CN214210241U - Automatic coating machine device for seed production - Google Patents
Automatic coating machine device for seed production Download PDFInfo
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- CN214210241U CN214210241U CN202120022209.3U CN202120022209U CN214210241U CN 214210241 U CN214210241 U CN 214210241U CN 202120022209 U CN202120022209 U CN 202120022209U CN 214210241 U CN214210241 U CN 214210241U
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Abstract
The utility model discloses an automatic capsule machine device for seed production, it includes controlling means, the capsule machine body includes material feeding solenoid valve, coating agent charge valve, the capsule machine shell, the agitator motor structure, the gas collecting channel, the stirring rake, capsule machine power adapter, the flow pump, the fan, the signal combs the switch, gaseous absorption clarifier, the capsule jar, ejection of compact solenoid valve, controlling means includes touch display, the cabinet door, the universal wheel, the box shell, central processing unit, the controlling means power adapter, radiator fan, the data access end, wireless network transceiver, the memory. The beneficial effects of the utility model are that: the method has the advantages of simple operation, high automation degree, small influence of the coating process on the ecological environment, capability of observing the seed production and coating process in real time, uniform and sufficient mixing of the seeds and the coating agent and good seed production effect.
Description
Technical Field
The utility model relates to an automatic capsule machine device for seed production belongs to capsule machine technical field.
Background
The seed coating is a high and new technology for promoting agricultural production increase and harvest by guiding the research and development of the middle period of the 80 th century, and seeds coated with the seed coating agent can rapidly absorb water and swell after being sown. With the gradual development of embryo in the seed and the continuous growth of seedling, the seed coating agent slowly releases various effective components contained in the seed coating agent, and the effective components are gradually absorbed into the body by the seedling of the seed, thereby achieving the purposes of preventing and treating plant diseases and insect pests in seedling stage, promoting growth and development and improving crop yield. Seed coating is listed as an agricultural technical project which is mainly popularized in China.
When the use of capsule machine, often need stir seed and seed coating agent to make seed and seed coating agent mix each other and be in the same place, but when current capsule machine stirs seed and seed coating agent, often because the seed coating agent cools off too fast, lead to the unable abundant mixed parcel of seed and seed coating agent together, thereby can lead to the work efficiency of device to descend, consequently, need design vegetable seed capsule coating machine and solve above-mentioned problem.
SUMMERY OF THE UTILITY MODEL
The to-be-solved technical problem of the utility model lies in providing an automatic coating machine device for producing seeds, its easy operation, degree of automation is high, and the coating process is little to the ecological environment influence, can survey system kind coating process in real time, and the seed is abundant with the coating agent misce bene, and it is effectual to produce seeds.
The utility model discloses a following scheme realizes: an automatic coating machine device for seed production comprises a control device and a coating machine body, wherein the coating machine body comprises a material feeding electromagnetic valve, a coating agent feeding valve, a coating machine shell, a stirring motor structure, a gas collecting hood, a stirring paddle, a coating machine power adapter, a flow pump, a fan, a signal combing switch, a gas adsorption purifier, a coating tank and a discharging electromagnetic valve, the coating machine shell is of a cuboid stainless steel structure, the left side surface of the coating machine shell is provided with a water outlet, a water inlet and a receiving end, the right side surface of the coating machine shell is provided with a discharging platform and a gas outlet, the upper bottom surface of the coating machine shell is provided with the stirring motor structure, the material feeding electromagnetic valve and the coating agent feeding valve, universal wheels are arranged at positions, close to four corners, of the lower bottom surface of the coating machine shell is internally divided into a coating chamber and an electric chamber which are independent by partition plates, the stirring motor structure is connected with the stirring paddle, the stirring paddle is arranged in the coating tank, it can rotate with different speeds under agitator motor structure drive, the bottom surface is fixed with the gas collecting channel mounting bracket on the capsule room, and lower bottom surface is equipped with the coating tank mounting bracket, install the gas collecting channel on the gas collecting channel mounting bracket, the gas collecting channel is located the coating tank directly over, and high definition digtal camera is installed to its left and right sides, install the coating tank on the coating tank mounting bracket, coating tank installs bottom portion and installs ejection of compact solenoid valve, and the side is wrapped up by rubber heat preservation, and its inside is equipped with temperature detector, laid the heat exchange pipe in the rubber heat preservation, the heat exchange pipe can carry out the heat exchange with the coating tank, and it is connected with the delivery port through stainless steel pipe, ejection of compact solenoid valve passes through ejection of compact pipe and ejection of compact platform intercommunication, the electric room is located the capsule room below, installs coating machine power adapter, flow pump, fan, signal carding switch in it, The gas adsorption purifier is characterized in that the coating machine power adapter is connected with the stirring motor structure, the gas collecting hood, the flow pump, the fan, the signal carding switch and the gas adsorption purifier through wires, the signal carding switch is connected with the material feeding electromagnetic valve, the coating agent feeding valve, the stirring motor structure, the gas collecting hood, the flow pump, the fan, the gas adsorption purifier, the high-definition camera, the receiving and outputting end, the discharging electromagnetic valve and the temperature detector through wires, the flow pump is connected with the heat exchange conduit and the water inlet through a stainless steel conduit, the fan is connected with the gas collecting hood and the gas adsorption purifier through a stainless steel conduit, active carbon is arranged in the gas adsorption purifier, the active carbon can adsorb gaseous coating agent in gas, and the gas adsorption purifier is connected with the gas outlet through a stainless steel conduit.
The control device comprises a touch display, a cabinet door, universal wheels, a box body shell, a central processing unit, a control device power adapter, a cooling fan, a data access end, a wireless network transmitting receiver and a memory.
The box shell is of a square stainless steel structure, a cabinet door is arranged on the front side of the box shell, universal wheels are arranged at positions, close to four corners, of the bottom of the box shell, an access groove is formed in the left side face of the box shell, a heat dissipation window is arranged on the right side face of the box shell, a heat dissipation fan is arranged on the back face of the box shell, a touch display is placed on the upper bottom face of the box shell, a central processing unit, a control device power adapter, a wireless network transmitting receiver and a memory are arranged inside the box shell, and a data access end is arranged in the access groove.
The central processing unit is connected with the touch display, the data access end, the control device power adapter, the wireless network transmitting receiver and the memory through leads, and the data access end is connected with the output end through leads.
The utility model has the advantages that:
1. the utility model relates to an automatic capsule machine device for producing seeds, its easy operation, degree of automation is high, and the coating process is little to the ecological environment influence, can survey system kind coating process in real time, and the seed is abundant with the coating agent misce bene, and it is effectual to produce seeds.
Drawings
Fig. 1 is a schematic front sectional view of a coating machine body of an automatic coating machine device for seed production according to the present invention.
Fig. 2 is a schematic structural diagram of an automatic coating machine device for seed production according to the present invention.
Fig. 3 is a schematic front sectional view of a control device of an automatic coating machine device for seed production according to the present invention.
In the figure: 1 is a control device, 2 is a coating machine body, 3 is a lead, 4 is a touch display, 5 is a cabinet door, 6 is a universal wheel, 7 is a box body shell, 8 is a central processing unit, 9 is a control device power adapter, 10 is a radiating fan, 11 is a data access end, 12 is a wireless network transmitting receiver, 13 is a storage, 14 is a radiating window, 15 is an access groove, 16 is a material feeding electromagnetic valve, 17 is a coating agent feeding valve, 18 is a water outlet, 19 is a water inlet, 20 is a discharging platform, 21 is a coating machine shell, 22 is a stirring motor structure, 23 is a gas collecting hood, 24 is a stirring paddle, 25 is a coating machine power adapter, 26 is a coating flow pump, 27 is a fan, 28 is a signal carding exchanger, 29 is a gas adsorption purifier, 30 is a coating tank, 31 is a partition plate, 32 is a coating chamber, 33 is an electric chamber, 34 is a coating tank mounting rack, 35 is a rubber heat-insulating layer, 36 is a heat exchange conduit, 37 is a gas collecting hood mounting frame, 38 is a high-definition camera, 39 is a discharge conduit, 40 is a gas outlet, 41 is a receiving end, 42 is a stainless steel conduit, 43 is a discharge electromagnetic valve, and 44 is a temperature detector.
Detailed Description
The present invention is further described with reference to fig. 1, fig. 2 and fig. 3, but the scope of the present invention is not limited to the description.
In which like parts are designated by like reference numerals. It is noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component, and the drawings are in greatly simplified form and employ non-precise ratios, merely for the purpose of facilitating and distinctly aiding in the description of the embodiments of the present invention.
In the following description, for purposes of clarity, not all features of an actual implementation are described, well-known functions or constructions are not described in detail since they would obscure the invention with unnecessary detail, it being understood that in the development of any actual embodiment, numerous implementation details must be set forth in order to achieve the developer's specific goals, such as compliance with system-related and business-related constraints, changing from one implementation to another, and it being recognized that such development efforts may be complex and time consuming, but would nevertheless be a routine undertaking for those of ordinary skill in the art.
An automatic coating machine device for seed production comprises a control device 1 and a coating machine body 2, wherein the coating machine body 2 comprises a material feeding electromagnetic valve 16, a coating agent feeding valve 17, a coating machine shell 21, a stirring motor structure 22, a gas collecting hood 23, a stirring paddle 24, a coating machine power adapter 25, a flow pump 26, a fan 27, a signal combing switch 28, a gas adsorption purifier 29, a coating tank 30 and a discharging electromagnetic valve 43, the coating machine shell 21 is of a cuboid stainless steel structure, the left side surface of the coating machine shell is provided with a water outlet 18, a water inlet 19 and a receiving end 41, the right side surface is provided with a discharging platform 20 and a gas outlet 40, the upper bottom surface is provided with the stirring motor structure 22, the material feeding electromagnetic valve 16 and the coating agent feeding valve 17, the lower bottom surface is provided with universal wheels 6 at positions close to four corners, the interior of the coating machine shell is divided into a coating chamber 32 and an electric chamber 33 which are independent from each other by a partition plate 31, the stirring motor structure 22 is connected with the stirring paddle 24, the stirring paddle 24 is arranged in the coating tank 30 and can rotate at different speeds under the driving of the stirring motor structure 22, a gas collecting hood mounting frame 37 is fixed on the upper bottom surface of the coating chamber 32, a coating tank mounting frame 34 is arranged on the lower bottom surface, a gas collecting hood 23 is arranged on the gas collecting hood mounting frame 37, the gas collecting hood 23 is positioned right above the coating tank 30, high-definition cameras 38 are arranged on the left side and the right side of the gas collecting hood 23, the coating tank 30 is arranged on the coating tank mounting frame 34, a discharging electromagnetic valve 43 is arranged at the bottom of the coating tank 30, the side surface of the coating tank is wrapped by a rubber heat-insulating layer 35, a temperature detector 44 is arranged in the coating tank, a heat exchange conduit 36 is arranged in the rubber heat-insulating layer 35, the heat exchange conduit 36 can exchange heat with the coating tank 30 and is connected with the water outlet 18 through a stainless steel conduit 42, the discharging electromagnetic valve 43 is communicated with the discharging table 20 through a discharging conduit 39, an electric chamber 33 is positioned below the coating chamber 32, the coating machine power adapter 25, the flow pump 26, the fan 27, the signal combing exchanger 28 and the gas adsorption purifier 29 are arranged in the coating machine power adapter 25, the coating machine power adapter 25 is connected with the stirring motor structure 22, the gas collecting hood 23, the flow pump 26, the fan 27, the signal combing exchanger 28 and the gas adsorption purifier 29 through a lead 3, the signal combing exchanger 28 is connected with the material feeding electromagnetic valve 16, the coating agent feeding valve 17, the stirring motor structure 22, the gas collecting hood 23, the flow pump 26, the fan 27, the gas adsorption purifier 29, the high-definition camera 38, the receiving end 41, the discharging electromagnetic valve 43 and the temperature detector 44 through a lead 3, the flow pump 26 is connected with the heat exchange conduit 36 and the water inlet 19 through a stainless steel conduit 42, the fan 27 is connected with the gas collecting hood 23 and the gas adsorption purifier 29 through a stainless steel conduit 42, active carbon is arranged in the gas adsorption purifier 29, which is capable of adsorbing gaseous coating agents in the gas, is connected to gas outlet 40 via stainless steel conduit 42.
The control device 1 comprises a touch display 4, a cabinet door 5, a universal wheel 6, a box body shell 7, a central processing unit 8, a control device power adapter 9, a cooling fan 10, a data access end 11, a wireless network transmitting and receiving device 12 and a memory 13.
The box shell 7 is a square stainless steel structure, a cabinet door 5 is arranged on the front side of the box shell, universal wheels 6 are arranged at positions, close to four corners, of the bottom of the box shell, an access groove 15 is formed in the left side face of the box shell, a heat dissipation window 14 is arranged on the right side face of the box shell, a heat dissipation fan 10 is arranged on the back face of the box shell, a touch display 4 is placed on the upper bottom face of the box shell, a central processing unit 8, a control device power adapter 9, a wireless network transmitting and receiving device 12 and a storage device 13 are arranged inside the box shell, and a data access end 11 is arranged in the access groove 15.
The central processing unit 8 is connected with the touch display 4, the data access end 11, the control device power adapter 9, the wireless network transceiver 12 and the memory 13 through the lead 3, and the data access end 11 is connected with the access end 41 through the lead 3.
Example 1: signal comb switch 28 combs conversion and transmission to each electrical components and central processing unit 8's in capsule machine body 2 data, shows each electrical components data of capsule machine body 2 through touch display 4, also can set for through touch display 4 simultaneously the utility model discloses the parameter, central processing unit 8 is right the utility model discloses each part electrical equipment carries out intelligent control.
Example 2: the seed passes through material feeding solenoid valve 16 and gets into capsule jar 30, and the capsule passes through capsule feed valve 17 and gets into capsule jar 30, gets into the in-process, and agitator motor structure 22 drive stirring rake 24 stirs the mixture to both, stirs after the certain time, opens ejection of compact solenoid valve 43, and the seed after the capsule is good is discharged from ejection of compact platform 20 through ejection of compact pipe 39.
Example 3: in the mixing process, the temperature detector 44 monitors the temperature in the coating tank 30 in real time, and transmits data to the central processing unit 8 for comparative analysis, when the monitored temperature is lower than the set temperature, the central processing unit 8 increases the power of the flow pump 26 to accelerate the flow rate of the hot water flowing through the heat exchange conduit 36, so as to increase the heat exchange efficiency and increase the temperature in the coating tank 30, if the temperature is too high, the central processing unit 8 decreases the power of the flow pump 26 to stop the flow pump 26, so as to slow down the flow rate of the hot water flowing through the heat exchange conduit 36, and increase the power of the fan 27 to accelerate the flow rate of the gas in the coating tank 30, so as to achieve the purpose of cooling, after the gas passing through the fan 27 reaches the gas adsorption purifier 29, organic matters and the like in the gas are adsorbed and purified by activated carbon, and the purified gas is discharged from the gas outlet 40.
Example 4: the high-definition camera 38 can shoot the conditions in the coating tank 30 in real time, and transmits the pictures to the central processing unit 8 and displays the pictures on the touch display 4, and meanwhile, the wireless network transceiver 12 transmits the information received by the central processing unit 8 to an external PC (personal computer) end in real time.
The internal structure, operation principle and operation process of the central processor 8, the signal combing switch 28, the heat exchange conduit 36 and the temperature detector 44 are well known in the art and will not be described herein.
Although the invention has been shown and described in detail with respect to the preferred embodiments thereof, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.
Claims (4)
1. The utility model provides an automatic coating machine device for producing seeds which characterized in that: the coating machine comprises a control device (1) and a coating machine body (2), wherein the coating machine body (2) comprises a material feeding electromagnetic valve (16), a coating agent feeding valve (17), a coating machine shell (21), a stirring motor structure (22), a gas collecting hood (23), a stirring paddle (24), a coating machine power adapter (25), a flow pump (26), a fan (27), a signal combing switch (28), a gas adsorption purifier (29), a coating tank (30) and a discharging electromagnetic valve (43), the coating machine shell (21) is of a cuboid stainless steel structure, a water outlet (18), a water inlet (19) and a receiving and outputting end (41) are arranged on the left side surface of the coating machine shell, a discharging platform (20) and a gas outlet (40) are arranged on the right side surface of the coating machine shell, the stirring motor structure (22), the material feeding electromagnetic valve (16) and the coating agent feeding valve (17) are arranged on the upper bottom surface, universal wheels (6) are arranged at positions close to four corners of the lower bottom surface, the inner part of the stirring motor structure (22) is separated into a coating chamber (32) and an electric chamber (33) which are independent of each other by a partition plate (31), the stirring motor structure (22) is connected with a stirring paddle (24), the stirring paddle (24) is arranged in a coating tank (30) and can rotate at different speeds under the driving of the stirring motor structure (22), a gas collecting hood mounting frame (37) is fixed on the upper bottom surface of the coating chamber (32), a coating tank mounting frame (34) is arranged on the lower bottom surface of the coating chamber, a gas collecting hood (23) is arranged on the gas collecting hood mounting frame (37), the gas collecting hood (23) is positioned right above the coating tank (30), high-definition cameras (38) are arranged on the left side and the right side of the gas collecting hood, the coating tank (30) is arranged on the coating tank mounting frame (34), a discharge electromagnetic valve (43) is arranged at the bottom of the coating tank (30), the side surface of the coating tank is wrapped by a rubber heat-insulating layer (35), and a temperature detector (44) is arranged in the coating tank, the heat exchange device is characterized in that a heat exchange conduit (36) is arranged in the rubber heat-insulating layer (35), the heat exchange conduit (36) can exchange heat with the coating tank (30) and is connected with the water outlet (18) through a stainless steel conduit (42), the discharge electromagnetic valve (43) is communicated with the discharge table (20) through a discharge conduit (39), the electric chamber (33) is positioned below the coating chamber (32), a coating machine power adapter (25), a flow pump (26), a fan (27), a signal carding switch (28) and a gas adsorption purifier (29) are installed in the electric chamber, the coating machine power adapter (25) is connected with the stirring motor structure (22), the gas collecting hood (23), the flow pump (26), the fan (27), the signal carding switch (28) and the gas adsorption purifier (29) through a lead (3), and the signal carding switch (28) is connected with the material feeding electromagnetic valve (16) through a lead (3), Coating agent charge valve (17), agitator motor structure (22), gas collecting channel (23), flow pump (26), fan (27), gas adsorption clarifier (29), high definition digtal camera (38), connect out end (41), ejection of compact solenoid valve (43), temperature detector (44) and connect, flow pump (26) are connected with heat exchange pipe (36), water inlet (19) through stainless steel pipe (42), fan (27) are connected with gas collecting channel (23), gas adsorption clarifier (29) through stainless steel pipe (42), there is active carbon in gas adsorption clarifier (29), can adsorb gaseous coating agent in the gas, and it is connected with gas outlet (40) through stainless steel pipe (42).
2. The automatic coating machine device for seed production according to claim 1, characterized in that: the control device (1) comprises a touch display (4), a cabinet door (5), universal wheels (6), a box body shell (7), a central processing unit (8), a control device power supply adapter (9), a cooling fan (10), a data access end (11), a wireless network transmitting and receiving device (12) and a memory (13).
3. The automatic coating machine device for seed production according to claim 2, characterized in that: the box body shell (7) is of a square stainless steel structure, a cabinet door (5) is arranged on the front side of the box body shell, universal wheels (6) are arranged at positions, close to four corners, of the bottom of the box body shell, an access groove (15) is formed in the left side face of the box body shell, a heat dissipation window (14) is arranged on the right side face of the box body shell, a heat dissipation fan (10) is arranged on the back face of the box body shell, a touch display (4) is placed on the upper bottom face of the box body shell, a central processing unit (8), a control device power adapter (9), a wireless network transmitting and receiving device (12) and a storage device (13) are arranged inside the box body shell, and a data access end (11) is arranged in the access groove (15).
4. The automatic coating machine device for seed production according to claim 2, characterized in that: the central processing unit (8) is connected with the touch display (4), the data access end (11), the control device power adapter (9), the wireless network transmitting and receiving device (12) and the memory (13) through the conducting wire (3), and the data access end (11) is connected with the access end (41) through the conducting wire (3).
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CN202120022209.3U CN214210241U (en) | 2021-01-06 | 2021-01-06 | Automatic coating machine device for seed production |
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CN202120022209.3U CN214210241U (en) | 2021-01-06 | 2021-01-06 | Automatic coating machine device for seed production |
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CN214210241U true CN214210241U (en) | 2021-09-17 |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114504976A (en) * | 2021-12-14 | 2022-05-17 | 浙江永金生物科技有限公司 | Ferment hair-growing shampoo with hair-growing and dandruff-removing functions and preparation equipment |
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2021
- 2021-01-06 CN CN202120022209.3U patent/CN214210241U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114504976A (en) * | 2021-12-14 | 2022-05-17 | 浙江永金生物科技有限公司 | Ferment hair-growing shampoo with hair-growing and dandruff-removing functions and preparation equipment |
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