side and the right side to simultaneously polish the planes on the left side and the right side of the tool shanks, and polishing efficiency is improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a motion component of a sanding machine, which is convenient for adjusting the tension degree of an abrasive belt in the process of moving the abrasive belt and simultaneously polishes the left surface and the right surface, so as to solve the problems in the background technology.

In order to achieve the purpose, the utility model provides the following technical scheme: a sanding machine motion component capable of simultaneously sanding on the left and right sides comprises a right abrasive belt wheel and a left abrasive belt wheel, a tensioning adjusting component, a driving component and a moving component which are rotationally connected with a sanding machine, wherein the right abrasive belt wheel and the left abrasive belt wheel are respectively provided with two groups which are symmetrically and vertically arranged, abrasive belts are respectively connected on the outer surfaces of the right abrasive belt wheel and the left abrasive belt wheel in a transmission manner, the tensioning adjusting component is installed on the sanding machine, the tensioning adjusting component is provided with two groups which are symmetrically distributed, the two groups of tensioning adjusting components are respectively rotationally connected with a left tensioning wheel and a right tensioning wheel, the left tensioning wheel and the right tensioning wheel are respectively connected with the abrasive belts in a transmission manner, the driving component for driving the abrasive belts to rotate is installed on the sanding machine and is connected with the abrasive belts, and the moving component for driving the two groups of abrasive belts to simultaneously move is installed on the sanding machine, and is connected with the abrasive belt, so that the tension of the abrasive belt can be conveniently adjusted in the moving process of the abrasive belt.

Preferably, the tensioning adjusting assembly comprises a fixing block fixedly connected with the sanding machine, an inner sliding rod is fixedly connected to the fixing block, an abrasive belt tensioning cylinder is slidably connected to the inner sliding rod, and the two groups of abrasive belt tensioning cylinders are respectively rotatably connected with the left tensioning wheel and the right tensioning wheel.

Preferably, the driving assembly comprises two groups of fixing plates fixedly connected with the sanding machine, a first motor is fixedly connected to the fixing plates, an abrasive belt driving wheel is fixedly connected to an output end of the first motor, and the two groups of abrasive belt driving wheels are respectively in transmission connection with the two groups of abrasive belts, so that the abrasive belts can be driven to rotate conveniently.

Preferably, the movable assembly comprises a fixed sleeve fixedly connected with the sanding machine, a linear slide rail is fixedly connected in the fixed sleeve, a linear slide block is slidably connected on the linear slide rail, a movable plate is fixedly connected on the linear slide block, a connecting block is fixedly connected on the movable plate, one end of the connecting block is fixedly connected with a pushing block arranged in contact with the abrasive belt, a power part is connected on the movable plate, the movable pushing block is convenient to move, and then the two groups of abrasive belts are pushed to move.

Preferably, the power part comprises a second motor fixedly connected with the sanding machine, the output end of the second motor is fixedly connected with a ball screw, and a thread block fixedly connected with the movable plate is connected to the ball screw in a threaded manner and provides power for the movement of the pushing block.

Preferably, one end of the ball screw is rotatably connected with a bearing seat fixedly connected with the fixed sleeve, and a bearing fixedly connected with the ball screw is installed in the bearing seat, so that the stability of the ball screw during rotation is improved.

Preferably, the material of the pushing block is die steel subjected to heat treatment hardening, so that the service life of the pushing block is prolonged.

Compared with the prior art, the utility model has the beneficial effects that:

according to the utility model, the tensioning adjusting component is arranged, so that when the tool holder is polished, the two groups of abrasive belts are driven to simultaneously move close to each other through the arranged moving component, and the tensioning degrees of the two groups of abrasive belts are consistent through the matching adjustment of the tensioning adjusting component and are in contact with the tool holder, so that the left surface and the right surface are polished simultaneously.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure of area A in FIG. 1 according to the present invention;

FIG. 3 is a schematic view of the structure of region B in FIG. 1 according to the present invention;

FIG. 4 is a schematic view of the structure of region C of FIG. 1 according to the present invention;

FIG. 5 is a schematic view of the structure of region D in FIG. 1 according to the present invention;

FIG. 6 is a schematic view of the structure of region E in FIG. 1 according to the present invention.

In the figure: 1-right abrasive belt wheel; 2-left abrasive belt wheel; 3, sanding belt; 4-a tension adjustment assembly; 5-left tensioning wheel; 6-right tension wheel; 7-a drive assembly; 8-a moving assembly; 9-fixing block; 10-an inner slide bar; 11-belt tensioning cylinder; 12-a fixing plate; 13-a first motor; 14-belt drive wheels; 15-fixing the sleeve; 16-a linear slide rail; 17-linear slide block; 18-a movable plate; 19-connecting block; 20-a pushing block; 21-a power member; 22-a second motor; 23-a ball screw; 24-a thread block; 25-bearing seat.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

Referring to fig. 1 and 2 for describing embodiment 1, a left and right synchronous sander moving assembly is shown, which comprises a right abrasive belt wheel 1 and a left abrasive belt wheel 2 rotationally connected with a sander, a tensioning adjusting assembly 4, a driving assembly 7 and a moving assembly 8, wherein the right abrasive belt wheel 1 and the left abrasive belt wheel 2 are symmetrically and vertically arranged in two sets, the outer surfaces of the right abrasive belt wheel 1 and the left abrasive belt wheel 2 are both in transmission connection with an abrasive belt 3, the tensioning adjusting assembly 4 is installed on the sander, the tensioning adjusting assembly 4 is provided with two sets which are symmetrically distributed, the two sets of tensioning adjusting assemblies 4 are respectively in rotational connection with a left tensioning wheel 5 and a right tensioning wheel 6, the left tensioning wheel 5 and the right tensioning wheel 6 are in transmission connection with the abrasive belt 3, the driving assembly 7 for driving the abrasive belt 3 to rotate is installed on the sander and connected with the abrasive belt 3, the moving assembly 8 for driving the two sets of abrasive belts 3 to move simultaneously is installed on the sander, and is connected with the abrasive belt 3;

referring to fig. 1 and 2, the tensioning adjustment assembly 4 in the drawings includes a fixed block 9 fixedly connected to the sanding machine, an inner slide rod 10 is fixedly connected to the fixed block 9, an abrasive belt tensioning cylinder 11 is slidably connected to the inner slide rod 10, and the two groups of abrasive belt tensioning cylinders 11 are rotatably connected to a left tensioning wheel 5 and a right tensioning wheel 6 respectively;

referring to fig. 1 and 3, the driving assembly 7 shown in the figure includes two fixing plates 12 fixedly connected to the sander, a first motor 13 is fixedly connected to the fixing plates 12, an output end of the first motor 13 is fixedly connected to a sanding belt driving wheel 14, and the two sanding belt driving wheels 14 are respectively in transmission connection with the two sanding belts 3;

referring to fig. 4-6, the illustrated moving assembly 8 includes a fixed sleeve 15 fixedly connected to the sanding machine, a linear slide rail 16 is fixedly connected to the inside of the fixed sleeve 15, a linear slide block 17 is slidably connected to the linear slide rail 16, a movable plate 18 is fixedly connected to the linear slide block 17, a connecting block 19 is fixedly connected to the movable plate 18, a pushing block 20 is fixedly connected to one end of the connecting block 19, and a power member 21 is connected to the movable plate 18;

in the embodiment, when the tool is polished, the linear slide block 17 is driven to move by the arranged power assembly, so as to drive the movable plate 18 to move, so as to drive the connecting block 19 to move, so as to drive the pushing block 20 to move, so that two groups of abrasive belts 3 are pushed to approach each other by the moving pushing block 20, so that the abrasive belts 3 contact the tool, in the moving process of the abrasive belts 3, the abrasive belt tensioning cylinder 11 descends, so as to enable the abrasive belts 3 to be always in a tightened state by matching with the pushing block 20, and at this time, the first motor 13 is started, so that the first motor 13 drives the abrasive belt driving wheel 14 to rotate, so as to drive the abrasive belts 3 to rotate, so as to polish the tool shank;

in this embodiment, the model Y80M1-2 is preferred for the first motor 13, the power supply interface of the first motor 13 is connected to the power supply system through a switch, the operation circuit of the first motor 13 is a normal and reverse rotation control program of a conventional motor, the operation circuit is a conventional circuit, the circuits and the control related to this scheme are the prior art, and redundant description is not repeated here.

Example 2

Referring to fig. 1 and fig. 6 for describing embodiment 2, the embodiment further describes embodiment 1, in which the power member 21 includes a second motor 22 fixedly connected to the sanding machine, a ball screw 23 is fixedly connected to an output end of the second motor 22, and a screw block 24 fixedly connected to the movable plate 18 is threadedly connected to the ball screw 23;

in this embodiment, by starting the second motor 22, the second motor 22 will drive the ball screw 23 to rotate, and further drive the screw block 24 to move, and further drive the movable plate 18 to move;

in this embodiment, the model Y80M1-2 is preferred for the second motor 22, the power supply interface of the second motor 22 is connected to the power supply system through a switch, the operating circuit of the second motor 22 is a normal and reverse rotation control program of a conventional motor, the circuit operates as a conventional circuit, the circuits and the control related to the scheme are the prior art, and redundant description is not repeated herein.

Example 3

Referring to fig. 1 and fig. 6 for describing embodiment 3, the embodiment further describes embodiment 1, in which one end of the ball screw 23 is rotatably connected to a bearing seat 25 fixedly connected to the fixed sleeve 15, a bearing fixedly connected to the ball screw 23 is installed in the bearing seat 25, and the pushing block 20 is made of heat-treated hardened die steel;

in this embodiment, since one end of the ball screw 23 is rotatably connected to the bearing seat 25 fixedly connected to the fixing sleeve 15, and the bearing seat 25 is internally installed with a bearing fixedly connected to the ball screw 23, the rotational stability of the ball screw 23 is improved, and the material of the pushing block 20 is heat-treated hardened mold steel, so that the service life of the pushing block is further prolonged.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments 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. The utility model provides a sand blasting machine motion subassembly that two sides were polished simultaneously about, which characterized in that includes:

the sanding machine comprises a right abrasive belt wheel (1) and a left abrasive belt wheel (2) which are rotationally connected with the sanding machine, wherein the right abrasive belt wheel (1) and the left abrasive belt wheel (2) are respectively provided with two groups which are symmetrically and vertically arranged, and the outer surfaces of the right abrasive belt wheel (1) and the left abrasive belt wheel (2) are respectively connected with an abrasive belt (3) in a transmission way;

further comprising:

the tensioning adjusting assemblies (4) are mounted on the sanding machine, two groups of tensioning adjusting assemblies (4) are symmetrically distributed, the two groups of tensioning adjusting assemblies (4) are respectively and rotatably connected with a left tensioning wheel (5) and a right tensioning wheel (6), and the left tensioning wheel (5) and the right tensioning wheel (6) are in transmission connection with the abrasive belt (3);

the driving component (7) is used for driving the driving component (7) of the abrasive belt (3) to rotate to be installed on the sanding machine and connected with the abrasive belt (3);

and the moving assembly (8) is used for pushing the two groups of abrasive belts (3) to move simultaneously, and the moving assembly (8) is arranged on the sanding machine and is connected with the abrasive belts (3).

2. The sander moving assembly for simultaneous left and right face sanding according to claim 1, wherein: tensioning adjusting part (4) include with sanding machine fixed connection's fixed block (9), slide bar (10) in the fixedly connected with on fixed block (9), sliding connection has abrasive band tensioning cylinder (11) on interior slide bar (10), two sets of abrasive band tensioning cylinder (11) respectively with take-up pulley (5) on the left side with take-up pulley (6) on the right rotate and connect.

3. The sander moving assembly for simultaneous sanding of both left and right sides according to claim 1, wherein: the drive assembly (7) comprises two groups of fixing plates (12) fixedly connected with the sanding machine, a first motor (13) is fixedly connected onto the fixing plates (12), an abrasive belt drive wheel (14) is fixedly connected to the output end of the first motor (13), and the two groups of abrasive belt drive wheels (14) are respectively in transmission connection with the two groups of abrasive belts (3).

4. The sander moving assembly for simultaneous sanding of both left and right sides according to claim 1, wherein: remove subassembly (8) including with fixed cover (15) of sanding machine fixed connection, fixed connection has linear slide rail (16) in fixed cover (15), sliding connection has sharp slider (17) on linear slide rail (16), fixedly connected with fly leaf (18) on sharp slider (17), fixedly connected with connecting block (19) on fly leaf (18), the one end fixedly connected with of connecting block (19) with promotion piece (20) that abrasive band (3) contact set up, be connected with power spare (21) on fly leaf (18).

5. The sander moving assembly for simultaneous left and right face sanding according to claim 4, wherein: the power part (21) comprises a second motor (22) fixedly connected with the sanding machine, a ball screw (23) is fixedly connected with the output end of the second motor (22), and a thread block (24) fixedly connected with the movable plate (18) is connected to the ball screw (23) in a threaded mode.

6. A sander moving assembly for simultaneous sanding of both left and right sides according to claim 5, wherein: one end of the ball screw (23) is rotatably connected with a bearing seat (25) fixedly connected with the fixed sleeve (15), and a bearing fixedly connected with the ball screw (23) is installed in the bearing seat (25).

7. The sander moving assembly for simultaneous left and right face sanding according to claim 4, wherein: the pushing block (20) is made of heat treatment hardened die steel.

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