阅读说明：本技术 一种基于rfid射频技术的多层抽屉式自动备料仓 (Multilayer drawer type automatic material preparation bin based on RFID radio frequency technology ) 是由 王贤坤 黄进发 于 2021-07-24 设计创作，主要内容包括：本发明公开了一种基于RFID射频技术的多层抽屉式自动备料仓,包括加工箱,所述加工箱的内壁上安装有储料腔,所述加工箱的两侧外壁上安装有支撑板,所述支撑板的底部安装有伸缩杆,所述加工箱的内壁上安装有三组等距排列的支撑滑道,且支撑滑道位于储料腔的上方,所述支撑滑道的顶部嵌合安装有支撑框,所述加工箱的顶部通过螺栓安装有顶盖,所述加工箱的一侧安装有计算机设备,且计算机设备位于支撑板的上方。本发明通过安装有传感器,工作人员将第一传感线和第二传感线上多余的线收到收线盒的内侧,方便工作人员对线路进行整理,避免装置上多余的线在汽车行驶的过程中发生缠绕的情况,避免发生事故,保证行驶安全。(The invention discloses a multilayer drawer type automatic stock preparing bin based on an RFID radio frequency technology, which comprises a processing box, wherein a material storage cavity is arranged on the inner wall of the processing box, supporting plates are arranged on the outer walls of two sides of the processing box, telescopic rods are arranged at the bottom of the supporting plates, three groups of supporting slideways which are arranged at equal intervals are arranged on the inner wall of the processing box, the supporting slideways are positioned above the material storage cavity, a supporting frame is embedded and arranged at the top of each supporting slideway, a top cover is arranged at the top of the processing box through bolts, computer equipment is arranged on one side of the processing box, and the computer equipment is positioned above the supporting plates. According to the invention, by installing the sensor, the worker receives redundant wires on the first sensing wire and the second sensing wire to the inner side of the wire collecting box, so that the worker can conveniently arrange the wires, the situation that the redundant wires on the device are wound in the driving process of an automobile is avoided, accidents are avoided, and the driving safety is ensured.)

1. The utility model provides an automatic stock bin of preparing of multilayer drawer type based on RFID radio frequency technology, includes processing case (1), its characterized in that: the processing device comprises a processing box (1), wherein a storage cavity (2) is arranged on the inner wall of the processing box (1), supporting plates (102) are arranged on the outer walls of two sides of the processing box (1), telescopic rods (5) are arranged at the bottom of the supporting plates (102), three groups of supporting slideways (101) which are arranged at equal intervals are arranged on the inner wall of the processing box (1), the supporting slideways (101) are positioned above the storage cavity (2), a supporting frame (3) is embedded at the top of each supporting slideway (101), a top cover (6) is arranged at the top of the processing box (1) through bolts, computer equipment (8) is arranged on one side of the processing box (1), and the computer equipment (8) is positioned above the supporting plates (102);

filter screen (301) are installed to the inboard of carriage (3), vibrations machine (302) are installed to the inboard of carriage (3), and vibrations machine (302) are located the below of filter screen (301).

2. The automatic stock bin of multilayer drawer type based on RFID radio frequency technology of claim 1, characterized in that: heating pipe (201) is installed around to the inside of storage cavity (2), separate flitch (202) are installed to the inboard of heating pipe (201), it installs upper limit infrared detection probe (203) to separate the inboard top of flitch (202), separate flitch (202) inboard bottom and install lower limit infrared detection probe (204), hopper (205) down are installed to the bottom of storage cavity (2), install bracing piece (401) on the inner wall of hopper (205) down, relief valve (206) are installed to the bottom of hopper (205) down, unloading interface (207) are installed to the bottom of relief valve (206).

3. The automatic stock bin of multilayer drawer type based on RFID radio frequency technology of claim 2, characterized in that: supporting disk (4) are installed to the one end of bracing piece (401), and seal box (402) are installed at the top of supporting disk (4), and control motor (403) are located the inboard of seal box (402), and the output of control motor (403) is connected with dwang (404), and stirring rake (405) are installed in the outside of dwang (404).

4. The automatic stock bin of multilayer drawer type based on RFID radio frequency technology of claim 1, characterized in that: the front surface of the processing box (1) is provided with a through hole (103).

5. The automatic stock bin of multilayer drawer type based on RFID radio frequency technology of claim 1, characterized in that: the front surface of the supporting frame (3) is provided with a handle (303).

6. The automatic stock bin of multilayer drawer type based on RFID radio frequency technology of claim 1, characterized in that: the top of the top cover (6) is provided with a supporting pipe (601) through a bolt, and the top of the supporting pipe (601) is provided with a butt joint pipe (701).

7. The automatic stock bin of multilayer drawer type based on RFID radio frequency technology of claim 6, characterized in that: the automatic grinding device is characterized in that a metering valve (709) is installed inside the butt joint pipe (701), the metering valve (709) is electrically connected with computer equipment (8), a grinding box (7) is installed at the top of the butt joint pipe (701), a filtering sieve plate (702) is installed on the inner wall of the grinding box (7), two groups of driving rods (703) which are symmetrically distributed are installed on the inner wall of the grinding box (7) in a penetrating mode, squeezing rollers (704) are installed on the outer surface of the driving rods (703), the squeezing rollers (704) are attached to the filtering sieve plate (702), the squeezing rollers (704) are located on the inner side of the grinding box (7), a motor (705) is installed at the front end of one group of the driving rods (703), the motor (705) is installed on the front wall of the grinding box (7), a driving gear (706) is installed at the rear end, penetrating through the outer wall of the grinding box (7), and a driven gear (708) is installed at the rear end, penetrating through the driving rod (703), of the outer wall of the grinding box (7), and the driven gear (708) is meshed with the driving gear (706), and the top of the crushing box (7) is provided with a feeding port (707).

8. The automatic stock bin of multilayer drawer type based on RFID radio frequency technology of claim 1, characterized in that: and an RFID (radio frequency identification) code (801) is installed on one side of the computer equipment (8), and a power line (802) is installed on one side of the computer equipment (8).

9. The automatic stock bin of multilayer drawer type based on RFID radio frequency technology of claim 1, characterized in that: the bottom of telescopic link (5) is installed chassis (501), and adjusting screw (503) have been installed in the front of telescopic link (5) through-going, and adjusting hole (502) have been seted up in the front of telescopic link (5), and adjusting screw (503) screw thread is installed in the inboard of adjusting hole (502).

10. The automatic preparation bin with multiple drawer based on RFID radio frequency technology as claimed in any one of claims 1-9, wherein the device comprises the following working steps:

s1, firstly, before the control device operates, a worker butt joints the chassis (501) with the production device at the bottom through bolts to ensure the stability of the device, then the blanking interface (207) is connected with the receiving device below through bolts to ensure the tightness of the connection of the device, the worker injects materials into the inner side of the feeding port (707) through the feeding port (707), simultaneously the control device of the computer device (8) operates, the motor (705) operates to drive the driving rod (703) to rotate, the driving rod (703) rotates to drive the extrusion roller (704) and the driving gear (706) to rotate, the driving gear (706) rotates to drive the driven gear (708) to rotate relatively through the clamping groove, the driven gear (708) rotates to drive the other group of driving rods (703) to rotate relatively, so that the extrusion rollers (704) at the outer sides of the two groups of driving rods (703) rotate relatively, the two groups of squeezing rollers (704) squeeze relatively to crush the materials, the crushed materials fall on the filtering sieve plate (702), the materials are sorted by filtering holes on the filtering sieve plate (702), the materials which meet the specification pass through the filtering sieve plate (702) and fall into the butt joint pipe (701), the materials which do not meet the specification are ground between the filtering sieve plate (702) and the squeezing rollers (704), the materials are crushed, the materials can pass through the filtering sieve plate (702), the opening and closing of the butt joint pipe (701) are controlled by a metering valve (709), and during blanking, the quantity of the materials which pass through the metering valve (709) is calculated, and the quantity of the materials which pass through is calculated;

s2, the butt joint pipe (701) guides the material to the inside of the supporting pipe (601), the supporting pipe (601) guides the material to the inside of the processing box (1), the material continuously falls down and falls onto the filter screen (301), meanwhile, the vibration machine (302) operates to drive the supporting frame (3) to vibrate, the supporting frame (3) vibrates to drive the filter screen (301) to vibrate, so that the filter screen (301) is prevented from being kept stable and being incapable of filtering materials, through the multi-layer filtering structure, the materials at the inner side of the materials are finely screened, the quality of the materials is improved, when the residues in the supporting frame (3) are excessive, the handle (303) is held by a hand, the supporting frame (3) is pulled to move, the supporting frame (3) is moved from the supporting slide way (101), and the supporting frame (3) extends out from the through hole (103), so that the workers can clean the residues above the supporting frame conveniently;

s3, the materials continuously fall to the inner side of the material separating plate (202), meanwhile, the heating pipe (201) is electrified to heat the materials on the inner side, the temperature inside the material storage cavity (2) is guaranteed to be constant, in the falling process of the materials, the motor (403) is controlled to operate to drive the rotating rod (404) to rotate, the rotating rod (404) rotates to drive the stirring paddle (405) to rotate, the stirring paddle (405) rotates to stir the materials, the materials are prevented from being statically stacked together, the materials cannot be uniformly heated, the quality of the materials is influenced, the materials continuously fall to the inner side of the discharging hopper (205), then the discharging valve (206) is opened, the materials enter the production equipment through the discharging interface (207), and the production equipment processes the materials;

s4, the metering valve (709) transmits the detected information to the computer device (8), the computer device (8) counts the material quantity, the computer device (8) meters the operation condition of the device, and the staff can read the RFID code (801) only by the mobile phone, so that the information of the material loading quantity and the operation condition of the device can be generated on the mobile phone, and the staff can know the operation condition of the device conveniently.

Technical Field

The invention relates to the technical field of automatic material preparation bins, in particular to a multilayer drawer type automatic material preparation bin based on an RFID radio frequency technology.

Background

The RFID is widely applied, typically, animal wafers, automobile wafer burglar alarms, access control, parking lot control, production line automation and material management are applied, workers can know the situation of the internal operation of the device conveniently through RFID radio frequency technology, and the workers can adjust the device conveniently.

The automatic stock preparation bin in the prior art has the following defects:

1. the comparison document CN 212638586U discloses a raw material storage bin for polyurethane foam caulking agent, which comprises: the upper part of the bin body is provided with a feeding hole, and the lower part of the bin body is provided with a discharging hole; the bin body comprises an inner bin and an outer bin, heat conduction fins are arranged between the inner bin and the outer bin, spiral tubes are mounted on the heat conduction fins and arranged around the inner bin, two ends of each spiral tube extend out of the outer bin respectively, the water inlet ends of the spiral tubes are located at the lower portion of the bin body and communicated with a cold water pipeline, the water outlet ends of the spiral tubes are located at the upper portion of the bin body, water outlet ring pipes are fixed on the outer side of the upper portion of the outer bin, a plurality of water outlet holes are formed in the lower portion of each water outlet ring pipe, the water outlet ring pipes are connected with the water outlet ends of the spiral tubes, and water receiving grooves are formed in the outer side surface of the lower portion of the outer bin. The device has the advantages that the high temperature in the production room is reduced to diffuse and conduct into the inner bin, raw materials in the inner bin are protected, and the raw materials are prevented from deteriorating, the structure of the device is simpler than that of the device, a multi-layer drawer structure is lacked in the device, and workers are inconvenient to disassemble the device and clean the inside of the device;

2. reference CN212301405U discloses a banbury mixer storehouse feed arrangement that prepares material, "including weighing sensor, the storage silo, feedstock channel, prepare material storehouse and banbury mixer, wherein top is weighing sensor, this weighing sensor links to each other with the storage silo feed inlet of lower part, this storage silo discharge gate passes through pneumatic butterfly valve I and links to each other with the feed inlet of the feedstock channel of lower extreme, this feedstock channel discharge gate links to each other with the storehouse feed inlet of preparing material of lower part, this storehouse discharge gate of preparing material links to each other with the banbury mixer of lower extreme, set up check valve or butterfly valve on feedstock channel, the storehouse feed inlet of preparing material sets up the flange, the flange is connected with check valve or butterfly valve. The utility model discloses an internal mixer feed bin is equipped with recoil air flow isolator-check valve or butterfly valve additional in the feeding, and this check valve or butterfly valve have prevented the recoil air current when the feed bin ejection of compact of prepareeing material for this air current can not flow back and strike the electronic scale, will weigh accurate to 0.05 kg. The device is lack of high-low position abnormality detection equipment inside, the device is relatively closed, and workers cannot know whether the amount of internal materials is too much or too little, so that the situations of excessive materials or material shortage are easily caused;

3. the reference document CN200985182 discloses an automatic loading and unloading stock bin, which is characterized by comprising an inner box body and an outer box body, wherein a material outlet window is arranged at the bottom end of the inner box body, support plates are arranged at the left end and the right end of the bottom of the inner box body, a front rotating shaft and a rear rotating shaft are erected between the support plates, a transmission gear is arranged on the outer side of one end of the front rotating shaft and the rear rotating shaft, the transmission gear is meshed with a reversing gear, a motor and an output gear are arranged in the outer box body at the end, the output gear is meshed with a transmission chain, the transmission chain is meshed with the reversing gear and the other transmission gear, a front row of bearing rods and a rear row of bearing rods are erected on the material outlet window of the outer box body, two ends of each row of bearing rods are connected through connecting ropes and connected to the corresponding front rotating shaft and rear rotating shaft, rear retractable ropes are wound at two ends of the front rotating shaft and the rear rotating shaft and are correspondingly connected to the outer bearing rods of the rear row of bearing rods, and the front row of bearing rods, and the motor is provided with a control switch for forward and reverse rotation; this preparation box is a plurality of, drives ejection of compact window's carrier bar through the motor, unloads the train packing box simultaneously with the raw and other materials in the preparation box, and is fast, the time is short, convenient operation, and utensil practicality ", the inside RFID radio frequency technology that lacks of device, inconvenient staff inspects equipment inside.

Disclosure of Invention

The invention aims to provide a multilayer drawer type automatic stock bin based on an RFID radio frequency technology, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a multilayer drawer type automatic stock preparation bin based on an RFID radio frequency technology comprises a processing box, wherein a storage cavity is arranged on the inner wall of the processing box, supporting plates are arranged on the outer walls of two sides of the processing box, telescopic rods are arranged at the bottoms of the supporting plates, three groups of supporting slideways which are arranged at equal intervals are arranged on the inner wall of the processing box, the supporting slideways are positioned above the storage cavity, supporting frames are embedded and arranged at the tops of the supporting slideways, a top cover is arranged at the top of the processing box through bolts, computer equipment is arranged on one side of the processing box and positioned above the supporting plates;

the filter screen is installed to the inboard of carriage, the vibrations machine is installed to the inboard of carriage, and the vibrations machine is located the below of filter screen.

Preferably, the heating pipe is installed around the inside in storage cavity, and the flitch that separates is installed to the inboard of heating pipe, separates the inboard top of flitch and installs upper limit infrared detection probe, separates flitch inboard bottom and installs lower limit infrared detection probe, and the hopper is down installed to the bottom in storage cavity, installs the bracing piece on the inner wall of hopper down, and the relief valve is installed to the bottom of hopper down, and the unloading interface is installed to the bottom of relief valve.

Preferably, the supporting disk is installed to the one end of bracing piece, and the seal box is installed at the top of supporting disk, and the control motor is located the inboard of seal box, and the output of control motor is connected with the dwang, and the stirring rake is installed in the outside of dwang.

Preferably, the front surface of the processing box is provided with a through hole.

Preferably, a handle is mounted on the front surface of the support frame.

Preferably, the top of the top cover is provided with a support tube through a bolt, and the top of the support tube is provided with a butt joint tube.

Preferably, the internally mounted of butt joint pipe has the metering valve, and metering valve and computer equipment electric connection, crushing case is installed at the top of butt joint pipe, install the filtration sieve on the inner wall of crushing case, run through the actuating lever of installing two sets of symmetric distributions on crushing case's the inner wall, the surface mounting of actuating lever has the squeeze roll, and the squeeze roll is laminated with the filtration sieve, and the squeeze roll is located the inboard of crushing case, the motor is installed to the front end of one of them group actuating lever, and the motor is installed on the antetheca of crushing case, the actuating lever runs through the rear end of crushing case outer wall and installs drive gear, another post actuating lever runs through the rear end of crushing case outer wall and installs driven gear, and driven gear and drive gear intermeshing, the pan feeding mouth is installed at the top of crushing case.

Preferably, one side of the computer device is provided with an RFID (radio frequency identification) code, and one side of the computer device is provided with a power line.

Preferably, the bottom of the telescopic rod is provided with a chassis, the front surface of the telescopic rod is provided with an adjusting screw in a penetrating manner, the front surface of the telescopic rod is provided with an adjusting hole, and the adjusting screw is arranged on the inner side of the adjusting hole in a threaded manner.

Preferably, the working steps of the device are as follows:

s1, firstly, before the control device is operated, the working personnel butt-joint the chassis with the bottom production device through bolts to ensure the stability of the device, then the blanking interface is connected with the material receiving device below through bolts to ensure the tightness of the connection of the device, the working personnel inject materials into the inner side of the material inlet through the material inlet, simultaneously, the computer device control device is operated, the motor operates to drive the driving rod to rotate, the driving rod rotates to drive the squeeze rollers and the driving gear to rotate, the driving gear rotates to drive the driven gear to rotate relatively through the clamping groove, the driven gear rotates to drive the other group of driving rods to rotate relatively, so that the squeeze rollers outside the two groups of driving rods rotate relatively, the two groups of squeeze rollers extrude and crush the materials, the crushed materials fall on the filter sieve plate, and the materials are sorted by the filter holes on the filter sieve plate, materials which meet the specification pass through the filter sieve plate and fall into the butt joint pipe, grinding is carried out between the filter sieve plate and the extrusion roller which do not meet the specification, the materials are crushed, the materials can be ensured to pass through the filter sieve plate, the opening and closing of the butt joint pipe are controlled by the metering valve, and during blanking, the quantity of the materials passing through the metering valve is calculated, and the quantity of the passing materials is calculated;

s2, guiding materials into the supporting tube by the butt joint tube, guiding the materials into the processing box guided by the supporting tube, enabling the materials to continuously fall down to the filter screen, driving the supporting frame to vibrate by the operation of a vibration machine, driving the filter screen to vibrate by the vibration of the supporting frame, preventing the filter screen from being kept stable and incapable of filtering the materials, and finely screening the materials inside the materials through a multi-layer filtering structure to improve the quality of the materials;

s3, the material continuously falls to the inner side of the material separating plate, the heating pipe is electrified to heat the material on the inner side, the temperature inside the material storage cavity is guaranteed to be constant, in the falling process of the material, the motor is controlled to operate to drive the rotating rod to rotate, the rotating rod rotates to drive the stirring paddle to rotate, the stirring paddle rotates to stir the material, the material is prevented from being statically stacked together, the material cannot be uniformly heated, the quality of the material is affected, the material continuously falls to the inner part of the discharging hopper, then the discharging valve is opened, the material enters the inner part of production equipment through the discharging interface, and the material is processed by the production equipment;

s4, the metering valve transmits the detected information to the computer equipment, the computer equipment counts the material quantity, meanwhile, the computer equipment meters the operation condition of the equipment, and the staff can obtain the information of the material loading quantity and the operation condition of the equipment only by scanning the RFID code through the mobile phone, so that the staff can know the operation condition of the device conveniently.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the supporting frame is arranged, the supporting frame fixes the filter screen on the inner side and the vibrating machine, materials fall onto the filter screen, the vibrating machine operates to drive the supporting frame to vibrate, the supporting frame vibrates to drive the filter screen to vibrate, the filter screen is prevented from being kept stable, the materials cannot be filtered, the materials on the inner side of the materials are finely screened through a multi-layer filtering structure, the quality of the materials is improved, the filter screen with the highest filtering precision being micron is selected to filter the materials, the materials can pass through the filter screen to move, the materials which cannot pass through the filter screen can be left on the filter screen, then the supporting frame is pulled by a worker to move through a handle, the supporting frame can be conveniently extracted from the device by the worker, the materials on the filter screen are treated, and the worker can conveniently clean the equipment.

2. The invention is characterized in that an upper limit infrared detection probe and a lower limit infrared detection probe are arranged on the material separation plate, the upper limit infrared detection probe and the lower limit infrared detection probe check the height of the material in the material storage cavity, the upper limit infrared detection probe emits sensing infrared rays, when the height of the material exceeds the upper limit infrared detection probe, the upper limit infrared ray is blocked, the upper limit infrared detection probe sends a signal to the computer equipment, then the computer equipment controls the metering valve to close, simultaneously informs the staff to stop injecting the materials, the materials continuously descend, the lower limit infrared detection probe operates to send out an infrared induction box, when the infrared induction line does not sense that the material is blocked, the information is transmitted to the computer equipment, and the computer equipment controls the metering valve to be opened, so that the worker can continuously inject the material.

3. According to the invention, the RFID code is installed, the number of the materials passing through the metering valve is calculated, the number of the passing materials is calculated, then the metering valve transmits the detected information to the computer equipment, the computer equipment calculates the operation condition of the equipment, and the working personnel only need to scan the RFID code through the mobile phone, so that the information of the feeding number and the operation condition of the equipment can appear on the mobile phone, and the working personnel can conveniently know the operation condition of the device.

Drawings

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

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic view of a material storage chamber according to the present invention;

FIG. 4 is a schematic structural diagram of a support frame according to the present invention;

FIG. 5 is a schematic view of the crushing box of the present invention;

FIG. 6 is a schematic diagram of a computer device according to the present invention;

FIG. 7 is a schematic view of the structure A of the present invention;

fig. 8 is a schematic cross-sectional structure of the present invention.

In the figure: 1. a processing box; 101. a support slide; 102. a support plate; 103. a through opening; 2. a material storage cavity; 201. heating a tube; 202. a material separating plate; 203. an upper limit infrared detection probe; 204. a lower limit infrared detection probe; 205. feeding a hopper; 206. a discharge valve; 207. a blanking interface; 3. a support frame; 301. a filter screen; 302. a vibrating machine; 303. a handle; 4. a support disc; 401. a support bar; 402. Closing the box; 403. controlling the motor; 404. rotating the rod; 405. a stirring paddle; 5. a telescopic rod; 501. a chassis; 502. an adjustment hole; 503. an adjusting screw; 6. a top cover; 601. supporting a tube; 7. a crushing box; 701. Butt-joint pipes; 702. filtering the sieve plate; 703. a drive rod; 704. a squeeze roll; 705. an electric motor; 706. A drive gear; 707. a feeding port; 708. a driven gear; 709. a metering valve; 8. a computer device; 801. an RFID radio frequency identification code; 802. a power line.

Detailed Description

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

Referring to fig. 1-8, an embodiment of the present invention is shown: a multilayer drawer type automatic stock preparing bin based on an RFID radio frequency technology comprises a processing box 1, wherein a storage cavity 2 is arranged on the inner wall of the processing box 1, the processing box 1 supports the storage cavity 2 on the inner side to ensure the stability of the storage cavity 2 and facilitate the storage cavity 2 to store materials on the inner side, supporting plates 102 are arranged on the outer walls of two sides of the processing box 1, telescopic rods 5 are arranged at the bottoms of the supporting plates 102, the processing box 1 is connected with the telescopic rods 5 through the supporting plates 102 to ensure the stability of connection between devices, the telescopic rods 5 can adjust the length to conveniently adjust different lengths as required to support the devices, three groups of supporting slideways 101 which are arranged at equal intervals are arranged on the inner wall of the processing box 1, the supporting slideways 101 are positioned above the storage cavity 2, and supporting frames 3 are embedded at the tops of the supporting slideways 101, the processing box 1 is used for fixing the supporting slide way 101, the stability of the supporting slide way 101 is guaranteed, the supporting frame 3 at the top is supported through the supporting slide way 101, the supporting slide way 101 can conveniently guide the movement of the supporting frame 3 at the top, and the operation of workers is facilitated, the top of the processing box 1 is provided with the top cover 6 through bolts, the processing box 1 is fixed at the top of the top cover 6 through bolts, the stability of the top cover 6 is guaranteed, the top cover 6 can be conveniently fixed on top equipment, the stable operation of the device is guaranteed, one side of the processing box 1 is provided with the computer equipment 8, the workers run through the control device of the computer equipment 8, meanwhile, the computer equipment 8 is connected with the detection equipment, the operation condition of the equipment is calculated through the computer equipment 8, and the computer equipment 8 is positioned above the supporting plate 102;

filter screen 301 is installed to the inboard of carriage 3, vibrations machine 302 is installed to the inboard of carriage 3, and vibrations machine 302 is located the below of filter screen 301, carriage 3 is fixed to inboard filter screen 301 and vibrations machine 302, the material falls on filter screen 301, vibrations machine 302 moves simultaneously, it shakes to drive carriage 3, carriage 3 shakes and drives filter screen 301 vibrations, avoid filter screen 301 to keep steady, can not filter the material, through the multiple-layer filtering structure, thereby carry out meticulous screening to the inboard material of material, improve the quality of material, select the highest filter to filter the material for filter screen 301 of precision 1 micron.

The heating pipe 201 is installed inside the storage cavity 2 in a surrounding mode, the material separation plate 202 is installed on the inner side of the heating pipe 201, the upper limit infrared detection probe 203 is installed at the top of the inner side of the material separation plate 202, the lower limit infrared detection probe 204 is installed at the bottom of the inner side of the material separation plate 202, the material discharge hopper 205 is installed at the bottom of the material storage cavity 2, the support rod 401 is installed on the inner wall of the material discharge hopper 205, the material discharge valve 206 is installed at the bottom of the material discharge hopper 205, the material discharge port 207 is installed at the bottom of the material discharge valve 206, the heating pipe 201 on the inner side is fixed in the storage cavity 2, the heating pipe 201 can run stably, the material is isolated from the heating pipe 201 by the material separation plate 202, the heating pipe 201 is electrified to heat the material on the inner side, the temperature inside the storage cavity 2 is guaranteed to be constant, and in the material conveying process, the upper limit infrared detection probe 203 and the lower limit infrared detection probe 204 check the height of the material inside the storage cavity 2, upper limit infrared detection probe 203 sends the response infrared ray, when the height of material exceeded upper limit infrared detection probe 203, metering valve 709 closed, inform the staff simultaneously and stop annotating the material, the material continues to descend, lower limit infrared detection probe 204 operation sends the infrared induction case, when infrared induction line response does not have the material to block, give computer equipment 8 with information transmission, computer equipment 8 control metering valve 709 opens for the staff can continue to annotate the material.

Supporting disk 4 is installed to bracing piece 401's one end, seal box 402 is installed at the top of supporting disk 4, control motor 403 is installed at the top of supporting disk 4, and control motor 403 is located the inboard of seal box 402, control motor 403's output is connected with dwang 404, stirring rake 405 is installed in the outside of dwang 404, it is fixed to supporting disk 4 through bracing piece 401, guarantee the stability of supporting disk 4, it is fixed to the seal box 402 at top by supporting disk 4, seal box 402 keeps apart the material, avoid the material to enter into inside the device, control motor 403 moves and drives dwang 404 and rotate, dwang 404 rotates and drives stirring rake 405 rotatory, stirring rake 405 rotates and stirs the material, avoid piling up together of material static, the unable thermally equivalent of material, influence material quality.

Through hole 103 has been seted up on the front of processing case 1, and through hole 103 provides the space for the staff takes out carriage 3.

Handle 303 is installed in the front of carriage 3, and handle 303 makes things convenient for the staff gripping, pulls carriage 3 through handle 303 and removes, makes things convenient for the staff to extract carriage 3 from the device, handles the material on the filter screen 301, makes things convenient for the staff to operate.

The top of top cap 6 is installed stay tube 601 through the bolt, butt joint pipe 701 is installed at the top of stay tube 601, and top cap 6 supports butt joint pipe 701 at top through stay tube 601, guarantees that stay tube 601 and butt joint pipe 701 are inside to link up, makes things convenient for material transmission.

The butt joint pipe 701 is internally provided with a metering valve 709, the metering valve 709 controls the opening and closing of the butt joint pipe 701, when discharging is carried out, the quantity of materials passing through the metering valve 709 is calculated, the quantity of the passing materials is calculated, detected information is transmitted to the computer equipment 8, workers can conveniently read the information, the metering valve 709 is electrically connected with the computer equipment 8, the top of the butt joint pipe 701 is provided with a crushing box 7, the inner wall of the crushing box 7 is provided with a filter sieve plate 702, the crushing box 7 fixes the internal transmission filter sieve plate 702 to ensure the stability of the filter sieve plate 702, the inner wall of the crushing box 7 is provided with two groups of driving rods 703 which are symmetrically distributed in a penetrating way, the outer surface of each driving rod 703 is provided with a squeezing roller 704, the squeezing rollers 704 are attached to the filter sieve plate 702, the squeezing rollers 704 are positioned at the inner side of the crushing box 7, and the front ends of one group of the driving rods 703 are provided with a motor 705, the motor 705 is arranged on the front wall of the crushing box 7, the driving rod 703 penetrates through the rear end of the outer wall of the crushing box 7 and is provided with the driving gear 706, the driving rod 703 of the other column penetrates through the rear end of the outer wall of the crushing box 7 and is provided with the driven gear 708, the driven gear 708 is meshed with the driving gear 706, the top of the crushing box 7 is provided with the feeding port 707, the material is injected into the inner side of the feeding port 707 through the feeding port 707, simultaneously, the driving rod 703 is operated by the motor 705 to drive the driving rod 703 to rotate, the driving rod 703 rotates to drive the extrusion rollers 704 and the driving gear 706 to rotate, the driving gear 706 rotates to drive the driven gear 708 to rotate relatively through the clamping groove, the driven gear 708 rotates to drive the other group of driving rods 703 to rotate relatively, so that the extrusion rollers 704 outside the two groups of driving rods 703 rotate relatively, the two groups of extrusion rollers 704 extrude and crush the material, and the crushed material falls on the filter screen plate 702, sorting the materials by the filter holes on the filter sieve plate 702, the materials meeting the specification pass through the filter sieve plate 702 and fall into the butt joint pipe 701, the materials which do not meet the specification are ground between the filter sieve plate 702 and the squeezing rollers 704, the materials are crushed, the materials can pass through the filter sieve plate 702, the material quality is improved, the materials continuously fall into the butt joint pipe 701, the opening and closing of the butt joint pipe 701 are controlled by the metering valve 709, when the blanking is performed, the quantity of the materials passing through the metering valve 709 is calculated, and the quantity of the passing materials is calculated.

RFID radio frequency identification code 801 is installed to one side of computer equipment 8, power cord 802 is installed to one side of computer equipment 8, computer equipment 8 calculates the behavior of equipment, the staff only need scan RFID radio frequency identification code 801 through the cell-phone, the material loading quantity of equipment and the information of behavior will appear on the cell-phone, make things convenient for the staff to know the behavior of device, the device connects the power through power cord 802, transmit electric power by power cord 802, provide sufficient power for equipment, guarantee device normal operating.

Chassis 501 is installed to the bottom of telescopic link 5, adjusting screw 503 has been installed in the front of telescopic link 5 through running through, adjusting hole 502 has been seted up in the front of telescopic link 5, and adjusting screw 503 screw thread installation is in the inboard of adjusting hole 502, the staff is in the butt joint of the apparatus for producing of chassis 501 with the bottom through the bolt, guarantee the stability of device, length through adjusting telescopic link 5, then fix telescopic link 5 through the relation of adjusting hole 502 and adjusting screw 503, guarantee the stability of telescopic link 5, make things convenient for the staff to adjust the length of telescopic link 5 according to the condition, make things convenient for telescopic link 5 to fix the device.

Further, the working steps of the device are as follows:

s1, firstly, before the control device is operated, a worker butt joints the chassis 501 with a production device at the bottom through bolts to ensure the stability of the device, then the blanking interface 207 is connected with a receiving device below through bolts to ensure the tightness of the connection of the device, the worker injects materials into the inner side of the feeding port 707 through the feeding port 707, simultaneously, the control device of the computer device 8 is operated, the motor 705 operates to drive the driving rod 703 to rotate, the driving rod 703 rotates to drive the extrusion rollers 704 and the driving gear 706 to rotate, the driving gear 706 rotates to drive the driven gear 708 to rotate relatively through the clamping groove, the driven gear 708 rotates to drive the other group of driving rod 703 to rotate relatively, so that the extrusion rollers 704 outside the two groups of driving rods 703 rotate relatively, the two groups of extrusion rollers 704 extrude and crush the materials, and the crushed materials fall on the filter sieve plate 702, the materials are sorted by the filter holes on the filter sieve plate 702, the materials which meet the specification pass through the filter sieve plate 702 and fall into the butt joint pipe 701, the materials which do not meet the specification are ground between the filter sieve plate 702 and the extrusion rollers 704, the materials are crushed, the materials can pass through the filter sieve plate 702, the opening and closing of the butt joint pipe 701 are controlled by the metering valve 709, and during blanking, the quantity of the materials passing through the metering valve 709 is calculated, and the quantity of the passing materials is calculated;

s2, the materials are guided to the inside of the supporting pipe 601 by the butt joint pipe 701, the materials in the processing box 1 guided by the materials through the supporting pipe 601 continuously fall to the filter screen 301, meanwhile, the vibrator 302 operates to drive the supporting frame 3 to vibrate, the supporting frame 3 vibrates to drive the filter screen 301 to vibrate, the filter screen 301 is prevented from being kept stable, the materials cannot be filtered, the materials on the inner side of the materials are finely screened through a multi-layer filtering structure, the quality of the materials is improved, when too much residues exist in the supporting frame 3, the handle 303 is held by a hand, the supporting frame 3 is pulled to move, the supporting frame 3 is moved from the supporting slide 101, the supporting frame 3 extends out from the through hole 103, and workers can conveniently clean up the broken slag above the supporting frame;

s3, the materials continuously fall to the inner side of the material separating plate 202, meanwhile, the heating pipe 201 is electrified to heat the materials on the inner side, the temperature inside the material storage cavity 2 is guaranteed to be constant, in the falling process of the materials, the control motor 403 operates to drive the rotating rod 404 to rotate, the rotating rod 404 rotates to drive the stirring paddle 405 to rotate, the stirring paddle 405 rotates to stir the materials, the materials are prevented from being statically stacked together, the materials cannot be uniformly heated, the quality of the materials is influenced, the materials continuously fall to fall into the discharging hopper 205, then the discharging valve 206 is opened, the materials enter the production equipment through the discharging interface 207, and the materials are processed by the production equipment;

s4 and the metering valve 709 transmit the detected information to the computer device 8, the computer device 8 counts the material quantity, the computer device 8 meters the operation condition of the device, and the staff can know the operation condition of the device conveniently by scanning the RFID code 801 through the mobile phone and generating the information of the material loading quantity and the operation condition of the device on the mobile phone.

The working principle is as follows: firstly, before a control device operates, a worker butt joints a chassis 501 with a bottom production device through bolts to ensure the stability of the device, then a blanking interface 207 is connected with a receiving device below through bolts to ensure the tightness of the connection of the device, the worker injects materials into the inner side of the feeding port 707 through the feeding port 707, simultaneously a computer device 8 control device operates, a motor 705 operates to drive a driving rod 703 to rotate, the driving rod 703 rotates to drive an extrusion roller 704 and a driving gear 706 to rotate, the driving gear 706 rotates to drive a driven gear 708 to rotate relatively through a clamping groove, the driven gear 708 rotates to drive another group of driving rods 703 to rotate relatively, so that the extrusion rollers 704 outside the two groups of driving rods 703 rotate relatively, the two groups of extrusion rollers 704 extrude and crush the materials, and the crushed materials fall on a filter screen plate 702, the materials are sorted by the filter holes on the filter sieve plate 702, the materials which meet the specification pass through the filter sieve plate 702 and fall into the butt joint pipe 701, the materials which do not meet the specification are ground between the filter sieve plate 702 and the extrusion rollers 704 to crush the materials, the materials are ensured to pass through the filter sieve plate 702, the opening and closing of the butt joint pipe 701 are controlled by the metering valve 709, when the materials are discharged, the quantity of the materials which pass through the metering valve 709 is calculated, the quantity of the materials which pass through is calculated, the metering valve 709 can transmit the detected information to the computer equipment 8, the quantity of the materials is counted by the computer equipment 8, meanwhile, the operation condition of the equipment is metered by the computer equipment 8, a worker only needs to scan the RFID code 801 through a mobile phone, the information of the loading quantity and the operation condition of the equipment can appear on the mobile phone, the worker can know the operation condition of the device conveniently, and can properly adjust the equipment according to the fake, then the materials are guided to the inside of the supporting pipe 601 by the butt joint pipe 701, the materials in the processing box 1 guided by the materials by the supporting pipe 601 continuously fall down to the filter screen 301, meanwhile, the vibrator 302 operates to drive the supporting frame 3 to vibrate, the supporting frame 3 vibrates to drive the filter screen 301 to vibrate, so that the filter screen 301 is prevented from being kept stable and the materials cannot be filtered, the materials inside the materials are finely screened by a multi-layer filtering structure, the quality of the materials is improved, when too much residues exist in the supporting frame 3, the handle 303 is held by a hand to pull the supporting frame 3 to move, the supporting frame 3 is moved from the upper part of the supporting slideway 101, the supporting frame 3 extends out from the through hole 103, so that a worker can conveniently clean the broken slag above, the materials continuously fall down to the inner side of the partition plate 202, and meanwhile, the heating pipe 201 is electrified to heat the materials inside, guarantee the constancy of temperature of storage cavity 2 inside, in-process at the material whereabouts, control motor 403 operation drive dwang 404 rotates, dwang 404 rotates and drives stirring rake 405 rotatory, stirring rake 405 rotates stirs the material, avoid the static piling up of material together, the unable thermally equivalent of material, influence the material quality, the material continues to fall, fall down the inside of hopper 205, then discharge valve 206 is opened, the material enters into the inside of production facility through unloading interface 207, process the material by the production facility.

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 attributes 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.