CN109227915B - High-efficient double-deck cloth machine - Google Patents

High-efficient double-deck cloth machine Download PDF

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Publication number
CN109227915B
CN109227915B CN201811050049.2A CN201811050049A CN109227915B CN 109227915 B CN109227915 B CN 109227915B CN 201811050049 A CN201811050049 A CN 201811050049A CN 109227915 B CN109227915 B CN 109227915B
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China
Prior art keywords
layer
conveyor belt
lower layer
upper layer
port
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CN109227915A (en
Inventor
易思海
荆海山
李秀栋
孙君华
林小平
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Foshan Dlt Technology Co ltd
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Foshan Dlt Technology Co ltd
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B28WORKING CEMENT, CLAY, OR STONE
    • B28BSHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
    • B28B13/00Feeding the unshaped material to moulds or apparatus for producing shaped articles; Discharging shaped articles from such moulds or apparatus
    • B28B13/02Feeding the unshaped material to moulds or apparatus for producing shaped articles
    • B28B13/0215Feeding the moulding material in measured quantities from a container or silo
    • B28B13/022Feeding several successive layers, optionally of different materials
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B28WORKING CEMENT, CLAY, OR STONE
    • B28BSHAPING CLAY OR OTHER CERAMIC COMPOSITIONS; SHAPING SLAG; SHAPING MIXTURES CONTAINING CEMENTITIOUS MATERIAL, e.g. PLASTER
    • B28B13/00Feeding the unshaped material to moulds or apparatus for producing shaped articles; Discharging shaped articles from such moulds or apparatus
    • B28B13/02Feeding the unshaped material to moulds or apparatus for producing shaped articles
    • B28B13/0215Feeding the moulding material in measured quantities from a container or silo
    • B28B13/027Feeding the moulding material in measured quantities from a container or silo by using a removable belt or conveyor transferring the moulding material to the moulding cavities

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  • Engineering & Computer Science (AREA)
  • Manufacturing & Machinery (AREA)
  • Chemical & Material Sciences (AREA)
  • Ceramic Engineering (AREA)
  • Mechanical Engineering (AREA)
  • Feeding, Discharge, Calcimining, Fusing, And Gas-Generation Devices (AREA)
  • Filling Or Emptying Of Bunkers, Hoppers, And Tanks (AREA)

Abstract

The invention relates to a high-efficiency double-layer material distributor, which comprises a rack, a movable frame, a hopper, a transmission mechanism, a material distributing mechanism, a transition supporting mechanism and a kiln car, wherein the movable frame moves back and forth on the rack; the conveying mechanism at least comprises a conveying belt, and the hopper is filled with materials and at least comprises a discharge hole, and the discharge hole is positioned right above the conveying belt. The high-efficiency double-layer material distributor realizes double-layer material distribution through the movable frame, the hopper, the transmission mechanism, the material distribution mechanism and the transition supporting mechanism. The cloth efficiency is high, and the full-automatic production of mechanization, production efficiency is high, has practiced thrift manufacturing cost.

Description

High-efficient double-deck cloth machine
Technical Field
The invention relates to the technical field of ceramic processing equipment, in particular to a high-efficiency double-layer distributing machine.
Background
The foamed ceramic is prepared from powder, and is foamed at high temperature to form closed air holes, so that the foamed ceramic is light in weight and good in heat preservation, and is widely applied to places such as steel furnace chimneys, outer wall surrounding, building partition walls and the like. In general, the foamed ceramic is sintered by adopting a tunnel kiln, in order to enlarge the productivity, the current foamed ceramic is sintered by adopting a multi-layer (such as double-layer, three-layer and the like) sintering mode, the yield is multiplied, and the distribution efficiency of the foamed ceramic in the earlier stage also needs to be correspondingly kept up to meet the requirement of raw material supply.
The existing double-layer material distribution mode is that after the lower layer material distribution is carried out through the kiln car, kiln furniture on the upper layer of the kiln car is installed manually, then the material distributor starts to distribute powder on the upper layer of the kiln car, the kiln furniture of the kiln car can be repeatedly assembled and disassembled to distribute the powder of the double-layer kiln car, and the double-layer material distribution mode is low in efficiency, wastes a large amount of labor and is high in production cost.
Based on the above, the double-layer material distribution process is improved, namely, the manual loading and unloading of kiln furniture of the kiln car is completed to be integrally loaded and unloaded by a machine at one time, so that the labor cost is saved, and the loading and unloading time of the kiln furniture is relatively shortened, but the kiln can not be accurately reset when the kiln is in existence, and manual intervention is needed.
Based on the above-mentioned shortcomings of the double-deck cloth machine, it is necessary to provide a novel double-deck cloth machine to solve the above-mentioned problems.
The invention provides a high-efficiency double-layer material distributor which has low equipment precision requirement and low manufacturing cost, and improves the production efficiency and market competitiveness.
Disclosure of Invention
The invention aims to solve the technical problem of providing the efficient double-layer cloth machine, which has low equipment precision requirement and low manufacturing cost, and improves the production efficiency and market competitiveness.
In order to solve the technical problems, the invention provides a high-efficiency double-layer distributing machine which comprises a frame, a movable frame which moves back and forth on the frame, a hopper positioned on the movable frame, a transmission mechanism positioned below the hopper, a distributing mechanism positioned at the tail end of the transmission mechanism, a transition supporting mechanism positioned at the tail end of the frame and a kiln car positioned below the transition supporting mechanism;
the conveying mechanism at least comprises a conveying belt, the hopper is internally filled with materials and at least comprises a discharge hole, and the discharge hole is positioned right above the conveying belt;
during material distribution, the hopper, the transmission mechanism and the material distribution mechanism move along with the movable frame, the conveyor belt moves relative to the hopper, and materials in the hopper move along with the conveyor belt and fall into the material distribution mechanism.
Preferably, the rack is provided with a sliding rail;
The movable frame comprises a roller wheel arranged at the bottom of the movable frame and a first motor for driving the roller wheel to roll, the shape, the size and the position of the roller wheel are matched with those of the sliding rail, and the roller wheel slides on the sliding rail.
Preferably, the hopper is installed on the movable frame, is a double-layer hopper, comprises a material storage structure and a material outlet arranged below the material storage structure, wherein the number of the material outlets is two, namely a first material outlet and a second material outlet, and the heights of the first material outlet and the second material outlet are different.
Preferably, the transmission mechanism is connected with the movable frame and is a double-layer transmission mechanism, namely an upper-layer transmission mechanism and a lower-layer transmission mechanism;
The upper layer transmission mechanism and the lower layer transmission mechanism have the same structure and both comprise a conveyor belt and a second motor for driving the conveyor belt to move;
the conveyor belt of the upper layer conveying mechanism is positioned below the first discharge hole;
the conveyer belt of lower floor's transport mechanism is located the below of second discharge gate.
Preferably, the material distribution mechanism is a double-layer material distribution mechanism and comprises an upper layer material distribution port and a lower layer material distribution port;
The upper layer material distribution port is positioned at the tail end of the conveyor belt of the upper layer conveying mechanism, the height of the upper layer material distribution port is lower than that of the conveyor belt of the upper layer conveying mechanism, and materials on the conveyor belt of the upper layer conveying mechanism fall into the upper layer material distribution port;
the lower layer material distribution port is positioned at the tail end of the conveying belt of the lower layer conveying mechanism, the height of the lower layer material distribution port is lower than that of the conveying belt of the lower layer conveying mechanism, and materials on the conveying belt of the lower layer conveying mechanism fall into the lower layer material distribution port.
Preferably, the transition supporting mechanism comprises a bracket, a roll-over stand rotatably connected with the bracket, an upper layer supporting roller positioned at the inner side of the roll-over stand and a lower layer supporting roller positioned at the inner side of the roll-over stand.
Preferably, the transition supporting mechanism further comprises a rotating pin shaft, an oil cylinder and an oil cylinder connecting rod;
The turnover frames are connected with the rotating pin shafts, the number of the turnover frames is two, and the two turnover frames are oppositely arranged;
The two roll-over frames are connected with the oil cylinder connecting rod, and the oil cylinder is used for driving the oil cylinder connecting rod to move, so that the roll-over frames rotate around the rotating pin shaft.
Preferably, the kiln car is a double-layer material distribution kiln car and comprises an upper layer filler opening and a lower layer filler opening;
The conveyor belt and the upper cloth port of the upper layer transmission mechanism are positioned above the upper layer filling port;
The conveyor belt and the lower cloth port of the lower layer transmission mechanism are positioned above the lower layer filling port;
the upper riding wheel is positioned between the conveyor belt of the upper transmission mechanism and the upper filling port;
the lower layer riding wheel is positioned between the conveyor belt of the lower layer transmission mechanism and the lower layer filling opening.
Preferably, the upper riding wheel is positioned at the inner side of the roll-over stand, and the height of the upper riding wheel is smaller than that of the conveyor belt of the upper conveying mechanism, so as to support the conveyor belt of the upper conveying mechanism;
the lower layer riding wheel is positioned at the inner side of the roll-over stand, the height of the lower layer riding wheel is smaller than that of the conveyor belt of the lower layer conveying mechanism, and the conveyor belt of the lower layer conveying mechanism is supported.
Preferably, the two sides of the conveyor belt are respectively provided with a supporting rail, and when in operation, the supporting rails of the conveyor belt slide on the upper layer riding wheels and/or the lower layer riding wheels.
Compared with the prior art, the invention has the beneficial effects that:
1. The high-efficiency double-layer material distributor realizes double-layer material distribution through the movable frame, the hopper, the transmission mechanism, the material distribution mechanism and the material supporting mechanism, has high material distribution efficiency, high production efficiency and production cost saving, and is mechanically and fully automatic.
2. According to the efficient double-layer material distributor, as the weight of the material on the conveyor belt is large when the material follows the conveying mechanism to the inside of the material distributing mechanism, the conveying mechanism is easy to crush due to the fact that the bearing of the material is directly achieved through the conveying mechanism, the transition supporting mechanism is arranged, the bearing is achieved through the transition supporting mechanism, and the material distributor is prevented from being crushed.
Drawings
FIG. 1 is a schematic diagram of the overall structure of a high-efficiency double-layer spreader provided by the invention;
FIG. 2 is a schematic cross-sectional view of the efficient double-layer spreader provided by the invention;
FIG. 3 is an enlarged view of portion A of FIG. 1;
fig. 4 is an enlarged view of a portion B in fig. 2;
fig. 5 is an enlarged view of a portion C in fig. 2;
Fig. 6 is a schematic structural view of a transition supporting mechanism of the efficient double-layer spreader.
Detailed Description
In order to better understand the technical solution of the present invention, the present invention will be further described in detail with reference to the accompanying drawings and preferred embodiments.
As shown in fig. 1-4, a high-efficiency double-layer distributing machine comprises a frame 1, a movable frame 2 which moves back and forth on the frame 1, a hopper 3 positioned on the movable frame 2, a transmission mechanism 4 positioned below the hopper 3, a distributing mechanism 5 positioned at the tail end of the transmission mechanism 4, a transition supporting mechanism 6 positioned at the tail end of the frame 1 and a kiln car 7 positioned below the transition supporting mechanism 6;
the conveying mechanism 4 at least comprises a conveyor belt 41, the hopper 3 is internally filled with materials and at least comprises a discharge hole 31, and the discharge hole 31 is positioned right above the conveyor belt 41;
During material distribution, the hopper 3, the transmission mechanism 4 and the material distribution mechanism 5 move along with the movable frame 2, the conveyor belt 41 moves relative to the hopper 3, and materials in the hopper 3 move along with the conveyor belt 41 and fall into the material distribution mechanism 5.
The frame 1 is used for installing a movable frame 2, a hopper 3, a transmission mechanism 4, a material distributing mechanism 5 and a transition supporting mechanism 6, and supporting the transmission mechanism 4 and the material distributing mechanism 5 to proper heights so as to be matched with the heights of kiln cars 7. In order to facilitate the movement of the movable frame 2 along the frame 1, the frame 1 is provided with a sliding rail 11.
The movable frame 2 moves back and forth on the frame 1, facilitates smooth proceeding of a material distribution process, comprises a roller 21 arranged at the bottom of the movable frame and a first motor 22 for driving the roller 21 to roll, wherein the shape, size and position of the roller 21 are matched with those of the sliding rail 11, so that the roller 21 can conveniently slide on the sliding rail 11, and the movable frame 2 can move along the frame 1.
As shown in fig. 4, the hopper 3 is mounted on the movable frame 2 and moves along with the movable frame 2, and is a double-layer hopper, and includes a material storage structure 32 and two discharge ports 31 located below the material storage structure 32, where the number of the discharge ports 31 is two, namely a first discharge port 31a and a second discharge port 31b, and the heights of the first discharge port 31a and the second discharge port 31b are different.
The conveying mechanism 4 is connected with the moving frame 2 and moves along with the moving frame 2, is a double-layer conveying mechanism and is an upper-layer conveying mechanism 4a and a lower-layer conveying mechanism 4b respectively, the upper-layer conveying mechanism 4a and the lower-layer conveying mechanism 4b are identical in structure and comprise conveying belts 41 and a second motor 42 for driving the conveying belts 41 to move, the conveying belts 41 of the upper-layer conveying mechanism 4a are positioned below the first discharge holes 31a, and the conveying belts 41 of the lower-layer conveying mechanism 4b are positioned below the second discharge holes 31b, so that materials inside the hopper fall onto the conveying belts 41 conveniently.
In the working process, the second motor 42 drives the conveyor belt 41 to rotate, the conveyor belt 41 moves relative to the hopper 3, materials in the hopper 3 fall onto the conveyor belt 41 of the upper layer conveying mechanism 4a through the first discharge hole 31a, and fall onto the conveyor belt 41 of the lower layer conveying mechanism 4b through the second discharge hole 31b, so that the materials are tiled on the conveyor belt 41 and move along with the conveyor belt 41.
When the conveyor belt 41 stops moving, the material in the hopper 3 is blocked by the conveyor belt 41 and is not dropped, so that whether the conveyor belt 41 moves or not can be selected according to actual production requirements.
The distributing mechanism 5 is located at the end of the conveying mechanism 4, and the specific distributing mechanism 5 is located at the end of the conveying belt 41, that is, the hopper 3 and the distributing mechanism 5 are respectively located at two ends of the conveying belt 41, so that materials in the hopper 3 can be conveyed into the distributing mechanism 5.
As shown in fig. 5, the distributing mechanism 5 is a double-layer distributing mechanism, and includes an upper layer distributing port 51 and a lower layer distributing port 52, where the upper layer distributing port 51 is located at the end of the conveyor belt 41 of the upper layer conveying mechanism 4a, and the height of the upper layer distributing port is lower than that of the conveyor belt 41 of the upper layer conveying mechanism 4a, so that materials on the conveyor belt 41 of the upper layer conveying mechanism 4a fall into the upper layer distributing port 51, and upper layer distributing is realized. The lower cloth port 52 is located at the end of the conveyor belt 41 of the lower conveying mechanism 4b, and the height of the lower cloth port is lower than that of the conveyor belt 41 of the lower conveying mechanism 4b, so that materials on the conveyor belt 41 of the lower conveying mechanism 4b can fall into the lower cloth port 52 conveniently, and lower cloth is realized.
Here, since the weight of the material on the conveyor belt 41 is relatively large when the material follows the conveying mechanism 4 to the inside of the distributing mechanism 5, and the conveying mechanism 4 is easy to crush by the bearing of the material directly through the conveying mechanism 4, the present invention provides a transition mechanism 6, as shown in fig. 6, the transition mechanism 6 includes a bracket 61, a roll-over stand 62 rotatably connected with the bracket 61, an upper layer riding wheel 63 located inside the roll-over stand 62, and a lower layer riding wheel 64 located inside the roll-over stand 62.
The support 61 is used for supporting the transition mechanism 6, so as to support the conveyor belt 41 of the conveying mechanism 4. The roll-over stand 62 is rotatably connected with the bracket 61, and specifically, the roll-over stand further comprises a rotating pin shaft 65, an oil cylinder 66 and an oil cylinder connecting rod 67, the roll-over stand 62 is connected with the rotating pin shaft 65, the number of the roll-over stand 62 is two, the two roll-over stands 62 are oppositely arranged, the two roll-over stands 62 are connected with the oil cylinder connecting rod 67, and the oil cylinder 66 drives the oil cylinder connecting rod 67 to move, so that the roll-over stand 62 rotates around the rotating pin shaft 65. When the kiln car needs to enter, the roll-over stand 62 is driven to rotate upwards through the oil cylinder 66 until the kiln car 7 completely enters, and then the roll-over stand 62 is driven to rotate downwards through the oil cylinder, so that the upper layer riding wheels 63 and the lower layer riding wheels 64 extend into two sides of the kiln car 7.
The upper layer riding wheel 63 is positioned at the inner side of the roll-over stand 62, and the height of the upper layer riding wheel is larger than the upper layer distribution height of the kiln car 7 and smaller than the height of the conveyor belt 41 of the upper layer conveying mechanism 4a, so that the conveyor belt 41 of the upper layer conveying mechanism 4a is conveniently supported; the lower riding wheel 64 is located at the inner side of the roll-over stand 62, and its height is greater than the lower cloth height of the kiln car and less than the height of the conveyor belt 41 of the lower conveying mechanism 4b, so as to conveniently cradle the conveyor belt 41 of the lower conveying mechanism 4 b.
In order to make the upper layer supporting roller 63 and the lower layer supporting roller 64 mutually cooperate with the transmission mechanism 4, the support of the conveying belt 41 is realized, the two sides of the conveying belt 41 are respectively provided with a supporting rail 43, and in operation, the supporting rails 43 of the conveying belt slide on the upper layer supporting roller 63 or the lower layer supporting roller 64.
The kiln car 7 is a double-layer material distribution kiln car and comprises an upper layer filler opening 71 and a lower layer filler opening 72, the conveyor belt 41 and the upper layer material distribution opening 51 of the upper layer transmission mechanism 4a are positioned above the upper layer filler opening 71, the conveyor belt 41 and the lower layer material distribution opening 72 of the lower layer transmission mechanism 4b are positioned above the lower layer filler opening 52, the upper layer riding wheel 63 is positioned between the conveyor belt 41 and the upper layer filler opening 51 of the upper layer transmission mechanism 4a, and the lower layer riding wheel 64 is positioned between the conveyor belt 41 and the lower layer filler opening 52 of the lower layer transmission mechanism 4 b.
The working process of the efficient double-layer cloth provided by the invention is as follows:
After the kiln car 7 completely enters the lower part of the transition mechanism 6, the oil cylinder 66 drives the turnover frame 62 to rotate downwards, so that the upper layer supporting wheel 63 and the lower layer supporting wheel 64 extend into the support 61 and are positioned on two sides of the kiln car 7, the movable frame 2 drives the hopper 3, the transmission mechanism 4 and the distribution mechanism 5 to move towards the direction close to the kiln car 7 until the upper layer distribution port 51 and the lower layer distribution port 52 of the distribution mechanism 5 are respectively positioned at the tail ends of the upper layer filling port 71 and the lower layer filling port 72 of the kiln car 7, the second motor 42 drives the conveyer belt 41 to rotate, materials in the hopper 3 fall into the conveyer belt 41 through the first discharge port 31a and the second discharge port 31b respectively, the material is distributed in the upper layer distribution port 51 and the lower layer distribution port 52 respectively through the conveyer belt 41, the movable frame 2 drives the hopper 3, the transmission mechanism 4 and the distribution mechanism 5 to move towards the direction far away from the kiln car 7 until the upper layer filling port 51 and the lower layer filling port 72 are respectively, the double-layer filling machine is stopped, and the double-layer material distribution machine can be completed.
It should be noted that, the embodiment of the present invention is a double-layer material distributor, and the multi-layer material distributor (such as a three-layer material distributor, a four-layer material distributor, etc.) based on the above structure of the present invention is also within the protection scope of the present invention.
While the foregoing is directed to the preferred embodiments of the present invention, it will be appreciated by those skilled in the art that changes and modifications may be made without departing from the principles of the invention, such changes and modifications are also intended to be within the scope of the invention.

Claims (7)

1. The efficient double-layer material distributor is characterized by comprising a rack, a movable frame which moves back and forth on the rack, a hopper positioned on the movable frame, a transmission mechanism positioned below the hopper, a material distributing mechanism positioned at the tail end of the transmission mechanism, a transition supporting mechanism positioned at the tail end of the rack and a kiln car positioned below the transition supporting mechanism;
the conveying mechanism at least comprises a conveying belt, the hopper is internally filled with materials and at least comprises a discharge hole, and the discharge hole is positioned right above the conveying belt;
when the material is distributed, the hopper, the transmission mechanism and the material distribution mechanism move along with the movable frame, the conveyor belt moves relative to the hopper, and the material in the hopper moves along with the conveyor belt and falls into the material distribution mechanism;
The rack is provided with a sliding rail; the movable frame comprises a roller wheel arranged at the bottom of the movable frame and a first motor for driving the roller wheel to roll, the shape, the size and the position of the roller wheel are matched with those of the sliding rail, and the roller wheel slides on the sliding rail;
The transition supporting mechanism comprises a bracket, a roll-over stand rotatably connected with the bracket, an upper layer supporting wheel positioned at the inner side of the roll-over stand and a lower layer supporting wheel positioned at the inner side of the roll-over stand;
The transition supporting mechanism also comprises a rotating pin shaft, an oil cylinder and an oil cylinder connecting rod;
The turnover frames are connected with the rotating pin shafts, the number of the turnover frames is two, and the two turnover frames are oppositely arranged;
The two roll-over frames are connected with the oil cylinder connecting rod, and the oil cylinder is used for driving the oil cylinder connecting rod to move, so that the roll-over frames rotate around the rotating pin shaft.
2. The efficient double-layer distributing machine according to claim 1, wherein the hopper is mounted on the movable frame and is a double-layer hopper, and the efficient double-layer distributing machine comprises a material storage structure and two discharge holes below the material storage structure, wherein the number of the discharge holes is two, namely a first discharge hole and a second discharge hole, and the heights of the first discharge hole and the second discharge hole are different.
3. The efficient double-layer spreader of claim 2, wherein the transport mechanism is connected to the moving frame and is a double-layer transport mechanism, which is an upper-layer transport mechanism and a lower-layer transport mechanism, respectively;
The upper layer transmission mechanism and the lower layer transmission mechanism have the same structure and both comprise a conveyor belt and a second motor for driving the conveyor belt to move;
the conveyor belt of the upper layer conveying mechanism is positioned below the first discharge hole;
the conveyer belt of lower floor's transport mechanism is located the below of second discharge gate.
4. A high efficiency double layer spreader as claimed in claim 3 wherein the spreader mechanism is a double layer spreader mechanism comprising an upper layer spreader port and a lower layer spreader port;
The upper layer material distribution port is positioned at the tail end of the conveyor belt of the upper layer conveying mechanism, the height of the upper layer material distribution port is lower than that of the conveyor belt of the upper layer conveying mechanism, and materials on the conveyor belt of the upper layer conveying mechanism fall into the upper layer material distribution port;
the lower layer material distribution port is positioned at the tail end of the conveying belt of the lower layer conveying mechanism, the height of the lower layer material distribution port is lower than that of the conveying belt of the lower layer conveying mechanism, and materials on the conveying belt of the lower layer conveying mechanism fall into the lower layer material distribution port.
5. The efficient double-layer distributor according to claim 4, wherein the kiln car is a double-layer distributor kiln car comprising an upper layer filler port and a lower layer filler port;
The conveyor belt and the upper cloth port of the upper layer transmission mechanism are positioned above the upper layer filling port;
The conveyor belt and the lower cloth port of the lower layer transmission mechanism are positioned above the lower layer filling port;
the upper riding wheel is positioned between the conveyor belt of the upper transmission mechanism and the upper filling port;
the lower layer riding wheel is positioned between the conveyor belt of the lower layer transmission mechanism and the lower layer filling opening.
6. The efficient double-layer spreader of claim 5, wherein the upper layer riding wheel is positioned at the inner side of the roll-over stand and has a height smaller than a height of a conveyor belt of the upper layer transmission mechanism to support the conveyor belt of the upper layer transmission mechanism;
the lower layer riding wheel is positioned at the inner side of the roll-over stand, the height of the lower layer riding wheel is smaller than that of the conveyor belt of the lower layer conveying mechanism, and the conveyor belt of the lower layer conveying mechanism is supported.
7. The efficient double-layer spreader of claim 1, wherein the support rails are provided on both sides of the conveyor belt, respectively, and the support rails of the conveyor belt slide on the upper layer riding wheels and/or the lower layer riding wheels when in operation.
CN201811050049.2A 2018-09-10 2018-09-10 High-efficient double-deck cloth machine Active CN109227915B (en)

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Application Number Priority Date Filing Date Title
CN201811050049.2A CN109227915B (en) 2018-09-10 2018-09-10 High-efficient double-deck cloth machine

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Application Number Priority Date Filing Date Title
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CN109227915B true CN109227915B (en) 2024-08-20

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* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN113413321B (en) * 2021-07-08 2023-11-24 武汉启航科技发展有限公司 Sandwich facial mask core material spreading device for moving spreading

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JPH0822535B2 (en) * 1991-10-18 1996-03-06 株式会社日型 Powder raw material filling method and powder raw material filling device
CN105109915A (en) * 2015-09-18 2015-12-02 佛山市金佳机电有限公司 Novel drawer type double-layer belt conveyer
CN106042165A (en) * 2016-07-26 2016-10-26 福建海源自动化机械股份有限公司 Manufacturing device for bricks permeable to water
CN209466441U (en) * 2018-09-10 2019-10-08 佛山市德力泰科技有限公司 A kind of high-efficiency double-layer material distributing machine

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CN200984783Y (en) * 2006-12-15 2007-12-05 黄柱基 Material distributing system device for producing ceramic
CN203418625U (en) * 2013-08-27 2014-02-05 东莞市恒和节能科技有限公司 Inorganic fire prevention and thermal insulation board production device
CN103640084B (en) * 2013-12-16 2016-03-30 岳芙蓉 A kind of circulating burden distribution system of producing ceramic wall and floor bricks

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Publication number Priority date Publication date Assignee Title
JPH0822535B2 (en) * 1991-10-18 1996-03-06 株式会社日型 Powder raw material filling method and powder raw material filling device
CN105109915A (en) * 2015-09-18 2015-12-02 佛山市金佳机电有限公司 Novel drawer type double-layer belt conveyer
CN106042165A (en) * 2016-07-26 2016-10-26 福建海源自动化机械股份有限公司 Manufacturing device for bricks permeable to water
CN209466441U (en) * 2018-09-10 2019-10-08 佛山市德力泰科技有限公司 A kind of high-efficiency double-layer material distributing machine

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