CN217866242U - Storage device is carried to heated board - Google Patents

Abstract

The application relates to a heat insulation board conveying and storing device, which belongs to the field of heat insulation board production and comprises a first conveying assembly and a first lifting mechanism, wherein a pit is formed in the ground, the first lifting mechanism is positioned in the pit, and the first conveying assembly comprises a first support frame and a first conveying belt; the first lifting mechanism comprises an underframe and a lifting assembly for driving the underframe to ascend and descend, the first storage frame comprises an underframe, two vertical rod groups are arranged on the underframe, each vertical rod group comprises a plurality of vertical rods arranged along the length direction of the underframe, and one side, close to each other, of each vertical rod group is provided with a plurality of support angle steels distributed up and down; the second conveying assembly comprises a second supporting frame and a second conveying belt arranged on the second supporting frame, the height of the second conveying belt is equal to that of the first conveying belt in height, and when the lifting assembly moves the first storage frame downwards, the supporting angle steel passes through two sides of the second conveying belt. This application has the intensity of labour who reduces the operation workman, improves work efficiency's effect.

Description

Storage device is carried to heated board

Technical Field

The application relates to the technical field of insulation board production, in particular to an insulation board conveying and storing device.

Background

After the heated board production is accomplished, need carry out the sunning to the heated board, at present, heated board production finishes the back and carries fixed position with the heated board through the drive belt, and on the operation workman took off the heated board and put the mounting bracket, the mounting bracket has divided the multilayer, and a heated board is put on every layer.

And after the mounting rack is filled with the insulation boards, the mounting rack is transferred to the sun to be aired or is placed into a drying chamber to be dried. To the correlation technique among the above-mentioned, the operation workman puts the heated board on the mounting bracket in proper order, and work efficiency is low, and operation workman's intensity of labour is big.

SUMMERY OF THE UTILITY MODEL

In order to reduce operation workman's intensity of labour, improve work efficiency, this application provides a storage device is carried to heated board.

The application provides a pair of heated board carries storage device. The following technical scheme is adopted:

a heat insulation plate conveying and storing device comprises a first conveying assembly and a first lifting mechanism, wherein the first conveying assembly is located on the ground, a pit is formed in the ground, the first lifting mechanism is located in the pit, and the first conveying assembly comprises a first support frame and a first conveying belt installed on the first support frame;

the first lifting mechanism comprises an underframe and a lifting assembly for driving the underframe to ascend and descend, a first storage rack is arranged above the underframe, the first storage rack comprises a underframe, two vertical rod groups are arranged on the underframe, each vertical rod group comprises a plurality of vertical rods arranged along the length direction of the underframe, a plurality of vertically distributed support angle steels are arranged on one sides, close to each other, of the two vertical rod groups, and the support angle steels on the two vertical rod groups are in one-to-one correspondence in the horizontal direction;

and a second conveying assembly is arranged in the pit and comprises a second supporting frame and a second conveying belt arranged on the second supporting frame, the height of the second conveying belt is equal to that of the first conveying belt, and when the first storage frame moves downwards by the lifting assembly, the supporting angle steel passes through two sides of the second conveying belt.

Through adopting above-mentioned technical scheme, when storing and carrying the heated board, earlier put first storage frame on the chassis, lifting unit will first storage frame downstream, make topmost support angle steel and second conveyer belt equal height on the first storage frame, first conveyer belt carries the heated board on the support angle steel on the first storage frame, the second conveyer belt can drive the direction removal of heated board to keeping away from first conveyer belt, make the heated board can move to the support angle steel completely, later lifting unit will first storage frame one section distance of rebound, make the support angle steel of below equal height with the second conveyer belt, next heated board is carried on the support angle steel through first conveyer belt, carry the heated board on the support angle steel on two montant groups in proper order through this kind of mode, be convenient for install the heated board, after installing the heated board on first storage frame, fork truck takes off first storage frame.

Optionally, two first vertical columns and two second vertical columns are arranged in the pit, the underframe is located between the two first vertical columns and the two second vertical columns, the lifting assembly comprises a motor reducer, a chain wheel is arranged at the top of each first vertical column, a connecting shaft is fixed between the two chain wheels, an installation block is fixed at the top of each first vertical column, two ends of the connecting shaft are rotatably connected with the installation blocks, the motor reducer is installed at the top of one of the first vertical columns, the motor reducer is connected with the connecting shaft, a chain is connected to each chain wheel, one end of each chain is fixed to the underframe, and a balancing weight is fixed to the other end of each chain;

second stand and adjacent be provided with wire rope between the first stand, be fixed with first connecting block and second connecting block on the lateral wall of chassis, the first leading wheel has been installed admittedly on the bottom lateral wall of first stand, the mounting groove has been seted up on the second stand, install two second leading wheels that set up from top to bottom in the mounting groove, wire rope's one end is fixed with the bottom of first connecting block, wire rope keeps away from the one end of first connecting block and fixes through first leading wheel and two second leading wheels and with second connecting block top.

Through adopting above-mentioned technical scheme, when the first storage frame of hoisting component drive removed, motor reducer drive connecting axle rotated, and the connecting axle drives the sprocket and rotates, and the sprocket drives the chain and rotates, and the chain drives the chassis and removes, and the chain drives the counter weight piece and removes, and one side of chain sets up wire rope, and wire rope's both ends are fixed with first connecting block and second connecting block respectively to make the chassis keep balance.

Optionally, a second lifting mechanism and a second storage rack are arranged in the pit, the structure of the second lifting mechanism is the same as that of the first lifting mechanism, the structure of the second storage rack is the same as that of the first storage rack, the second lifting mechanism is located on one side, away from the first conveying assembly, of the first lifting mechanism, a third conveying assembly is arranged on one side, away from the first conveying assembly, of the second conveying assembly, the third conveying assembly comprises a third support frame and a third conveying belt installed on the third support frame, the height of the third conveying belt is equal to that of the second conveying belt, and when the second lifting mechanism moves the second storage rack downwards, support angle steel on the second storage rack passes through two sides of the third conveying belt.

Through adopting above-mentioned technical scheme, when carrying the heated board, carry the heated board earlier on the second storage frame, the heated board passes through first conveyer belt, and later the heated board passes through the second conveyer belt, then the heated board is under the drive of third conveyer belt, and on the heated board removed the support angle steel on the second storage frame, through first storage frame and second storage frame alternate use, can improve work efficiency.

Optionally, a first supporting roller is arranged between the first conveyor belt and the second conveyor belt, the height of the first supporting roller is equal to the height of the first conveyor belt, a second supporting roller is arranged between the second conveyor belt and the third conveyor belt, and the height of the second supporting roller is equal to the height of the second conveyor belt.

Through adopting above-mentioned technical scheme, when carrying the heated board, first backing roll and second backing roll play the effect of support to the heated board, can make the heated board steadily carry.

Optionally, the upper surface of the bottom frame is fixed with two first locating blocks and two second locating blocks, two the first locating block is located one side of the bottom frame, two the second locating block is located the other side of the bottom frame, one side of the bottom frame far away from the first conveyor belt is fixed with a third locating block.

Through adopting above-mentioned technical scheme, carry on spacingly through two first locating pieces, two second locating pieces and third locating piece to the underframe to the stability of first storage frame has been increased.

Optionally, the support angle steel includes a first support plate arranged in the vertical direction and a second support plate arranged in the horizontal direction, the first support plate and the second support plate are provided with end openings, the first support plate is bent outwards, and the second support plate is bent downwards.

Through adopting above-mentioned technical scheme, the tip opening setting of first backup pad and second backup pad, first backup pad is outwards buckled, and the second backup pad is buckled downwards, and the heated board of being convenient for removes on the support angle steel.

Optionally, a plurality of vertical rods in the two vertical rod groups correspond to the bottom frame in the width direction one by one, and connecting rods are fixed at the tops of the two corresponding vertical rods.

Through adopting above-mentioned technical scheme, the connecting rod has increased the stability between two montants that correspond to the holistic stability of first storage frame has been increased.

Optionally, a vertical abutting plate is fixed on each side, close to each other, of the two first columns, two first abutting wheels are installed on one side, far away from the second column, of the underframe, one of the first abutting wheels is in contact with one of the abutting plates, the other one of the first abutting wheels is in contact with the other abutting plate, and the first abutting wheels are located on one side, far away from the second column, of the abutting plate;

and a second butting wheel in contact with the side wall of the first upright post is installed on one side, close to the first conveyor belt, of the chassis, and a third butting wheel in contact with the side wall of the other first upright post is installed on one side, close to the second conveyor belt, of the chassis.

Through adopting above-mentioned technical scheme, when first storage frame reciprocated, first butt wheel rolled along the butt plate, and second butt wheel and third butt wheel roll along the lateral wall of respective first stand to stability when having increased the chassis and having removed.

Optionally, a protective net is arranged around the pit

Through adopting above-mentioned technical scheme, set up the protection network around the pit, can play the effect of protection to the operation workman, prevent that the operation workman from dropping in the pit.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the insulation boards are conveyed to the supporting angle steel on the two vertical rod groups through the device, so that the insulation boards are convenient to mount, and after the insulation boards are mounted on the first storage frame, the first storage frame is taken down by a forklift;

2. when the first storage rack moves up and down, the first abutting wheels roll along the abutting plates, and the second abutting wheels and the third abutting wheels roll along the side walls of the respective first stand columns, so that the stability of the underframe during movement is improved;

3. carry on spacingly through two first locating pieces, two second locating pieces and third locating piece to the underframe to the stability of first storage frame has been increased.

Drawings

Fig. 1 is a schematic view of the overall structure embodying the present application.

Fig. 2 is a schematic view of a pit structure embodying the present application.

Fig. 3 is a schematic view of a first conveyor assembly embodying the present application.

Fig. 4 is a schematic diagram of a first lifting mechanism embodying the present application.

Fig. 5 is a schematic view of a counterweight and a wire rope embodying the present application.

Fig. 6 is a schematic view of a first storage rack embodying the present application.

FIG. 7 is a schematic view of a first, second, and third abutment wheel embodying the present application.

FIG. 8 is a schematic view of a third conveyor assembly embodying the present application.

Fig. 9 is a schematic view of a second support roller embodying the present application.

FIG. 10 is a schematic diagram of a second control assembly embodying the present application.

Description of reference numerals: 1. a first conveying assembly; 11. a first support frame; 12. a first conveyor belt; 13. a support plate; 14. a first control assembly; 141. a connecting plate; 142. a hinged block; 143. a first platen; 144. a first rotating shaft; 145. a first control switch; 15. a first support roller; 151. a support bar; 2. a pit; 21. a first upright post; 211. a first guide wheel; 212. abutting against the plate; 22. a second upright post; 221. mounting grooves; 222. a second guide wheel; 23. a protective net; 3. a first storage rack; 31. a bottom frame; 32. a set of vertical rods; 321. a vertical rod; 322. a connecting rod; 33. supporting angle steel; 331. a first support plate; 332. a second support plate; 4. a first lifting mechanism; 41. a lifting assembly; 411. a motor reducer; 412. a sprocket; 413. a chain; 414. a connecting shaft; 415. mounting blocks; 416. a balancing weight; 417. a wire rope; 418. a first connection block; 419. a second connecting block; 42. a chassis; 421. a first positioning block; 422. a second positioning block; 423. a third positioning block; 424. a first abutment wheel; 425. a second abutment wheel; 426. a third abutment wheel; 5. a second lifting mechanism; 6. a second storage rack; 7. a second transport assembly; 71. a second support frame; 72. a second conveyor belt; 73. a second support roller; 74. a supporting block; 8. a third conveying assembly; 81. a third support frame; 82. a third conveyor belt; 9. a second control assembly; 91. a second platen; 92. erecting a rod; 93. a first fixed block; 94. a second fixed block; 95. a second rotating shaft; 96. a second control switch; 97. and (6) detecting the board.

Detailed Description

The present application is described in further detail below with reference to figures 1-10.

The embodiment of the application discloses storage device is carried to heated board. Referring to fig. 1 and 2, the storage device is carried to the heated board includes first conveyor assembly 1, and first conveyor assembly 1 installs subaerial, has seted up pit 2 subaerial, and first conveyor assembly 1 is located one side of pit 2, is provided with first storage frame 3 and first hoist mechanism 4 in the pit 2, can place the multilayer heated board on the first storage frame 3, and first hoist mechanism 4 can drive first storage frame 3 and rise and descend.

One side of the first lifting mechanism 4, which is far away from the first conveying assembly 1, is provided with a second lifting mechanism 5, one side of the first storage rack 3, which is far away from the first conveying assembly 1, is provided with a second storage rack 6, the structure of the second lifting mechanism 5 is the same as that of the first lifting mechanism 4, and the structure of the second storage rack 6 is the same as that of the first storage rack 3. When carrying the heated board, carry the heated board earlier on second storage frame 6, after filling up the heated board on second storage frame 6, carry the heated board again on to first storage frame 3. A protective screen 23 is installed around the pit 2, reducing the possibility that an operator falls into the pit 2.

Referring to fig. 2, 3 and 4, the first conveyor assembly 1 includes a first support frame 11 and a first conveyor belt 12, the first conveyor belt 12 is mounted on the first support frame 11, and the first conveyor belt 12 is used for conveying the insulation boards. The first lifting mechanism 4 includes an under frame 42 and a lifting assembly 41, the first storage rack 3 is placed on the under frame 42, and the lifting assembly 41 is capable of raising and lowering the under frame 42 and the first storage rack 3.

Two first upright columns 21 and two second upright columns 22 are arranged in the pit 2, and the first upright columns 21 and the second upright columns 22 are fixed with the bottom wall of the pit 2. One of the first uprights 21 and one of the second uprights 22 are respectively located at one end of the underframe 42 in the length direction, and the other of the first uprights 21 and the other of the second uprights 22 are respectively located at the other end of the underframe 42 in the length direction. The base frame 42 is located between the two first uprights 21 and the two second uprights 22.

The lifting assembly 41 comprises a motor reducer 411, the two first vertical columns 21 are respectively provided with a chain wheel 412 and a chain 413, a connecting shaft 414 is fixed between the two chain wheels 412, the top surfaces of the two first vertical columns 21 are respectively fixed with a mounting block 415, one end of the connecting shaft 414 is rotatably connected with one mounting block 415, and the other end of the connecting shaft 414 is rotatably connected with the other mounting block 415. The motor reducer 411 is fixed to one of the first columns 21, and an output shaft of the motor reducer 411 is fixed to the connecting shaft 414.

Referring to fig. 4 and 5, the chain 413 is engaged with the sprocket 412, one end of the chain 413 is fixed to the upper surface of the bottom frame 42, a weight 416 is disposed in the pit 2, and the other end of the chain 413 is fixed to the weight 416. A steel wire rope 417 is arranged between the first upright post 21 and the adjacent second upright post 22, a first connecting block 418 and a second connecting block 419 are fixed on the side wall of the underframe 42, the first connecting block 418 is positioned at one side close to the first upright post 21, and the second connecting block 419 is positioned at one side close to the second upright post 22.

First leading wheel 211 is installed on the bottom end lateral wall of first stand 21, has seted up mounting groove 221 on the second stand 22, installs two second leading wheels 222 in the mounting groove 221, and two second leading wheels 222 set up from top to bottom, and one of them second leading wheel 222 is located the top of second stand 22, and another second leading wheel 222 is located the bottom of second stand 22. The second guide wheel 222 located below is at the same height as the first guide wheel 211.

One end of a wire rope 417 is fixed to the bottom of the first connection block 418, and the wire rope 417 passes through the first guide pulley 211 and the two second guide pulleys 222 and is fixed to the top of the second connection block 419. When the underframe 42 is lifted, the motor reducer 411 drives the connecting shaft 414 to rotate, the connecting shaft 414 drives the chain wheel 412 to rotate, the chain wheel 412 drives the chain 413 to rotate, and the chain 413 drives the underframe 42 to ascend and descend.

Referring to fig. 6, the first storage rack 3 includes a bottom frame 31, two groups of vertical rods 32 are disposed above the bottom frame 31, each group of vertical rods 32 includes a plurality of vertical rods 321, one group of vertical rods 32 is disposed on one side of the bottom frame 31, and the other group of vertical rods 32 is disposed on the other side of the bottom frame 31.

The plurality of vertical rods 321 of each vertical rod group 32 are uniformly arranged along the length direction of the bottom frame 31. A plurality of vertical rods 321 of the two vertical rod groups 32 correspond to each other in the width direction of the bottom frame 31, and the top portions of the two corresponding vertical rods 321 are fixedly connected with the connecting rods 322, so that the stability between the two corresponding vertical rods 321 is increased, and the stability of the first storage rack 3 is increased.

One side that two vertical pole groups 32 are close to each other all is provided with a plurality of support angle steel 33 that distribute from top to bottom, and support angle steel 33 on two vertical pole groups 32 is the one-to-one on the horizontal direction, and support angle steel 33 that is in same height on two horizontal directions is a set of support angle steel 33, and a set of support angle steel 33 is used for supporting a heated board.

The length of support angle 33 is greater than the length of underframe 31, and support angle 33 includes first backup pad 331 and the second backup pad 332 fixed with first backup pad 331, and the vertical direction setting of first backup pad 331, the setting of second backup pad 332 horizontal direction. The first support plate 331 is fixed to the vertical bar 321. The end openings of the first supporting plate 331 and the second supporting plate 332 are arranged, the first supporting plate 331 bends outwards, the second supporting plate 332 bends downwards, and therefore the heat preservation plate can move to the supporting angle steel 33 conveniently. The forks of a forklift can be inserted into the under frames 31 to move the first storage racks 3.

Referring to fig. 5 and 6, two first positioning blocks 421 and two second positioning blocks 422 are fixed to the upper surface of the bottom frame 42, the two first positioning blocks 421 are located on one side of the bottom frame 31, the two second positioning blocks 422 are located on the other side of the bottom frame 31, the two first positioning blocks 421 are separately arranged along the length direction of the bottom frame 31, and the two second positioning blocks 422 are separately arranged along the length direction of the bottom frame 31.

A third positioning block 423 is fixed on a side of the bottom frame 42 away from the first conveyor belt 12, and a second positioning block 422 contacts with a side wall of the bottom frame 31. The bottom frame 31 is limited by the first positioning block 421, the second positioning block 422 and the third positioning block 423, so that the stability of the first storage rack 3 is increased.

Referring to fig. 2 and 3, two first conveyor belts 12 are provided, two support plates 13 are provided on the first support frame 11, the support plates 13 are provided along the length direction of the first support frame 11, and the support plates 13 support the first conveyor belts 12. A first control assembly 14 is arranged between the two pallets 13.

The first control assembly 14 is located on a side adjacent the first lifting mechanism 4. After the first control assembly 14 can control the heated board through first control assembly 14, first storage frame 3 rises for a long time to make the heated board can carry on support angle steel 33 completely.

The first support frame 11 is fixed with a connecting plate 141, the supporting plate 13 is located above the connecting plate 141 and fixed with the connecting plate 141, a hinge block 142 is fixed above the connecting plate 141, the first control assembly 14 includes a first pressing plate 143, a first rotating shaft 144 and a first control switch 145, the first rotating shaft 144 is fixed with the bottom of the first pressing plate 143, and the first rotating shaft 144 is rotatably connected with the hinge block 142. The first pressing plate 143 is disposed to be inclined, one end of the first pressing plate 143 is higher than the first conveyor belt 12, the first control switch 145 is installed on a sidewall of the connection plate 141, and the other end of the first pressing plate 143 contacts the first control switch 145.

When the insulation board is conveyed to the first storage frame 3, the first storage frame 3 is moved downwards, so that the two corresponding support angle steels 33 at the top of the first storage frame 3 correspond to the height of the first conveyor belt 12, and the first control assembly 14 plays a role at the moment. When the insulation board passes through the upper portion of the first pressing plate 143, the first pressing plate 143 is pressed by the insulation board to rotate along the first rotating shaft 144, one end of the first pressing plate 143, which is far away from the insulation board, is separated from the first control switch 145, and after the first pressing plate 143 is separated from the first control switch 145, the first control switch 145 controls the motor reducer 411 to drive the bottom frame 42 and the first storage frame 3 to move upwards for a certain distance after a period of time.

When the insulation boards enter the support angle steels 33 on the first storage rack 3 through the first pressing plate 143, the motor reducer 411 drives the bottom frame 42 and the first storage rack 3 to rise by a certain height, the height of the next group of support angle steels 33 is equal to that of the first conveyor belt 12, and the next insulation board is continuously conveyed to the support angle steels 33 of the first storage rack 3.

Referring to fig. 7, a second conveyor assembly 7 is disposed in the pit 2, the second conveyor assembly 7 includes a second support frame 71 and a second conveyor belt 72, the second support frame 71 is fixed to the bottom wall of the pit 2, and the second conveyor belt 72 is mounted on the second support frame 71. When the base frame 42 moves up and down, the base frame 42 can move up and down by the second conveyor assembly 7, and when the first storage rack 3 moves up and down, the two corresponding support angles 33 pass by both sides of the second conveyor belt 72. The height of the second conveyor belt 72 is equal to the height of the first conveyor belt 12.

When carrying the heated board on first storage frame 3, the heated board is behind first clamp plate 143, and the heated board can contact with second conveyer belt 72, and second conveyer belt 72 can drive the heated board and remove fast to the support angle steel 33 on first storage frame 3 on.

Referring to fig. 2 and 3, a first supporting roller 15 is disposed between the first conveying assembly 1 and the bottom frame 42, supporting rods 151 are disposed at two ends of the first supporting roller 15, the first supporting roller 15 is rotatably connected to the supporting rods 151, and the height of the first supporting roller 15 is equal to the height of the first conveyor belt 12. The first supporting rollers 15 support the heat-insulating plate, so that the heat-insulating plate can smoothly enter the first storage rack 3.

Referring to fig. 4, 5 and 7, the abutting plates 212 arranged in the vertical direction are fixed on the sides of the two first columns 21 close to each other, and two first abutting wheels 424 are installed on the side of the bottom frame 42 far from the second column 22, wherein one first abutting wheel 424 is in contact with one of the abutting plates 212, the other first abutting wheel 424 is in contact with the other abutting plate 212, and the first abutting wheel 424 is located on the side of the abutting plate 212 far from the second column 22.

A second abutment wheel 425 is mounted on the side of the base frame 42 close to the first conveyor belt 12, the second abutment wheel 425 being in contact with the side wall of one of the first uprights 21, and a third abutment wheel 426 is mounted on the side of the base frame 42 close to the second conveyor belt 72, the third abutment wheel 426 being in contact with the side wall of the other first upright 21.

When the first storage rack 3 is lifted or lowered, the first abutment wheel 424 rolls along the length direction of the abutment plate 212, and the second abutment wheel 425 and the third abutment wheel 426 roll along the corresponding side wall of the first upright 21, thereby increasing the stability of the first storage rack 3.

Referring to fig. 8, 9 and 10, a second support roller 73 is provided between the first lifting mechanism 4 and the second lifting mechanism 5, and the height of the second support roller 73 is equal to the height of the second conveyor belt 72. A supporting block 74 is fixed on the side wall of the first upright post 21 close to the first lifting mechanism 4, a supporting block 74 is also fixed on the side wall of the second upright post 22 close to the second lifting mechanism 5, and two ends of the second supporting roller 73 are respectively connected with the two supporting blocks 74 in a rotating manner.

The third conveying assembly 8 is arranged on one side, away from the first conveying assembly 1, of the second conveying assembly 7, the third conveying assembly 8 comprises a third supporting frame 81 and a third conveying belt 82, the third conveying belt 82 is installed on the third supporting frame 81, and the height of the third conveying belt 82 is equal to the height of the second conveying belt 72.

Be provided with second control assembly 9 between second backing roll 73 and the second conveyer belt 72, when carrying the heated board on second storage frame 6, the heated board is behind second control assembly 9, and second control assembly 9 can control second storage frame 6 and upwards promote through how long to make the heated board completely remove on support angle steel 33. The third conveyor belt 82 can drive the heat-insulating plate to move towards the second storage rack 6.

The second control assembly 9 comprises a second pressing plate 91, a vertical rod 92 is fixed on the bottom wall of the pit 2, a first fixing block 93 is fixed at the top of the vertical rod 92, a second fixing block 94 is fixed on the first fixing block 93, a second rotating shaft 95 is fixed on the second fixing block 94, and the bottom of the second pressing plate 91 is rotatably connected with the second rotating shaft 95. The second pressing plate 91 is arranged obliquely, one end of the second pressing plate 91 is higher than the second conveyor belt 72, a detection plate 97 is fixed at the other end of the second pressing plate 91, and a second control switch 96 is installed on the vertical rod 92.

When the insulation boards are conveyed to the second storage frame 6, the insulation boards pass through the second pressing plate 91, the second pressing plate 91 rotates along the second rotating shaft 95, one end, higher than the second conveying belt 72, of the second pressing plate 91 moves downwards, the detection plate 97 on the second pressing plate 91 moves upwards, when the insulation boards press the second pressing plate 91, the detection plate 97 is just opposite to the second control switch 96, the second control switch 96 can control the bottom frame 42 of the second lifting mechanism 5 to move upwards for a certain distance after a certain period of time, the bottom frame 42 drives the second storage frame 6 to move upwards, and after the upward movement, the next group of supporting angle steel 33 and the third conveying belt 82 are located at the same height.

The implementation principle of the storage device is carried to heated board of this application embodiment does: when the insulation board is conveyed, the first storage frame 3 is firstly placed on the bottom frame 42 of the first lifting mechanism 4, so that the bottom frame 31 on the first storage frame 3 is consistent with the first conveyor belt 12 in height.

The second storage rack 6 is placed on the bottom frame 42 of the second lifting mechanism 5, the second lifting mechanism 5 places the second storage rack 6 downwards, the group of support angle steels 33 at the topmost end of the second storage rack 6 are made to be equal in height to the third conveyor belt 82, and the insulation boards are conveyed to the second storage rack 6 firstly.

The insulation boards pass through the first conveyor belt 12 and are conveyed to the second conveyor belt 72, then the insulation boards pass through the second pressing plate 91, and finally the insulation boards move to the group of support angle steels 33 on the second storage rack 6 under the action of the third conveyor belt 82. Afterwards, second hoist mechanism 5 promotes second storage frame 6 by a certain distance, makes next set of support angle steel 33 and third conveyer belt 82 parallel and level, and later on next heated board is carried on the support angle steel 33 of second storage frame 6, carries second storage frame 6 full heated board after, fork truck takes off second storage frame 6, carries the heated board to first storage frame 3 this moment.

First hoist mechanism 4 will be first storage frame 3 downstream, make a set of support angle 33 and the second conveyer belt 72 at the top of first storage frame 3 equal height, the heated board is carried on the second conveyer belt 72 from first conveyer belt 12, when the heated board enters into on the support angle 33 completely through first clamp plate 143, first control assembly 14 can control first storage frame 3 and move a section distance upwards, next set of support angle 33 is equal height with second conveyer belt 72, next heated board conveys on the support angle 33, thereby fill first storage frame 3 with the heated board, later again to another second storage frame 6 transport the heated board, in proper order repetitive operation, and the work efficiency is improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (9)

1. The utility model provides a storage device is carried to heated board which characterized in that: the automatic conveying device comprises a first conveying assembly (1) and a first lifting mechanism (4), wherein the first conveying assembly (1) is positioned on the ground, a pit (2) is formed in the ground, the first lifting mechanism (4) is positioned in the pit (2), and the first conveying assembly (1) comprises a first support frame (11) and a first conveying belt (12) installed on the first support frame (11);

the first lifting mechanism (4) comprises an underframe (42) and a lifting assembly (41) for driving the underframe (42) to ascend and descend, a first storage rack (3) is arranged above the underframe (42), the first storage rack (3) comprises an underframe (31), two vertical rod groups (32) are arranged on the underframe (31), each vertical rod group (32) comprises a plurality of vertical rods (321) arranged along the length direction of the underframe (31), one side, close to each other, of each vertical rod group (32) is provided with a plurality of vertically distributed support angle steels (33), and the support angle steels (33) on the two vertical rod groups (32) are in one-to-one correspondence in the horizontal direction;

the pit (2) is internally provided with a second conveying assembly (7), the second conveying assembly (7) comprises a second supporting frame (71) and a second conveying belt (72) installed on the second supporting frame (71), the height of the second conveying belt (72) is equal to that of the first conveying belt (12), and when the lifting assembly (41) moves the first storage rack (3) downwards, the supporting angle steel (33) passes through two sides of the second conveying belt (72).

2. The insulation board conveying and storing device according to claim 1, characterized in that: two first vertical columns (21) and two second vertical columns (22) are arranged in the pit (2), the underframe (42) is located between the two first vertical columns (21) and the two second vertical columns (22), the lifting assembly (41) comprises a motor speed reducer (411), the top of each first vertical column (21) is provided with a chain wheel (412), a connecting shaft (414) is fixed between the two chain wheels (412), the top of each first vertical column (21) is fixedly provided with an installation block (415), two ends of each connecting shaft (414) are rotatably connected with the installation blocks (415), the motor speed reducer (411) is installed at the top of one of the first vertical columns (21), the motor speed reducer (411) is connected with the connecting shaft (414), each chain wheel (412) is connected with a chain (413), one end of the chain (413) is fixed with the underframe (42), and the other end of the chain (413) is fixedly provided with a counterweight (416);

second stand (22) and adjacent be provided with wire rope (417) between first stand (21), be fixed with first connecting block (418) and second connecting block (419) on the lateral wall of chassis (42), first leading wheel (211) are installed to the bottom side wall of first stand (21) admittedly, mounting groove (221) have been seted up on second stand (22), install two second leading wheels (222) that set up from top to bottom in mounting groove (221), the one end of wire rope (417) is fixed with the bottom of first connecting block (418), the one end that first connecting block (418) was kept away from in wire rope (417) is through first leading wheel (211) and two second leading wheels (222) and is fixed with second connecting block (419) top.

3. The insulation board conveying and storing device according to claim 2, characterized in that: a second lifting mechanism (5) and a second storage rack (6) are arranged in the pit (2), the structure of the second lifting mechanism (5) is the same as that of the first lifting mechanism (4), and the structure of the second storage rack (6) is the same as that of the first storage rack (3);

the second lifting mechanism (5) is located on one side, away from the first conveying assembly (1), of the first lifting mechanism (4), a third conveying assembly (8) is arranged on one side, away from the first conveying assembly (1), of the second conveying assembly (7), the third conveying assembly (8) comprises a third supporting frame (81) and a third conveying belt (82) installed on the third supporting frame (81), the height of the third conveying belt (82) is equal to that of the second conveying belt (72), and when the second lifting mechanism (5) moves the second storage rack (6) downwards, the supporting angle steel (33) on the second storage rack (6) passes through two sides of the third conveying belt (82).

4. The insulation board conveying and storing device according to claim 3, characterized in that: first conveyer belt (12) with be provided with first backup roll (15) between second conveyer belt (72), the height of first backup roll (15) with the height of first conveyer belt (12) is the same height, second conveyer belt (72) with be provided with second backup roll (73) between third conveyer belt (82), second backup roll (73) with second conveyer belt (72) are the same height.

5. The insulation board conveying and storing device according to claim 1, characterized in that: the upper surface of chassis (42) is fixed with two first locating pieces (421) and two second locating pieces (422), two first locating piece (421) are located one side of underframe (31), two second locating piece (422) are located the opposite side of underframe (31), chassis (42) are kept away from one side of first conveyer belt (12) is fixed with third locating piece (423).

6. The insulation board conveying and storing device according to claim 1, characterized in that: support angle steel (33) include first backup pad (331) and the second backup pad (332) that the horizontal direction set up that vertical direction set up, first backup pad (331) with the tip opening of second backup pad (332) sets up, outwards buckle first backup pad (331), second backup pad (332) are buckled downwards.

7. The insulation board conveying and storing device according to claim 6, characterized in that: a plurality of vertical rods (321) in the two vertical rod groups (32) correspond to the bottom frame (31) in the width direction one by one, and connecting rods (322) are fixed at the tops of the two corresponding vertical rods (321).

8. The insulation board conveying and storing device according to claim 2, characterized in that: abutting plates (212) arranged in the vertical direction are fixed on the sides, close to each other, of the two first columns (21), two first abutting wheels (424) are installed on the side, far away from the second column (22), of the base frame (42), one of the first abutting wheels (424) is in contact with one of the abutting plates (212), the other first abutting wheel (424) is in contact with the other abutting plate (212), and the first abutting wheels (424) are located on the side, far away from the second column (22), of the abutting plate (212);

and a second abutting wheel (425) in contact with the side wall of the first upright post (21) is installed on one side, close to the first conveyor belt (12), of the bottom frame (42), and a third abutting wheel (426) in contact with the side wall of the other first upright post (21) is installed on one side, close to the second conveyor belt (72), of the bottom frame (42).

9. The insulation board conveying and storing device according to claim 1, characterized in that: and a protective net (23) is arranged around the pit (2).

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