CN212512254U - Electric heating drying device for glycopeptide technology - Google Patents

Abstract

The utility model discloses an electric heat drying device for fungus glycopeptide technique belongs to fungus glycopeptide technical field, and electric heat drying device for fungus glycopeptide technique, including jar body subassembly and stirring subassembly, the heat preservation is installed in the outside of jar body subassembly, the intermediate position in jar body subassembly top is installed to the stirring subassembly, the lower extreme of stirring subassembly is located jar body subassembly's inside, four supporting legs are installed in jar body subassembly's lower extreme four corners, automatically controlled cabinet is installed to the top of jar body subassembly one side. The utility model discloses in, through the cooperation between the stirring subassembly, when the heating is dry, agitator motor drives the puddler and rotates, and the puddler drives the mixing plate and mixes the material, makes jar internal material everywhere be heated evenly, improves drying device's drying quality, and during the mixing, the mixing plate drives the inner wall of the cleaning plate laminating jar body and marchs, and the cleaning plate scrapes jar internal wall adnexed material down, avoids the phenomenon that the caking appears in the material, improves drying device's work efficiency.

Description

Electric heating drying device for glycopeptide technology

Technical Field

The utility model relates to a fungus glycopeptide technical field, more specifically relates to an electric heat drying device for fungus glycopeptide technique.

Background

The glycopeptide is a structural region formed by covalently connecting oligosaccharide and amino acid or polypeptide chain in glycoprotein and proteoglycan, is an extremely important biological information molecule in organisms, plays an important role in the formation of a plurality of life phenomena and diseases such as cell division, signal transduction, cell recognition, cancer, immunity, inflammation, microbial infection and the like, and is important for disclosing the biological function and developing glycopeptide drugs by researching the relationship between the structure and the function of the glycopeptide.

The phenomenon of uneven heated material appears easily when current electric heat drying device for fungus glycopeptide technique heats, reduces drying device's drying quality, and heating efficiency is low, increases drying device's running cost, for this reason, provides an electric heat drying device for fungus glycopeptide technique.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model aims to solve the technical problem that an electric heating drying device for mycose peptide technology is provided to the material appears being heated uneven phenomenon easily when solving the heating of the electric heating drying device for current mycose peptide technology, reduces drying device's drying quality, and heating efficiency is low, increases drying device's running cost's problem.

To achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides an electric heating drying device for mushroom glycopeptide technology, including a tank body component and a stirring component, a heat preservation layer is installed on the outer side of the tank body component, the stirring component is installed at the middle position above the tank body component, the lower end of the stirring component is positioned in the tank body component, four supporting legs are installed at four corners of the lower end of the tank body component, an electric control cabinet is installed above one side of the tank body component, and a PLC controller is installed below the tank body component close to one side of the electric control cabinet;

the stirring assembly comprises a stirring motor, the stirring motor is installed at the middle position above the tank assembly, an output shaft of the stirring motor penetrates through the tank assembly, a stirring rod is installed at the middle position inside the tank assembly, the upper end of the stirring rod is connected with the output shaft of the stirring motor through a coupler, a plurality of mixing plates are installed on two sides of the stirring rod, and cleaning plates are installed at the tail ends of the mixing plates.

Preferably, the size of the heat preservation layer is matched with that of the tank body assembly, the heat preservation layer is made of asbestos fiber felt, the electric control cabinet is connected with a mains supply through a wire, the PLC is connected with the electric control cabinet through a wire, the PLC is FX1S-30MR-001, and the supporting legs are square columns.

Preferably, agitator motor passes through the wire and links to each other with automatically controlled cabinet and PLC controller respectively, agitator motor chooses for use 130ST-M15015 type, the puddler adopts cylindrically, the laminating of the terminal of cleaning plate and jar inner wall of body subassembly, the outside of cleaning plate adopts arc.

Preferably, jar body subassembly includes a jar body, the inlet pipe is installed to the top of jar body one side, the inlet pipe is provided with the spiral cover, the steam outlet pipe is installed to the both sides of jar body top, the steam outlet pipe communicates with each other with the inside of the jar body, the internally mounted of steam outlet pipe has the dust screen, the size of dust screen matches with the size of steam outlet pipe.

Preferably, the internally mounted of jar body has a plurality of heat-conducting plates, the heat-conducting plate is located between the mixing plate, the embedded groove has been seted up to the inside of heat-conducting plate, the heat-conducting plate adopts copper aluminium alloy material, the heat-conducting plate is located the both sides of puddler, the heating plate is installed to the embedded groove of heat-conducting plate, the heating plate passes through the wire and links to each other with automatically controlled cabinet and PLC controller respectively.

Preferably, a temperature sensor is installed on one side, close to the electric control cabinet, of the lower portion of the inner portion of the tank body, the temperature sensor is connected with the electric control cabinet and the PLC through wires respectively, the temperature sensor is of a CWDZ11 type, a discharge pipe is installed on one side, close to the feed pipe, of the lower end of the tank body, the discharge pipe is communicated with the inner portion of the tank body, and a valve is arranged on the discharge pipe.

The utility model has the advantages that:

1. through the cooperation work between the stirring subassembly, during the heating is dry, agitator motor drives the puddler and rotates, and the puddler drives the mixing plate and mixes the material, makes jar internal everywhere material be heated evenly, improves drying device's drying quality, and during the mixing, the mixing plate drives the inner wall of the cleaning plate laminating jar body and marchs, and the cleaning plate scrapes jar internal wall adnexed material down, avoids the phenomenon of caking to appear in the material, improves drying device's work efficiency.

2. Through the cooperation between jar body subassembly and the heat preservation, the hot plate circular telegram operation, heat the heat-conducting plate, heat the material through the heat-conducting plate, heat-conducting plate and material direct contact, improve the degree of consistency of heating the material, temperature sensor cooperation PLC controller is controlled the heating state of hot plate, guarantee that the inside temperature of jar body is in suitable scope, the heat preservation plays thermal-insulated effect to jar body, avoid jar thermal scattering and disappearing of internal portion, improve drying device's heating efficiency, reduce drying device's running cost.

Drawings

FIG. 1 is a schematic structural view of an electrothermal drying device for mycose peptide technology according to an embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a tank assembly of an electrothermal drying device for cecropin technology according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a stirring assembly of an electrothermal drying device for mycosphatide technology, which is provided by the embodiment of the invention.

In the figure:

1. a canister assembly; 11. a tank body; 12. a feed pipe; 13. a discharge pipe; 14. a vapor outlet pipe; 15. a dust screen; 16. a heat conducting plate; 17. heating plates; 18. a temperature sensor; 2. a stirring assembly; 21. a stirring motor; 22. a stirring rod; 23. a mixing plate; 24. cleaning the plate; 3. a heat-insulating layer; 4. an electric control cabinet; 5. a PLC controller; 6. and (5) supporting legs.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

As shown in fig. 1-3, the embodiment provides an electrothermal drying device for glycopeptide technology, which comprises a tank assembly 1 and a stirring assembly 2, wherein an insulating layer 3 is installed on the outer side of the tank assembly 1, the stirring assembly 2 is installed in the middle position above the tank assembly 1, the lower end of the stirring assembly 2 is located inside the tank assembly 1, four support legs 6 are installed at four corners of the lower end of the tank assembly 1, an electric control cabinet 4 is installed above one side of the tank assembly 1, and a PLC controller 5 is installed below one side of the tank assembly 1, which is close to the electric control cabinet 4;

stirring subassembly 2 includes agitator motor 21, agitator motor 21 installs the intermediate position in jar body subassembly 1 top, agitator motor 21's output shaft runs through to jar body subassembly 1's inside, puddler 22 is installed to the intermediate position of jar body subassembly 1 inside, the output shaft that shaft coupling and agitator motor 21 are passed through to puddler 22's upper end links to each other, a plurality of mixing plates 23 are installed to puddler 22's both sides, cleaning plate 24 is installed to mixing plate 23's end, during the heating drying, agitator motor 21 drives puddler 22 and rotates, puddler 22 drives mixing plate 23 and mixes the material, make jar interior everywhere material of body 11 be heated evenly, improve drying device's drying quality.

In this embodiment, specifically, the size of heat preservation 3 matches with the size of jar body subassembly 1, and heat preservation 3 adopts asbestos fiber felt material, and automatically controlled cabinet 4 passes through the wire and links to each other with the commercial power, and PLC controller 5 passes through the wire and links to each other with automatically controlled cabinet 4, and PLC controller 5 chooses for use FX1S-30MR-001 type, and supporting leg 6 adopts the square column form, and automatically controlled cabinet 4 switches on the commercial power and supplies power for the system, and PLC controller 5 circular telegram operation carries out system control.

In this embodiment, it is concrete, agitator motor 21 passes through the wire and links to each other with automatically controlled cabinet 4 and PLC controller 5 respectively, 130ST-M15015 type is chooseed for use to agitator motor 21, puddler 22 adopts cylindrically, the terminal laminating with jar body subassembly 1's of cleaning plate 24 inner wall, the outside of cleaning plate 24 adopts arc, during the mixing, mixing plate 23 drives the inner wall of the laminating jar body 11 of cleaning plate 24 and advances, cleaning plate 24 scrapes the adnexed material of jar body 11 inner wall, the phenomenon of caking appears in the avoidance of material, drying device's work efficiency is improved.

In this embodiment, it is specific, jar body subassembly 1 is including jar body 11, inlet pipe 12 is installed to the top of jar body 11 one side, inlet pipe 12 is provided with the spiral cover, steam outlet pipe 14 is installed to the both sides of jar body 11 top, steam outlet pipe 14 communicates with each other with the inside of jar body 11, the internally mounted of steam outlet pipe 14 has dust screen 15, the size of dust screen 15 matches with the size of steam outlet pipe 14, heating plate 17 circular telegram operation, heat conducting plate 16, heat the material through heat conducting plate 16, heat conducting plate 16 and material direct contact, the improvement is to the degree of consistency of material heating.

In this embodiment, specifically, a plurality of heat-conducting plates 16 are installed inside the tank 11, the heat-conducting plates 16 are located between the mixing plates 23, an embedded groove is formed in the heat-conducting plates 16, the heat-conducting plates 16 are made of copper-aluminum alloy, the heat-conducting plates 16 are located on two sides of the stirring rod 22, a heating plate 17 is installed in the embedded groove of the heat-conducting plates 16, the heating plate 17 is respectively connected with the electric control cabinet 4 and the PLC controller 5 through wires, and the heat-conducting plates 16 are located between the mixing plates 23, so that the phenomenon of interference between the heat-conducting plates 16 and the mixing plates 23 and.

In this embodiment, it is concrete, temperature sensor 18 is installed to one side that is close to automatically controlled cabinet 4 in jar 11 inside below, temperature sensor 18 links to each other with automatically controlled cabinet 4 and PLC controller 5 respectively through the wire, temperature sensor 18 chooses for use CWDZ11 type, discharging pipe 13 is installed to one side that jar body 11 lower extreme is close to inlet pipe 12, discharging pipe 13 communicates with each other with the inside of jar body 11, discharging pipe 13 is provided with the valve, temperature sensor 18 cooperates PLC controller 5 to control the heating state of hot plate 17, guarantee that the inside temperature of jar body 11 is in suitable scope, heat preservation 3 plays thermal-insulated effect to jar body 11, avoid jar internal portion 11 thermal scattering and disappearing, improve drying device's heating efficiency, reduce drying device's running cost.

In the utility model, when in use, the material is added into the tank body 11 through the inlet pipe 12, the heating plate 17 is electrified to operate, the heat conducting plate 16 is heated, the material is heated through the heat conducting plate 16, the heat conducting plate 16 is in direct contact with the material, the uniformity of heating the material is improved, when in heating and drying, the stirring motor 21 drives the stirring rod 22 to rotate, the stirring rod 22 drives the mixing plate 23 to mix the material, the material at any position in the tank body 11 is uniformly heated, the drying quality of the drying device is improved, when in mixing, the mixing plate 23 drives the cleaning plate 24 to be attached to the inner wall of the tank body 11 to advance, the cleaning plate 24 scrapes the material attached to the inner wall of the tank body 11, the caking phenomenon of the material is avoided, the working efficiency of the drying device is improved, the temperature sensor 18 is matched with the PLC 5 to control the heating state of the heating plate 17, the heat preservation layer 3 plays a heat insulation role on the tank body 11, avoids dissipation of heat inside the tank body 11, improves the heating efficiency of the drying device, and reduces the operation cost of the drying device.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention. The present invention is not to be limited by the specific embodiments disclosed herein, and other embodiments that fall within the scope of the claims of the present application are intended to be within the scope of the present invention.

Claims (6)

1. An electric heating drying device for an glycopeptide technology comprises a tank body assembly (1) and a stirring assembly (2), and is characterized in that a heat preservation layer (3) is installed on the outer side of the tank body assembly (1), the stirring assembly (2) is installed in the middle position above the tank body assembly (1), the lower end of the stirring assembly (2) is located inside the tank body assembly (1), four supporting legs (6) are installed at four corners of the lower end of the tank body assembly (1), an electric control cabinet (4) is installed above one side of the tank body assembly (1), and a PLC (programmable logic controller) controller (5) is installed below one side, close to the electric control cabinet (4), of the tank body assembly (1);

stirring subassembly (2) include agitator motor (21), agitator motor (21) are installed at the intermediate position of jar body subassembly (1) top, the output shaft of agitator motor (21) runs through to the inside of jar body subassembly (1), puddler (22) are installed to the intermediate position of jar body subassembly (1) inside, the output shaft that shaft coupling and agitator motor (21) were passed through to the upper end of puddler (22) links to each other, a plurality of mixing plates (23) are installed to the both sides of puddler (22), cleaning plate (24) are installed to the end of mixing plate (23).

2. The electric heating drying device for mycosphatide technology according to claim 1, characterized in that: the size of heat preservation (3) matches with the size of jar body subassembly (1), heat preservation (3) adopt the asbestos fibrofelt material, automatically controlled cabinet (4) link to each other with the commercial power through the wire, PLC controller (5) link to each other with automatically controlled cabinet (4) through the wire, FX1S-30MR-001 type is selected for use in PLC controller (5), supporting leg (6) adopt the square column form.

3. The electric heating drying device for mycosphatide technology according to claim 1, characterized in that: agitator motor (21) link to each other with automatically controlled cabinet (4) and PLC controller (5) respectively through the wire, agitator motor (21) select for use 130ST-M15015 type, puddler (22) adopt cylindrically, the terminal of cleaning plate (24) and the inner wall laminating of jar body subassembly (1), the outside of cleaning plate (24) adopts arc.

4. The electric heating drying device for mycosphatide technology according to claim 1, characterized in that: jar body subassembly (1) is including a jar body (11), inlet pipe (12) are installed to the top of jar body (11) one side, inlet pipe (12) are provided with the spiral cover, steam outlet pipe (14) are installed to the both sides of jar body (11) top, steam outlet pipe (14) communicate with each other with the inside of jar body (11), the internally mounted of steam outlet pipe (14) has dust screen (15), the size of dust screen (15) matches with the size of steam outlet pipe (14).

5. An electrothermal drying device for mycosphatide technology according to claim 4, characterized in that: the internally mounted of jar body (11) has a plurality of heat-conducting plates (16), heat-conducting plate (16) are located between mixing plate (23), the embedded groove has been seted up to the inside of heat-conducting plate (16), heat-conducting plate (16) adopt copper aluminium alloy material, heat-conducting plate (16) are located the both sides of puddler (22), hot plate (17) are installed to the embedded groove of heat-conducting plate (16), hot plate (17) link to each other with automatically controlled cabinet (4) and PLC controller (5) respectively through the wire.

6. An electrothermal drying device for mycosphatide technology according to claim 5, characterized in that: the utility model discloses a temperature control device for the oil-gas separator, including jar body (11), temperature sensor (18) are installed to one side that is close to automatically controlled cabinet (4) in jar body (11) inside below, temperature sensor (18) link to each other with automatically controlled cabinet (4) and PLC controller (5) respectively through the wire, temperature sensor (18) select for use CWDZ11 type, discharging pipe (13) are installed to one side that is close to inlet pipe (12) of jar body (11) lower extreme, discharging pipe (13) communicate with each other with the inside of jar body (11), discharging pipe (13) are provided with the valve.

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