CN111661383A - Stacking and film-coating device for sludge brick making production - Google Patents

Abstract

A pile up neatly diolame device is used in mud brickmaking production includes: the device support, install the pile up neatly conveyer belt on the device support, install supporting platform on the device support between the lower zone face on the pile up neatly conveyer belt, flitch and play flitch are installed down on the supporting platform, flitch upper end fixed mounting has the diolame ring frame down, install slide bearing on the diolame ring frame, slide bearing outside installation carousel, install driving motor on the diolame ring frame, driving motor drive ring gear rotates, carousel upper portion fixed mounting has the membrane to roll up the fixed axle, install the cylinder on the carousel of membrane roll fixed axle lower extreme, the cylinder output is fixed with the depression bar, diolame ring frame outer loop side fixed mounting has the locating lever, the locating lever upper end is fixed with supporting beam, the supporting beam end is fixed with around the membrane pole, around the equal inside cavity of membrane pole and depression bar, it passes through. So that the stacking and the film covering are carried out simultaneously, and the production efficiency is greatly improved.

Description

Stacking and film-coating device for sludge brick making production

Technical Field

The invention relates to the field of sludge brick making production equipment, in particular to a stacking and film-coating device for sludge brick making production.

Background

Along with the continuous expansion of municipal sewage treatment plants, the discharge amount of sludge obtained by treatment is increased, the sludge contains a large amount of microorganisms, the environmental pollution is high, the components in the sludge can be fully utilized by using the sludge for brick making, the strategic policy of sustainable development is met, the circular economy is favorably established, and the potential harm of the sludge to the environment is eliminated.

Pile up neatly operation is carried out after the mud brick shaping, need transport the brick material that piles up to the coating machine behind the pile up neatly completion and carry out the diolame operation, and two processes can not go on simultaneously, seriously influence production efficiency.

Disclosure of Invention

The invention aims to solve the problems that stacking and film coating cannot be carried out simultaneously and the efficiency is low, and aims to provide a stacking and film coating device for sludge brick making production.

The technical problem to be solved by the invention is realized by adopting the following technical scheme:

a pile up neatly diolame device is used in mud brickmaking production includes:

the stacking device comprises a device bracket, a stacking conveying belt and a stacking device, wherein the stacking conveying belt is arranged on the device bracket and is driven by a driving source;

a device support at the front end of the stacking conveyor belt is fixedly provided with a baffle plate, the baffle plate is perpendicular to the movement direction of the stacking conveyor belt, rectangular blanking holes are arranged on the surface of the stacking conveyor belt at equal intervals, and a material placing interval is reserved between every two adjacent blanking holes;

a supporting platform is mounted on a device support between the upper belt surface and the lower belt surface of the stacking conveying belt, a lower material plate and a discharge plate are mounted on the supporting platform, three lower material plates are fixedly mounted on the device support, the lower end of the discharge plate is hinged to the supporting platform, the three lower material plates and the discharge plate are enclosed to form a cylindrical tubular structure, a hydraulic lifting table is mounted inside the tubular structure, a feeding conveying belt is mounted on the upper end surface of the hydraulic lifting table, and a discharge conveying belt is mounted on one surface of the discharge plate, which is located on the inner side of the tubular structure;

lower flitch upper end fixed mounting has the diolame ring holder, install slide bearing on the diolame ring holder, slide bearing outside installation carousel, carousel outer lane side is equipped with the ring gear, install driving motor on the diolame ring holder, the gear is installed to the driving motor output, gear and ring gear meshing, carousel upper portion fixed mounting has the membrane to roll up the fixed axle, install the cylinder on the carousel of fixed axle lower extreme is rolled up to the membrane, the cylinder output is fixed with the depression bar, diolame ring holder outer lane side fixed mounting has the locating lever, the locating lever upper end is fixed with supporting beam, the supporting beam end is fixed with around the membrane pole, around the equal inside cavity of membrane pole and depression bar, pass through the pipe connection pneumatic pump respectively around membrane pole and depression bar.

Further, install the forced air cooling support on the device support, the blowing fill is installed on forced air cooling support upper portion, blowing fill internally mounted has cooling fan, the blowing fill is located pile up neatly conveyer belt upper portion, the return air fill is installed to forced air cooling support lower part, the return air fill is located pile up neatly conveyer belt lower part, the return air fill passes through the pipe intercommunication with the blowing fill.

Furthermore, a bag-type dust collector is mounted on the guide pipe, a spiral bent pipe is fixed inside the guide pipe between the bag-type dust collector and the air blowing hopper, two ends of the spiral bent pipe extend out of the guide pipe, one end of the spiral bent pipe is connected with the cooling water input pipeline, and the other end of the spiral bent pipe is connected with the collecting box.

Furthermore, an electric heating plate is fixedly installed on one side of the film winding rod.

Furthermore, the supporting cross beam is positioned on the upper part of the film roll fixing shaft and is parallel to the stacking conveying belt.

The invention has the beneficial effects that:

the brick stacking machine is simple in structure, brick materials fall onto the hydraulic lifting table through the blanking holes to be stacked, the rotary table on the upper portion of the blanking plate drives the film wrapping fixed shaft to rotate around the brick materials in the stacking process, the film wrapping is wound on the outer side of the brick materials in the rotating process, the stacking and the film wrapping are carried out simultaneously, and the production efficiency is greatly improved.

Drawings

FIG. 1 is a structural diagram of a stacking conveyor belt when an envelope bracket is installed according to the invention;

FIG. 2 is an enlarged view of portion A of FIG. 1 in accordance with the present invention;

FIG. 3 is a top view of the coated stent of the present invention;

FIG. 4 is a block diagram of the present invention;

FIG. 5 is a pallet conveyor belt installation configuration of the present invention;

FIG. 6 is a cross-sectional view of the pallet conveyor belt of the present invention installed;

FIG. 7 is a cross-sectional view of a stacking conveyor belt of the present invention with the discharge plate open;

FIG. 8 is a view showing the structure of the cooling fan installed in the present invention;

FIG. 9 is a cross-sectional view of a catheter according to the present invention;

FIG. 10 is a view of the installation structure of the tie plate feeding frame of the present invention;

FIG. 11 is an enlarged view of portion B of FIG. 10 in accordance with the present invention;

FIG. 12 is a block diagram of the spacing box of the present invention;

FIG. 13 is a cross-sectional view of a check box of the present invention;

FIG. 14 is a belt structure diagram of the pallet conveyor of the present invention;

in the figure: 1. a device holder; 12. a stacking conveyor belt; 13. a feed conveyor belt; 21. a sideboard; 22. a blanking hole; 23. a material placing interval; 24. a material platform; 25. a first electric push rod; 26. pushing the plate; 27. a baffle plate; 31. a support platform; 32. a blanking plate; 33. a discharge plate; 34. a hydraulic lifting platform; 35. a feeding conveyor belt; 36. a discharge conveyer belt; 37. a material guide plate; 41. a PLC console; 42. a first infrared sensor; 43. a second infrared sensor; 44. a third infrared sensor; 45. an infrared emitter; 46. an infrared receiver; 47. a rotating shaft; 61. an air-cooled support; 62. a blowing hopper; 63. a cooling fan; 64. an air return hopper; 65. a conduit; 66. a bag-type dust collector; 67. spirally bending the pipe; 101. a drive roller; 102. a belt body; 103. a drive chain; 104. a chain plate; 105. supporting the roller; 71. a limiting box; 72. a buffer roller; 73. a drive shaft; 74. a roller; 75. a buffer belt; 201. coating ring frames; 202. a sliding bearing; 203. a turntable; 204. a drive motor; 205. a film roll fixing shaft; 206. a cylinder; 207. a pressure lever; 208. positioning a rod; 209. a support beam; 301. a film winding rod; 81. a base plate feeding frame; 82. a second electric push rod; 83. feeding plates; 84. a slideway; 85. a feed inlet; 401. an electric hot plate; 801. a material storage guide plate; 802. a material receiving plate; 803. and (5) shifting blocks.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further explained below by combining the specific drawings.

Example 1

As shown in fig. 1, 2, 3, 4; a pile up neatly diolame device is used in mud brickmaking production includes:

the device comprises a device bracket 1, wherein a stacking conveyor belt 12 is arranged on the device bracket 1, and the stacking conveyor belt 12 is driven by a driving source;

a baffle plate 21 is fixedly arranged on the device support 1 at the front end of the stacking conveyor belt 12, the baffle plate 21 is perpendicular to the moving direction of the stacking conveyor belt 12, rectangular blanking holes 22 are arranged on the belt surface of the stacking conveyor belt 12 at equal intervals, and a material placing interval 23 is reserved between every two adjacent blanking holes 22;

a supporting platform 31 is arranged on a device support 1 between the upper belt surface and the lower belt surface of the stacking conveyor belt 12, a blanking plate 32 and a discharging plate 33 are arranged on the supporting platform 31, the blanking plate 32 is provided with three parts and fixedly arranged on the supporting platform 31, the lower end of the discharging plate 33 is hinged on the supporting platform 31, the three blanking plates 32 and the discharging plate 33 are enclosed to form a cylindrical tubular structure, a hydraulic lifting table 34 is arranged in the tubular structure, a feeding conveyor belt 35 is arranged on the upper end surface of the hydraulic lifting table 34, and a discharging conveyor belt 36 is arranged on one surface of the discharging plate 33 positioned on the inner side of the tubular structure;

the upper end of the blanking plate 32 is fixedly provided with a film-coating ring frame 201, the film-coating ring frame 201 is provided with a sliding bearing 202, the outer side of the sliding bearing 202 is provided with a turntable 203, the outer side of the turntable 203 is provided with a gear ring, the film-coating ring frame 201 is provided with a driving motor 204, the output end of the driving motor 204 is provided with a gear, the gear is meshed with the gear ring, the upper part of the turntable 203 is fixedly provided with a film roll fixing shaft 205, the turntable 203 at the lower end of the film roll fixing shaft 205 is provided with an air cylinder 206, the output end of the air cylinder 206 is fixed with a pressure rod 207, the outer side of the film-coating ring frame 201 is fixedly provided with a positioning rod 208, the upper end of the positioning rod 208 is fixed with a supporting beam 209.

An electric heating plate 401 is fixedly arranged on one side of the membrane winding rod 301.

A support beam 209 is located above the roll fixing shaft 205, the support beam 209 being parallel to the palletizing conveyor belt 12.

A pile up neatly diolame device is used in mud brickmaking production, theory of operation:

the stacking conveyor belt 12 carries bricks to move from the tail end to the front end, when the bricks move to the baffle plate 21, the bricks on the upper portion of the stacking conveyor belt 12 are limited by the baffle plate 21 and cannot move, the stacking conveyor belt 12 continues to move, the bricks on the material placing interval 23 of the stacking conveyor belt fall onto the hydraulic lifting table 34 through the blanking holes 22, the hydraulic lifting table 34 descends, the stacking conveyor belt 12 continues to move, and accordingly the bricks on the material placing interval 23 all fall onto the hydraulic lifting table 34 to form stacking and stacking of the bricks.

The brick materials are stacked on a hydraulic lifting platform 34 layer by layer, a driving motor 204 drives a rotary disk 203 to rotate, the rotary disk 203 drives a press rod 207 and a film roll fixing shaft 205 to rotate, the film roll fixing shaft 205 is used for installing a packaging film roll, the packaging film winds around the press rod, before film wrapping, a pneumatic pump connected with the press rod 207 is started, the press rod 207 sucks air, the film is adsorbed on the surface of the press rod 207 by utilizing the suction force of the press rod 207, when a first layer of brick materials falls on the hydraulic lifting platform 34 up and down, an air cylinder 206 pushes out the press rod 207, the press rod 207 is close to a film winding rod 301, at the moment, the pneumatic pump connected with the film winding rod 301 is started, the pneumatic pump connected with the press rod 207 is gradually reduced, the suction force of the press rod 207 to the film wrapping is reduced, when the rotary disk 203 drives the press rod 207 to move to the film winding rod 301, the film wrapping on the press rod 207 is, the envelope twines the brick material outside from bottom to top, and after the pile up neatly accomplished back electric plate 401 generates heat and fuses the envelope, and cylinder 206 promotes depression bar 207 and adsorbs the envelope. The stacking and the film wrapping are carried out simultaneously, the production efficiency is greatly improved, the stacked bricks form a whole after the film wrapping is finished, and the stability of the bricks when the bricks are output to the hydraulic lifting table 34 is also ensured.

Example 2

As shown in fig. 4, 5, 6; a brick conveying type stacking device for sludge brick making production comprises:

the device comprises a device support 1, wherein a stacking conveyor belt 12 and a feeding conveyor belt 13 are arranged on the device support 1, and the stacking conveyor belt 12 and the feeding conveyor belt 13 are respectively driven by independent driving sources;

a baffle plate 21 is fixedly installed on a device support 1 at the front end of the stacking conveyor belt 12, the baffle plate 21 is perpendicular to the moving direction of the stacking conveyor belt 12, rectangular blanking holes 22 are formed in the surface of the stacking conveyor belt 12 at equal intervals, a material placing section 23 is reserved between every two adjacent blanking holes 22, a material platform 24 is arranged on one side of the tail end of the stacking conveyor belt 12, a first electric push rod 25 is installed on the device support 1, on one side, away from the stacking conveyor belt 12, of the material platform 24, and a push plate 26 is installed at the output end of the first electric push rod 25;

the feeding conveyer belt 13 is arranged on one side of the material platform 24, a baffle plate 27 is arranged on one side of the material platform 24, which is far away from the feeding conveyer belt 13, and the push plate 26 is vertical to the baffle plate 27;

the device support 1 between the upper belt surface and the lower belt surface of the stacking conveyor belt 12 is provided with a supporting platform 31, the supporting platform 31 is provided with a blanking plate 32 and a discharging plate 33, the blanking plate 32 is provided with three parts which are fixedly arranged on the supporting platform 31, the lower end of the discharging plate 33 is hinged on the supporting platform 31, the three blanking plates 32 and the discharging plate 33 are encircled to form a cylindrical tubular structure, a hydraulic lifting platform 34 is arranged inside the tubular structure, the upper end surface of the hydraulic lifting platform 34 is provided with a feeding conveyor belt 35, and the discharging plate 33 is arranged on one side of the inner side of the tubular structure and is provided with a discharging conveyor belt.

A material guide plate 37 is arranged between the material platform 24 and the stacking conveying belt 12. So that the brick material on the material platform 24 can enter the stacking conveyer belt 12.

A brick conveying type stacking device for sludge brick making production is disclosed, which has the working principle that:

brick materials are sent to a material platform 24 through a feeding conveyer belt 13 and then pushed to a material placing interval 23 of a stacking conveyer belt 12 through a first electric push rod 25 on the side portion of the material platform 24, the stacking conveyer belt 12 carries the brick materials and moves from the tail end to the front end, when the brick materials move to a baffle plate 21, the brick materials on the upper portion of the stacking conveyer belt 12 are limited by the baffle plate 21 and cannot move, the stacking conveyer belt 12 continues to move, the brick materials on the material placing interval 23 fall onto a hydraulic lifting platform 34 through a blanking hole 22, the hydraulic lifting platform 34 descends, the stacking conveyer belt 12 continues to move, and accordingly the brick materials on the material placing intervals 23 all fall onto the hydraulic lifting platform 34 to form stacking and stacking of the brick materials.

Example 3

On the basis of the embodiment 2, as shown in 4 and 7; this brick material conveying formula pile up neatly device still includes PLC control cabinet 41, first infrared sensor 42, second infrared sensor 43, first infrared sensor 42 is installed in 24 one sides of material platform, second infrared sensor 43 is installed on the device support 1 of pile up neatly conveyer belt 12 tail end, PLC control cabinet 41 input is connected respectively to first infrared sensor 42 and second infrared sensor 43, first electric putter 25 is connected respectively to PLC control cabinet 41 output, the driving source of pile up neatly conveyer belt 12 and the driving source of feeding conveyer belt 13.

Third infrared sensor 44 is installed to device support 1 of pile up neatly conveyer belt 12 front end upper band face lower part, third infrared sensor 44 is located flitch 32 upper portion down, the input of PLC control cabinet 41 is connected to third infrared sensor 44, hydraulic elevating platform 34 is connected to PLC control cabinet 41 output, infrared transmitter 45 is installed to hydraulic elevating platform 34 lateral part, infrared receiver 46 is installed to flitch 32 lower part down, infrared receiver 46 connects PLC control cabinet 41 input, install axis of rotation 47 on the device support 1, step motor output shaft is connected to axis of rotation 47 one end, play flitch 33 fixed mounting is on axis of rotation 47, step motor is connected to PLC control cabinet 41 output.

Whether first infrared sensor 42 is used for responding to and has had the brick material on the material platform 24, PLC control cabinet 41 control feeding conveyer belt 13 stop work when depositing the brick material on the material platform 24, second infrared sensor 43 is used for responding to whether the corresponding material platform 24 department of pile up neatly conveyer belt 12 has the brick material, pile up neatly conveyer belt 12 adopts hybrid step motor drive, step motor moves at every turn and makes the pile up neatly conveyer belt move a blanking hole and put the material interval, when pile up neatly conveyer belt 12 department does not have the brick material, PLC control cabinet 41 control pile up neatly conveyer belt 12 stop work, and control first electric putter 25 and stretch out, first electric putter 25 pushes the brick material on the material platform 24 to pile up neatly conveyer belt 12 on, first electric putter 25 retracts the back, PLC control cabinet 41 control feeding conveyer belt 13 carries the brick material to material platform 24. The material platform 24 is used to ensure that the brick material is quantitatively input onto the stacking conveyor belt 12.

The third infrared sensor 44 is used for sensing whether the uppermost layer of the brick stored on the upper part of the hydraulic lifting table 34 crosses the upper belt surface of the stacking conveyor belt 12, when the uppermost layer crosses the upper belt surface of the stacking conveyor belt 12, the PLC console 41 controls the hydraulic lifting table 34 to descend, thereby ensuring that the brick on the stacking conveyor belt 12 can be conveyed to the upper part of the hydraulic lifting table 34, when the hydraulic lifting table 34 descends to the bottom, the infrared receiver 46 at the lower part of the discharging plate 32 receives the infrared signal sent by the infrared transmitter 45, the PLC console 41 controls the stepping motor to drive the rotating shaft 47 to rotate, thereby turning the discharging plate 33, then controlling the feeding conveyor belt 35 on the hydraulic lifting table 34 and the discharging conveyor belt 36 on the discharging plate 33 to work, and outputting the stacking brick on the hydraulic lifting table 34.

Example 4

On the basis of the embodiment 2, as shown in fig. 8 and fig. 9; before the brick material piles up at the pile up neatly, because it is higher to come out its surface temperature from the tunnel cave, it packs pile up neatly brick material not to be convenient for after the pile up neatly is accomplished, install air-cooled support 61 on the device support 1, air blowing hopper 62 is installed on air-cooled support 61 upper portion, air blowing hopper 62 internally mounted has cooling fan 63, air blowing hopper 62 is located pile up neatly conveyer belt 12 upper portion, air return hopper 64 is installed to air-cooled support 61 lower part, air return hopper 64 is located pile up neatly conveyer belt 12 lower part, air return hopper 64 communicates through pipe 65 with air blowing hopper 62.

The guide pipe 65 is provided with a bag-type dust remover 66, a spiral bent pipe 67 is fixed inside the guide pipe 65 between the bag-type dust remover 66 and the blowing hopper 62, two ends of the spiral bent pipe 67 extend out of the guide pipe 65, one end of the spiral bent pipe is connected with the cooling water input pipeline, and the other end of the spiral bent pipe is connected with the collecting box.

Utilize the inside fan of blowing fill 62 to make the inspiratory air current flow direction of return air fill 64 blow the fill 62 of blowing, blow fill 62 and blow to the brick material on pile up neatly conveyer belt 12 upper portion and cool down the brick material, the hot gas flow after the cooling can enter into return air fill 64 again, it also can follow and enter into in the return air fill 64 to contain the dust in the hot gas flow, through installing sack cleaner 66 on the pipe 65 between return air fill 64 and the blowing fill 62, utilize sack cleaner 66 to detach the dust in the air current, and be equipped with spiral return bend 67 in the pipe 65, let in the cooling water in the spiral return bend 67, cool down the air current that flows through in the pipe 65, reduce the temperature that the blowing fill 62 blew off the air current, realize the effect of dust removal cooling.

Example 5

On the basis of the embodiment 2, as shown in fig. 7 and fig. 14; pile up neatly conveyer belt 12 is when transporting the brick material, because the action of gravity of brick material, make pile up neatly conveyer belt 12 easily and take place the phenomenon of sinking, not only influence the effect of piling up of brick material, and can harm pile up neatly conveyer belt 12, pile up neatly conveyer belt 12 includes drive roller 101, the area body 102, driving chain 103, drive roller 101 is equipped with four, mutual parallel mount is on device support 1, install two chain dishes 104 on every drive roller 101, driving chain 103 is installed on chain dish 104, driving chain 103 is equipped with two, fix respectively in area body 102 both sides, blanking hole 22 all sets up on the area body 102 with put the material interval 23, it is provided with supporting roller 105 to put between two driving chain 103 of the interval 23 lower part of material.

The chain disc 104 on the driving roller 101 drives the two driving chains 103 to move, the belt body with the material placing section 23 and the blanking hole 22 is arranged at the upper part of the two driving chains 103, the supporting roller 105 is arranged between the two driving chains 103 at the lower part of the material placing section 23, the supporting roller 105 is used for supporting the belt body 102, and when brick materials are placed on the material placing section 23, the belt body 102 is prevented from sinking.

Example 6

On the basis of the embodiment 2, as shown in fig. 6, fig. 12 and fig. 13; when the brick material moves on the stacking conveyor belt 12, the stacking conveyor belt 12 disperses the brick material due to vibration when moving, the brick material is influenced to be stacked, the limiting boxes 71 are respectively arranged on the device supports 1 on two sides of the stacking conveyor belt 12, the buffer rollers 72 are respectively arranged on one sides, which are close to one sides, of the two limiting boxes 71, the transmission shafts 73 are arranged inside the limiting boxes 71, the transmission shafts 73 are connected with the buffer rollers 72 through gears, the ends of the transmission shafts 73 are provided with rollers 74, the rollers 74 contact with the upper belt surface of the stacking conveyor belt 12 through outer belt surfaces, the buffer belts 75 are arranged on the buffer rollers 72 on each limiting box 71, and the distance between the buffer belts 75 on the two limiting boxes 71 is equal to. The buffer belt 75 moves at a speed equal to the speed of the pallet conveyor belt 12.

In the pile up neatly conveyer belt 12 motion process, gyro wheel 74 contact pile up neatly conveyer belt 12, make gyro wheel 74 drive transmission shaft 73 and rotate because frictional force acts on, transmission shaft 73 drives the motion of buffer roll 72 for buffer belt 75 on the buffer roll 72 is followed and is removed, the interval is blanking hole 22 width between the buffer belt 75 of pile up neatly conveyer belt 12 both sides, when the brick material removes to pile up neatly conveyer belt 12 on, the brick material both sides receive the restriction of buffer belt 75, prevent the brick material dispersion in the transportation, guarantee that the brick material can have blanking hole 22 department to level and fall.

Example 7

On the basis of the embodiment 2, as shown in fig. 10 and fig. 11; the lateral part of the lower material plate 32 is provided with a pad feeding frame 81, one side of the pad feeding frame 81 is provided with a second electric push rod 82, the output end of the second electric push rod 82 is fixed with an upper material plate 83, the pad feeding frame 81 is provided with a slide 84, the upper material plate 83 is positioned on the upper part of the slide 84, and the lateral part of the lower material plate 32 is provided with a feeding hole 85 corresponding to the slide 84.

Brick material still need carry the brick pile after the pile up neatly is accomplished, consequently need place the backing plate in pile up neatly brick bottom to fork truck carries, through setting up backing plate feeding frame 81 at device support 1 lateral part, places the backing plate on backing plate feeding frame 81, and when needing the backing plate, the second electric putter 82 of backing plate feeding frame 81 one side pushes the backing plate into the cavity that flitch 32 formed down through feed inlet 85 department by backing plate feeding frame 81, and the brick material just can fall on the backing plate.

Storage guide plates 801 are fixedly mounted at the four corners of the backing plate feeding frame 81 respectively. The backing plate piles up in the storage baffle, and when the lowest floor backing plate was pushed into to the hydraulic lifting platform by the material loading board on, the backing plate whereabouts of upper strata is so that carry out second backing plate material loading.

Go up flitch 83 and go up fixed mounting and connect flitch 802, connect flitch 802 to be located the slide 84 bottom, feed inlet 85 upside articulates there is shifting block 803, and shifting block 803 can be followed the 180 degrees rotations from top to bottom of blanking plate side. When the backing plate is pushed to the upper part of the hydraulic lifting table 34 by the feeding plate 83, the finished piled bricks on the upper part of the hydraulic lifting table 34 need to be output, and at the moment, the bricks on the piled conveyor belt 12 still fall down, the backing plate is supported by utilizing the receiving plate 802 on the feeding plate 83 when the backing plate extends to the upper part of the hydraulic lifting table 34, at the moment, the bricks falling down on the piled conveyor belt 12 directly fall onto the backing plate, when the backing plate is pushed to the hydraulic lifting table 34 by the feeding plate 83, the backing plate pushes the shifting block 803 to turn over, and when the second electric push rod 82 contracts, the backing plate is limited by the shifting block and stays on the hydraulic lifting table 34; when the brick material is output on the hydraulic lifting platform 34, the falling of the brick material on the stacking conveying belt 12 is not influenced.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a mud brickmaking production is with pile up neatly diolame device which characterized in that includes:

the stacking device comprises a device bracket, a stacking conveying belt and a stacking device, wherein the stacking conveying belt is arranged on the device bracket and is driven by a driving source;

a device support at the front end of the stacking conveyor belt is fixedly provided with a baffle plate, the baffle plate is perpendicular to the movement direction of the stacking conveyor belt, rectangular blanking holes are arranged on the surface of the stacking conveyor belt at equal intervals, and a material placing interval is reserved between every two adjacent blanking holes;

a supporting platform is mounted on a device support between the upper belt surface and the lower belt surface of the stacking conveying belt, a lower material plate and a discharge plate are mounted on the supporting platform, three lower material plates are fixedly mounted on the device support, the lower end of the discharge plate is hinged to the supporting platform, the three lower material plates and the discharge plate are enclosed to form a cylindrical tubular structure, a hydraulic lifting table is mounted inside the tubular structure, a feeding conveying belt is mounted on the upper end surface of the hydraulic lifting table, and a discharge conveying belt is mounted on one surface of the discharge plate, which is located on the inner side of the tubular structure;

lower flitch upper end fixed mounting has the diolame ring holder, install slide bearing on the diolame ring holder, slide bearing outside installation carousel, carousel outer lane side is equipped with the ring gear, install driving motor on the diolame ring holder, the gear is installed to the driving motor output, gear and ring gear meshing, carousel upper portion fixed mounting has the membrane to roll up the fixed axle, install the cylinder on the carousel of fixed axle lower extreme is rolled up to the membrane, the cylinder output is fixed with the depression bar, diolame ring holder outer lane side fixed mounting has the locating lever, the locating lever upper end is fixed with supporting beam, the supporting beam end is fixed with around the membrane pole, around the equal inside cavity of membrane pole and depression bar, pass through the pipe connection pneumatic pump respectively around membrane pole and depression bar.

2. The stacking and film-coating device for sludge brick manufacturing according to claim 1, wherein an air cooling support is mounted on the device support, an air blowing hopper is mounted on the upper portion of the air cooling support, a cooling fan is mounted inside the air blowing hopper, the air blowing hopper is located on the upper portion of the stacking and conveying belt, a return air hopper is mounted on the lower portion of the air cooling support, the return air hopper is located on the lower portion of the stacking and conveying belt, and the return air hopper is communicated with the air blowing hopper through a guide pipe.

3. The stacking and enveloping device for sludge brick making production as claimed in claim 2, wherein the guide pipe is provided with a bag-type dust remover, a spiral bent pipe is fixed inside the guide pipe between the bag-type dust remover and the blowing hopper, two ends of the spiral bent pipe extend out of the guide pipe, one end of the spiral bent pipe is connected with a cooling water input pipeline, and the other end of the spiral bent pipe is connected with a collecting box.

4. The stacking and enveloping device for sludge brick making production as claimed in claim 1, wherein an electric heating plate is fixedly mounted on one side of the film winding rod.

5. The stacking and film-coating device for sludge brick manufacturing according to claim 1, wherein the supporting beam is positioned on the upper part of the film roll fixing shaft and is parallel to the stacking conveying belt.

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