CN112536903B - Butt-grinding type four-foot insulating brick burr processing device - Google Patents

Abstract

The invention relates to the field of buildings, in particular to a burr processing device for a counter-grinding type four-foot insulating brick. The technical problems to be solved by the invention are as follows: provides a burr treatment device for a double-grinding four-pin insulating brick. The technical scheme is as follows: the utility model provides a to four foot insulating brick deckle edge processing apparatus of grinding formula, is connected with accuse apart from the system including base, declination system and accuse apart from the system etc. declination system, declination system with to grinding the system and be connected to the system is ground to the system is connected with accuse apart from the system. The angle of the four-leg heat-insulating brick is adjusted, and the burrs of two adjacent right-angle bottom edges of two groups of four-leg heat-insulating bricks are mutually contacted at different angles, so that nonstandard right-angle burrs can be processed in the process of mutually rubbing and polishing the burrs, and meanwhile, true bricks in the burrs are protected; put into the device with four foot insulating brick fast, utilize and connect the friction each other between four foot insulating brick deckle edge and the deckle edge, replace the machinery of polishing to polish, reduce treatment cost's effect.

Description

Butt-grinding type four-foot insulating brick burr processing device

Technical Field

The invention relates to the field of buildings, in particular to a butt-grinding type four-pin insulating brick burr processing device.

Background

In the prior art, the rough edge polishing of the four-foot heat insulation brick is usually manually carried out or is carried out by a special polishing machine, the manual polishing abrasion is long, the human resource consumption is large, and the polishing effect cannot be guaranteed; although the mechanical polishing speed is high, the polishing machine special for the four-leg heat-insulating brick is difficult to install and expensive in equipment price, and sometimes the four-leg heat-insulating brick with a tiny inclined surface instead of an edge is encountered.

The problems are not solved, and a special four-pin insulating brick burr processing device needs to be designed.

Disclosure of Invention

In order to overcome the defects that the rough edge polishing of the four-leg insulating brick is usually carried out manually or by a special polishing machine, the manual polishing abrasion is long, the human resource consumption is large, and the polishing effect cannot be guaranteed; although mechanical polishing is fast, the special polishing machine for the four-foot heat-insulating brick is difficult to install and expensive in equipment price, sometimes the edge of the four-foot heat-insulating brick is not a side but a micro inclined plane, and for a general polishing machine which cannot change the polishing direction, the defects that the effect of complete polishing treatment cannot be achieved for the special four-foot heat-insulating bricks are overcome, and the technical problem to be solved is solved: provides a burr treatment device for a counter-grinding type four-pin insulating brick.

The technical scheme is as follows: the utility model provides a to four foot insulating brick deckle edge processing apparatus of grinding formula, including:

a base;

the control screen is connected with the base;

the deflection angle system is connected with the supporting bottom plate;

the distance control system is connected with the deflection angle system and the support bottom plate;

the opposite-grinding system is connected with the deflection angle system, the opposite-grinding system is connected with the distance control system, and the opposite-grinding system is connected with the supporting bottom plate.

Preferably, to four foot insulating brick deckle edge processing apparatus of grinding formula, its characterized in that, the declination system including:

a fourth spur gear;

the first straight gear is fixedly connected with the sixth transmission rod;

the sixth transmission rod is fixedly connected with the first transmission wheel and is connected with the distance control system;

the outer ring surface of the first driving wheel is in transmission connection with the second driving wheel through a belt;

the axle center of the second driving wheel is fixedly connected with the first driving rod;

the outer surface of the first transmission rod is fixedly connected with the first electric slide block, and one side of the outer surface of the first transmission rod, which is far away from the second transmission wheel, is fixedly connected with the second straight gear;

the first electric sliding block is connected with the base;

the second straight gear is meshed with the third straight gear;

the third straight gear is fixedly connected with the first screw rod;

the first screw rod is rotatably connected with the common supporting seat and is in transmission connection with the first transmission block;

the common supporting seat is rotatably connected with the second screw rod and is connected with the base;

the first transmission block is fixedly connected with the first telescopic supporting seat;

the first telescopic supporting seat is fixedly connected with the first hexagonal prism;

the first hexagonal prism is connected with the opposite grinding system;

the second screw rod is fixedly connected with the fourth straight gear and is in transmission connection with the second transmission block;

the second transmission block is fixedly connected with a second telescopic supporting seat, and the second telescopic supporting seat is fixedly connected with a second hexagonal prism;

the second telescopic supporting seat is fixedly connected with the second hexagonal prism;

and the second hexagonal prism is connected with the opposite grinding system.

As preferred, to four foot insulating brick deckle edge processing apparatus of grinding formula, its characterized in that, the accuse apart from the system including:

the motor is fixedly connected with the second electric sliding block, and the axis of the motor is fixedly connected with the fifth straight gear;

the second electric sliding block is connected with the first sliding rail in a sliding manner;

the first sliding rail is fixedly connected with the bottom support;

the fifth straight gear is meshed with the sixth straight gear;

the sixth straight gear is in transmission connection with the third transmission wheel;

the outer ring of the third driving wheel is in transmission connection with the fourth driving wheel through a belt;

the fourth driving wheel is in transmission connection with the first bevel gear;

the first bevel gear is meshed with the second bevel gear;

the second bevel gear is fixedly connected with the second transmission rod;

the second transmission rod is fixedly connected with the fifth transmission wheel and the third screw rod;

the outer ring surface of the fifth driving wheel is in transmission connection with the sixth driving wheel through a belt;

the sixth driving wheel is fixedly connected with the third driving rod;

the third screw rod is in transmission connection with the first distance adjusting frame, the third screw rod is in transmission connection with the second distance adjusting frame, and the third screw rod is in rotation connection with the bottom support;

the third transmission rod is fixedly connected with a fourth screw rod, the fourth screw rod is connected with the first spacing adjusting frame, and the fourth screw rod is connected with the second spacing adjusting frame;

the fourth screw rod is rotatably connected with the bottom support;

the first distance adjusting frame is connected with the opposite grinding system;

the second distance adjusting frame is connected with the opposite grinding system;

the bottom support is connected with the base and the sixth transmission rod.

Preferably, to four foot insulating brick deckle edge processing apparatus of mill formula, its characterized in that, to the mill system including:

a first spring;

a second spring;

a third spring;

a fourth spring;

a fourth limit push block;

a second sheave;

brick clamping;

the seventh straight gear is fixedly connected with a fourth transmission rod;

the fourth transmission rod is fixedly connected with the seventh transmission wheel and is connected with the bottom support;

the outer ring surface of the seventh driving wheel is in transmission connection with the eighth driving wheel through a belt;

the eighth driving wheel is fixedly connected with the fifth driving rod;

the fifth transmission rod is fixedly connected with the ninth transmission wheel and is connected with the base;

the outer ring surface of the ninth driving wheel is in transmission connection with the tenth driving wheel through a belt;

the tenth driving wheel is fixedly connected with the first double-groove deflection disc;

the first double-groove deflection disc is fixedly connected with the first grooved wheel, one side of the first double-groove deflection disc is in transmission connection with the first limiting push block, the other side of the first double-groove deflection disc is in transmission connection with the second limiting push block, and the first double-groove deflection disc is in rotation connection with the first double-groove supporting plate;

a first sheave engaged with the toothed V-belt;

the toothed V belt is meshed with the second grooved wheel;

the first limiting push block is in transmission connection with the second pair of grinding frames;

the second limiting push block is in transmission connection with the first pair of grinding frames;

the first double-groove supporting plate is connected with the second sliding rail and the common supporting seat;

the first pair of grinding frames are fixedly connected with the first spring, fixedly connected with the third spring, connected with the third limiting push block, connected with the first hexagonal prism and connected with the second spacing adjusting frame;

one side of the second pair of grinding frames is connected with the second spring, the other side of the second pair of grinding frames is connected with the fourth spring, and the second pair of grinding frames is connected with the fourth limiting push block;

the third limiting push block is connected with the second double-groove deflection disc, the second double-groove deflection disc is connected with the second grooved wheel, and the second double-groove deflection disc is connected with the fourth limiting push block;

the second double-groove deflection disc is rotatably connected with the second double-groove support plate, and the second double-groove support plate is connected with the second sliding rail;

the second double-groove supporting plate is connected with the base;

the second sliding rail is in sliding connection with the third electric sliding block;

the third electric sliding block is rotationally connected with the multi-stage rotating shaft plate group;

the multi-stage rotating shaft plate group is fixedly connected with the electric rotating shaft, and the electric rotating shaft is fixedly connected with the brick clamp.

As preferred, to four foot insulating brick deckle edge processing apparatus of grinding formula, its characterized in that, the brick clamp including:

a second fixed shaft;

the square clamp body is in contact with the manual padlock and is connected with the electric rotating shaft;

the manual padlock is rotationally connected with the pull rod through a connecting rod;

the pull rod is connected with the first connecting column and the second connecting column;

the first connecting column is rotatably connected with the second foot clamp;

the second connecting column is connected with the first pin clamp;

the first foot clamp is rotationally connected with the second fixed shaft, and the second fixed shaft is connected with the square clamp body;

the second foot clamp is connected with the first fixing shaft, and the first fixing shaft is connected with the square clamp body.

Preferably, the combination mechanisms consisting of the manual padlock, the pull rod, the first connecting column, the first fixing shaft, the second connecting column, the first foot clamp, the second fixing shaft and the second foot clamp are arranged in two groups, and the two groups are symmetrically arranged on the left side and the right side of the square clamp body.

Preferably, the adjacent sides of the first pair of grinding frames and the second pair of grinding frames are provided with cambered surfaces.

Preferably, the threads connected with the first distance adjusting frame and the second distance adjusting frame are reverse threads; the fourth screw rod is a reverse screw thread with the screw threads connected with the first distance adjusting frame and the second distance adjusting frame.

The invention has the beneficial effects that: (1) according to the invention, by arranging the deflection angle system, the angle positions of the four-foot heat-insulating bricks are independently adjusted by utilizing two sides, so that two adjacent right-angle bottom edges of the two groups of four-foot heat-insulating bricks are mutually contacted at different angles, and therefore, the two groups of four-foot heat-insulating bricks can process nonstandard right-angle burrs in the process of mutually rubbing and polishing the burrs without damaging real brick surfaces in the burrs, the opposite polishing effect is greatly improved, the universality of the device is improved, and the real bricks in the burrs are protected.

(2) Through setting up accuse apart from the system, the interval between two sets of four foot insulating bricks is adjusted in control, has realized polishing the multi-angle of two sets of four foot insulating bricks, has improved the general nature of device.

(3) The grinding system is arranged to replace manual work to rapidly place heavy four-foot heat-insulating bricks into the device, processing speed is accelerated, then mutual contact and friction between four-foot heat-insulating brick burrs and four-foot heat-insulating brick burrs are utilized, traditional grinding machinery is replaced to carry out burr grinding and removal, installation funds of the grinding device are saved, and the burr processing cost is reduced.

Drawings

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

FIG. 2 is a schematic perspective view of the present invention in a left-rear elevation view;

FIG. 3 is a schematic perspective view of the angling system of the present invention;

FIG. 4 is a schematic bottom view of a distance control system according to the present invention;

FIG. 5 is a schematic perspective view of a distance control system according to the present invention;

FIG. 6 is a schematic perspective view of the opposite grinding system of the present invention;

FIG. 7 is a schematic perspective view of a partial bottom view of the counter grinding system of the present invention;

FIG. 8 is a schematic view of a bottom view of the brick clamp of the present invention;

fig. 9 is a perspective view of the first double-slot deflector plate and the first double-slot supporting plate assembly according to the present invention.

Description of reference numerals: 1_ base, 2_ control panel, 3_ declination system, 4_ distance control system, 5_ opposite grinding system, 301_ first straight gear, 302_ first driving wheel, 303_ second driving wheel, 304_ first driving rod, 305_ first electric slide, 306_ second spur gear, 307_ third spur gear, 308_ first screw rod, 309_ common support seat, 3010_ first driving block, 3011_ first telescopic support seat, 3012_ first hexagonal prism, 3013_ second screw rod, 3014_ fourth spur gear, 3015_ second driving block, 3016_ second telescopic support seat, 3017_ second hexagonal prism, 3018_ sixth driving rod, 401_ motor, 402_ second electric slide, 403_ first slide, 404_ fifth spur gear, 405_ sixth spur gear, 406_ third driving wheel, 407_ fourth driving wheel, 408_ first transmission rod, 409_ gear, 4010_ second driving rod, 4011_ second driving wheel, 4012_ sixth transmission wheel, 4013_ third screw, 4014_ third transmission rod, 4015_ fourth screw, 4016_ first spacing adjustment rack, 4017_ second spacing adjustment rack, 4018_ bottom bracket, 501_ seventh spur gear, 502_ fourth transmission rod, 503_ seventh transmission wheel, 504_ eighth transmission wheel, 505_ fifth transmission rod, 506_ ninth transmission wheel, 507_ tenth transmission wheel, 508_ first double-groove deflector, 509_ first sheave, 5010_ toothed V-belt, 5011_ first limit pusher, 5012_ second limit pusher, 5013_ first double-groove support plate, 5014_ first pair of grinders, 5015_ second pair of grinders, 5016_ first spring, 5017_ second spring, 5018_ third spring, 5019_ fourth spring, 5020_ third limit pusher, 5021_ fourth limit pusher, 5022_ second groove plate, 3_ second guide plate, 5024_ second guide rail, 5025_ second guide rail guide plate, 5029_ fourth guide groove, 5026_ third electric slider, 5027_ multi-stage rotating shaft plate group, 5028_ electric rotating shaft, 5029_ brick clamp, 502901_ square clamp body, 502902_ manual buckle, 502903_ pull rod, 502904_ first connecting column, 502905_ first fixed shaft, 502906_ second connecting column, 502907_ first pin clamp, 502908_ second fixed shaft and 502909_ second pin clamp.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

A burr processing device for a double-grinding four-pin insulating brick is shown in figures 1-9, a base 1; the control screen 2 is connected with the base 1; it is characterized by also comprising: the deflection angle system 3 is connected with the support bottom plate; the distance control system 4 is connected with the deflection angle system 3, and the distance control system 4 is connected with the supporting bottom plate; and the opposite grinding system 5 is connected with the deflection angle system 3, the opposite grinding system 5 is connected with the distance control system 4, and the opposite grinding system 5 is connected with the supporting baseplate.

The working process comprises the following steps: when in use, the burr treatment device for the double-grinding type four-foot insulating brick is firstly installed at a place needing to be used, a power supply is externally connected, the four-foot insulating brick to be treated is placed at two sides of the burr treatment device for the double-grinding type four-foot insulating brick in a posture that four corners face upwards, then the starting device is controlled by the control screen 2, the arranged four-foot insulating bricks are sequentially clamped into the double-grinding system 5 through the double-grinding system 5 to form a combination of four rows of heat insulation bricks, one row of the four rows of heat insulation bricks and two rows of the heat insulation bricks are formed, then the two rows of heat insulation bricks are respectively adjusted through the distance control system 4, burrs of the two rows of the four-foot insulating bricks can be mutually contacted at the middle positions, then the double-grinding system 5 is started to utilize the opposite staggered movement of the two rows of the four-foot insulating bricks, the burrs are mutually ground, further the burrs are quickly eliminated, the contact angle of the four-foot insulating bricks at the middle positions can be adjusted through the deflection angle system 3 in the treatment process, even if the bottom edges of the four-foot insulating bricks are in a side view and in a shape of 'eight' with different opening sizes, non-right angle deckle edge is handled in adaptation from this, prevents that same angle from lasting to polish and leading to destroying inside four foot insulating brick, has improved the adaptability and the general nature of device. The device passes through mechanical transmission, has realized getting the automation of four feet insulating brick and has put to utilize the relative friction between four feet insulating brick deckle edge to polish and eliminate deckle edge, saved installing of traditional grinding device, reduced the processing cost, but the contact interval and the contact angle of four feet insulating brick simultaneously, make the device can handle the non-right angle deckle edge of four feet insulating brick, improved the application scope and the commonality of device greatly, be worth using widely.

The deflection angle system 3 comprises a first straight gear 301, a first driving wheel 302, a second driving wheel 303, a first driving rod 304, a first electric slide block 305, a second straight gear 306, a third straight gear 307, a first screw rod 308, a common supporting seat 309, a first driving block 3010, a first telescopic supporting seat 3011, a first hexagonal prism 3012, a second screw rod 3013, a fourth straight gear 3014, a second driving block 3015, a second telescopic supporting seat 3016, a second hexagonal prism 3017 and a sixth driving rod 3018; the first straight gear 301 is fixedly connected with a sixth transmission rod 3018; the sixth transmission rod 3018 is fixedly connected to the first transmission wheel 302, and the sixth transmission rod 3018 is connected to the distance control system 4; the outer ring surface of the first driving wheel 302 is in transmission connection with a second driving wheel 303 through a belt; the axle center of the second driving wheel 303 is fixedly connected with the first driving rod 304; the outer surface of the first transmission rod 304 is fixedly connected with a first electric slide block 305, and one side of the outer surface of the first transmission rod 304, which is far away from the second transmission wheel 303, is fixedly connected with a second straight gear 306; the first electric slider 305 is connected with the base 1; the second spur gear 306 is meshed with the third spur gear 307; the third spur gear 307 is fixedly connected with the first screw rod 308; the first screw rod 308 is rotatably connected with the common support base 309, and the first screw rod 308 is in transmission connection with the first transmission block 3010; the common supporting seat 309 is rotatably connected with the second lead screw 3013, and the common supporting seat 309 is connected with the base 1; the first transmission block 3010 is fixedly connected with the first telescopic supporting seat 3011; the first telescopic supporting seat 3011 is fixedly connected with the first hexagonal prism 3012; the first hexagonal prism 3012 is connected to the opposite grinding system 5; the second lead screw 3013 is fixedly connected with the fourth spur gear 3014, and the second lead screw 3013 is in transmission connection with the second transmission block 3015; the second driving block 3015 is fixedly connected to a second telescopic support base 3016, and the second telescopic support base 3016 is fixedly connected to a second hexagonal prism 3017; the second telescopic support base 3016 is fixedly connected with the second hexagonal prism 3017; a second hexagonal prism 3017 is connected to the counter-grinding system 5.

When the contact angles of the four-pin heat-insulating bricks are adjusted, external power drives a first straight gear 301, the first straight gear 301 drives a sixth transmission rod 3018 to rotate, the sixth transmission rod 3018 drives a first transmission wheel 302, the first transmission wheel 302 drives a second transmission wheel 303, the second transmission wheel 303 drives a first transmission rod 304 to rotate, the first transmission rod 304 drives a second straight gear 306, the second straight gear 306 is meshed with and transmits a third straight gear 307, the third straight gear 307 drives a first screw rod 308, the first screw rod 308 drives a first transmission block 3010 to ascend and descend, the ascending and descending first transmission block 3010 drives a first hexagonal prism 3012 to rotate under the connection assistance of a first telescopic supporting seat 3011 capable of being telescopic, and finally the four-pin heat-insulating bricks controlled by the first hexagonal prism 3012 are driven to perform angle transformation; after one side is adjusted, the first electric slide block 305 can be controlled to move to enable the second spur gear 306 to be disengaged from the third spur gear 307 and then to be meshed with the fourth spur gear 3014, the second spur gear 306 is meshed with the fourth spur gear 3014 to drive the fourth spur gear 3014, the fourth spur gear 3014 then drives the second lead screw 3013, the second lead screw 3013 drives the second transmission block 3015 to enable the second transmission block 3015 to ascend and descend, the moved second transmission block 3015 finally drives the second hexagonal prism 3017 to deflect through the telescopic second telescopic support 3016, then four-foot heat-insulating bricks controlled by the second hexagonal prism 3017 are adjusted to carry out angle conversion, and the common support 309 plays a role in mounting parts. The device is simple to use, independently adjust the angle position of four foot insulating brick through both sides, and then make between first hexagonal prism 3012 and the second hexagonal prism 3017, two sets of four foot insulating brick adjacent two right angle base deckle edges contact with the angle of difference mutually promptly, thereby make them at the frictional burr's of polishing in-process of each other, can handle nonstandard right angle deckle edge, do not hinder the inside real brick face of deckle edge simultaneously, the effect of subtend processing of polishing has been improved greatly, the universality of device is improved, and the inside real brick of deckle edge has been protected, and is worth popularizing and using.

The distance control system 4 comprises a motor 401, a second electric slide block 402, a first slide rail 403, a fifth spur gear 404, a sixth spur gear 405, a third transmission wheel 406, a fourth transmission wheel 407, a first bevel gear 408, a second bevel gear 409, a second transmission rod 4010, a fifth transmission wheel 4011, a sixth transmission wheel 4012, a third screw 4013, a third transmission rod 4014, a fourth screw 4015, a first distance adjusting frame 4016, a second distance adjusting frame 4017 and a bottom support 4018; the motor 401 is fixedly connected with the second electric sliding block 402, and the axis of the motor 401 is fixedly connected with the fifth straight gear 404; the second electric slider 402 is connected with the first slide rail 403 in a sliding manner; the first slide rail 403 is fixedly connected with the bottom support 4018; the fifth spur gear 404 and the sixth spur gear 405 are meshed with each other; the sixth spur gear 405 is in transmission connection with a third transmission wheel 406; the outer ring of the third driving wheel 406 is in transmission connection with a fourth driving wheel 407 through a belt; the fourth transmission wheel 407 is in transmission connection with the first bevel gear 408; the first bevel gear 408 and the second bevel gear 409 are meshed with each other; the second bevel gear 409 is fixedly connected with a second transmission rod 4010; the second transmission rod 4010, the second transmission rod 4010 is fixedly connected with a fifth transmission wheel 4011, and the second transmission rod 4010 is fixedly connected with a third screw 4013; the outer ring surface of the fifth driving wheel 4011 is in transmission connection with a sixth driving wheel 4012 through a belt; the sixth driving wheel 4012 is fixedly connected with a third driving rod 4014; the third screw 4013 is in transmission connection with the first distance adjusting frame 4016, the third screw 4013 is in transmission connection with the second distance adjusting frame 4017, and the third screw 4013 is in rotation connection with the bottom support 4018; the third transmission rod 4014 is fixedly connected with a fourth screw 4015, the fourth screw 4015 is connected with a first distance adjusting frame 4016, and the fourth screw 4015 is connected with a second distance adjusting frame 4017; the fourth screw 4015 is rotatably connected with the bottom support 4018; the first distance adjusting frame 4016 is connected with the opposite grinding system 5; the second distance adjusting frame 4017 is connected with the opposite grinding system 5; the bottom support 4018 is connected to the base 1, and the bottom support 4018 is connected to the sixth transmission rod 3018.

When the device is used, the second electric slide block 402 sliding in the first slide rail 403 drives the motor 401 and the fifth spur gear 404 connected with the motor 401 to move, so that the fifth spur gear 404 is meshed with different gears to provide power for different systems of the whole device, when the distance is adjusted, the fifth spur gear 404 is meshed with the sixth spur gear 405, the motor 401 drives the fifth spur gear 404, the fifth spur gear 404 is meshed with the sixth spur gear 405 to drive the sixth spur gear 405, the sixth spur gear 405 drives the third transmission wheel 406 to rotate, then the third transmission wheel 406 drives the fourth transmission wheel 407, further the fourth transmission wheel 407 drives the first bevel gear 408, the first bevel gear 408 is meshed with the second bevel gear 409, the second bevel gear 401409 drives the second transmission rod 4010 to rotate, the second transmission rod 4010 drives the fifth transmission wheel 4011 and the third screw 4013 to rotate at the same time, the fifth transmission wheel 4011 drives the sixth transmission wheel 4012, sixth drive wheel 4012 then transmission third transfer line 4014, third transfer line 4014 drives the fourth lead screw 4015 rotatory, third lead screw 4013 and fourth lead screw 4015 synchronous revolution, the gesture motion that first interval alignment bracket 4016 of common transmission and second interval alignment bracket 4017 are close to each other or keep away from each other, and then two sets of four foot insulating bricks of control top are close to each other or are kept away from each other, reserve the space for subsequent angle adjustment, end support 4018 plays the effect of installing part. The device is simple to use, through mechanical transmission, the interval between two sets of four foot insulating bricks is adjusted in control, forms the cooperation with declination system 3, has realized polishing two sets of four foot insulating bricks's multi-angle, has improved the general nature of device, is worth using widely.

The opposite-grinding system 5 comprises a seventh straight gear 501, a fourth transmission rod 502, a seventh transmission wheel 503, an eighth transmission wheel 504, a fifth transmission rod 505, a ninth transmission wheel 506, a tenth transmission wheel 507, a first double-groove deflection disc 508, a first grooved wheel 509, a toothed V-shaped belt 5010, a first limit push block 5011, a second limit push block 5012, a first double-groove support plate 5013, a first pair of grinding racks 5014, a second pair of grinding racks 5015, a first spring 5016, a second spring 5017, a third spring 5018, a fourth spring 5019, a third limit push block 5020, a fourth limit push block 5021, a second double-groove deflection disc 5022, a second grooved wheel 5023, a second double-groove support plate 5024, a second sliding rail 5025, a third electric slider 5026, a multi-stage rotating shaft plate group 5027, an electric rotating shaft 5028 and a brick clamp 5029; a seventh straight gear 501 and a fourth transmission rod 502 are fixedly connected; the fourth transmission rod 502 is fixedly connected with a seventh transmission wheel 503, and the fourth transmission rod 502 is connected with the bottom support 4018; the outer annular surface of the seventh driving wheel 503 is in transmission connection with the eighth driving wheel 504 through a belt; the eighth driving wheel 504 is fixedly connected with a fifth driving rod 505; a fifth transmission rod 505 is fixedly connected with a ninth transmission wheel 506, and the fifth transmission rod 505 is connected with the base 1; the outer annular surface of the ninth driving wheel 506 is in transmission connection with a tenth driving wheel 507 through a belt; the tenth driving wheel 507 is fixedly connected with the first double-groove deflection disc 508; the first double-groove deflection disc 508 is fixedly connected with the first grooved wheel 509, one side of the first double-groove deflection disc 508 is in transmission connection with the first limit push block 5011, the other side of the first double-groove deflection disc 508 is in transmission connection with the second limit push block 5012, and the first double-groove deflection disc 508 is in rotation connection with the first double-groove support plate 5013; the first sheave 509 intermeshes with the toothed V-belt 5010; the toothed V-belt 5010 intermeshes with a second sheave 5023; the first limiting push block 5011 is in transmission connection with the second pair of grinding racks 5015; the second limiting push block 5012 is in transmission connection with the first pair of grinding racks 5014; the first double-groove supporting plate 5013 is connected with the second sliding rail 5025, and the first double-groove supporting plate 5013 is connected with the common supporting seat 309; the first pair of grinding racks 5014 is fixedly connected with a first spring 5016, the first pair of grinding racks 5014 is fixedly connected with a third spring 5018, the first pair of grinding racks 5014 is connected with a third limiting push block 5020, the first pair of grinding racks 5014 is connected with a first hexagonal prism 3012, and the first pair of grinding racks 5014 is connected with a second distance adjusting rack 4017; one side of the second pair of grinding racks 5015 is connected with the second spring 5017, the other side of the second pair of grinding racks 5015 is connected with the fourth spring 5019, and the second pair of grinding racks 5015 is connected with the fourth limiting push block 5021; the third limit pushing block 5020 is connected with a second double-groove deflection disc 5022, the second double-groove deflection disc 5022 is connected with a second grooved wheel 5023, and the second double-groove deflection disc 5022 is connected with a fourth limit pushing block 5021; a second double-slot deflector 5022 is rotatably coupled to a second double-slot support plate 5024, and the second double-slot support plate 5024 is coupled to a second sled 5025; the second double-groove supporting plate 5024 is connected with the base 1; the second sliding rail 5025 is in sliding connection with the third electric slider 5026; the third electric slider 5026 is rotationally connected with the multi-stage rotating shaft plate group 5027; the multi-stage rotating shaft plate group 5027 is fixedly connected with the electric rotating shaft 5028, and the electric rotating shaft 5028 is fixedly connected with the brick clamp 5029.

When the device is used, a multi-stage rotating shaft plate group 5027 is driven through a third electric slider 5026 which can freely slide on a second sliding rail 5025, a brick clamp 5029 is driven through the multi-stage rotating shaft plate group 5027 to transfer and place the arranged four-foot upward-oriented four-corner heat-insulating bricks in a first pair of grinding racks 5014 and a second pair of grinding racks 5015, the electric rotating shaft 5028 can adjust the placing direction of the four-foot heat-insulating bricks to change edges and grind, then external power is meshed with and drives a seventh straight gear 501, the seventh straight gear 501 drives a fourth transmission rod 502, then the fourth transmission rod 502 drives a seventh transmission wheel 503, the seventh transmission wheel 503 is then driven by an eighth transmission wheel 504, the eighth transmission wheel 504 drives a fifth transmission rod 505 to rotate, then the fifth transmission rod 505 drives a ninth transmission wheel 506, then the ninth transmission wheel 506 drives a tenth transmission wheel 507 to rotate, and then the tenth transmission wheel 507 drives a first double-groove deflection disc 508 to perform reversing reciprocating swing, the first double-groove deflection disc 508 drives the first grooved wheel 509, the first grooved wheel 509 is meshed with a transmission toothed V belt 5010, the toothed V belt 5010 is then meshed with a transmission second grooved wheel 5023, finally the second grooved wheel 5023 drives the second double-groove deflection disc 5022 to perform reversing reciprocating swing which is the same as that of the first double-groove deflection disc 508, the first double-groove deflection disc 508 which performs reciprocating swing pushes the first limit push block 5011 and the second limit push block 5012 to perform opposite reciprocating translational motion, the second double-groove deflection disc 5022 which performs reciprocating swing pushes the third limit push block 5020 and the fourth limit push block 5021 to perform opposite reciprocating translational motion, the moving directions of the first limit push block 5011 and the fourth limit push block 5021 are the same, the directions of the second limit push block 5012 and the third limit push block 5020 are the same, and in the process, the first spring 5016, the second spring 5017, the third spring 5018 and the fourth spring 5019 all play a role in releasing elasticity to assist in resetting after being compressed, the first double-groove supporting plate 5013 and the second double-groove supporting plate 5024 play roles of connecting parts and auxiliary limiting support. The final result is that the first pair of grinding racks 5014 is driven by the second limit push block 5012 and the third limit push block 5020, the second pair of grinding racks 5015 is driven by the first limit push block 5011 and the fourth limit push block 5021, and the first pair of grinding racks 5014 and the second pair of grinding racks 5015 perform reciprocating movement in opposite directions, so that burrs which are in contact with each other between the four corner heat-insulating bricks which are placed in the first pair of grinding racks 5014 and the second pair of grinding racks 5015 in advance are driven to rub and polish each other, and the burrs on the edges of the four corner heat-insulating bricks can be polished without depending on a traditional polishing device. The device is simple to use, through mechanical transmission, replaces artifical quick putting into the device with more heavy four-foot insulating brick for the processing speed, then utilizes four-foot insulating brick deckle edge and four-foot insulating brick deckle edge between contact each other, friction, replaces traditional polishing machine to carry out deckle edge and polish and get rid of, has saved grinding device's fund of installing, has reduced unedged processing cost, is worth using widely.

The brick clamp 5029 comprises a square clamp body 502901, a manual buckle 502902, a pull rod 502903, a first connecting column 502904, a first fixing shaft 502905, a second connecting column 502906, a first foot clamp 502907, a second fixing shaft 502908 and a second foot clamp 502909; the square clamp 502901 is in contact with the manual buckle 502902, and the square clamp 502901 is connected with the electric rotating shaft 5028; the manual buckle 502902 is rotatably connected with the pull rod 502903 through a connecting rod; the pull rod 502903 is connected to the first connecting post 502904, and the pull rod 502903 is connected to the second connecting post 502906; the first connecting column 502904 is rotatably connected with the second foot clip 502909; the second connecting post 502906 is connected to the first leg clip 502907; the first foot clip 502907 is rotatably connected to the second fixed shaft 502908, and the second fixed shaft 502908 is connected to the square clip body 502901; the second foot clip 502909 is connected with the first fixed shaft 502905, and the first fixed shaft 502905 is connected with the square clip body 502901.

During the use, after square clamp 502901 aimed at four-footed insulating brick, the manual padlock 502902 of manual handling, make pull rod 502903 remove through manual padlock 502902, the pull rod 502903 that removes drives first footed clamp 502907 and second footed clamp 502909 respectively through first spliced pole 502904 and second spliced pole 502906 under the spacing of second fixed axle 502908 and first fixed axle 502905, first footed clamp 502907 and second footed clamp 502909 all inwards rotate, step up four-footed insulating brick, accomplish the centre gripping. The device replaces the manual work to carry out the transportation work of four foot insulating brick, greatly reduced the manpower consumption, improved work efficiency.

The combination mechanisms consisting of the manual buckle 502902, the pull rod 502903, the first connecting column 502904, the first fixed shaft 502905, the second connecting column 502906, the first foot clamp 502907, the second fixed shaft 502908 and the second foot clamp 502909 are arranged in two groups, and are symmetrically arranged on the left side and the right side of the square clamp body 502901.

The four feet of the four-foot insulating brick are fixed together, so that the effect of stable fixation is achieved.

The adjacent sides of the first pair of grinding racks 5014 and the second pair of grinding racks 5015 are provided as arc surfaces.

The cambered surface can expose the rough edges to be processed, so that the rough edges can be contacted with rough edges adjacent to another group of four-foot heat-insulating bricks for polishing.

The threads connected with the third screw rod 4013, the first distance adjusting frame 4016 and the second distance adjusting frame 4017 are reverse threads; the threads of the fourth screw 4015, the first distance adjusting frame 4016 and the second distance adjusting frame 4017 are reverse threads.

The reverse threads enable the screw rod to make opposite movement of the transmission object under the condition of unidirectional rotation.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (3)

1. The utility model provides a to four foot insulating brick deckle edge processing apparatus of grinding formula, including:

a base (1);

the control screen (2), the control screen (2) is connected with the base (1);

it is characterized by also comprising:

the deflection angle system (3), the deflection angle system (3) is connected with the supporting bottom plate;

the distance control system (4), the distance control system (4) is connected with the deflection angle system (3), and the distance control system (4) is connected with the supporting bottom plate;

the opposite-grinding system (5), the opposite-grinding system (5) is connected with the deflection angle system (3), the opposite-grinding system (5) is connected with the distance control system (4), and the opposite-grinding system (5) is connected with the supporting baseplate;

the deflection angle system (3) comprises:

a fourth spur gear (3014);

the first straight gear (301), the first straight gear (301) is fixedly connected with the sixth transmission rod (3018);

the sixth transmission rod (3018), the sixth transmission rod (3018) is connected with the first driving wheel (302) fixedly, the sixth transmission rod (3018) is connected with the distance control system (4);

the outer ring surface of the first driving wheel (302) is in transmission connection with a second driving wheel (303) through a belt;

the axle center of the second driving wheel (303) is fixedly connected with the first driving rod (304);

the outer surface of the first transmission rod (304) is fixedly connected with a first electric slide block (305), and one side, far away from the second transmission wheel (303), of the outer surface of the first transmission rod (304) is fixedly connected with a second straight gear (306);

the first electric sliding block (305), the first electric sliding block (305) is connected with the base (1);

a second spur gear (306), the second spur gear (306) and the third spur gear (307) being engaged with each other;

the third straight gear (307), the third straight gear (307) is connected with the first screw rod (308) fixedly;

the first screw rod (308), the first screw rod (308) is rotatably connected with the common supporting seat (309), and the first screw rod (308) is in transmission connection with the first transmission block (3010);

the common supporting seat (309), the common supporting seat (309) is rotatably connected with the second screw rod (3013), and the common supporting seat (309) is connected with the base (1);

the first transmission block (3010), the first transmission block (3010) and first flexible supporting seat (3011) building in;

the first telescopic supporting seat (3011), the first telescopic supporting seat (3011) and first hexagonal prism (3012) building in;

the first hexagonal prism (3012), the first hexagonal prism (3012) is connected with the opposite grinding system (5);

the second screw rod (3013), the second screw rod (3013) and the fourth straight gear (3014) building in, the second screw rod (3013) and the second drive block (3015) carry on the transmission connection;

the second transmission block (3015), the second transmission block (3015) and the second flexible supporting seat (3016) building in, the second flexible supporting seat (3016) and the second hexagonal prism (3017) building in;

the second telescopic supporting seat (3016), the second telescopic supporting seat (3016) and the second hexagonal prism (3017) building in;

the second hexagonal prism (3017), the second hexagonal prism (3017) is connected with the opposite grinding system (5);

the distance control system (4) comprises:

the motor (401), the motor (401) is fixedly connected with the second electric slide block (402), and the axle center of the motor (401) is fixedly connected with the fifth straight gear (404);

the second electric sliding block (402), the second electric sliding block (402) is connected with the first sliding rail (403) in a sliding way;

the first sliding rail (403), the first sliding rail (403) is fixedly connected with the bottom support (4018);

the fifth spur gear (404), the fifth spur gear (404) and the sixth spur gear (405) are mutually meshed;

the sixth spur gear (405), the sixth spur gear (405) is in transmission connection with the third transmission wheel (406);

the outer ring of the third driving wheel (406) is in transmission connection with a fourth driving wheel (407) through a belt;

the fourth transmission wheel (407), the fourth transmission wheel (407) is in transmission connection with the first bevel gear (408);

the first bevel gear (408), the first bevel gear (408) and the second bevel gear (409) are meshed with each other;

the second bevel gear (409), the second bevel gear (409) is fixedly connected with the second transmission rod (4010);

the second transmission rod (4010), the second transmission rod (4010) is fixedly connected with the fifth driving wheel (4011), and the second transmission rod (4010) is fixedly connected with the third screw rod (4013);

the outer ring surface of the fifth driving wheel (4011) is in transmission connection with a sixth driving wheel (4012) through a belt;

a sixth driving wheel (4012), the sixth driving wheel (4012) is fixedly connected with the third driving rod (4014);

the third screw rod (4013), the third screw rod (4013) is in transmission connection with the first distance adjusting frame (4016), the third screw rod (4013) is in transmission connection with the second distance adjusting frame (4017), and the third screw rod (4013) is in rotation connection with the bottom support (4018);

the third transmission rod (4014), the third transmission rod (4014) is fixedly connected with a fourth screw rod (4015), the fourth screw rod (4015) is connected with a first interval adjusting frame (4016), and the fourth screw rod (4015) is connected with a second interval adjusting frame (4017);

the fourth screw rod (4015), the fourth screw rod (4015) and the bottom support (4018) are connected in a rotating mode;

the first distance adjusting frame (4016), the first distance adjusting frame (4016) is connected with the opposite grinding system (5);

the second distance adjusting frame (4017), the second distance adjusting frame (4017) is connected with the opposite grinding system (5);

the bottom support (4018), the bottom support (4018) is connected with the base (1), and the bottom support (4018) is connected with the sixth transmission rod (3018);

the opposite grinding system (5) comprises:

a first spring (5016);

a second spring (5017);

a third spring (5018);

a fourth spring (5019);

a fourth limit push block (5021);

a second sheave (5023);

a brick clamp (5029);

the seventh straight gear (501), the seventh straight gear (501) and the fourth transmission rod (502) are fixedly connected;

the fourth transmission rod (502), the fourth transmission rod (502) is fixedly connected with the seventh transmission wheel (503), and the fourth transmission rod (502) is connected with the bottom support (4018);

the outer ring surface of the seventh driving wheel (503) is in transmission connection with the eighth driving wheel (504) through a belt;

the eighth driving wheel (504), the eighth driving wheel (504) is connected with the fifth driving rod (505) fixedly;

a fifth transmission rod (505), the fifth transmission rod (505) is fixedly connected with the ninth driving wheel (506), and the fifth transmission rod (505) is connected with the base (1);

the outer ring surface of the ninth driving wheel (506) is in transmission connection with a tenth driving wheel (507) through a belt;

a tenth driving wheel (507), wherein the tenth driving wheel (507) is fixedly connected with the first double-groove deflection disc (508);

the first double-groove deflection disc (508), the first double-groove deflection disc (508) is fixedly connected with a first grooved wheel (509), one side of the first double-groove deflection disc (508) is in transmission connection with a first limiting push block (5011), the other side of the first double-groove deflection disc is in transmission connection with a second limiting push block (5012), and the first double-groove deflection disc (508) is in rotation connection with a first double-groove supporting plate (5013);

a first sheave (509), the first sheave (509) intermeshing with a toothed V-belt (5010);

a toothed V-belt (5010), the toothed V-belt (5010) being intermeshed with the second sheave (5023);

the first limiting push block (5011) is in transmission connection with the second pair of grinding frames (5015);

the second limiting push block (5012), the second limiting push block (5012) is in transmission connection with the first pair of grinding frames (5014);

the first double-groove supporting plate (5013), the first double-groove supporting plate (5013) is connected with the second sliding rail (5025), and the first double-groove supporting plate (5013) is connected with the common supporting seat (309);

the first pair of grinding frames (5014), the first pair of grinding frames (5014) is fixedly connected with a first spring (5016), the first pair of grinding frames (5014) is fixedly connected with a third spring (5018), the first pair of grinding frames (5014) is connected with a third limiting push block (5020), the first pair of grinding frames (5014) is connected with a first hexagonal prism (3012), and the first pair of grinding frames (5014) is connected with a second distance adjusting frame (4017);

one side of the second pair of grinding racks (5015) is connected with the second spring (5017), the other side of the second pair of grinding racks (5015) is connected with the fourth spring (5019), and the second pair of grinding racks (5015) is connected with the fourth limiting push block (5021);

the third limiting push block (5020), the third limiting push block (5020) is connected with a second double-groove deflection disc (5022), the second double-groove deflection disc (5022) is connected with a second grooved wheel (5023), and the second double-groove deflection disc (5022) is connected with a fourth limiting push block (5021);

a second double-groove deflection disc (5022), wherein the second double-groove deflection disc (5022) is in rotary connection with a second double-groove support plate (5024), and the second double-groove support plate (5024) is connected with a second sliding rail (5025);

the second double-groove supporting plate (5024), the second double-groove supporting plate (5024) is connected with the base (1);

the second sliding rail (5025), the second sliding rail (5025) and the third electric sliding block (5026) are connected in a sliding mode;

the third electric slider (5026), the third electric slider (5026) and the multi-stage rotating shaft plate group (5027) are in rotating connection;

the multi-stage rotating shaft plate group (5027), the multi-stage rotating shaft plate group (5027) is fixedly connected with the electric rotating shaft (5028), the electric rotating shaft (5028) and the electric rotating shaft (5028) are fixedly connected with the brick clamp (5029);

the adjacent sides of the first pair of grinding racks (5014) and the second pair of grinding racks (5015) are cambered surfaces;

the threads connected with the third screw rod (4013), the first distance adjusting frame (4016) and the second distance adjusting frame (4017) are reverse threads; the threads connected with the fourth screw rod (4015) and the first distance adjusting frame (4016) and the second distance adjusting frame (4017) are reverse threads.

2. The burr processing device for butt-grinding type tetrapod as claimed in claim 1, wherein the brick clamp (5029) comprises:

a second fixed shaft (502908);

the square clamp body (502901), the square clamp body (502901) contacts with the manual buckle (502902), the square clamp body (502901) is connected with the electric rotating shaft (5028);

the manual padlock (502902), the manual padlock (502902) is rotatably connected with the pull rod (502903) through a connecting rod;

the pull rod (502903), the pull rod (502903) is connected with the first connecting column (502904), and the pull rod (502903) is connected with the second connecting column (502906);

a first connecting post (502904), the first connecting post (502904) is rotatably connected with the second foot clip (502909);

a second connecting post (502906), the second connecting post (502906) being connected to the first foot clip (502907);

a first foot clip (502907), the first foot clip (502907) is rotatably connected with the second fixed shaft (502908), and the second fixed shaft (502908) is connected with the square clip body (502901);

a second foot clip (502909), the second foot clip (502909) being connected with the first stationary shaft (502905), and the first stationary shaft (502905) being connected with the square clip body (502901).

3. The burr treatment device for the counter-grinding type four-pin insulating brick according to claim 2, wherein the combination mechanism consisting of the manual latch (502902), the pull rod (502903), the first connecting column (502904), the first fixed shaft (502905), the second connecting column (502906), the first pin clamp (502907), the second fixed shaft (502908) and the second pin clamp (502909) is provided in two groups, and the two groups are symmetrically arranged at the left side and the right side of the square clamp body (502901).

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