CN117140307B - Multi-dimensional multipurpose processing structure of precision instrument - Google Patents

Abstract

The invention relates to a multi-dimensional multipurpose processing structure of a precision instrument, which is applied to the field of precision instruments, and comprises a chip sucking and polishing mechanism and the like, wherein the chip sucking and polishing mechanism not only can polish parts, but also can automatically clean chips generated by polishing, prevent the chips from splashing everywhere, ensure that workers do not need to expend effort to clean the chips, and can also prevent the chips from damaging the workers, the chip sucking and polishing mechanism can also carry out adaptive adjustment according to the thickness of the parts, so that the chip sucking and polishing mechanism can be suitable for processing parts with different thicknesses, the functionality of the processing structure is greatly improved, the parts are conveniently placed into a transparent chip blocking cover through the arrangement of a movable firmware mechanism, the parts are conveniently fixed, the parts are prevented from moving in the polishing process, and the intelligent cooling mechanism can automatically cool a polishing wheel when the temperature of a polishing wheel is higher, so that the processing efficiency is improved, and the service life of the polishing wheel is prolonged.

Description

Multi-dimensional multipurpose processing structure of precision instrument

Technical Field

The invention relates to a processing structure, in particular to a multi-dimensional and multi-purpose processing structure of a precision instrument, which is applied to the field of the precision instrument.

Background

Precision instruments refer to devices and apparatus for producing, measuring, and including observation, monitoring, measurement, verification, recording, transmission, transformation, display, analytical processing, and control of precision quantities. Precision instruments are an important branch of instrumentation.

In the production and processing process of precision instruments, polishing treatment is often required to be carried out on some parts, and a polishing device in the prior art is generally only provided with a polishing function, and has poor functionality and low practicability. Therefore, we propose a multi-dimensional multi-purpose processing structure for precision instruments.

Disclosure of Invention

Aiming at the prior art, the technical problems to be solved by the invention are as follows: grinding device among the prior art only has the function of polishing generally, and the functionality is poor, the practicality is low.

In order to solve the problems, the invention provides a multi-dimensional multipurpose processing structure of a precision instrument, which comprises a chip sucking and polishing mechanism, wherein the chip sucking and polishing mechanism comprises a processing table, a transparent chip blocking cover is fixedly arranged at the top end of the processing table, a driving motor is movably arranged in the transparent chip blocking cover, the output end of the driving motor is fixedly connected with a polishing grinding wheel, a chip suction pipe is communicated with the side wall of the transparent chip blocking cover, a dust collector is arranged on one side of the processing table, the chip suction pipe is communicated with the dust collector, a movable plug block penetrates through the side wall of the transparent chip blocking cover and is in sliding sealing connection with the side wall of the transparent chip blocking cover, the bottom end of the transparent chip blocking cover is arranged to be in an opening shape, the bottom end of the movable plug block abuts against the top end of the processing table, an air inlet pipe is communicated with the top end of the transparent chip blocking cover, a vertical plate is fixedly arranged at the top end of the processing table, an adjusting shaft is rotatably connected with the vertical plate, a connecting rod is fixedly connected to the outer wall of the adjusting shaft, and penetrates through the outer wall of the top end of the transparent chip blocking cover and extends to the outer wall of the transparent chip blocking cover to be fixedly connected with the driving motor, the arc rod is arranged to be in a circular arc shape with the outer wall of the transparent chip blocking cover, and is in a linkage arc sealing connection.

In the multi-dimensional multipurpose processing structure of the precise instrument, the chip sucking and polishing mechanism not only can polish the parts, but also can automatically clean chips generated by polishing, and the chip sucking and polishing mechanism can also carry out adaptive adjustment according to the thickness of the parts, so that the functionality of the processing structure is greatly improved.

As the further improvement of this application, transparent fender bits cover adopts transparent material to make for the staff is convenient for observe the circumstances of polishing in the transparent fender bits cover, fixedly connected with handle on the outer wall of linkage arc pole, the staff of being convenient for pulls linkage arc pole, the one end fixedly connected with pull rod of movable chock, the staff of being convenient for pulls the pull rod.

As the further improvement of this application, run through on the top outer wall of transparent fender bits cover and inlay be equipped with linkage arc pole assorted densification sleeve pipe, densification sleeve pipe is established on the linkage arc pole, and densification sleeve pipe and linkage arc pole sliding seal are connected, and the leakproofness of linkage arc pole and transparent junction of keeping off bits cover outer wall can be improved to the densification sleeve pipe.

As a further improvement of the transparent chip blocking cover, a movable firmware mechanism is arranged in the transparent chip blocking cover and comprises a magnetism isolating movable cover and an embedded electromagnet, a fixedly connected iron block is fixedly arranged in the magnetism isolating movable cover, a firmware barrel is fixedly connected to the top end of the magnetism isolating movable cover, firmware screws are arranged on the outer walls of the two sides of the firmware barrel in a penetrating mode, and the firmware screws are in threaded connection with the outer walls of the firmware barrel.

As a further improvement supplement of the application, inlay the top that the electro-magnet inlayed and locates the processing platform, inlay the top that the electro-magnet was inlayed and the top of processing platform flushes, and inlay the electro-magnet and be located and link under the fixed iron plate, separate fixedly connected with horizontal pole between magnetism activity cover and the activity chock, separate magnetism activity cover and adopt and separate magnetism material to make for the part is convenient for put into transparent fender bits cover, and is convenient for fix the part.

As still another improvement of this application, the intercommunication has the branch pipe on the lateral wall of intake pipe, is provided with first solenoid valve on the branch pipe, is provided with the second solenoid valve in the intake pipe, and the second solenoid valve is located the top of branch pipe, and the branch pipe is in open condition, and the second solenoid valve is in closed condition, and the top of transparent fender bits cover is provided with intelligent cooling mechanism, and intelligent cooling mechanism is linked together including heat preservation cold storage box, the top of intake pipe and heat preservation cold storage box's inside, runs through on the top outer wall of heat preservation cold storage box and inlays and is equipped with the refrigerator.

As the still another modified supplement of this application, intelligence cooling mechanism still includes the temperature sensor who is used for detecting grinding wheel temperature, temperature sensor fixed mounting keeps off the bits cover in transparent, fixed mounting has intelligent control ware on the outer wall of heat preservation cold-storage box, temperature sensor is connected with intelligent control ware electricity, temperature sensor is connected with first solenoid valve, second solenoid valve electricity, heat preservation cold-storage box adopts insulation material to make, intelligence cooling mechanism can be when grinding wheel temperature is higher, automatic to polish the grinding wheel and cool down the processing, machining efficiency not only can be improved, still can prolong the life of grinding wheel.

As the still another modified supplement of this application, run through on the outer wall of heat preservation cold-storage box and inlay and be equipped with elasticity and examine the press mold, fixed mounting has the backup pad of L shape on the inner wall of heat preservation cold-storage box, fixed mounting has the pressure detection button in the backup pad, run through on the lateral wall of heat preservation cold-storage box and inlay and be equipped with the air make-up pipe, be provided with the third solenoid valve on the air make-up pipe, the pressure detection button is connected with intelligent control ware electricity, intelligent control ware and third solenoid valve electricity are connected, the third solenoid valve is in the closed state for can be automatic to the heat preservation cold-storage incasement supplementary air.

In summary, the chip sucking and polishing mechanism is arranged, so that the chip sucking and polishing mechanism can polish parts, can automatically clean chips generated by polishing, prevent the chips from splashing everywhere, enable workers not to need to laboriously clean the chips, and can prevent the chips from hurting the workers; through the arrangement of the movable fixing mechanism, the part is convenient to put into the transparent chip blocking cover and is convenient to fix, so that the part is prevented from moving in the polishing process; through the setting of intelligent cooling mechanism for intelligent cooling mechanism can be when the emery wheel temperature of polishing is higher, automatic cool down the processing to polishing the emery wheel, not only can improve machining efficiency, still can prolong the life of emery wheel of polishing.

Drawings

FIG. 1 is a schematic front view of a multi-dimensional, multi-purpose machining structure for precision instruments according to a first embodiment of the present application;

FIG. 2 is a schematic cross-sectional view of a transparent chip cover according to a first embodiment of the present application;

FIG. 3 is an enlarged schematic view of the structure of FIG. 2A of the present application;

FIG. 4 is a schematic cross-sectional view of a first embodiment of the present disclosure;

FIG. 5 is a pictographic view of the first embodiment of the present application, when polishing a part;

FIG. 6 is a schematic front view of a multi-dimensional, multi-purpose machining structure for precision instruments according to a second embodiment of the present application;

FIG. 7 is an enlarged schematic view of the structure of FIG. 6B of the present application;

FIG. 8 is a schematic cross-sectional view of a transparent chip guard in a second embodiment of the present application;

fig. 9 is a schematic sectional view of a heat-preserving cold storage box according to a second embodiment of the present application.

The reference numerals in the figures illustrate:

101. a processing table; 102. a transparent chip blocking cover; 103. a driving motor; 104. grinding the grinding wheel; 105. a chip suction pipe; 106. a dust collector; 107. a movable chock; 108. an air inlet pipe; 109. a riser; 110. an adjusting shaft; 111. a connecting rod; 112. a linkage arc rod; 113. densifying the sleeve; 114. a grip; 115. a pull rod; 116. a branch pipe; 117. a first electromagnetic valve; 118. a second electromagnetic valve; 201. a magnetism isolating movable cover; 202. fixedly connecting iron blocks; 203. a fixing barrel; 204. a firmware screw; 205. embedding an electromagnet; 206. a cross bar; 301. a heat-preserving cold-storage box; 302. a refrigerator; 303. a temperature sensor; 304. an intelligent controller; 305. elastic pressure detection film; 306. a support plate; 307. a pressure detecting button; 308. an air supplementing pipe; 309. and a third solenoid valve.

Detailed Description

Two embodiments of the present application are described in detail below with reference to the accompanying drawings.

First embodiment:

1-5 show a precision instrument multi-dimensional multipurpose processing structure, including inhaling the bits grinding machanism, inhale bits grinding machanism including processing platform 101, the top of processing platform 101 fixedly installed transparent fender bits cover 102, transparent fender bits cover 102 internal activity is provided with driving motor 103, driving motor 103's output fixedly connected with grinding wheel 104, transparent fender bits cover 102's lateral wall is last to be linked together and is taken out bits pipe 105, one side of processing platform 101 is provided with dust catcher 106, take out bits pipe 105 is linked together with dust catcher 106, transparent fender bits cover 102's lateral wall is last to run through and is provided with movable chock 107, movable chock 107 and transparent fender bits cover 102's lateral wall sliding seal connection, transparent fender bits cover 102's bottom sets up to the opening form, movable chock 107's bottom offsets with processing platform 101's top, transparent fender bits cover 102's top intercommunication has intake pipe 108, processing platform 101's top fixedly installed with riser 109, the vertical plate 109 is rotationally connected with an adjusting shaft 110, the outer wall of the adjusting shaft 110 is fixedly connected with a connecting rod 111, the top end of the connecting rod 111 is fixedly connected with a linkage arc rod 112, the linkage arc rod 112 penetrates through the outer wall of the top end of the transparent chip blocking cover 102 and extends to be fixedly connected with the driving motor 103, the linkage arc rod 112 is arranged into an arc shape taking the adjusting shaft 110 as the center, the outer wall of the linkage arc rod 112 and the outer wall of the transparent chip blocking cover 102 are in sliding sealing connection, when a part is polished, the movable plug 107 is pulled to enable the movable plug 107 to be completely separated from the transparent chip blocking cover 102, a slotted hole is formed at the joint of the original movable plug 107 and the outer wall of the transparent chip blocking cover 102, a worker can put the part into the transparent chip blocking cover 102 through the slotted hole, then plugs the movable plug 107 onto the outer wall of the transparent chip blocking cover 102 again, the driving motor 103 can be started, and the grinding wheel 104 polishes the part, in-process start dust catcher 106 that polishes, the accessible is taken out bits pipe 105 and is taken away the piece that produces of polishing, thereby can reach the effect of an automatic clearance piece, in addition, pulling linkage arc pole 112, make linkage arc pole 112 drive driving motor 103 rotate certain angle along anticlockwise, can make the grinding wheel 104 of polishing raise to the upper left, thereby make the adjustment that the chip polishing mechanism can carry out the adaptability according to the thickness of part, therefore, through the setting of the chip polishing mechanism of inhaling, make the chip polishing mechanism of inhaling not only can polish the processing of part, still can clear up the produced piece of polishing automatically, prevent piece from splashing everywhere, make the staff need not hard piece of removing, still can prevent that the piece from damaging the staff, in addition, inhale the chip polishing mechanism and still can carry out the adaptive adjustment according to the thickness of part, make the chip polishing mechanism of inhaling applicable to the processing of different thickness parts, the functional of processing structure has been improved greatly.

Referring to fig. 1-2, the transparent chip blocking cover 102 is made of transparent material, so that a worker can observe the polishing condition in the transparent chip blocking cover 102 conveniently, a grip 114 is fixedly connected to the outer wall of the linkage arc rod 112, the worker can pull the linkage arc rod 112 conveniently, one end of the movable plug block 107 is fixedly connected with a pull rod 115, the worker can pull the pull rod 115 conveniently, a densification sleeve 113 matched with the linkage arc rod 112 is inserted through the outer wall of the top end of the transparent chip blocking cover 102, the densification sleeve 113 is sleeved on the linkage arc rod 112, the densification sleeve 113 is in sliding sealing connection with the linkage arc rod 112, and the densification sleeve 113 can improve the sealing performance of the joint of the linkage arc rod 112 and the outer wall of the transparent chip blocking cover 102.

Referring to fig. 2-5, a movable firmware mechanism is arranged in the transparent chip blocking cover 102, the movable firmware mechanism comprises a magnetism blocking movable cover 201 and an embedded electromagnet 205, a connecting iron block 202 is fixedly arranged in the magnetism blocking movable cover 201, a firmware cylinder 203 is fixedly connected to the top end of the magnetism blocking movable cover 201, firmware screws 204 are arranged on the outer walls of two sides of the firmware cylinder 203 in a penetrating manner, the firmware screws 204 are in threaded connection with the outer walls of the firmware cylinder 203, the embedded electromagnet 205 is embedded at the top end of the processing table 101, the top end of the embedded electromagnet 205 is flush with the top end of the processing table 101, the embedded electromagnet 205 is positioned under the connecting iron block 202, a cross rod 206 is fixedly connected between the magnetism blocking movable cover 201 and the movable plug block 107, the magnetism blocking movable cover 201 is made of magnetism blocking materials, when the movable plug block 107 is pulled, the movable plug block 107 is pulled out of the transparent chip blocking cover 102, and then the movable plug block 107 is pulled continuously, the magnetism isolating movable cover 201 can be pulled out of the transparent chip blocking cover 102, then the part to be polished is placed in the firmware barrel 203 and is positioned between the two firmware screws 204, the firmware screws 204 are rotated until the firmware screws 204 tightly prop against the part, after the magnetism isolating movable cover 201 and the like are pushed into the transparent chip blocking cover 102, the embedded electromagnet 205 is started, the magnetism between the firmware screws 204 and the linked iron block 202 can play an effective fixing effect on the magnetism isolating movable cover 201, so that the part can be fixed, in addition, the magnetism isolating movable cover 201 can play a magnetism isolating effect, the influence of the embedded electromagnet 205 on the driving motor 103 and the like is prevented, and therefore, the part is conveniently placed into the transparent chip blocking cover 102 through the arrangement of the movable firmware mechanism, the part is conveniently fixed, and the part is prevented from moving in the polishing process.

Second embodiment:

fig. 6-9 show a multi-dimensional multipurpose processing structure of a precision instrument, which is different from the first embodiment in that a branch pipe 116 is communicated with the side wall of an air inlet pipe 108, a first electromagnetic valve 117 is arranged on the branch pipe 116, a second electromagnetic valve 118 is arranged on the air inlet pipe 108, the second electromagnetic valve 118 is positioned above the branch pipe 116, the branch pipe 116 is in an open state, the second electromagnetic valve 118 is in a closed state, an intelligent cooling mechanism is arranged above a transparent chip blocking cover 102, the intelligent cooling mechanism comprises a heat preservation cold storage box 301, the top end of the air inlet pipe 108 is communicated with the inside of the heat preservation cold storage box 301, a refrigerator 302 is embedded on the outer wall of the top end of the heat preservation cold storage box 301 in a penetrating way, the intelligent cooling mechanism also comprises a temperature sensor 303 for detecting the temperature of a grinding wheel 104, the temperature sensor 303 is fixedly arranged in the transparent chip blocking cover 102, an intelligent controller 304 is fixedly arranged on the outer wall of the heat-preserving cold-storage box 301, a temperature sensor 303 is electrically connected with the intelligent controller 304, the temperature sensor 303 is electrically connected with a first electromagnetic valve 117 and a second electromagnetic valve 118, the heat-preserving cold-storage box 301 is made of heat-preserving materials, when polishing, the temperature of a polishing grinding wheel 104 can be gradually increased by heat generated by friction, along with polishing, when a certain number of parts are continuously polished, the temperature of the polishing grinding wheel 104 can be increased to a higher degree, at the moment, polishing is usually stopped, after the temperature of the polishing grinding wheel 104 is reduced, the polishing of the parts can be continuously carried out, so that the processing efficiency is reduced, if polishing is continuously carried out, the abrasion of the polishing grinding wheel 104 is increased, the polishing quality is influenced, in the application, when polishing is started, a worker starts a refrigerator 302, the temperature of air in the heat-preserving cold-storage box 301 can be reduced, the air in the heat-preserving cold-storage box 301 is converted into cold air with relatively low temperature, the temperature sensor 303 can detect the temperature of the polishing grinding wheel 104, when the temperature of the polishing grinding wheel 104 is raised to a certain degree, the intelligent controller 304 can close the first electromagnetic valve 117 and open the second electromagnetic valve 118, under the action of the suction force of the dust collector 106, the cold air in the heat-preserving cold-storage box 301 can be sucked into the transparent chip blocking cover 102, so that the polishing grinding wheel 104 can be cooled, and the temperature of the polishing grinding wheel 104 can be reduced.

Referring to fig. 7 and 9, an elastic pressure detection membrane 305 is inserted through the outer wall of the heat insulation cold storage tank 301, an L-shaped support plate 306 is fixedly installed on the inner wall of the heat insulation cold storage tank 301, a pressure detection button 307 is fixedly installed on the support plate 306, a gas supplementing pipe 308 is inserted through the side wall of the heat insulation cold storage tank 301, a third electromagnetic valve 309 is arranged on the gas supplementing pipe 308, the pressure detection button 307 is electrically connected with the intelligent controller 304, the intelligent controller 304 is electrically connected with the third electromagnetic valve 309, the third electromagnetic valve 309 is in a closed state, cold air is pumped out, the air pressure in the heat insulation cold storage tank 301 is reduced, the elastic pressure detection membrane 305 protrudes into the heat insulation cold storage tank 301 under the action of the air pressure, when the cold air is not more, the elastic pressure detection membrane 305 can squeeze the pressure detection button 307, at this moment, the intelligent controller 304 can close the second electromagnetic valve 118, open the first electromagnetic valve 117 and the third electromagnetic valve 309, thereby supplementing air into the heat insulation cold storage tank 301, and after a certain time, the intelligent controller 304 can automatically close the third electromagnetic valve 309, therefore, the pressure detection membrane 305 can be automatically supplemented into the heat insulation cold storage tank 301 through the pressure detection button 307, and the like.

The scope of protection of the above-described embodiments employed in the present application is not limited to the above-described embodiments, and various changes made by those skilled in the art without departing from the spirit of the present application are still within the scope of protection of the present invention.

Claims (2)

1. The utility model provides a precision instruments multidimension multipurpose processing structure, includes inhales bits grinding machanism, a serial communication port, inhale bits grinding machanism includes processing platform (101), the top fixed mounting of processing platform (101) has transparent fender bits cover (102), transparent fender bits cover (102) internal activity is provided with driving motor (103), the output fixedly connected with grinding wheel (104) of driving motor (103), the intercommunication has chip suction pipe (105) on the lateral wall of transparent fender bits cover (102), one side of processing platform (101) is provided with dust catcher (106), chip suction pipe (105) are linked together with dust catcher (106), run through on the lateral wall of transparent fender bits cover (102) and be provided with movable chock (107), the bottom of transparent fender bits cover (102) sets up to the opening form, the bottom of movable chock (107) offsets with the top of processing platform (101), the intercommunication of transparent fender bits cover (102) has intake pipe (108).

The automatic chip blocking device is characterized in that a vertical plate (109) is fixedly arranged at the top end of the processing table (101), an adjusting shaft (110) is rotationally connected to the vertical plate (109), a connecting rod (111) is fixedly connected to the outer wall of the adjusting shaft (110), a linkage arc rod (112) is fixedly connected to the top end of the connecting rod (111), the linkage arc rod (112) penetrates through the outer wall of the top end of the transparent chip blocking cover (102) and extends to be fixedly connected with the driving motor (103), the linkage arc rod (112) is arranged in an arc shape taking the adjusting shaft (110) as the center, and the linkage arc rod (112) is in sliding sealing connection with the outer wall of the transparent chip blocking cover (102);

the transparent chip blocking cover (102) is made of transparent materials, a grip (114) is fixedly connected to the outer wall of the linkage arc rod (112), and a pull rod (115) is fixedly connected to one end of the movable plug block (107);

the transparent chip blocking cover (102) is internally provided with a movable firmware mechanism, the movable firmware mechanism comprises a magnetism isolating movable cover (201) and an embedded electromagnet (205), a connecting iron block (202) is fixedly arranged in the magnetism isolating movable cover (201), the top end of the magnetism isolating movable cover (201) is fixedly connected with a firmware barrel (203), the outer walls of the two sides of the firmware barrel (203) are respectively provided with a firmware screw rod (204) in a penetrating way, and the firmware screw rods (204) are in threaded connection with the outer walls of the firmware barrel (203);

the embedded electromagnet (205) is embedded at the top end of the processing table (101), the top end of the embedded electromagnet (205) is flush with the top end of the processing table (101), the embedded electromagnet (205) is positioned right below the connecting and fixing iron block (202), a cross rod (206) is fixedly connected between the magnetism isolating movable cover (201) and the movable plug block (107), and the magnetism isolating movable cover (201) is made of magnetism isolating materials;

the intelligent cooling device is characterized in that a branch pipe (116) is communicated with the side wall of the air inlet pipe (108), a first electromagnetic valve (117) is arranged on the branch pipe (116), a second electromagnetic valve (118) is arranged on the air inlet pipe (108), the second electromagnetic valve (118) is located above the branch pipe (116), an intelligent cooling mechanism is arranged above the transparent chip blocking cover (102), the intelligent cooling mechanism comprises a heat preservation cold storage box (301), the top end of the air inlet pipe (108) is communicated with the inside of the heat preservation cold storage box (301), and a refrigerator (302) is embedded in the outer wall of the top end of the heat preservation cold storage box (301) in a penetrating mode;

the intelligent cooling mechanism further comprises a temperature sensor (303) for detecting the temperature of the grinding wheel (104), the temperature sensor (303) is fixedly arranged in the transparent chip blocking cover (102), an intelligent controller (304) is fixedly arranged on the outer wall of the heat-preserving cold storage box (301), the temperature sensor (303) is electrically connected with the intelligent controller (304), the temperature sensor (303) is electrically connected with the first electromagnetic valve (117) and the second electromagnetic valve (118), and the heat-preserving cold storage box (301) is made of heat-preserving materials;

the utility model discloses a thermal insulation cold storage box, including heat preservation cold storage box (301) and intelligent control ware (304), it is equipped with elasticity and examines press mold (305) to run through on the outer wall of heat preservation cold storage box (301), fixed mounting has backup pad (306) of L shape on the inner wall of heat preservation cold storage box (301), fixed mounting has pressure detection button (307) on backup pad (306), run through on the lateral wall of heat preservation cold storage box (301) and inlay and be equipped with air make-up pipe (308), be provided with third solenoid valve (309) on air make-up pipe (308), pressure detection button (307) are connected with intelligent control ware (304) electricity, intelligent control ware (304) are connected with third solenoid valve (309) electricity.

2. The multi-dimensional and multi-purpose machining structure of the precise instrument according to claim 1, wherein a densification sleeve (113) matched with the linkage arc rod (112) is inserted through the outer wall of the top end of the transparent chip blocking cover (102), the densification sleeve (113) is sleeved on the linkage arc rod (112), and the densification sleeve (113) is in sliding sealing connection with the linkage arc rod (112).