CN114536251B

CN114536251B - Fixing tool for manufacturing electromechanical electric equipment and fixing method thereof

Info

Publication number: CN114536251B
Application number: CN202210326410.XA
Authority: CN
Inventors: 张江锋; 强沛沛; 林平
Original assignee: Chizhou Vocational and Technical College
Current assignee: Chizhou Vocational and Technical College
Priority date: 2022-03-30
Filing date: 2022-03-30
Publication date: 2023-10-27
Anticipated expiration: 2042-03-30
Also published as: CN114536251A

Abstract

The invention discloses a fixing tool for manufacturing electromechanical electric equipment and a fixing method thereof, and relates to the technical field of machining of electromechanical equipment. The multifunctional tool comprises a mounting frame and functional tool mechanisms connected to the front end and the rear end of the mounting frame; the functional tool mechanism comprises a movable assembly and a tool frame connected to the front end surface of the inner side of the movable assembly; the movable assembly comprises two groups of guide rails connected to the front end and the rear end of the mounting frame, guide blocks connected in the guide rails in a sliding manner, an electric push rod penetrating through the middle of the bottom end of the guide rails and connected with the bottom surface of the guide blocks, and a synchronous motor penetrating through the middle of the front end surface of the guide blocks; the modularized using mechanism is connected to the two sides of the tool frame and in the front middle cavity and the rear middle cavity. According to the invention, the function tool mechanism and the modularized using mechanism are arranged, so that the tool frame integrates the functions of automatic feeding, blanking and workpiece positioning, the functionality of the device is improved, and the modularized design is adopted for a single tool frame, so that the device is suitable for processing workpieces with specifications, is easy to use and meets the requirements.

Description

Fixing tool for manufacturing electromechanical electric equipment and fixing method thereof

Technical Field

The invention belongs to the technical field of electromechanical equipment processing, and particularly relates to a fixing tool and a fixing method for manufacturing electromechanical electrical equipment.

Background

Electromechanical devices generally refer to mechanical, electrical and electrical automation devices, and in construction, are commonly referred to as mechanical and plumbing devices other than geotechnical, woodworking, rebar, and mud. It is different from the five metals, and the finished product of certain function can be realized to the multi-finger, and fixed frock belongs to electromechanical device processing apparatus.

Through retrieving, chinese patent number CN214445761U is authorized to open 2021.10.22, authorizes and discloses an electromechanical location frock for electromechanical maintenance, including tool table, locating rack, slide rail, slider and accommodate the lead screw, the top of tool table is equipped with the locating rack, the bottom fixed connection slider of locating rack, adopt the slider to connect between tool table and the locating rack, the outside fixed connection rolling disc of locating rack, the outside fixed connection accommodate the lead screw of rolling disc, the top of tool table is equipped with the fixed plate. This electromechanical location frock is used in electromechanical maintenance is equipped with special locating rack through the top at the tool table, better solution traditional electromechanical location frock is inconvenient carry out the problem of removing the adjustment once more to electromechanical device after pressing from both sides tightly, when need carry out the adjustment of position, only need rotate adjusting screw anticlockwise on one side clockwise rotation adjusting screw, keeps the rotational speed unanimous simultaneously, so can realize the purpose that electromechanical device moved about on the tool table, overall structure is simple, the practicality is stronger during the use.

However, the following drawbacks still exist in practical use:

1. the existing fixed tool still needs to manually carry out loading and unloading operations of processing workpieces, has high labor intensity, or adopts a lifting loading and unloading structure, but also needs to manually take and place the lifted workpieces on the fixed tool, has complicated steps and is inconvenient to use;

2. the existing fixed tool is used for fixing a single-shape workpiece, the applicability is not enough, the requirement is not met, meanwhile, the fixed tool is continuously replaced back and forth, time is consumed, and the efficiency is reduced.

Therefore, the existing fixing tool and fixing method for manufacturing the electromechanical electric equipment cannot meet the requirement in practical use, so that an improved technology is urgently needed in the market to solve the above problems.

Disclosure of Invention

The invention aims to provide a fixing tool for manufacturing electromechanical electric equipment and a fixing method thereof, and solves the problems that the existing fixing tool still needs to manually carry out loading and unloading operations of processing workpieces, has high labor intensity, or adopts a lifting loading and unloading structure, but also needs to manually take and place the lifted workpieces on the fixing tool, has complicated steps, is inconvenient to use, and meanwhile, the fixing treatment of single-shape workpieces has insufficient applicability, meets the requirements, and simultaneously, the fixing tool is continuously replaced back and forth, so that the time is consumed and the efficiency is reduced.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a fixing tool for manufacturing electromechanical electric equipment, which comprises a mounting frame and functional tool mechanisms connected to the front end and the rear end of the mounting frame;

the functional tool mechanism comprises a movable assembly and a tool frame connected to the front end face of the inner side of the movable assembly;

the movable assembly comprises two groups of guide rails connected to the front end and the rear end of the mounting frame, guide blocks connected in the guide rails in a sliding manner, an electric push rod penetrating through the middle of the bottom end of the guide rails and connected with the bottom surface of the guide blocks, and a synchronous motor penetrating through the middle of the front end surface of the guide blocks;

the fixture comprises a fixture frame, and is characterized by further comprising modularized using mechanisms connected to two sides of the fixture frame and in the front and rear middle cavities.

Further, the modularized using mechanism comprises two groups of damping blocks which are symmetrical in front-back direction, an arc-shaped frame connected to the middle part of the outer end surface of the damping blocks and an irregular lug plate connected to the middle part of the inner end surface of the damping blocks;

the cavities at two sides of the tool frame are connected with the structures with the same size;

specific: the arc-shaped frame and the irregular lug plate are supported by the damping block, the arc-shaped frame supports the outer semicircular structure, the damping block is suitable for positioning and fixing round workpieces, and the irregular lug plate positions the workpieces with irregular shapes.

Further, the tool rack and the mounting rack are connected with an auxiliary positioning mechanism;

the auxiliary positioning mechanism comprises two groups of magnetic poles connected to the outer side of the upper end face of the tool frame and two groups of annular pipes connected to the front and rear of the upper end face of the mounting frame, and the annular pipes are internally provided with magnetic poles with opposite magnetism;

specific: the installation and fixation of the tool frame structure are carried out by the magnetic attraction between the magnetic opposite poles and the friction between the poles and the inner side wall of the annular pipe.

Further, the central positions of the lower parts of the two side surfaces of the mounting frame are connected with a multi-size fixing mechanism;

the multi-size fixing mechanism comprises a group of force application components which are bilaterally symmetrical and a moving component which is connected to the middle part of the bottom end surface of the force application component;

specific: the force application component can apply lifting force to the moving component to move the device, and the mounting frame and the upper end surface of the outer bearing structure have different specifications of mounting heights through the bottom end surface structure of the force application component.

Further, the force application assembly comprises a group of sliding rails, sliding blocks which are connected in the sliding rails in a sliding manner, an air cylinder which penetrates through the middle of the upper front end of the sliding rails and is connected with the upper end face of the sliding blocks, and a limiting frame which is connected with the middle of the lower end of the front surface of the sliding blocks;

a limiting block is connected in a damping manner in the limiting groove with equidistant bottom end surfaces of the limiting frames;

specific: the limiting grooves are used for bearing a group of limiting blocks, different connecting and fixing of the installation frame and the outer bearing structure are carried out through different spaces between the limiting blocks, pushing force is applied to the sliding blocks by the air cylinders, and the limiting blocks or the position adjustment of the moving assembly is carried out.

Further, the moving assembly comprises two groups of shaft seats which are symmetrical in front-back, a shaft rod sleeved on the inner side of the shaft seats and a plurality of moving wheels connected to the shaft rod;

specific: the shaft rod connected with the moving wheel is received by the shaft seat, and the mounting frame can be moved at a designated position through rolling between the moving wheel and the outer structure.

Further, the middle parts of the side surfaces of the two inner sides of the mounting frame are connected with a material placing mechanism;

the material placing mechanism comprises two groups of fixing blocks which are bilaterally symmetrical, a group of U-shaped frames connected to the inner sides of the fixing blocks and a plurality of material placing plates connected to the inner side surfaces of the U-shaped frames at equal intervals;

specific: the U-shaped frames are supported by the fixing blocks and used for supporting the plurality of material placing plates so as to place the workpieces to be processed or the processed workpieces through the upper end surfaces of the material placing plates.

The fixing method for the fixing tool for manufacturing the electromechanical electric equipment comprises the following specific fixing steps:

s1: under the outer control end, a cylinder applies downward moving force to the limiting frame, and pushing force is applied through contact between the moving wheel and an outer structure to move the designated position of the device;

s2: the mounting frame is arranged on the upper end surface of the outer bearing structure, a limiting block is arranged in a proper limiting groove on the bottom end surface of the limiting frame, and the inner side of a group of limiting blocks is connected with the outer bearing structure in a clamping way to mount and fix the mounting frame structure;

s3: taking materials from a workpiece to be processed placed on a material placing plate at one side, and placing the workpiece on the inner side of a tool rack for positioning and fixing;

s4: under the external control end, the electric push rod at the front end applies an upward moving force to the guide block, after the guide block is lifted to a proper position, the tool frame is overturned by the synchronous motor, and under the auxiliary positioning mechanism, the tool frame is installed and fixed, and then the workpiece is processed by external processing equipment

S5: after the front end performs workpiece processing and material taking, the tool frame at the rear end repeats the same steps, uninterrupted continuous processing is performed on the workpiece, and the processed workpiece is placed on a material placing plate at the other side.

Further, the fixing method for the fixing tool for manufacturing the electromechanical electric equipment is applied to the fixing tool for manufacturing the electromechanical electric equipment.

The invention has the following beneficial effects:

1. according to the invention, by arranging the functional tool mechanism, the tool frame integrates the functions of automatic feeding and discharging and workpiece positioning, so that the manual operation intensity is reduced, the operation efficiency is improved, the use is easy, and the requirements are met.

2. According to the invention, the modularized using mechanism is arranged, so that the modularized fixture frame is modularized, and the modularized fixture frame is applicable to positioning and fixing round, rectangular and irregularly-shaped workpieces, and the applicability of the modularized fixture frame is enhanced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed for the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a top view of the present invention;

FIG. 2 is a bottom view of the present invention;

FIG. 3 is a bottom view of the functional tooling mechanism of the present invention;

FIG. 4 is a side view of the multi-size securing mechanism of the present invention;

FIG. 5 is a bottom view of the multi-size securing mechanism of the present invention;

fig. 6 is a side view of the loading mechanism of the present invention.

In the drawings, the list of components represented by the various numbers is as follows:

100. a mounting frame; 200. a functional tooling mechanism; 210. a movable assembly; 211. a guide rail; 212. a guide block; 213. an electric push rod; 214. a synchronous motor; 220. a tool rack; 300. a modular use mechanism; 310. a damping block; 320. an arc-shaped frame; 330. an irregular bump plate; 400. an auxiliary positioning mechanism; 410. a magnetic pole; 420. a grommet; 500. a multi-size fixing mechanism; 510. a force application assembly; 511. a slide rail; 512. a slide block; 513. a limiting frame; 514. a cylinder; 520. a moving assembly; 521. a shaft seat; 522. a shaft lever; 523. a moving wheel; 600. a material placing mechanism; 610. a fixed block; 620. a U-shaped frame; 630. and a material placing plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Example 1

Referring to fig. 1 and 3, the present embodiment is a fixture for manufacturing an electromechanical device, which includes a mounting frame 100 and a functional fixture mechanism 200 connected to front and rear ends of the mounting frame 100;

the functional tooling mechanism 200 comprises a movable assembly 210 and a tooling frame 220 connected to the front end surface of the inner side of the movable assembly 210;

the movable assembly 210 comprises two groups of guide rails 211 connected to the front end and the rear end of the mounting frame 100, a guide block 212 slidably connected in the guide rails 211, an electric push rod 213 penetrating through the middle of the bottom end of the guide rail 211 and connected with the bottom surface of the guide block 212, and a synchronous motor 214 penetrating through the middle of the front end surface of the guide block 212;

the functional tooling mechanism 200 is used, under the external control end, the electric push rod 213 applies downward moving force to the tooling frame 220, under the sliding of the guide block 212 and the guide rail 211, the tooling frame 220 moves downward to a proper position, at this time, the workpiece to be processed is placed in the tooling frame 220, the modularized using mechanism 300 is adopted to fix the position of the workpiece to be processed, then the electric push rod 213 applies the reverse step, after the electric push rod 213 is lifted to a proper position, the synchronous motor 214 turns over the tooling frame 220, after the auxiliary positioning mechanism 400 stabilizes the tooling frame 220, the workpiece is processed by external processing equipment, and when the tooling frame 220 is used, the workpiece is placed in another tooling frame 220, and after the workpiece is processed, the replacement of the other tooling frame 220 is realized.

Example 2

As shown in fig. 2, the modularized using mechanism 300 comprises two groups of damping blocks 310 which are symmetrical in front-back direction, an arc-shaped frame 320 connected to the middle part of the outer end surface of the damping block 310 and an irregular lug plate 330 connected to the middle part of the inner end surface of the damping block 310;

the cavities at two sides of the tool rack 220 are connected with the structures with the corresponding sizes;

after the work piece to be processed is placed in the tool frame 220, the arc frame 320 or the irregular bump plate 330 is selected according to the requirement, so as to fix the round or irregular work piece in the tool frame 220.

Example 3

As shown in fig. 4-5, the lower center of the two sides of the mounting frame 100 is connected with a multi-size fixing mechanism 500;

the multi-size fixing mechanism 500 comprises a group of force application components 510 which are bilaterally symmetrical and a moving component 520 which is connected to the middle part of the bottom end surface of the force application components 510;

the force application assembly 510 comprises a group of slide rails 511, a slide block 512 which is connected in the slide rails 511 in a sliding way, an air cylinder 514 which penetrates through the middle part of the upper front end of the slide rails 511 and is connected with the upper end face of the slide block 512, and a limiting frame 513 which is connected with the middle part of the lower end of the front surface of the slide block 512;

a limiting block is connected in a damping way in a limiting groove with equidistant bottom end surfaces of the limiting frame 513;

the moving assembly 520 comprises two groups of shaft seats 521 which are symmetrical in front-back direction, a shaft lever 522 sleeved on the inner side of the shaft seats 521 and a plurality of moving wheels 523 connected to the shaft lever 522;

when the inner space of the mounting frame 100 does not meet the connection requirement with the outer bearing structure, the outer control end controls the air cylinder 514, the air cylinder 514 applies downward force to the limiting frame 513 and connects a group of limiting blocks in a proper limiting groove on the bottom end surface of the limiting frame 513, and at the moment, the inner side of the group of limiting blocks is clamped on the outer bearing structure;

meanwhile, when the mounting frame 100 needs to be moved, the inner sides of the shaft seats 521 at two sides of the limiting block can be connected with the shaft lever 522, and the shaft lever 522 is sleeved with the moving wheel 523, at this time, the designated position of the mounting frame 100 can be moved under the action of pushing force.

s1: under the outer control end, a cylinder 514 applies downward force to the limiting frame 513, and the moving wheel 523 is contacted with an outer structure to apply pushing force to move the designated position of the device;

s2: the mounting frame 100 is arranged on the upper end surface of the outer bearing structure, a limiting block is arranged in a proper limiting groove on the bottom end surface of the limiting frame 513, and the inner side of a group of limiting blocks is connected with the outer bearing structure in a clamping way to mount and fix the structure of the mounting frame 100;

s3: taking materials from the workpiece to be processed placed on the material placing plate 630 at one side, and placing the workpiece on the inner side of the tool rack 220 for positioning and fixing;

s4: under the external control end, the electric push rod 213 at the front end applies upward force to the guide block 212, after the guide block is lifted to a proper position, the synchronous motor 214 turns over the tool frame 220, and under the auxiliary positioning mechanism 400, the tool frame 220 is installed and fixed, and then the workpiece is processed by external processing equipment

S5: after the front end performs workpiece processing and material taking, the tool frame 220 at the rear end repeats the same steps, uninterrupted continuous processing is performed on the workpiece, and the processed workpiece is placed on the material placing plate 630 at the other side;

the fixing method for the fixing tool for manufacturing the electromechanical electric equipment is applied to the fixing tool for manufacturing the electromechanical electric equipment;

the foregoing is only a preferred embodiment of the present invention, and the present invention is not limited thereto, and any modification, equivalent replacement, and improvement of some of the technical features described in the foregoing embodiments are all within the scope of the present invention.

Claims

1. A fixing tool for manufacturing electromechanical electric equipment comprises a mounting frame (100) and functional tool mechanisms (200) connected to the front end and the rear end of the mounting frame (100);

the method is characterized in that;

the functional tool mechanism (200) comprises a movable assembly (210) and a tool frame (220) connected to the front end face of the inner side of the movable assembly (210);

the movable assembly (210) comprises two groups of guide rails (211) connected to the front end and the rear end of the mounting frame (100), guide blocks (212) connected in the guide rails (211) in a sliding manner, an electric push rod (213) penetrating through the middle of the bottom end of the guide rails (211) and connected with the bottom surface of the guide blocks (212), and a synchronous motor (214) penetrating through the middle of the front end surface of the guide blocks (212);

the modular use mechanism (300) is connected to the two sides of the tool rack (220) and in the front and rear middle cavities;

the central positions of the lower parts of the two side surfaces of the mounting frame (100) are connected with a multi-size fixing mechanism (500);

the multi-size fixing mechanism (500) comprises a group of force application components (510) which are bilaterally symmetrical and a moving component (520) which is connected to the middle part of the bottom end surface of the force application components (510);

the force application assembly (510) comprises a group of sliding rails (511), a sliding block (512) which is connected in the sliding rails (511) in a sliding manner, an air cylinder (514) which penetrates through the middle part of the upper front end of the sliding rails (511) and is connected with the upper end face of the sliding block (512), and a limiting frame (513) which is connected with the middle part of the lower end of the front surface of the sliding block (512);

a limiting block is connected in a damping manner in a limiting groove with equidistant bottom end surfaces of the limiting frames (513);

the moving assembly (520) comprises two groups of shaft seats (521) which are symmetrical in front-back direction, a shaft lever (522) sleeved on the inner side of the shaft seats (521) and a plurality of moving wheels (523) connected to the shaft lever (522);

the middle parts of the side surfaces of the two inner sides of the mounting frame (100) are connected with a material placing mechanism (600);

the material placing mechanism (600) comprises two groups of fixing blocks (610) which are bilaterally symmetrical, a group of U-shaped frames (620) connected to the inner sides of the fixing blocks (610) and a plurality of material placing plates (630) which are equidistantly connected to the inner sides of the U-shaped frames (620);

the fixture frame (220) and the mounting frame (100) are connected with an auxiliary positioning mechanism (400);

the auxiliary positioning mechanism (400) comprises two groups of magnetic poles (410) connected to the outer side of the upper end face of the tool frame (220) and two groups of annular pipes (420) connected to the front and rear of the upper end face of the mounting frame (100), and the annular pipes (420) are internally provided with magnetic poles (410) with opposite magnetism;

the modularized using mechanism (300) comprises two groups of damping blocks (310) which are symmetrical in front-back direction, an arc-shaped frame (320) connected to the middle part of the outer end surface of the damping blocks (310) and an irregular lug plate (330) connected to the middle part of the inner end surface of the damping blocks (310);

the cavities at two sides of the tool frame (220) are connected with modularized using mechanisms (300) with the same size;

the specific fixing steps are as follows:

s1: under the outer control end, a cylinder (514) applies downward moving force to the limiting frame (513), and pushing force is applied through contact between the moving wheel (523) and an outer structure to move the designated position of the device;

s2: the mounting frame (100) is arranged on the upper end surface of the outer bearing structure, a limiting block is arranged in a proper limiting groove on the bottom end surface of the limiting frame (513), the inner side of a group of limiting blocks is connected with the outer bearing structure in a clamping way, and the mounting and the fixing of the mounting frame (100) structure are carried out;

s3: taking materials from a workpiece to be processed placed on a side material placing plate (630), and placing the workpiece on the inner side of a tool rack (220) for positioning and fixing;

s4: under the external control end, an electric push rod (213) at the front end applies upward force to the guide block (212), after the guide block is lifted to a proper position, the tool frame (220) is overturned by a synchronous motor (214), and under an auxiliary positioning mechanism (400), the tool frame (220) is installed and fixed, and then the processing operation of a workpiece is carried out by external processing equipment

S5: after the front end performs workpiece processing and material taking, the tool frame (220) at the rear end repeats the same steps, uninterrupted continuous processing is performed on the workpiece, and the processed workpiece is placed on a material placing plate (630) at the other side.

2. A fixing method for a fixing tool for manufacturing an electromechanical electric device, which is characterized by being applied to the fixing tool for manufacturing an electromechanical electric device according to claim 1.