CN116767890B

CN116767890B - Chemical raw material storage type storage bin

Info

Publication number: CN116767890B
Application number: CN202311067329.5A
Authority: CN
Inventors: 路锋; 满建财; 霍飞; 柳倩
Original assignee: Guangdong Paint Color New Material Co ltd
Current assignee: Guangdong Paint Color New Material Co ltd
Priority date: 2023-08-23
Filing date: 2023-08-23
Publication date: 2024-04-19
Anticipated expiration: 2043-08-23
Also published as: CN116767890A

Abstract

The invention discloses a chemical raw material storage type bin which comprises a bin body and a supporting frame arranged below the bin body and used for supporting, wherein a bin is arranged in the bin body, at least two bin bodies are arranged in the bin body, a discharging channel is arranged at the center of the bin body, a transfer pipe is arranged above the inside of the discharging channel, the bin body and the transfer pipe are communicated through a connecting channel, a sealing plate is detachably arranged inside the bin body and positioned above the bin body to seal the bin body, a cover plate is detachably arranged at an opening above the sealing plate, a discharging mode adjusting mechanism used for adjusting a discharging mode of the bin body is arranged inside the discharging channel, and a discharging channel mechanism used for discharging is arranged below the discharging mode adjusting mechanism. The invention aims at solving the problems that in the prior art, the discharging mode of a bin during discharging can not be adjusted, and the discharging mode is inconvenient. The invention has the advantages of selecting mixed discharging or independent discharging according to the working requirement, improving the working efficiency and the like.

Description

Chemical raw material storage type storage bin

Technical Field

The invention relates to a storage bin, in particular to a chemical raw material storage bin.

Background

The bin (powder bin) has wide application in the fields of metallurgy, food, medicine, coal mine, solid waste treatment and the like, and belongs to the necessary infrastructure of chemical production. Taking medicines as an example, the purchased or produced medicine powder is generally stored in different types, the stored raw material powder is weighed and taken in the preparation and processing process, the raw material powder is mixed and then is processed by the subsequent process after being mixed, and as the raw material powder can damage human bodies or the environment, in order to avoid contact or dissipation of the raw materials, the raw materials are generally stored by adopting a movable storage bin/turnover storage bin, and when required, the raw materials are pushed to a mixed production process or other processes for discharging through the movable storage bin/turnover storage bin. However, this method is complicated, and is not convenient to improve the efficiency of the raw material feeding and batching process, and meanwhile, the raw materials are stored in the storage bin for a long time, so that the problems of agglomeration and the like may occur. The problems can also exist in a building powder bin, a food raw material bin and the like, so that the chemical raw material storage bin is necessary to be provided.

Disclosure of Invention

The invention aims to overcome the defects of the prior art, provides a chemical raw material warehouse type storage bin, solves the technical problems that a discharging mode of the storage bin in the prior art cannot be adjusted during discharging, is inconvenient and the like, and has the advantages that mixed discharging or independent discharging can be selected according to working requirements, the working efficiency is improved and the like.

The invention is realized by the following technical scheme: the invention discloses a chemical raw material storage type bin which comprises a bin body and a supporting frame arranged below the bin body and used for supporting, wherein bin chambers are arranged in the bin body, at least two bin chambers are arranged in the bin body, the bin chambers are arranged in the bin body in a ring-shaped array with the center of the bin body as a center point, a discharging channel is arranged in the center of the bin body, transfer pipes are arranged above the inside of the discharging channel, the number of the transfer pipes is the same as that of the bin chambers, the bin chambers and the transfer pipes are communicated through a connecting channel, sealing plates are detachably arranged inside the bin body and positioned above the bin chambers to seal the bin chambers, a cover plate is detachably arranged at an opening above the sealing plates, a discharging mode adjusting mechanism used for adjusting discharging modes of the bin body is arranged inside the discharging channel, and a discharging channel mechanism used for discharging is arranged below the discharging mode adjusting mechanism.

Further, the material discharging channel mechanism comprises independent material discharging pipes and mixed material discharging pipes, the number of the independent material discharging pipes is the same as that of the transfer pipes, one end of each independent material discharging pipe extends to the outside of the bin body, the mixed material discharging pipes are arranged between the independent material discharging pipes, one end of each mixed material discharging pipe extends to the outside of the bin body, and the mixed material discharging pipes and the independent material discharging pipes are fixedly arranged in the material discharging channel through fixing frames.

Further, ejection of compact mode adjustment mechanism includes the fixed disk, a discharging section of thick bamboo, the feeding cover, the rotation pipe, inclined tube and gear drive mechanism, the fixed below that sets up inside the ejection of compact passageway of fixed disk, the quantity of a discharging section of thick bamboo is the same with the transfer pipe, and a discharging section of thick bamboo passes through the fixed inside that sets up at the ejection of compact passageway of fixed disk, the top through connection of a discharging section of thick bamboo has the feeding cover, the below rotation of a discharging section of thick bamboo is provided with the rotation pipe, and the inside of rotation pipe and the inside of a discharging section of thick bamboo link up each other, the bottom of rotation pipe all inclines to be provided with the inclined tube, the contained angle of inclined tube and rotation pipe is greater than 90, and the inside and the rotation pipe intercommunication of inclined tube, the one end of rotation pipe bottom inclined tube is towards mixing the discharging pipe, gear drive mechanism installs the outside at the rotation pipe, gear drive mechanism can control rotation pipe to mixing the discharging pipe direction rotation or to individual discharging pipe direction rotation.

Further, when one end of the inclined tube at the bottom of the rotating tube rotates towards the mixed discharging tube, one end of the inclined tube below the rotating tube is located above the mixed discharging tube, and when one end of the inclined tube below the rotating tube rotates towards the direction of the independent discharging tube, one end of the inclined tube below the rotating tube is located above the independent discharging tube.

Further, gear drive mechanism includes mounting disc, driving gear, driven gear, first driving motor and induction system, the mounting disc sets up in the below of ejection of compact section of thick bamboo, and the swinging arms runs through the mounting disc, and the swinging arms can rotate in the mounting disc is inside, and driving gear rotatable sets up in the below of mounting disc, and driven gear has been cup jointed to the outer wall of swinging arms, and driven gear passes through driving gear meshing and connects, and first driving motor fixed mounting is in the below of mounting disc, and first driving motor is connected with the driving gear transmission, and induction system can fix a position the rotation of swinging arms.

Further, the induction mechanism comprises a touch sensor and a touch pad, the touch sensor is arranged below the mounting plate, the touch sensor is provided with two touch sensors, the two touch sensors are respectively located at symmetrical axis points of the top end of one of the rotating pipes inside the discharging channel, the touch pad is fixedly arranged on the outer wall of the top end of the rotating pipe, and when the rotating pipe inside the discharging channel rotates to the mixed discharging pipe or rotates to the independent discharging pipe in place, the touch pad can be respectively touched with the two touch sensors.

Further, the inside of transfer pipe all is provided with weighing machine and constructs, weighing machine constructs including solid fixed ring, the slide pipe, a storage section of thick bamboo, weighing ring, weighing sensor and valve mechanism, gu fixed ring is fixed to be set up in the inside of transfer pipe, the slide pipe is pegged graft in the inside of solid fixed ring, the bottom mounting of slide pipe is provided with a storage section of thick bamboo and link up each other, the top outer wall of slide pipe is fixed to have cup jointed weighing ring, the inside of storage section of thick bamboo is passed through slide pipe and transfer pipe inside and link up, the up end of weighing ring is towards center department indent, be provided with weighing sensor between solid fixed ring and the weighing ring, valve mechanism sets up in the below of a storage section of thick bamboo, valve mechanism can control ejection of compact and the feed of a storage section of thick bamboo, valve mechanism includes communicating pipe, the connecting rod, shutoff ball one, shutoff ball two and first electric putter, communicating pipe is fixed to be set up in the below of a storage section of thick bamboo and link up each other, the diapire inside of a storage section of thick bamboo is provided with the connecting rod, and the total length of connecting rod is greater than the total length of a storage section of thick bamboo, the top mounting of connecting rod is provided with shutoff ball one, the bottom mounting of connecting rod is provided with the shutoff ball, the shutoff ball one, the bottom mounting of the electric putter is quick-sealing ball is located the top of the second opening is close off the top of the first sealing ball, and the second sealing ball is located the first sealing ball, and the second sealing ball is close to be located the top to the top of the opening is close to the top of the first sealing ball.

Further, the inside of bin is provided with auger conveyer, and auger conveyer slope sets up in the inside of bin, auger conveyer's feed portion is located the bottom of bin, auger conveyer's ejection of compact subassembly is located the inside top of bin, auger conveyer ejection of compact subassembly's one end passes through the inside that connecting channel extended to the transfer pipe, auger conveyer's ejection of compact subassembly is flexible pipe, when the ejection of compact subassembly extends, the one end of ejection of compact subassembly passes through the connecting channel and extends to the transfer pipe inside, when the ejection of compact subassembly shrink, the one end of ejection of compact subassembly can shrink to the bin inside, the second electric putter is installed to the shrouding top, and the quantity of second electric putter is the same with the bin, second electric putter's telescopic shaft one end is provided with the control lever, and the other end and the one end fixed connection of ejection of compact subassembly, the condensation controller that is used for the inside humidity control of bin is installed to the inner wall of bin top, auger conveyer passes through auger actuating mechanism and drives, and auger actuating mechanism is belt drive, and auger actuating mechanism passes through universal joint shaft coupling with auger conveyer.

Further, a central controller is arranged on the bottom plate of the supporting frame, the central controller can electrically control the first electric push rod and the second electric push rod through the weighing sensor, and the central controller can electrically control the first driving motor through the touch type sensor.

The invention has the following advantages:

(1) According to the invention, the bin body, the bin chamber, the discharging channel, the transfer pipe, the discharging mode adjusting mechanism and the discharging channel mechanism are arranged, so that various powder raw materials can be stored in the bin body, a mixed discharging mode or an independent discharging mode can be selected according to requirements during later material taking, the first driving motor is started, the first driving motor enables the rotating pipe to rotate through the cooperation of the driving gear and the driven gear, one end of the inclined pipe rotates towards the mixed discharging pipe or towards the independent discharging pipe, and the discharging mode is selected, therefore, the time can be saved, the working efficiency is improved, and by arranging the weighing mechanism, each powder raw material can be weighed before discharging through the weighing mechanism, and then the powder raw material can be discharged according to required production proportion during discharging, so that the bin is more comprehensive in function and higher in working efficiency.

(2) According to the invention, the auger conveyor, the discharging assembly and the second electric push rod are arranged, so that the telescopic pipe can be stretched by controlling the second electric push rod, one end of the telescopic pipe can enter the interior of the transfer pipe to discharge, the telescopic pipe is contracted, one end of the telescopic pipe can be contracted into the interior of the bin, the raw material at the bottom of the interior of the bin is conveyed to the upper part through the auger conveyor to turn over, the utilization rate of the auger conveyor is improved, and the raw material can be prevented from accumulating for a long time to form caking.

Drawings

FIG. 1 is a schematic diagram of a front cross-sectional structure of a cartridge body of the present invention;

FIG. 2 is a schematic perspective view of the bin body of the invention;

FIG. 3 is a schematic diagram showing the exploded state of the drive mechanism of the bin and the auger according to the present invention;

FIG. 4 is a schematic view of the structure of the present invention shown in FIG. 1 at a partially enlarged scale;

FIG. 5 is a schematic view of the structure of the present invention shown in FIG. 1 at D in a partially enlarged manner;

FIG. 6 is a schematic perspective view of a transfer tube and weighing mechanism according to the present invention;

FIG. 7 is a schematic view of the internal structure of the transfer pipe according to the present invention;

FIG. 8 is a schematic view of the bin structure of the invention;

FIG. 9 is a schematic view of a partially enlarged structure of the invention at E of FIG. 4;

FIG. 10 is a schematic view of a partially enlarged structure of the present invention at B of FIG. 1;

FIG. 11 is a schematic view of a rotary tube and gear drive mechanism according to the present invention;

FIG. 12 is a schematic view of the structure of the rotary tube in the independent discharging state of the invention;

FIG. 13 is a schematic view of a rotary tube mixing discharge state structure of the present invention;

FIG. 14 is a schematic view of a partially enlarged structure of the present invention at G of FIG. 11;

FIG. 15 is a schematic top view of the driving gear and driven gear of the present invention;

FIG. 16 is a schematic view of the rotation directions of the driving gear and the driven gear according to the present invention;

FIG. 17 is a schematic view of the structure of the present invention, partially enlarged at F in FIG. 10;

FIG. 18 is a schematic cross-sectional view of the outfeed assembly of the present invention;

FIG. 19 is a schematic view of the retraction assembly of the present invention;

FIG. 20 is a schematic top view of a closure plate of the present invention;

FIG. 21 is a schematic view of the structure of the conical hopper and auger conveyor of the present invention;

Fig. 22 is a schematic view of a partial enlarged structure at C of fig. 1 according to the present invention.

In the figure: 1. a bin body; 2. a support frame; 3. a bin; 4. a discharge channel; 5. a transfer pipe; 6. a connection channel; 7. a central controller; 8. a sealing plate; 9. a cover plate; 10. an auger conveyor; 11. a discharge assembly; 12. a weighing mechanism; 13. a discharging mode adjusting mechanism; 14. a discharge channel mechanism; 15. a second electric push rod; 16. a control lever; 17. a relief groove; 18. a conical hopper; 19. a condensation controller; 20. a screw drive mechanism; 121. a fixing ring; 122. a slide tube; 123. a storage cylinder; 124. a weighing ring; 125. a weighing sensor; 126. a valve mechanism; 131. a fixed plate; 132. a discharging cylinder; 133. a feed hood; 134. a rotary tube; 135. a chute; 136. a gear drive mechanism; 141. an independent discharging pipe; 142. a mixed discharging pipe; 201. a second driving motor; 202. a belt pulley; 203. a transmission shaft; 204. a drive belt; 1261. a communicating pipe; 1262. a connecting rod; 1263. a first plugging ball; 1264. a second plugging ball; 1265. a first electric push rod; 1361. a mounting plate; 1362. a drive gear; 1363. a driven gear; 1364. a first driving motor; 1365. an induction mechanism; 13651. a touch sensor; 13652. a touch pad.

Detailed Description

The following detailed description of embodiments of the present invention, which are given by taking the technical solution of the present invention as a premise, gives detailed embodiments and specific operation procedures, but the scope of the present invention is not limited to the following embodiments, and in the description of the present invention, words indicating orientation or positional relationship like "front", "rear", "left", "right", etc. are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the device or element to be referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

The embodiment 1 discloses a chemical raw material storage type bin, as shown in fig. 1-22, the chemical raw material storage type bin comprises a bin body 1, as shown in fig. 1-4, a support frame 2 is arranged below the bin body 1, bin chambers 3 are arranged inside the bin body 1, at least two bin chambers 3 are arranged, a plurality of bin chambers 3 are arranged, so that various raw materials can be stored, later material taking is facilitated, in particular, four bin chambers 3 are arranged inside the bin body 1 in an annular array with the center of the bin body 1 as a center point, a discharging channel 4 is arranged at the center of the bin body 1, transfer pipes 5 are arranged above the inside of the discharging channel 4, the number of the transfer pipes 5 is the same as that of the bin chambers 3, the four bin chambers 3 are respectively communicated with the four transfer pipes 5 of the discharging channel 4 through a connecting channel 6, a sealing plate 8 is detachably arranged inside the bin body 1, the sealing plate 8 is positioned above the bin chambers 3, the upper opening of the bin chambers 3 is sealed, a cover plate 9 is arranged above the sealing plate 8, the cover plate 9 is detachably connected with the bin body 1 through the upper opening 9, and a support frame 2 is detachably arranged above the bin body, and a controller is arranged above the cover plate 2;

As shown in fig. 1-4, an auger conveyor 10 is arranged in the bin 3, raw materials in the bin 3 are conveyed to the interior of the transfer pipe 5 through the auger conveyor 10 for discharging, the auger conveyor 10 is obliquely arranged in the bin 3, a feeding part of the auger conveyor 10 is positioned at the bottom of the bin 3, a discharging component 11 of the auger conveyor 10 is positioned above the interior of the bin 3, the discharging component 11 of the auger conveyor 10 faces the direction of the discharging channel 4, the discharging component 11 of the auger conveyor 10 is obliquely downward, one end of the discharging component 11 extends to the interior of the transfer pipe 5 through the connecting channel 6, and raw materials in the bin 3 can be lifted from bottom to top through the auger conveyor 10 and conveyed to the interior of the transfer pipe 5 through the discharging component 11, so that the raw materials in the bin 3 can be discharged more thoroughly through conveying by the auger conveyor 10;

As shown in fig. 1,3, 4, 5, 6, 7, 8 and 9, in order to improve accuracy of the discharge amount, a weighing mechanism 12 is disposed in each transfer tube 5, raw materials entering the transfer tube 5 are weighed and proportioned by the weighing mechanism 12, specifically, the weighing mechanism 12 includes a fixed ring 121, a slide tube 122, a storage tube 123, a weighing ring 124, a weighing sensor 125 and a valve mechanism 126, wherein the fixed ring 121 is fixedly disposed in the transfer tube 5, the slide tube 122 is inserted in the fixed ring 121, two ends of the slide tube 122 are respectively disposed above and below the fixed ring 121, the storage tube 123 is fixedly disposed at the bottom end of the slide tube 122, the storage tube 123 is mutually communicated with the interior of the slide tube 122, the weighing ring 124 is fixedly sleeved on the outer wall of the top end of the slide tube 122, the interior of the storage tube 123 is communicated with the interior of the transfer tube 5 by the slide tube 122, the upper end of the weighing ring 124 is concave towards the center, so that raw materials entering the interior of the transfer tube 5 can enter the sliding tube 122 through the concave inclined surface of the weighing ring 124 and then enter the interior of the storage tube 123, a weighing sensor 125 is arranged between the fixed ring 121 and the weighing ring 124, the outer ring outer wall of the weighing ring 124 is attached to and in sliding fit with the inner wall of the transfer tube 5, therefore, the storage tube 123 can press the weighing ring 124 down by gravity through the sliding tube 122, the weighing sensor 125 can weigh the weight of the storage tube 123, thereby weighing raw materials inside the storage tube 123, a valve mechanism 126 is arranged below the storage tube 123, the discharging and feeding of the storage tube 123 are controlled through the valve mechanism 126, and the weighing sensor 125 can control the opening and closing of the valve mechanism 126 through the central controller 7, therefore, when the weighing sensor 125 senses that the weight of the raw materials in the storage barrel 123 reaches the required proportion, the valve mechanism 126 can be automatically started to seal the storage barrel 123, and meanwhile, the raw materials are controlled to be discharged, so that the intelligent storage barrel is more intelligent, a gap is reserved between the outer wall of the storage barrel 123 and the inner wall of the transfer pipe 5, and the influence of friction between the inner wall of the transfer pipe 5 and the outer wall of the storage barrel 123 on the weighing precision of the storage barrel 123 is avoided;

As shown in fig. 4, 5,6,7 and 9, specifically, the valve mechanism 126 includes a communicating pipe 1261, a connecting rod 1262, a first plugging ball 1263, a second plugging ball 1264 and a first electric push rod 1265, wherein the communicating pipe 1261 is fixedly arranged below the storage cylinder 123, the inside of the communicating pipe 1261 and the inside of the storage cylinder 123 are mutually communicated, the bottom wall of the inside of the storage cylinder 123 is concave towards the center, so that raw materials in the storage cylinder 123 can be discharged through the communicating pipe 1261, a connecting rod 1262 is arranged in the storage cylinder 123, the length of the connecting rod 1262 is greater than the total length of the storage cylinder 123, the sliding tube 122 and the communicating pipe 1261, a first plugging ball 1263 is fixedly arranged at the top end of the connecting rod 1262, a second plugging ball 1264 is fixedly arranged at the bottom end of the connecting rod 1262, the diameter of the first plugging ball 1263 is greater than the inner diameter of the sliding tube 122, the diameter of the second plugging ball 1264 is greater than the inner diameter of the communicating pipe 1261, the second plugging ball 1264 can be attached to the bottom end of the communicating pipe 1261, the second plugging ball 1264 can seal the bottom end opening of the communicating pipe 1261, the first plugging ball 1263 is located above the top end opening of the sliding pipe 122, the first electric push rod 1265 is installed on one side of the communicating pipe 1261, the telescopic shaft of the first electric push rod 1265 is connected with the outer wall of the second plugging ball 1264, the first electric push rod 1265 can control the second plugging ball 1264 to move up and down, when the first electric push rod 1265 controls the second plugging ball 1264 to move down, the first plugging ball 1263 is attached to the top end of the sliding pipe 122 to seal the top end opening of the sliding pipe 122, and meanwhile the second plugging ball 1264 is separated from the communicating pipe 1261 to open the communicating pipe 1261, so that raw materials in the storage barrel 123 are discharged through the communicating pipe 1261, meanwhile the first plugging ball 1263 seals the sliding pipe 122, and raw materials are prevented from continuously entering the storage barrel 123, and the bearing accuracy of the storage barrel 123 is higher;

As shown in fig. 1, 2, 5, 6 and 10, in order to enable the bin body 1 to be capable of being mixed and discharged or being singly discharged according to working requirements when being discharged, a discharging mode adjusting mechanism 13 is arranged below the inside of the discharging channel 4, the discharging mode adjusting mechanism 13 is arranged below the storage barrel 123, a discharging channel mechanism 14 is arranged below the discharging mode adjusting mechanism 13, specifically, the discharging channel mechanism 14 comprises single discharging pipes 141 and mixed discharging pipes 142, wherein the number of the single discharging pipes 141 is the same as that of the middle rotating pipe 5, one ends of the single discharging pipes 141 extend to the outside of the bin body 1, the mixed discharging pipes 142 are arranged between the single discharging pipes 141, one ends of the mixed discharging pipes 142 extend to the outside of the bin body 1, and the mixed discharging pipes 142 and the single discharging pipes 141 are fixedly arranged inside the discharging channel 4 through fixing frames;

As shown in fig. 1, 10 and 11, specifically, the discharging mode adjusting mechanism 13 includes a fixed disk 131, a discharging cylinder 132, a feeding cover 133, a rotating tube 134, inclined tubes 135 and a gear driving mechanism 136, wherein the fixed disk 131 is fixedly arranged below the inside of the discharging channel 4, the number of the discharging cylinders 132 is the same as that of the transferring tubes 5, the discharging cylinders 132 are fixedly arranged inside the discharging channel 4 through the fixed disk 131, the feeding cover 133 is connected above the discharging cylinders 132 in a penetrating manner, the feeding cover 133 is positioned below the communicating tube 1261, when the plugging ball 1264 moves downwards, the communicating tube 1261 is opened, raw materials inside the storage cylinder 123 enter the inside of the discharging cylinders 132 through the communicating tube 1261 and the feeding cover 133, the rotating tube 134 is rotatably arranged below each discharging cylinder 132, the rotating tube 134 is rotatably connected with the lower outer wall of the discharging cylinder 132 through a mechanical seal, the inside of the rotating pipes 134 is communicated with the inside of the discharging pipes 132, the bottom end of each rotating pipe 134 is obliquely provided with an inclined pipe 135, the included angle between the inclined pipe 135 and the rotating pipe 134 is larger than 90 degrees, the inside of each inclined pipe 135 is communicated with the inside of each rotating pipe 134, one end of each inclined pipe 135 at the bottom end of each rotating pipe 134 faces the mixing discharging pipe 142, the gear driving mechanism 136 is arranged outside the rotating pipe 134, the rotating pipe 134 can be controlled to rotate towards the mixing discharging pipe 142 or rotate towards the independent discharging pipe 141 through the gear driving mechanism 136, when one end of each inclined pipe 135 at the bottom end of the rotating pipe 134 rotates towards the mixing discharging pipe 142, as shown in figure 13, one end of each inclined pipe 135 below the rotating pipe 134 is located above the mixing discharging pipe 142, raw materials in the four storage pipes 123 enter the mixing discharging pipe 142 through the rotating pipe 134 and the inclined pipes 135 at the same time, as shown in figure 12, when one end of the inclined tube 135 below the rotating tube 134 rotates towards the direction of the independent discharging tube 141, one end of the inclined tube 135 below the rotating tube 134 is positioned above the independent discharging tube 141, and raw materials in the four storage cylinders 123 enter the independent discharging tube 141 respectively for independent discharging, so that mixed discharging and independent discharging can be realized;

As shown in fig. 1, 10, 11, 14, 15 and 16, the gear driving mechanism 136 comprises a mounting disc 1361, a driving gear 1362, a driven gear 1363, a first driving motor 1364 and a sensing mechanism 1365, wherein the mounting disc 1361 is arranged below the discharging tube 132, and the rotating tube 134 penetrates through the mounting disc 1361, the rotating tube 134 can rotate inside the mounting disc 1361, the driving gear 1362 is provided with three driving gears 1362, all three driving gears 1362 are rotatably arranged below the mounting disc 1361, the driven gear 1363 is sleeved on the outer wall of each rotating tube 134, the driven gears 1363 are meshed and connected with each other through the driving gear 1362, the first driving motor 1364 is fixedly arranged below the mounting disc 1361, and the first driving motor 1364 is in transmission connection with the driving gear 1362, so that when the first driving motor 1364 is driven, the driving gear 1362 rotates and drives the driven gear 1363 to rotate, one end of the inclined tube 135 at the bottom of the rotating tube 134 rotates towards the mixing discharging tube 142 or automatically stops rotating the sensing mechanism 141, and thus the first driving motor 1364 can be positioned immediately after the first driving motor 1364 is arranged to accurately and the first driving mechanism 1364 stops;

As shown in fig. 1, 10 and 17, the sensing mechanism 1365 specifically includes a touch sensor 13651 and a touch pad 13652, where the touch sensor 13651 is installed below the mounting plate 1361, and the touch sensors 13651 are two, the two touch sensors 13651 are respectively located at symmetry axis points of the top end of one of the rotating pipes 134 inside the discharging channel 4, and the touch pad 13652 is fixedly disposed on the outer wall of the top end of the rotating pipe 134, and when the rotating pipe 134 inside the discharging channel 4 rotates toward the mixed discharging pipe 142 or rotates toward the separate discharging pipe 141 in place, the touch pad 13652 will respectively touch the two touch sensors 13651;

in embodiment 2, on the basis of embodiment 1, a chemical raw material storage type bin is disclosed, in order to enable raw materials in a bin 3 to be turned over, avoid raw materials to be accumulated and agglomerated for a long time, as shown in fig. 1, 18, 19, 20 and 21, a discharging component 11 of a packing auger conveyor 10 is set to be a telescopic pipe, so that one end of the telescopic pipe can enter the interior of a transfer pipe 5 to discharge, the telescopic pipe is contracted, one end of the telescopic pipe can be contracted into the bin 3, the raw materials at the bottom of the bin 3 are conveyed to the upper side through the packing auger conveyor 10 to be turned over, the utilization rate of the packing auger conveyor 10 is improved, the raw materials can be prevented from being accumulated for a long time to be hardened or bridged, and the like, a second electric push rod 15 is installed above the packing plate 8, the number of the second electric push rod 15 is the same as that of the bin 3, one end of a telescopic shaft of the second electric push rod 15 is provided with a control rod 16, the other end of the control rod 16 is fixedly connected with one end of the telescopic pipe, and thus the discharging component 11 is controlled by opening and closing the second electric push rod 15 to be opened and closed, the discharging component 11 is controlled by the second electric push rod 15 can be switched to the corresponding to the bin 11, and the bin 11 can be turned over independently, and the bin 11 can be driven to be opened and closed independently, and the bin 11 is required to be opened and closed by the corresponding to the telescopic rod 11 is set to be opened independently, and opened and closed by the sealing plate 11, and the bin 11 is required to be opened independently, and opened, and the bin 11 is required to be opened;

As shown in fig. 1,2 and 21, a conical hopper 18 is arranged below the interior of the bin 3, the outer wall of the conical hopper 18 is fixedly connected with the inner wall of the bin 3, one end with the smaller inner diameter of the conical hopper 18 faces to the lower side of the bin 3, the discharge end of the auger conveyor 10 passes through the conical hopper 18 to extend to the upper side of the interior of the bin 3, the auger conveyor 10 is inclined towards the direction of the discharge channel 4, the driving end of the auger conveyor 10 extends to the lower side of the bin body 1, the feeding part of the auger conveyor 10 is arranged below the conical hopper 18, the feeding part of the auger conveyor 10 is communicated with the discharge hole below the conical hopper 18, and the discharge part of the auger conveyor 10 is arranged above the bin 3, so that when the auger conveyor 10 is started, raw materials are stored above the conical hopper 18, raw materials stacked and stored in the bin 3 are discharged towards a discharge hole through the conical surface of the conical hopper 18 and then enter the inside of the auger conveyor 10 through the discharge hole, the raw materials are conveyed to the upper part of the raw material level in the bin 3 through the auger conveyor 10 and then discharged through the discharge assembly 11, so that the raw materials stacked in the bin 3 are turned over, the raw materials are prevented from being stacked for a long time, the problem of caking of the raw materials at the bottom of the bin 3 is easily caused, and the condensation controller 19 is arranged on the inner wall above the inside of the bin 3, so that the air humidity in the bin 3 is controlled through the condensation controller 19, the condensation controller 19 can more effectively control the humidity of the storage environment of the raw materials when the auger conveyor 10 circularly turns over the raw materials in the bin 3, the raw material stacking plate is avoided, and the inappropriateness of air humidity of stacked raw materials is avoided;

As shown in fig. 1, fig. 2, fig. 3 and fig. 22, an auger driving mechanism 20 for driving the auger conveyor 10 is arranged below the bin body 1, the auger driving mechanism 20 is provided with a pair, the auger conveyor 10 which is obliquely arranged is driven by the pair of auger driving mechanisms 20, the auger driving mechanism 20 is in belt transmission, in particular, the auger driving mechanism 20 comprises a second driving motor 201, belt pulleys 202, a transmission shaft 203 and a transmission belt 204, wherein the second driving motor 201 is arranged on a bottom plate of the support frame 2, the two belt pulleys 202 are arranged, the two belt pulleys 202 are in transmission connection through the transmission belt 204, a transmission shaft 203 is fixedly arranged inside the two belt pulleys 202, one end of the transmission shaft 203 is connected with the output end of the second driving motor 201, the other end of the transmission shaft 203 is connected with a driving shaft of the auger conveyor 10 through a universal joint coupling, therefore, the second driving motor 201 can rotate to drive the transmission shaft 203 to rotate, the belt pulleys 203 drive the other belt pulleys 202 to rotate through the transmission belt 204, and thus the two transmission shaft 203 can drive the two transmission shafts 203 to rotate through the transmission belt 204 to drive the other belt pulleys 202 to start up the two transmission shafts 203 through the universal joint coupling 10;

as shown in fig. 1-22, specifically, the central controller 7 can electrically control the first electric push rod 1265 and the second electric push rod 15 through the weighing sensor 125, when the weighing sensor 125 weighs the storage barrel 123 to reach the required weight, the first electric push rod 1265 is controlled to move downwards, so that the first blocking ball 1263 closes the slide tube 122, raw materials are prevented from continuously entering the storage barrel 123, meanwhile, the second blocking ball 1264 moves downwards to open the communicating tube 1261, raw materials in the storage barrel 123 are discharged, the second electric push rod 15 is controlled to be started, the material discharging assembly 11 is contracted to the bin 3 to perform material overturning operation, the central controller 7 can electrically control the first driving motor 1364 through the touch sensor 13651, when the touch panel 13652 is touched with the touch sensor 13651, the first driving motor 1364 is stopped immediately, and the rotating tube 134 stops rotating, so that one end of the inclined tube 135 moves to a position, and therefore, the body 1 is more intelligent.

The principle of the invention is as follows: when the invention is used, the required raw materials can be discharged into each bin 3 in advance in a classified manner, in the storage process, the second driving motor 201 is started, the second driving motor 201 rotates to drive the transmission shaft 203 to rotate, the transmission shaft 203 drives the belt pulley 202 to rotate, the belt pulley 202 drives the other belt pulley 202 to rotate through the transmission belt 204, so that the two transmission shafts 203 rotate, the two transmission shafts 203 drive the two obliquely arranged conveying augers through the universal joint coupling to start, the conveying augers turn over the raw materials in the bins 3, meanwhile, the condensation controller 19 controls the air humidity in the bins 3, so that when the auger conveyor 10 circularly turns over the raw materials in the bins 3, the condensation controller 19 can control the humidity of the storage environment of the raw materials, when the raw materials are required to be discharged, firstly according to requirements, a mixed discharging mode or a single discharging mode is selected, a first driving motor 1364 is started, the first driving motor 1364 rotates the rotating tube 134 through the cooperation of the driving gear 1362 and the driven gear 1363, so that one end of the inclined tube 135 rotates towards the mixed discharging tube 142 or rotates towards the single discharging tube 141, the discharging mode is selected, after the discharging mode is regulated, a second electric push rod 15 is started, the second electric push rod 15 controls one end of the discharging assembly 11 to enter the interior of the transfer tube 5, the auger conveyor 10 conveys raw materials in the bin 3 into the interior of the transfer tube 5, raw materials entering the interior of the transfer tube 5 enter the storage tube 123 through the sliding tube 122, the weighing sensor 125 simultaneously weighs the storage tube 123, after the weight of the raw materials reaches the standard, the weighing sensor 125 sends out a signal, the central controller 7 controls the first electric push rod 1265 to move downwards, thereby make shutoff ball one 1263 seal slide tube 122, avoid the raw materials to continue to enter into inside of storage tube 123, simultaneously shutoff ball two 1264 moves down and opens communicating pipe 1261 for the inside raw materials of storage tube 123 are discharged, and control second electric putter 15 starts, make the material discharging subassembly 11 shrink to bin 3 and carry out the work of turning over, and storage tube 123 exhaust raw materials can be discharged through mixing discharging pipe 142 or independent discharging pipe 141 according to the requirement.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a chemical raw material warehouse style feed bin, includes the storehouse body (1) and sets up support frame (2) that are used for supporting below the storehouse body (1), its characterized in that, the inside of storehouse body (1) is provided with bin (3), and bin (3) are provided with two at least, bin (3) use the center of storehouse body (1) to be the inside of central point ring array setting at bin body (1), the center department of storehouse body (1) is provided with discharge channel (4), and the top of discharge channel (4) inside is provided with transfer pipe (5), the quantity of transfer pipe (5) is the same with bin (3), bin (3) link up through connecting channel (6) with transfer pipe (5), the inside dismantlement formula of bin (3) is provided with shrouding (8), and bin (3) are located the top of bin (3) and seal, the top opening dismantlement formula of shrouding of bin (8) is provided with apron (9), discharge channel (4) inside is provided with discharge channel (13) and is used for carrying out discharge mode adjustment mechanism (13) to discharge mode (13) of bin body (1);

the discharging channel mechanism (14) comprises independent discharging pipes (141) and mixed discharging pipes (142), the number of the independent discharging pipes (141) is the same as that of the transit pipes (5), one ends of the independent discharging pipes (141) extend to the outside of the bin body (1), the mixed discharging pipes (142) are arranged between the independent discharging pipes (141), one ends of the mixed discharging pipes (142) extend to the outside of the bin body (1), and the mixed discharging pipes (142) and the independent discharging pipes (141) are fixedly arranged in the discharging channel (4) through fixing frames;

The discharging mode adjusting mechanism (13) comprises a fixed disc (131), a discharging cylinder (132), a feeding cover (133), a rotating pipe (134), inclined pipes (135) and a gear driving mechanism (136), wherein the fixed disc (131) is fixedly arranged below the inside of the discharging channel (4), the quantity of the discharging cylinders (132) is the same as that of the transferring pipes (5), the discharging cylinders (132) are fixedly arranged inside the discharging channel (4) through the fixed disc (131), the feeding cover (133) is communicated with the upper part of the discharging cylinder (132), the rotating pipe (134) is arranged below the discharging cylinder (132) in a rotating way, the inclined pipes (135) are obliquely arranged at the bottom ends of the rotating pipe (134), the included angles of the inclined pipes (135) and the rotating pipe (134) are larger than 90 DEG, the inner parts of the inclined pipes (135) are communicated with the inner parts of the rotating pipe (134), one ends of the inclined pipes (135) at the bottom ends of the rotating pipe (134) face the mixing pipe (142), the gear driving mechanism (136) is arranged outside the discharging pipe (134), the gear drive (136) can control the rotation tube (134) to rotate towards the direction of the mixing discharging tube (142) or to rotate towards the direction of the independent discharging tube (141).

2. The chemical raw material storage bin according to claim 1, wherein when one end of the inclined tube (135) at the bottom end of the rotating tube (134) rotates towards the mixed discharging tube (142), one end of the inclined tube (135) below the rotating tube (134) is located above the mixed discharging tube (142), and when one end of the inclined tube (135) below the rotating tube (134) rotates towards the direction of the independent discharging tube (141), one end of the inclined tube (135) below the rotating tube (134) is located above the independent discharging tube (141).

3. The chemical raw material warehouse-type bin according to claim 1, wherein the gear driving mechanism (136) comprises a mounting disc (1361), a driving gear (1362), a driven gear (1363), a first driving motor (1364) and an induction mechanism (1365), the mounting disc (1361) is arranged below the discharging drum (132), the rotating tube (134) penetrates through the mounting disc (1361), the rotating tube (134) can rotate inside the mounting disc (1361), the driving gear (1362) is rotatably arranged below the mounting disc (1361), the driven gear (1363) is sleeved on the outer wall of the rotating tube (134) and is in meshed connection with the driven gear (1363) through the driving gear (1362), the first driving motor (1364) is fixedly arranged below the mounting disc (1361), the first driving motor (1364) is in transmission connection with the driving gear (1362), and the induction mechanism (1365) can position the rotation of the rotating tube (134).

4. A chemical raw material warehouse-type bunker as claimed in claim 3, characterized in that the induction mechanism (1365) comprises a touch sensor (13651) and a touch pad (13652), the touch sensor (13651) is installed below the installation plate (1361), the touch sensors (13651) are two, the touch pad (13652) is fixedly arranged on the outer wall of the top end of the rotating tube (134), and when the rotating tube (134) in the discharging channel (4) rotates to the mixed discharging tube (142) or rotates to the single discharging tube (141) in place, the touch pad (13652) is respectively touched with the two touch sensors (13651).

5. The chemical raw material storage bin according to claim 4, wherein the inside of the transfer tube (5) is provided with weighing mechanisms (12), each weighing mechanism (12) comprises a fixed ring (121), a sliding tube (122), a storage tube (123), a weighing ring (124), a weighing sensor (125) and a valve mechanism (126), the fixed rings (121) are fixedly arranged in the inside of the transfer tube (5), the sliding tube (122) is inserted in the fixed rings (121), the bottom end of the sliding tube (122) is fixedly provided with the storage tube (123) and is mutually communicated, the outer wall of the top end of the sliding tube (122) is fixedly sleeved with the weighing ring (124), the inside of the storage tube (123) is communicated with the inside of the transfer tube (5) through the sliding tube (122), the upper end face of the weighing ring (124) is inwards concave towards the center, the weighing sensor (125) is arranged between the fixed rings (121) and the weighing ring (124), the valve mechanism (126) can control the discharging of the storage tube (123) and the valve mechanism (126), the first connecting rod (126), the second connecting rod (1263) and the second connecting rod (1261) are mutually communicated, the first connecting rod 1263 and the second connecting rod (1264) are fixedly arranged, the utility model discloses a feeding device for a liquid crystal display, including storage tube (123), connecting rod (1262) is provided with to the inside diapire of storage tube (123) towards center department indent, the inside of storage tube (123) is provided with connecting rod (1262), and the length of connecting rod (1262) is greater than the total length of storage tube (123), slide tube (122) and communicating pipe (1261), the fixed shutoff ball (1263) that is provided with in top of connecting rod (1262), the bottom mounting of connecting rod (1262) is provided with shutoff ball two (1264), shutoff ball two (1264) seal the bottom opening of communicating pipe (1261), shutoff ball one (1263) are located slide tube (122) top open-ended top, one side at communicating pipe (1261) is installed to first electric putter (1265), first electric putter (1265) can control shutoff ball two (1264) reciprocate, when first electric putter (1265) control shutoff ball two (1264) move down, feeding ball one (1263) is sealed with slide tube (122) top opening and ball two (1264) are separated, communicating pipe (1261) are located communicating pipe (133).

6. The chemical raw material warehouse type bin according to claim 5, wherein an auger conveyor (10) is arranged in the bin (3), the auger conveyor (10) is obliquely arranged in the bin (3), a feeding part of the auger conveyor (10) is positioned at the bottom of the bin (3), a discharging component (11) of the auger conveyor (10) is positioned above the inside of the bin (3), one end of the discharging component (11) of the auger conveyor (10) extends to the inside of the transfer tube (5) through a connecting channel (6), a discharging component (11) of the auger conveyor (10) is a telescopic tube, when the discharging component (11) extends, one end of the discharging component (11) extends to the inside of the transfer tube (5) through the connecting channel (6), one end of the discharging component (11) contracts to the inside of the bin (3) when the discharging component (11) contracts, a second electric push rod (15) is arranged above the sealing plate (8), the second electric push rod (15) is arranged at one end of the second electric push rod (15) and the other end of the second electric push rod (16) is fixedly connected with one end of the second electric push rod (16), the inner wall of bin (3) inside top is installed and is used for the condensation controller (19) of bin (3) inside humidity control, auger conveyer (10) are driven through auger actuating mechanism (20), and auger actuating mechanism (20) are belt drive, and auger actuating mechanism (20) are connected with auger conveyer (10) through the universal joint shaft coupling.

7. The chemical raw material warehouse style bin according to claim 6, wherein a central controller (7) is installed on a bottom plate of the supporting frame (2), the central controller (7) is electrically controlled on the first electric push rod (1265) and the second electric push rod (15) through a weighing sensor (125), and the central controller (7) is electrically controlled on the first driving motor (1364) through a touch sensor (13651).