CN112012506A

CN112012506A - Novel automatic conveyer of construction insulating brick

Info

Publication number: CN112012506A
Application number: CN202010953899.4A
Authority: CN
Inventors: 李风梅
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-09-11
Filing date: 2020-09-11
Publication date: 2020-12-01

Abstract

The invention relates to the field of buildings, in particular to a novel automatic conveyor for heat insulation bricks in building construction. The technical problems to be solved by the invention are as follows: provides a novel automatic conveyor for building construction insulating bricks. The technical scheme of the invention is as follows: a novel automatic conveyor for heat insulation bricks in building construction comprises a frame, a conveying belt, a feeding mechanism, a brick conveying mechanism, an auxiliary mechanism and the like; the side surface of the lower part of the frame is provided with a conveying belt. The device avoids the potential safety hazard existing in a mode of manually throwing and conveying, can convey the heat insulation bricks one by one, does not need workers on the heat insulation bricks to disassemble, and therefore improves certain working efficiency.

Description

Novel automatic conveyer of construction insulating brick

Technical Field

The invention relates to the field of buildings, in particular to a novel automatic conveyor for heat insulation bricks in building construction.

Background

When covering houses in some construction sites or rural areas at present, when reaching a certain height, workers covering the houses are not convenient to get off to take bricks, so that the workers can throw the bricks from the lower part to the upper part, the workers can continue working, and the workers can hit the lower part to have certain potential safety hazards due to the fact that hands slide.

Therefore need a mechanical device to replace artifically to changeing the piece and convey, but prior art uses the tower crane will change the mode upwards conveying through the wooden frame usually, still needs the manual work to dismantle after the brick is transported to go to lead to the step more loaded down with trivial details, the rural house of building and building some little houses can not use this type of machinery usually simultaneously, from the root cause problem solving.

To sum up, a novel automatic conveyor for building construction heat insulation bricks is needed to solve the above problems.

Disclosure of Invention

In order to overcome the defects that when a house is covered on some construction sites or rural areas at a certain height, workers covering the house cannot conveniently take bricks, so that the following workers throw the bricks from the lower part to the upper workers, the upper workers can continue working, and the lower workers can be hit due to the fact that hands are slippery, so that certain potential safety hazards exist, a mechanical device is needed to replace manual work to convey the rotary block, but in the prior art, a tower crane is generally used for conveying the rotary block upwards in a mode of passing through a wood frame, and manual work is needed to disassemble after the bricks are conveyed, so that the steps are more complicated, and meanwhile, the machinery cannot be used for building the rural areas and constructing small houses, and the problem cannot be solved from the root, the technical problem to be solved is solved: provides a novel automatic conveyor for building construction insulating bricks.

The technical scheme is as follows: a novel automatic conveyor for heat insulation bricks in building construction comprises a rack, a conveying belt, a feeding mechanism, a brick conveying mechanism, an auxiliary mechanism, a height control mechanism and heat insulation bricks; a conveying belt is arranged on the side surface of the lower part of the rack; a feeding mechanism is arranged at the middle lower part of the frame; the upper end of the rack is provided with a brick conveying mechanism and a height control mechanism, and the upper part of the brick conveying mechanism is connected with the height control mechanism; heat insulation bricks are placed on the brick conveying mechanism; the upper end of the height control mechanism is fixedly connected with the auxiliary mechanism.

Furthermore, the feeding mechanism also comprises a first driving lever, a second driving lever, a third driving lever, a fourth driving lever, a first support, a second support, a first sliding rod, a first spring, a first limiting block, a second limiting block, a feeding plate, a feeding push rod, a pushing block, a feeding box and an iron block; the lower part of the first deflector rod is fixedly connected with one side of the first bracket; the other side of the first bracket is fixedly connected with a third deflector rod; the inner side part of the first bracket is connected to one side of the first sliding rod in a sliding manner; the side part of the first bracket is fixedly connected with one end of a first spring, and the first sliding rod is positioned in the first spring; the middle part of the side of the first bracket is fixedly connected with a first limiting block; the other side of the outer surface of the first sliding rod is connected with the second bracket in a sliding manner, and the second bracket is connected with the other end of the first spring; one end of the second bracket is fixedly connected with the second deflector rod; the other end of the second bracket is fixedly connected with a fourth deflector rod; the middle part of the second bracket side is fixedly connected with a second limiting block; the outer surface of the first limiting block is connected to one side of the feeding plate in a sliding manner, and the other side of the feeding plate is connected to the second limiting block; the middle part of the feeding plate is fixedly connected with a feeding push rod; the outer surface of the feeding plate is connected with the feeding box in a sliding manner; the upper end of the feeding push rod is fixedly connected with the push block; the lower end of the feeding push rod is fixedly connected with the iron block; the upper part of the outer surface of the first deflector rod is connected with the frame in a sliding way; the upper part of the outer surface of the second deflector rod is connected with the frame in a sliding way; the upper part of the outer surface of the third deflector rod is connected with the frame in a sliding way; the upper part of the outer surface of the fourth driving lever is connected with the frame in a sliding way; the upper end of the feeding box is fixedly connected with the frame.

Furthermore, the brick conveying mechanism also comprises a first motor, a first gear, a second gear, a first conveying mechanism and a second conveying mechanism; the output shaft of the first motor is rotationally connected with the first gear; the outer surface of the first gear is meshed with the second gear; the middle part of the first gear is in transmission connection with the second transmission mechanism; the middle part of the second gear is connected with the second transmission mechanism in a transmission way; the lower part of the first conveying mechanism is fixedly connected with the rack; the upper part of the first conveying mechanism is connected with the height control mechanism; the lower part of the second conveying mechanism is fixedly connected with the rack; the upper part of the second conveying mechanism is connected with the height control mechanism.

Furthermore, the auxiliary mechanism also comprises a third bracket, a first supporting plate, a second motor, a transmission plate, a second sliding rod, a sliding frame, a sliding block, a first rotating shaft and a clamping mechanism; the upper part of the third bracket is fixedly connected with the first supporting plate; one end of the first supporting plate is fixedly connected to the second motor through a nut; the output shaft of the second motor is rotationally connected to the transmission plate, and the transmission plate is connected to the first supporting plate; the inner surface of the transmission plate is in transmission connection with the second slide bar; the second sliding rod is fixedly connected with the sliding frame; the upper part of the outer surface of the sliding frame is connected with one end of the sliding block in a sliding way; the lower part of the sliding frame is connected with the clamping mechanism in a transmission way; the other end of the sliding block is rotatably connected to one end of the first rotating shaft, and the other end of the first rotating shaft is connected to the third bracket; the lower end of the third support is fixedly connected with the height control mechanism.

Furthermore, the height control mechanism also comprises a first frame, a second support plate, a third support plate, a first telescopic frame, a first electric push rod, a second telescopic frame, a second electric push rod, a fourth support plate, a fifth support plate, a fourth support and a fifth support; the middle part of one end of the first frame is fixedly connected with the second supporting plate; the middle part of the other end of the first frame is fixedly connected with a third supporting plate; the lower end of the second supporting plate is fixedly connected with one end of the first telescopic frame; the lower end of the third supporting plate is fixedly connected with one end of the second telescopic frame; a first electric push rod is arranged in the first telescopic frame; the other end of the first expansion bracket is fixedly connected with the fourth supporting plate; a second electric push rod is arranged in the second telescopic frame; the other end of the second expansion bracket is fixedly connected to the fifth supporting plate; the lower end of the fourth supporting plate is fixedly connected with the fourth bracket; the lower end of the fifth supporting plate is fixedly connected to the fifth bracket; the lower end of the fourth bracket is fixedly connected with the frame; the lower end of the fifth support is fixedly connected with the frame.

Further, the first conveying mechanism further comprises a first chain wheel, a first shaft rod, a second chain wheel, a sixth supporting plate, a first chain, a feeding rod, a second chain, a third chain wheel, a fourth chain wheel, a second shaft rod, a fifth chain wheel, a third shaft rod, a sixth chain wheel, a seventh chain wheel, a fourth shaft rod, a seventh supporting plate, an eighth chain wheel, an eighth supporting plate, a second spring, a third slide rod, a fourth slide rod, a first supporting rod, a third spring, a fifth slide rod, a sixth slide rod, a second supporting rod and a ninth supporting plate; the first chain wheel axis is rotationally connected to one side of the outer surface of the first shaft rod; the outer surface of the first chain wheel is in transmission connection with one side of the lower part of the first chain; the first chain wheel axis is rotationally connected with the ninth supporting plate; the other side of the outer surface of the first shaft rod is connected with one end of a second chain wheel in a transmission way; the other end of the second chain wheel is connected with the sixth supporting plate in a rotating way; the outer surface of the second chain wheel is connected to one side of the lower part of the second chain in a transmission way; the first chain is fixedly connected to one end of the feeding rod, and the other end of the feeding rod is connected to the second chain; the upper part of the first chain is in transmission connection with a third chain wheel; the lower middle part of the first chain is in transmission connection with the fifth chain wheel; the other side of the lower part of the first chain is in transmission connection with a seventh chain wheel; the upper part of the second chain is in transmission connection with a fourth chain wheel; the lower middle part of the second chain is in transmission connection with the sixth chain wheel; the other side of the lower part of the second chain is in transmission connection with an eighth chain wheel; the axle center of the third chain wheel is rotationally connected to one end of the second shaft rod, and the other end of the second shaft rod is connected to the fourth chain wheel; the axis of the fifth chain wheel is rotationally connected to one end of the third shaft rod, and the other end of the third rotating shaft is connected to the sixth chain wheel; the axle center of one end of the seventh chain wheel is rotationally connected to one end of the fourth shaft rod, and the other end of the fourth shaft rod is connected to one end of the eighth chain wheel; the other end of the seventh chain wheel is connected with a seventh supporting plate in a rotating way; the upper part of the seventh supporting plate side is fixedly connected with one end of a second spring; the middle lower part in the seventh supporting plate is connected with the third slide bar in a sliding manner, and one end of the third slide bar is connected with the ninth supporting plate; the inner lower part of the seventh supporting plate is connected with the fourth sliding rod in a sliding manner, and one end of the fourth sliding rod is connected with the ninth supporting plate; the other end of the eighth chain wheel is connected with an eighth supporting plate in a rotating way; the upper part of the eighth supporting plate side is fixedly connected with one end of a third spring; the middle lower part in the eighth supporting plate is connected with the fifth sliding rod in a sliding manner, and one end of the fifth sliding rod is connected with the sixth supporting plate; the inner lower part of the eighth supporting plate is connected with the sixth sliding rod in a sliding manner, and one end of the sixth sliding rod is connected with the sixth supporting plate; the other end of the second spring is fixedly connected with the first supporting rod, the middle lower part of the first supporting rod is connected with the third sliding rod, and the lower part of the first supporting rod is connected with the fourth sliding rod; the other end of the third spring is connected with the second supporting rod, the middle lower part of the second supporting rod is connected with the fifth sliding rod, and the lower part of the second supporting rod is connected with the sixth sliding rod; the lower end of the sixth supporting plate is fixedly connected with the frame; both ends of the second shaft lever are rotatably connected to the height control mechanism; both ends of the third shaft rod are rotatably connected to the rack; the lower end of the seventh supporting plate is fixedly connected with the frame; the lower end of the eighth supporting plate is fixedly connected with the rack; the lower end of the first supporting rod is fixedly connected with the rack; the lower end of the second supporting rod is fixedly connected with the rack; the lower end of the ninth supporting plate is fixedly connected with the frame.

Furthermore, the clamping mechanism also comprises a support plate, a second frame, a bidirectional cylinder, a first transmission rod, a third limiting block, a second transmission rod, a second rotating shaft, a sixth bracket, a third frame, a seventh sliding rod, an eighth sliding rod, a fourth spring and a fifth spring; the middle part of the upper end of the support plate is fixedly connected with the second frame; the second frame is fixedly connected to the bidirectional cylinder through a nut; the output shaft of the bidirectional cylinder is in transmission connection with one side of the first transmission rod; the middle part of the outer surface of the first transmission rod is connected with a third limiting block in a sliding manner, and the lower end of the third limiting block is connected with the support plate; the other side of the first transmission rod is in transmission connection with the second transmission rod; the upper part of the second transmission rod is rotatably connected to the second rotating shaft, and both sides of the second rotating shaft are connected to the support plate; the lower part of the second transmission rod is in transmission connection with one side of the sixth bracket; the other side of the sixth bracket is fixedly connected with the clamping plate; the middle part of one side of the clamping plate is fixedly connected with one end of the seventh sliding rod; the middle part of the other side of the clamping plate is fixedly connected with one end of the eighth sliding rod; the outer surface of the seventh sliding rod is connected to one side of the third frame in a sliding manner, and the other side of the third frame is connected to one side of the eighth sliding rod; the other end of the seventh sliding rod is fixedly connected with one end of a fourth spring, and the other end of the fourth spring is connected with the third frame; the other side of the eighth sliding rod is fixedly connected with one end of a fifth spring, and the other end of the fifth spring is connected with the third frame; the middle part of the second frame is fixedly connected with the sliding frame; the clamping plate is contacted with the heat insulation brick.

Furthermore, the first slide bar and the first spring are provided with three groups, and the first limiting block, the second limiting block and the feeding plate are provided with two groups.

Further, all be provided with the spout on first backup pad and the driving plate.

Furthermore, the first transmission rod, the third limiting block, the second transmission rod, the second rotating shaft, the sixth support, the third frame, the seventh sliding rod, the eighth sliding rod, the fourth spring, the fifth spring and the clamping plate are all provided with two groups.

The invention has the following advantages: 1. in order to solve the problems that in the prior art, when a certain height is reached in some construction sites or rural houses, workers covering the houses cannot conveniently get down to take bricks, so that the following workers throw bricks from the lower part to the upper workers, the upper workers can continue to work, certain potential safety hazards exist in the following workers due to the fact that hands are slippery, and therefore the rotary blocks need to be conveyed by a mechanical device instead of manpower.

2. The brick conveying mechanism comprises a feeding mechanism, a brick conveying mechanism, an auxiliary mechanism and a height control mechanism, wherein when the brick conveying mechanism is used, the insulating bricks are conveyed to the brick conveying mechanism through mutual matching of the feeding mechanism and the brick conveying mechanism, then the insulating bricks are conveyed to the bottom of the auxiliary mechanism through the brick conveying mechanism, finally the insulating bricks are placed beside a construction worker through the auxiliary mechanism, after the construction worker builds a wall to a certain height, the brick conveying mechanism is not enough to convey the insulating bricks to a position convenient for the construction worker, and at the moment, the brick conveying mechanism and the auxiliary mechanism are driven to move upwards through the height control mechanism, so that the insulating bricks can be conveyed to a higher place.

3. Thereby reached and to have replaced the manual work to convey the workman's next door of higher authority lid house with insulating brick to avoided the artifical potential safety hazard that exists through the mode of throwing away the conveying, the device can convey insulating brick one by one simultaneously, the workman that does not need above disassembles the insulating brick that goes on will conveying, thereby certain work efficiency has been improved, the device is convenient for remove simultaneously and is applicable to rural and city building, the effect of the artifical potential safety hazard that exists through the mode of throwing away when consequently having avoided rural lid house.

Drawings

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

FIG. 2 is a schematic perspective view of the feeding mechanism of the present invention;

FIG. 3 is a schematic perspective view of the brick feeding mechanism of the present invention;

FIG. 4 is a schematic perspective view of the auxiliary mechanism of the present invention;

FIG. 5 is a schematic perspective view of the height control mechanism of the present invention;

FIG. 6 is a schematic perspective view of a first conveying mechanism according to the present invention;

fig. 7 is a schematic perspective view of the clamping mechanism of the present invention.

Reference numerals: 1_ frame, 2_ conveyer belt, 3_ loading mechanism, 4_ brick feeding mechanism, 5_ auxiliary mechanism, 6_ height control mechanism, 7_ insulating brick, 301_ first deflector rod, 302_ second deflector rod, 303_ third deflector rod, 304_ fourth deflector rod, 305_ first bracket, 306_ second bracket, 307_ first slide bar, 308_ first spring, 309_ first stopper, 3010_ second stopper, 3011_ feed plate, 3012_ feed pusher rod, 3013_ push block, 3014_ feed box, 3015_ iron block, 401_ first motor, 402_ first gear, 403_ second gear, 404_ first conveying mechanism, 405_ second conveying mechanism, 501_ third bracket, 502_ first support plate, 503_ second motor, 504_ drive plate, 505_ second slide bar, 506_ slide bar, 507_ slide block, 508_ first rotating shaft, 509_ holding mechanism, 601_ first frame, 602_ second support plate, 603_ third support plate, 604_ first telescoping rack, 605_ first motorized pusher bar, 606_ second telescoping rack, 607_ second motorized pusher bar, 608_ fourth support plate, 609_ fifth support plate, 6010_ fourth support, 6011_ fifth support, 40401_ first sprocket, 40402_ first shaft, 40403_ second sprocket, 40404_ sixth support plate, 40405_ first chain, 40406_ feeder bar, 40407_ second chain, 40408_ third sprocket, 40409_ fourth sprocket, 40410_ second shaft, 40411_ fifth sprocket, 40412_ third shaft, 40413_ sixth sprocket, 40414_ seventh sprocket, 40415_ fourth shaft, 40416_ seventh support plate, 40417_ eighth sprocket, 40418_ eighth support plate, 40419_ second spring, 40420_ third slide bar, 40421_ fourth support plate, 40422_ first support bar, 40423, 40424_ fifth slide bar support plate, 40424_ ninth support bar, 40426, 50901_ fulcrum plate, 50902_ second frame, 50903_ bidirectional cylinder, 50904_ first transmission rod, 50905_ third limiting block, 50906_ second transmission rod, 50907_ second rotating shaft, 50908_ sixth bracket, 50909_ third frame, 50910_ seventh sliding rod, 50911_ eighth sliding rod, 50912_ fourth spring, 50913_ fifth spring and 50914_ splint.

Detailed Description

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

Example 1

A novel automatic conveyor for heat insulation bricks in building construction is shown in figures 1-7 and comprises a frame 1, a conveying belt 2, a feeding mechanism 3, a brick conveying mechanism 4, an auxiliary mechanism 5, a height control mechanism 6 and heat insulation bricks 7; a conveying belt 2 is arranged on the side surface of the lower part of the frame 1; a feeding mechanism 3 is arranged at the middle lower part of the frame 1; the upper end of the rack 1 is provided with a brick conveying mechanism 4 and a height control mechanism 6, and the upper part of the brick conveying mechanism 4 is connected with the height control mechanism 6; the brick conveying mechanism 4 is provided with a heat insulation brick 7; the upper end of the height control mechanism 6 is fixedly connected with the auxiliary mechanism 5.

The working principle is as follows: when the device is used, the device is firstly installed in a construction site to be used, then an external control screen is connected with a power supply, then the internal electric power of the device is started through the control screen, at the moment, the heat insulation bricks 7 are manually placed on the conveying belt 2 in sequence, then the conveying belt 2 is started through the control screen, so that the heat insulation bricks 7 are conveyed into the feeding mechanism 3 through the conveying belt 2, then the heat insulation bricks 7 are conveyed onto the brick conveying mechanism 4 through the mutual matching between the feeding mechanism 3 and the brick conveying mechanism 4, at the moment, the heat insulation bricks 7 are conveyed to the bottom of the auxiliary mechanism 5 through the brick conveying mechanism 4, finally the auxiliary mechanism 5 is started through the control screen, so that the heat insulation bricks 7 are clamped to the place to be used through the auxiliary mechanism 5, along with the increase of the height of a building wall, the height control mechanism 6 is started through the control screen, so that the brick conveying mechanism 4 and the auxiliary mechanism 5 are, thereby can convey insulating brick 7 to higher place, when the device is not when needs work, control high control mechanism 6 through the control screen and drive brick conveying mechanism 4 and complementary unit 5 and move down, brick conveying mechanism 4 can slide to both sides on frame 1 by oneself this moment and make its normal position that restores, the device can replace the manual work to convey insulating brick 7 to the workman next door of the above-mentioned house lid, thereby avoided the artifical potential safety hazard that exists through the mode of throwing the conveying, the device can convey insulating brick 7 one by one simultaneously, the workman that does not need above need to be in the insulating brick 7 of will conveying go up and disassemble, thereby certain work efficiency has been improved, the device is convenient for remove simultaneously and is applicable to rural and city building, consequently the artifical potential safety hazard that exists through the mode of throwing when having avoided rural house lid.

The feeding mechanism 3 further comprises a first shifting lever 301, a second shifting lever 302, a third shifting lever 303, a fourth shifting lever 304, a first support 305, a second support 306, a first sliding rod 307, a first spring 308, a first limiting block 309, a second limiting block 3010, a feeding plate 3011, a feeding push rod 3012, a push block 3013, a feeding box 3014 and an iron block 3015; the lower part of the first driving lever 301 is fixedly connected to one side of the first bracket 305; the other side of the first bracket 305 is fixedly connected to the third driving lever 303; the inner side part of the first bracket 305 is connected with one side of the first sliding rod 307 in a sliding way; the side of the first bracket 305 is fixed at one end of the first spring 308, and the first sliding rod 307 is located in the first spring 308; the middle part of the first bracket 305 side is fixedly connected to a first limit block 309; the other side of the outer surface of the first sliding bar 307 is slidably connected to the second bracket 306, and the second bracket 306 is connected to the other end of the first spring 308; one end of the second bracket 306 is fixedly connected to the second shift lever 302; the other end of the second bracket 306 is fixedly connected with the fourth driving lever 304; the middle part of the second bracket 306 side is fixedly connected with a second limiting block 3010; the outer surface of the first limiting block 309 is slidably connected to one side of the feeding plate 3011, and the other side of the feeding plate 3011 is connected to the second limiting block 3010; the middle part of the feeding plate 3011 is fixedly connected to a feeding push rod 3012; the outer surface of the feeding plate 3011 is connected with the feeding box 3014 in a sliding way; the upper end of the feeding push rod 3012 is fixedly connected to the push block 3013; the lower end of the feeding push rod 3012 is fixedly connected to the iron block 3015; the upper part of the outer surface of the first driving lever 301 is connected with the frame 1 in a sliding way; the upper part of the outer surface of the second driving lever 302 is connected with the frame 1 in a sliding way; the upper part of the outer surface of the third driving lever 303 is connected with the frame 1 in a sliding way; the upper part of the outer surface of the fourth driving lever 304 is connected with the frame 1 in a sliding way; the upper end of the feed box 3014 is fixed on the frame 1.

When the conveyer belt 2 conveys the heat insulation bricks 7 into the feed box 3014, the brick feeding mechanism 4 simultaneously pulls the first shift lever 301, the second shift lever 302, the third shift lever 303 and the fourth shift lever 304, at this time, the first shift lever 301 and the third shift lever 303 simultaneously push the first bracket 305 to slide inwards on the first slide bar 307, at the same time, the second shift lever 302 and the fourth shift lever 304 simultaneously push the second bracket 306 to slide inwards, so that the first spring 308 is compressed, the first stopper 309 and the second stopper 3010 are driven to move inwards, so that the feed plate 3011 is pressed, the feed plate 3011 is pushed by the first stopper 309 and the second stopper 3010 to slide on the rack 1 so as to move upwards, at the same time, the feed push rod 3012 is driven by the feed plate 3011 to move upwards, so that the push block 3013 moves upwards, at this time, the heat insulation bricks 7 in the feed box 3014 are pushed upwards by the push block 3013, after the insulating brick 7 is driven by the brick conveying mechanism 4 to move upwards, the brick conveying mechanism 4 cannot limit the first driving lever 301, the second driving lever 302, the third driving lever 303 and the fourth driving lever 304, so that the first driving lever 301, the second driving lever 302, the third driving lever 303 and the fourth driving lever 304 are pushed back to the original position through the elastic force of the first spring 308, the first limiting block 309 and the second limiting block 3010 cannot limit the insulating brick, meanwhile, the feeding plate 3011 is pulled back to the original position through the gravity of the iron block 3015, when the conveying belt 2 conveys another insulating brick 7 into the feeding box 3014, the brick conveying mechanism 4 can secondarily stir the first driving lever 301, the second driving lever 302, the third driving lever 303 and the fourth driving lever 304 to convey the insulating brick 7 of the conveying belt 2, and the brick conveying mechanism can convey the insulating brick 7 of the conveying belt 2 to the brick conveying mechanism 4 through the cooperation with the brick conveying mechanism 4.

The brick conveying mechanism 4 further comprises a first motor 401, a first gear 402, a second gear 403, a first conveying mechanism 404 and a second conveying mechanism 405; the output shaft of the first motor 401 is rotationally connected with a first gear 402; the outer surface of the first gear 402 is meshed with the second gear 403; the middle part of the first gear 402 is connected with a second transmission mechanism 405 in a transmission way; the middle part of the second gear 403 is connected with a second transmission mechanism 405 in a transmission way; the lower part of the first conveying mechanism 404 is fixedly connected with the rack 1; the upper part of the first conveying mechanism 404 is connected with the height control mechanism 6; the lower part of the second transmission mechanism 405 is fixedly connected with the frame 1; the upper part of the second transfer mechanism 405 is connected to the height control mechanism 6.

When the mechanism works, a first motor 401 is started through a control panel to drive a first gear 402 to rotate, so that a second transmission mechanism 405 is driven to operate through the rotating first gear 402, then a second gear 403 meshed with the first gear 402 is driven to rotate through the rotating first gear 402, at the moment, the rotating second gear 403 drives the first transmission mechanism 404 to operate, then the first transmission mechanism 404 and the second transmission mechanism 405 are matched with the feeding mechanism 3 to transmit heat insulation bricks 7 in the feeding mechanism 3, the heat insulation bricks 7 in the feeding mechanism 3 are transmitted to the bottom of an auxiliary mechanism 5, after a construction worker drives the wall to a certain height, the first transmission mechanism 404 and the second transmission mechanism 405 to move upwards through a height control mechanism 6, at the moment, the first transmission mechanism 404 and the second transmission mechanism 405 move upwards, meanwhile, the bottom of the device can slide inwards on the rack 1, so that the first conveying mechanism 404 and the second conveying mechanism 405 can convey the heat insulation bricks 7 to a higher position, when the height control mechanism 6 moves downwards, the first conveying mechanism 404 and the second conveying mechanism 405 can move in the opposite direction on the rack 1, so that the device can work in cooperation with the height control mechanism 6, the device can be matched with the feeding mechanism 3 to convey the heat insulation bricks 7 to the bottom of the auxiliary mechanism 5, and can be matched with the height control mechanism 6 to convey the heat insulation bricks 7 to a certain height, so that construction workers can use the heat insulation bricks 7 more conveniently.

The auxiliary mechanism 5 further comprises a third bracket 501, a first support plate 502, a second motor 503, a transmission plate 504, a second slide bar 505, a sliding frame 506, a sliding block 507, a first rotating shaft 508 and a clamping mechanism 509; the upper part of the third bracket 501 is fixedly connected with the first supporting plate 502; one end of the first supporting plate 502 is fixedly connected to the second motor 503 through a nut; an output shaft of the second motor 503 is rotatably connected to the transmission plate 504, and the transmission plate 504 is connected to the first support plate 502; the inner surface of the transmission plate 504 is in transmission connection with a second slide bar 505; the second sliding rod 505 is fixedly connected with the sliding frame 506; the upper part of the outer surface of the sliding frame 506 is connected with one end of the sliding block 507 in a sliding way; the lower part of the sliding frame 506 is connected with a clamping mechanism 509 in a transmission way; the other end of the slider 507 is rotatably connected to one end of a first rotating shaft 508, and the other end of the first rotating shaft 508 is connected to the third bracket 501; the lower end of the third support 501 is fixedly connected to the height control mechanism 6.

When the brick conveying mechanism 4 conveys the heat insulation brick 7 to the bottom of the holding mechanism 509, the holding mechanism 509 is started through the control panel, then the heat insulation brick 7 is clamped through the holding mechanism 509, at the moment, the second motor 503 is started through the control panel to drive the transmission plate 504 to rotate, then the second sliding rod 505 is driven by the rotating transmission plate 504 to slide on the first supporting plate 502, so that the sliding frame 506 is driven to slide upwards on the sliding block 507, after the second sliding rod 505 slides to the other side on the first supporting plate 502, the first rotating shaft 508 is driven by the sliding frame 506 to turn over, so that the sliding frame 506 is driven to turn over, at the moment, the sliding frame 506 drives the holding mechanism 509 to move leftwards and rightwards, so that the heat insulation brick 7 is placed beside a construction worker through the holding mechanism 509.

The height control mechanism 6 further comprises a first frame 601, a second support plate 602, a third support plate 603, a first telescopic frame 604, a first electric push rod 605, a second telescopic frame 606, a second electric push rod 607, a fourth support plate 608, a fifth support plate 609, a fourth support 6010 and a fifth support 6011; the middle part of one end of the first frame 601 is fixedly connected to the second support plate 602; the middle part of the other end of the first frame 601 is fixedly connected with a third supporting plate 603; the lower end of the second supporting plate 602 is fixedly connected to one end of the first telescopic frame 604; the lower end of the third supporting plate 603 is fixedly connected to one end of the second telescopic frame 606; a first electric push rod 605 is arranged in the first expansion bracket 604; the other end of the first expansion bracket 604 is fixedly connected to the fourth supporting plate 608; a second electric push rod 607 is arranged in the second telescopic frame 606; the other end of the second expansion bracket 606 is fixedly connected to the fifth support plate 609; the lower end of the fourth supporting plate 608 is fixedly connected to the fourth support 6010; the lower end of the fifth support plate 609 is fixedly connected to the fifth support 6011; the lower end of the fourth support 6010 is fixedly connected to the frame 1; the lower end of the fifth support 6011 is fixedly connected to the frame 1.

Along with the construction of construction workers, the wall surface of the building is higher and higher, when the brick conveying mechanism 4 is not enough to convey the heat insulation bricks 7 to the height equivalent to the height of the construction workers, the first electric push rod 605 and the second electric push rod 607 are simultaneously started through the control screen, so that the first telescopic frame 604 is controlled to extend through the first electric push rod 605, the second electric push rod 607 is controlled to extend through the second telescopic frame 606, the second support plate 602 and the third support plate 603 are driven to move upwards, at the moment, the first frame 601 is driven to move upwards through the second support plate 602 and the third support plate 603, so that the brick conveying mechanism 4 is pulled to extend through the first frame 601, and the auxiliary mechanism 5 is driven to move upwards, so that the brick conveying mechanism 4 can convey the heat insulation bricks 7 to a higher place, and the auxiliary mechanism 5 can continuously convey the heat insulation bricks 7 to the sides of the construction workers.

The first conveying mechanism 404 further comprises a first sprocket 40401, a first shaft 40402, a second sprocket 40403, a sixth support plate 40404, a first chain 40405, a feeding bar 40406, a second chain 40407, a third sprocket 40408, a fourth sprocket 40409, a second shaft 40410, a fifth sprocket 40411, a third shaft 40412, a sixth sprocket 40413, a seventh sprocket 40414, a fourth shaft 40415, a seventh support plate 40416, an eighth sprocket 40417, an eighth support plate 40418, a second spring 40419, a third slide bar 40420, a fourth slide bar 40421, a first support bar 40422, a third spring 40423, a fifth slide bar 40424, a sixth slide bar 40425, a second support bar 40426, and a ninth support plate 40427; the axle center of the first chain wheel 40401 is rotationally connected to one side of the outer surface of the first shaft 40402; the outer surface of the first chain wheel 40401 is connected with one side of the lower part of the first chain 40405 in a transmission way; the first chain wheel 40401 is connected with the ninth supporting plate 40427 in a rotating way at the axle center; the other side of the outer surface of the first shaft 40402 is connected with one end of a second chain wheel 40403 in a transmission way; the other end of the second chain wheel 40403 is rotatably connected to a sixth supporting plate 40404; the outer surface of the second chain wheel 40403 is in transmission connection with one side of the lower part of the second chain 40407; the first chain 40405 is fixedly connected to one end of the feeding rod 40406, and the other end of the feeding rod 40406 is connected to the second chain 40407; the upper part of the first chain 40405 is in transmission connection with a third chain wheel 40408; the lower middle part of the first chain 40405 is in transmission connection with a fifth chain wheel 40411; the other side of the lower part of the first chain 40405 is in transmission connection with a seventh chain wheel 40414; the upper part of the second chain 40407 is connected with a fourth chain wheel 40409 in a transmission way; the lower middle part of the second chain 40407 is in transmission connection with a sixth chain wheel 40413; the other side of the lower part of the second chain 40407 is connected with an eighth chain wheel 40417 in a transmission way; the third chain wheel 40408 is pivotally connected to one end of the second shaft 40410, and the other end of the second shaft 40410 is connected to the fourth chain wheel 40409; the fifth chain wheel 40411 is pivotally connected to one end of the third shaft 40412, and the other end of the third shaft is connected to the sixth chain wheel 40413; one end of the seventh sprocket 40414 is pivotally connected to one end of the fourth shaft lever 40415, and the other end of the fourth shaft lever 40415 is connected to one end of the eighth sprocket 40417; the other end of the seventh chain wheel 40414 is connected with a seventh supporting plate 40416 in a rotating way; the upper part of the seventh supporting plate 40416 side is fixedly connected to one end of a second spring 40419; the inner middle lower portion of the seventh support plate 40416 is slidably connected to the third slide bar 40420, and one end of the third slide bar 40420 is connected to the ninth support plate 40427; the inner lower portion of the seventh support plate 40416 is slidably connected to the fourth slide bar 40421, and one end of the fourth slide bar 40421 is connected to the ninth support plate 40427; the other end of the eighth chain wheel 40417 is connected with an eighth supporting plate 40418 in a rotating way; the upper part of the eighth supporting plate 40418 side is fixedly connected to one end of the third spring 40423; the inner middle lower portion of the eighth support plate 40418 is slidably connected to the fifth sliding bar 40424, and one end of the fifth sliding bar 40424 is connected to the sixth support plate 40404; the inner lower portion of the eighth support plate 40418 is slidably connected to the sixth slide bar 40425, and one end of the sixth slide bar 40425 is connected to the sixth support plate 40404; the other end of the second spring 40419 is fixedly connected to the first supporting bar 40422, the middle lower portion of the first supporting bar 40422 is connected to the third sliding bar 40420, and the lower portion of the first supporting bar 40422 is connected to the fourth sliding bar 40421; a third spring 40423 is connected at another end to the second strut 40426, and a lower middle portion of the second strut 40426 is connected to the fifth slide bar 40424, and a lower portion of the second strut 40426 is connected to the sixth slide bar 40425; the lower end of the sixth supporting plate 40404 is fixedly connected to the frame 1; both ends of the second shaft lever 40410 are rotatably connected to the height control mechanism 6; both ends of the third shaft 40412 are rotatably connected to the frame 1; the lower end of the seventh supporting plate 40416 is fixedly connected to the frame 1; the lower end of the eighth supporting plate 40418 is fixedly connected to the frame 1; the lower end of the first supporting rod 40422 is fixedly connected with the frame 1; the lower end of the second supporting rod 40426 is fixedly connected to the frame 1; the lower end of the ninth supporting plate 40427 is fixed to the frame 1.

When the mechanism works, the first chain wheel 40401 is driven to rotate by the rotating second gear 403, so as to drive the first shaft 40402 to rotate, at this time, the moving first chain 40405 drives the third chain wheel 40408 and the seventh chain wheel 40414 to start rotating, at the same time, the first chain 40405 is limited by the fifth chain wheel 40411, so that the first chain 40405 is driven upwards, so as to circulate the first chain 40405, at the same time, the rotating first shaft 40402 drives the second chain wheel 40403 to rotate, at the same time, the rotating third chain wheel 40408 drives the second shaft 40410 to rotate, so as to drive the fourth chain wheel 40409 to rotate, at the same time, the rotating seventh chain wheel 414 drives the fourth shaft 4040415 to rotate, so as to drive the eighth chain wheel 40417 to rotate, at this time, the rotating second chain wheel 40403, the fourth chain wheel 40409 and the eighth chain wheel 40417 drive the second chain 40407 to rotate, at the same time, the sixth chain wheel 40413 limits the first chain wheel 40402 to rotate, thereby the second chain 40407 and the first chain 40405 are circulated in the same direction, at this time, the feeding rod 40406 is driven to move by the operation of the first chain 40405 and the second chain 40407, so that the feeding rod 40406 shifts the feeding mechanism 3, at this time, the feeding mechanism 3 can convey the insulating brick 7 to the rack 1, then the bottom of the insulating brick 7 is blocked by the feeding rod 40406, at the same time, the feeding rod 40406 is driven to move by the second chain 40407 and the first chain 40405, the insulating brick 7 is conveyed to the bottom of the auxiliary mechanism 5, along with the construction of a construction worker, when the wall surface of the building is higher and higher, the height control mechanism 6 can pull the second shaft 40410 to move upwards, so that the first chain 40405 and the second chain 40407 are pulled to move upwards by the third chain 40408 and the fourth chain 40409, at this time, the seventh chain 40414 and the eighth chain 40417 are pulled by the first chain 40405 and the second chain 40407 to move upwards, thereby causing the seventh support plate 40416 and the eighth support plate 40418 to slide on the third slide bar 40420, the fourth slide bar 40421, the fifth slide bar 40424 and the sixth slide bar 40425, respectively, thereby elongating the second spring 40419 and the third spring 40423, and when the height control mechanism 6 causes the second shaft 40410 to move downward, the second spring 40419 and the third spring 40423 will pull the seventh support plate 40416 and the eighth support plate 40418 to slide in opposite directions on the third slide bar 40420, the fourth slide bar 40421, the fifth slide bar 40424 and the sixth slide bar 40425, thereby causing the seventh sprocket 40414 and the eighth sprocket 40417 to pull the first chain 40405 and the second chain 40407 to move downward and return to their original positions, thereby completing the transfer of the high place.

The clamping mechanism 509 further comprises a support 50901, a second frame 50902, a bidirectional cylinder 50903, a first transmission rod 50904, a third limit block 50905, a second transmission rod 50906, a second rotating shaft 50907, a sixth support 50908, a third frame 50909, a seventh sliding rod 50910, an eighth sliding rod 50911, a fourth spring 50912 and a fifth spring 50913; the middle part of the upper end of the support plate 50901 is fixedly connected with the second frame 50902; the second frame 50902 is fixedly connected to the bidirectional cylinder 50903 through a nut; an output shaft of the bidirectional cylinder 50903 is in transmission connection with one side of the first transmission rod 50904; the middle part of the outer surface of the first transmission rod 50904 is connected with a third limit block 50905 in a sliding mode, and the lower end of the third limit block 50905 is connected with the support plate 50901; the other side of the first transmission rod 50904 is in transmission connection with a second transmission rod 50906; the upper part of a second transmission rod 50906 is rotatably connected with a second rotating shaft 50907, and both sides of the second rotating shaft 50907 are connected with the support plate 50901; the lower part of the second transmission rod 50906 is in transmission connection with one side of a sixth bracket 50908; the other side of the sixth bracket 50908 is fixedly connected to a clamping plate 50914; the middle part of one side of the clamping plate 50914 is fixedly connected with one end of a seventh sliding bar 50910; the middle part of the other side of the clamping plate 50914 is fixedly connected with one end of the eighth sliding rod 50911; the outer surface of the seventh slide bar 50910 is slidably connected to one side of a third frame 50909, and the other side of the third frame 50909 is connected to one side of an eighth slide bar 50911; the other end of the seventh slide bar 50910 is fixed to one end of a fourth spring 50912, and the other end of the fourth spring 50912 is connected to a third frame 50909; the other side of the eighth sliding bar 50911 is fixed to one end of a fifth spring 50913, and the other end of the fifth spring 50913 is connected to a third frame 50909; the middle part of the second frame 50902 is fixedly connected with the sliding frame 506; the clamping plate 50914 contacts the insulating brick 7.

When the brick conveying mechanism 4 is driven to the bottom of the mechanism, the control panel operates the bidirectional air cylinder 50903 to push, the first transmission rod 50904 slides on the third limit block 50905, the second transmission rod 50906 is pushed outwards, the second transmission rod 50906 rotates on the support 50901 through the second rotating shaft 50907, the bottom of the second transmission rod moves in the opposite direction to push the sixth support 50908, the first transmission rod 50904 pushes the clamping plate 50914 to be close to the middle, the insulating brick 7 conveyed by the brick conveying mechanism 4 is clamped through the clamping plate 50914, the seventh sliding rod 50910 and the eighth sliding rod are driven to slide on the third frame 50909, the fourth spring 50912 and the fifth spring 50913 are lengthened, and the third transmission rod 50905, the second transmission rod 50906, the second rotating shaft 50907, the sixth support 50908, the third frame 50909, the seventh sliding rod 50910, the eighth sliding rod 50911 and the eighth sliding rod 50911 are driven by the two groups of the first transmission rod 50904, the third sliding rod 50905, the second rotating shaft 50906, the second rotating shaft 50907, the sixth, The fourth spring 50912, the fifth spring 50913 and the clamping plate 50914 cooperate to clamp the insulating brick 7 by two sets of clamping plates 50914. when the carriage 506 transports the mechanism to the side of the worker, the bi-directional cylinder 50903 is controlled by the control panel to retract, the fourth spring 50912 and the fifth spring 50913 return to their original positions and simultaneously turn outwardly by the second drive rod 50906, thereby pulling the clamping plate 50914 to move in the opposite direction, at which time the clamping plate 50914 will not clamp the insulating brick 7, thereby placing the insulating brick 7 to the side of the construction worker.

The first sliding rod 307 and the first spring 308 are provided with three sets, and the first limiting block 309, the second limiting block 3010 and the feeding plate 3011 are provided with two sets.

When the first support 305 and the second support 306 are shifted, the first support 305 and the second support 306 slide on the first sliding rod 307, so that the first shifting lever 301, the second shifting lever 302, the third shifting lever 303 and the fourth shifting lever 304 are kept balanced, meanwhile, the thrust of the springs is larger through the three groups of first springs 308, and meanwhile, the two groups of feed plates 3011 are respectively pushed through the two groups of first limit blocks 309 and the second limit blocks 3010, so that the thrust of the push block 3013 is larger, and the heat insulation brick 7 is pushed to the feeding mechanism 3.

The first support plate 502 and the driving plate 504 are provided with sliding grooves.

The second slide bar 505 slides on the first support plate 502 through the slide slot on the first support plate 502, and simultaneously the second slide bar 505 is driven to move through the slide slot on the driving plate 504.

Two sets of a first transmission rod 50904, a third stopper 50905, a second transmission rod 50906, a second rotating shaft 50907, a sixth bracket 50908, a third frame 50909, a seventh sliding bar 50910, an eighth sliding bar 50911, a fourth spring 50912, a fifth spring 50913 and a clamping plate 50914 are provided.

The insulating brick 7 is clamped by two sets of clamping plates 50914 by mutually engaging two sets of first transmission bars 50904, third stoppers 50905, second transmission bars 50906, second rotation shafts 50907, sixth brackets 50908, third frames 50909, seventh slide bars 50910, eighth slide bars 50911, fourth springs 50912, fifth springs 50913 and clamping plates 50914.

It should be understood by those skilled in the art that the above embodiments do not limit the present invention in any way, and all technical solutions obtained by using equivalent alternatives or equivalent variations fall within the scope of the present invention.

Claims

1. A novel automatic conveyor for heat-insulating bricks for building construction comprises a rack, a conveying belt and heat-insulating bricks, and is characterized by also comprising a feeding mechanism, a brick conveying mechanism, an auxiliary mechanism and a height control mechanism; a conveying belt is arranged on the side surface of the lower part of the rack; a feeding mechanism is arranged at the middle lower part of the frame; the upper end of the rack is provided with a brick conveying mechanism and a height control mechanism, and the upper part of the brick conveying mechanism is connected with the height control mechanism; heat insulation bricks are placed on the brick conveying mechanism; the upper end of the height control mechanism is fixedly connected with the auxiliary mechanism.

2. The novel automatic conveyor for the building construction heat insulation bricks as claimed in claim 1, wherein the feeding mechanism further comprises a first deflector rod, a second deflector rod, a third deflector rod, a fourth deflector rod, a first bracket, a second bracket, a first slide rod, a first spring, a first limiting block, a second limiting block, a feeding plate, a feeding push rod, a push block, a feeding box and an iron block; the lower part of the first deflector rod is fixedly connected with one side of the first bracket; the other side of the first bracket is fixedly connected with a third deflector rod; the inner side part of the first bracket is connected to one side of the first sliding rod in a sliding manner; the side part of the first bracket is fixedly connected with one end of a first spring, and the first sliding rod is positioned in the first spring; the middle part of the side of the first bracket is fixedly connected with a first limiting block; the other side of the outer surface of the first sliding rod is connected with the second bracket in a sliding manner, and the second bracket is connected with the other end of the first spring; one end of the second bracket is fixedly connected with the second deflector rod; the other end of the second bracket is fixedly connected with a fourth deflector rod; the middle part of the second bracket side is fixedly connected with a second limiting block; the outer surface of the first limiting block is connected to one side of the feeding plate in a sliding manner, and the other side of the feeding plate is connected to the second limiting block; the middle part of the feeding plate is fixedly connected with a feeding push rod; the outer surface of the feeding plate is connected with the feeding box in a sliding manner; the upper end of the feeding push rod is fixedly connected with the push block; the lower end of the feeding push rod is fixedly connected with the iron block; the upper part of the outer surface of the first deflector rod is connected with the frame in a sliding way; the upper part of the outer surface of the second deflector rod is connected with the frame in a sliding way; the upper part of the outer surface of the third deflector rod is connected with the frame in a sliding way; the upper part of the outer surface of the fourth driving lever is connected with the frame in a sliding way; the upper end of the feeding box is fixedly connected with the frame.

3. The novel automatic conveyor for the heat insulation bricks for building construction as claimed in claim 2, wherein the brick conveying mechanism further comprises a first motor, a first gear, a second gear, a first conveying mechanism and a second conveying mechanism; the output shaft of the first motor is rotationally connected with the first gear; the outer surface of the first gear is meshed with the second gear; the middle part of the first gear is in transmission connection with the second transmission mechanism; the middle part of the second gear is connected with the second transmission mechanism in a transmission way; the lower part of the first conveying mechanism is fixedly connected with the rack; the upper part of the first conveying mechanism is connected with the height control mechanism; the lower part of the second conveying mechanism is fixedly connected with the rack; the upper part of the second conveying mechanism is connected with the height control mechanism.

4. The automatic conveyor of the building construction insulating brick of claim 3, wherein the auxiliary mechanism further comprises a third support, a first support plate, a second motor, a transmission plate, a second slide bar, a sliding frame, a sliding block, a first rotating shaft and a holding mechanism; the upper part of the third bracket is fixedly connected with the first supporting plate; one end of the first supporting plate is fixedly connected to the second motor through a nut; the output shaft of the second motor is rotationally connected to the transmission plate, and the transmission plate is connected to the first supporting plate; the inner surface of the transmission plate is in transmission connection with the second slide bar; the second sliding rod is fixedly connected with the sliding frame; the upper part of the outer surface of the sliding frame is connected with one end of the sliding block in a sliding way; the lower part of the sliding frame is connected with the clamping mechanism in a transmission way; the other end of the sliding block is rotatably connected to one end of the first rotating shaft, and the other end of the first rotating shaft is connected to the third bracket; the lower end of the third support is fixedly connected with the height control mechanism.

5. The novel automatic conveyor for the building construction heat insulation bricks as claimed in claim 4, wherein the height control mechanism further comprises a first frame, a second support plate, a third support plate, a first expansion bracket, a first electric push rod, a second expansion bracket, a second electric push rod, a fourth support plate, a fifth support plate, a fourth support and a fifth support; the middle part of one end of the first frame is fixedly connected with the second supporting plate; the middle part of the other end of the first frame is fixedly connected with a third supporting plate; the lower end of the second supporting plate is fixedly connected with one end of the first telescopic frame; the lower end of the third supporting plate is fixedly connected with one end of the second telescopic frame; a first electric push rod is arranged in the first telescopic frame; the other end of the first expansion bracket is fixedly connected with the fourth supporting plate; a second electric push rod is arranged in the second telescopic frame; the other end of the second expansion bracket is fixedly connected to the fifth supporting plate; the lower end of the fourth supporting plate is fixedly connected with the fourth bracket; the lower end of the fifth supporting plate is fixedly connected to the fifth bracket; the lower end of the fourth bracket is fixedly connected with the frame; the lower end of the fifth support is fixedly connected with the frame.

6. The novel automatic conveyor for the heat-insulating bricks for building construction as claimed in claim 5, wherein the first conveying mechanism further comprises a first chain wheel, a first shaft rod, a second chain wheel, a sixth supporting plate, a first chain, a feeding rod, a second chain, a third chain wheel, a fourth chain wheel, a second shaft rod, a fifth chain wheel, a third shaft rod, a sixth chain wheel, a seventh chain wheel, a fourth shaft rod, a seventh supporting plate, an eighth chain wheel, an eighth supporting plate, a second spring, a third sliding rod, a fourth sliding rod, a first supporting rod, a third spring, a fifth sliding rod, a sixth sliding rod, a second supporting rod and a ninth supporting plate; the first chain wheel axis is rotationally connected to one side of the outer surface of the first shaft rod; the outer surface of the first chain wheel is in transmission connection with one side of the lower part of the first chain; the first chain wheel axis is rotationally connected with the ninth supporting plate; the other side of the outer surface of the first shaft rod is connected with one end of a second chain wheel in a transmission way; the other end of the second chain wheel is connected with the sixth supporting plate in a rotating way; the outer surface of the second chain wheel is connected to one side of the lower part of the second chain in a transmission way; the first chain is fixedly connected to one end of the feeding rod, and the other end of the feeding rod is connected to the second chain; the upper part of the first chain is in transmission connection with a third chain wheel; the lower middle part of the first chain is in transmission connection with the fifth chain wheel; the other side of the lower part of the first chain is in transmission connection with a seventh chain wheel; the upper part of the second chain is in transmission connection with a fourth chain wheel; the lower middle part of the second chain is in transmission connection with the sixth chain wheel; the other side of the lower part of the second chain is in transmission connection with an eighth chain wheel; the axle center of the third chain wheel is rotationally connected to one end of the second shaft rod, and the other end of the second shaft rod is connected to the fourth chain wheel; the axis of the fifth chain wheel is rotationally connected to one end of the third shaft rod, and the other end of the third rotating shaft is connected to the sixth chain wheel; the axle center of one end of the seventh chain wheel is rotationally connected to one end of the fourth shaft rod, and the other end of the fourth shaft rod is connected to one end of the eighth chain wheel; the other end of the seventh chain wheel is connected with a seventh supporting plate in a rotating way; the upper part of the seventh supporting plate side is fixedly connected with one end of a second spring; the middle lower part in the seventh supporting plate is connected with the third slide bar in a sliding manner, and one end of the third slide bar is connected with the ninth supporting plate; the inner lower part of the seventh supporting plate is connected with the fourth sliding rod in a sliding manner, and one end of the fourth sliding rod is connected with the ninth supporting plate; the other end of the eighth chain wheel is connected with an eighth supporting plate in a rotating way; the upper part of the eighth supporting plate side is fixedly connected with one end of a third spring; the middle lower part in the eighth supporting plate is connected with the fifth sliding rod in a sliding manner, and one end of the fifth sliding rod is connected with the sixth supporting plate; the inner lower part of the eighth supporting plate is connected with the sixth sliding rod in a sliding manner, and one end of the sixth sliding rod is connected with the sixth supporting plate; the other end of the second spring is fixedly connected with the first supporting rod, the middle lower part of the first supporting rod is connected with the third sliding rod, and the lower part of the first supporting rod is connected with the fourth sliding rod; the other end of the third spring is connected with the second supporting rod, the middle lower part of the second supporting rod is connected with the fifth sliding rod, and the lower part of the second supporting rod is connected with the sixth sliding rod; the lower end of the sixth supporting plate is fixedly connected with the frame; both ends of the second shaft lever are rotatably connected to the height control mechanism; both ends of the third shaft rod are rotatably connected to the rack; the lower end of the seventh supporting plate is fixedly connected with the frame; the lower end of the eighth supporting plate is fixedly connected with the rack; the lower end of the first supporting rod is fixedly connected with the rack; the lower end of the second supporting rod is fixedly connected with the rack; the lower end of the ninth supporting plate is fixedly connected with the frame.

7. The novel automatic conveyor for the heat-insulating bricks for building construction as claimed in claim 6, wherein the holding mechanism further comprises a support plate, a second frame, a bidirectional cylinder, a first transmission rod, a third limiting block, a second transmission rod, a second rotating shaft, a sixth support, a third frame, a seventh slide rod, an eighth slide rod, a fourth spring and a fifth spring; the middle part of the upper end of the support plate is fixedly connected with the second frame; the second frame is fixedly connected to the bidirectional cylinder through a nut; the output shaft of the bidirectional cylinder is in transmission connection with one side of the first transmission rod; the middle part of the outer surface of the first transmission rod is connected with a third limiting block in a sliding manner, and the lower end of the third limiting block is connected with the support plate; the other side of the first transmission rod is in transmission connection with the second transmission rod; the upper part of the second transmission rod is rotatably connected to the second rotating shaft, and both sides of the second rotating shaft are connected to the support plate; the lower part of the second transmission rod is in transmission connection with one side of the sixth bracket; the other side of the sixth bracket is fixedly connected with the clamping plate; the middle part of one side of the clamping plate is fixedly connected with one end of the seventh sliding rod; the middle part of the other side of the clamping plate is fixedly connected with one end of the eighth sliding rod; the outer surface of the seventh sliding rod is connected to one side of the third frame in a sliding manner, and the other side of the third frame is connected to one side of the eighth sliding rod; the other end of the seventh sliding rod is fixedly connected with one end of a fourth spring, and the other end of the fourth spring is connected with the third frame; the other side of the eighth sliding rod is fixedly connected with one end of a fifth spring, and the other end of the fifth spring is connected with the third frame; the middle part of the second frame is fixedly connected with the sliding frame; the clamping plate is contacted with the heat insulation brick.

8. The novel automatic conveyor for the building construction heat insulation bricks as claimed in claim 7, wherein the first slide bar and the first spring are provided with three groups, and the first limiting block, the second limiting block and the feeding plate are provided with two groups.

9. The automatic conveyor for the building construction insulating bricks as claimed in claim 8, wherein the first supporting plate and the driving plate are provided with sliding grooves.

10. The novel automatic conveyor for the building construction heat insulation bricks as claimed in claim 9, wherein two groups of first transmission rod, third limiting block, second transmission rod, second rotating shaft, sixth bracket, third frame, seventh sliding rod, eighth sliding rod, fourth spring, fifth spring and clamping plate are provided.