CN217065249U - Combined type fumigating device - Google Patents

Abstract

The utility model discloses a combined type sulfur fumigation device, which comprises a shell, a grinding component and a cooling component, wherein the grinding component is arranged on the surface of the bottom at the inner side of the shell, a grinding motor is arranged on the inner wall of the grinding component, the power output end of the grinding motor is connected with the power input end of a grinding propulsion head, an extrusion through hole is arranged at one side of the grinding component, a combustion chamber is arranged on the surface of one side of the shell, the extrusion through hole extends into the combustion chamber, a heating resistance wire is arranged at the bottom of the combustion chamber, a chute is arranged at the bottom at the inner side of the combustion chamber, a heating plate is connected in the chute in a sliding way, a pipeline is arranged at the top of the combustion chamber in a matching way, massive sulfur can be smashed and changed into powder, the ignition point of the sulfur can be reduced, the sulfur can be combusted without more heat, the contact area between the powdery sulfur and the flame is larger, can make the burning of sulphur more abundant, the sulphur produces the waste when can not, has improved the utilization efficiency.

Description

Combined type fumigating device

Technical Field

The utility model relates to a sulfuration device technical field, in particular to a combined sulfuration device.

Background

SO2 is a combined sulfuration device antiseptic bactericide, can also influence the physiology and biochemistry of fruits and vegetables, is a cheap and practical chemical antistaling agent of the combined sulfuration device, and commonly used methods for sulfur treatment generally comprise a sulfuration method, a sulfur soaking method and a SO2 slow release method. The sulfuration method can be carried out by burning sulfur for fumigation, or by directly and slowly introducing liquid SO2 in a steel cylinder, and requires the sealing of the sulfuration chamber or the periphery of the plastic net.

A modular fumigation sulphur device on the market has following drawback: when the sulfur fumigation method is used, sulfur is required to be used and combusted to prepare sulfur dioxide, the combustion point of the used solid sulfur is higher, more energy is required to be used for heating the sulfur to the combustion point, more energy is wasted in the process, and when the sulfur is fumigated by the sulfur, the temperature after the sulfur dioxide is generated is higher, the sulfur is required to be stood for a longer time to wait for natural cooling, the wasted time is more, and the use requirement cannot be met.

SUMMERY OF THE UTILITY MODEL

The main object of the utility model is to provide a combined type fumigating device, which can effectively solve the problems in the background technology.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model provides a combined type fumigation device, includes the shell, still includes grinding subassembly and cooling module, the subassembly of milling specifically comprises the motor of milling, the propulsion head of milling, extrusion through-hole, pipeline, combustion chamber, heating resistor silk, hot plate and spout, the subassembly of milling is installed on the inside bottom surface of shell, it installs the motor of milling on the subassembly inner wall of milling, the power take off end of the motor of milling is connected with the power input end that the propulsion head of milling, the extrusion through-hole has been seted up to subassembly one side of milling, shell one side surface mounting has the combustion chamber, the extrusion through-hole extends to in the combustion chamber, the heating resistor silk is installed to combustion chamber bottom, the spout has been seted up to the inboard bottom in combustion chamber, sliding connection has the hot plate in the spout, the pipeline is installed in the cooperation of combustion chamber top, the cooling module specifically comprises water tank, circulating pump, heating resistor silk and spout, The water pipe, the semiconductor refrigeration piece, the handle, the sealing cover plate, the hole groove, the S-shaped pipe and the partition plate.

Furthermore, the cooling component is arranged at one side of the combustion chamber, one end of the pipeline penetrates through the cooling component and is connected with the S-shaped pipe in a matching way, a partition plate is arranged in the cooling component, the top end of the S-shaped pipe penetrates through the partition plate, a semiconductor refrigerating sheet is arranged at one side of the cooling component, a hole groove is arranged at the top of the cooling component, a sealing cover plate is arranged at the top of the cooling component, a handle is arranged on the sealing cover plate, a circulating pump is arranged at the bottom of the cooling component, a water tank is arranged at the bottom of the circulating pump in a matching way, a water pipe is arranged at the top of the water tank, the top end of the water pipe is inserted on the cooling component, when sulfur dioxide steam is generated by heating sulfur, the temperature of the sulfur dioxide steam which is just prepared through combustion is higher, the prepared sulfur dioxide gas flows upwards and enters the S-shaped pipe in the cooling component through the pipeline, the S-shaped pipe is covered by water in the cooling assembly, the sulfur dioxide gas in the S-shaped pipe can be cooled through the water, the circulating pump is electrified to be in a working state at the moment, the circulating pump enables the water in the water tank and the cooling assembly to flow, the effect of cooling influence caused by local overheating of the water under the condition of no flow after the water absorbs heat can be prevented, the absorbed heat of the flowing water can be uniformly dispersed, the effect of absorbing the heat by the water can be effectively improved, in the process that the water continuously flows, the contact area between the water and the air can be enlarged through the surfaces of the cooling assembly and the water pipe, the external radiation of the heat can be accelerated, the heat on the surface of the cooling assembly can be transferred through the semiconductor cooling sheet, the heat of the cooling assembly is transferred to the hot end of the semiconductor cooling sheet from the cold end of the semiconductor cooling sheet, and the water flow is cooled, through dual setting, can effectual improvement to the cooling effect of hot sulfur dioxide steam, can prevent that overheated sulfur dioxide steam from causing the problem of damage to the material when stifling.

Furthermore, a sulfur placing port is installed at the top of the shell, one end of the sulfur placing port penetrates through the top surface of the shell, sulfur is placed through the sulfur placing port, and the sulfur can enter the device.

Furthermore, the welding of shell bottom has the base, the base is provided with two sets ofly, can make the device remain stable through two sets of bases.

Compared with the prior art, the utility model discloses following beneficial effect has: can smash bold sulphur, make it become the powder, can reduce the ignition point of sulphur, the sulphur burns when just needing not more heat, and the area of contact of powdered sulphur and flame is bigger, can make the more abundant of the burning of sulphur, and sulphur produces extravagantly in the time of can not, has improved the utilization efficiency, through dual setting, can effectual improvement to the cooling effect of hot sulfur dioxide steam, can prevent that overheated sulfur dioxide steam from causing the problem of damage to the material when stifling.

Drawings

Fig. 1 is a schematic view of a three-dimensional structure of the combined type sulfur fumigation device of the present invention.

Fig. 2 is a schematic structural view of the cooling component of the combined type sulfuration device.

Fig. 3 is a schematic structural view of a milling assembly of the combined type sulfuration device of the present invention.

FIG. 4 is a schematic structural view of a combustion chamber of the combined type sulfur fumigation device of the present invention.

In the figure: 1. a base; 2. a housing; 3. a sulfur placing port; 4. a milling assembly; 401. a grinding motor; 402. a milling pusher head; 403. extruding the through hole; 404. a pipeline; 405. a combustion chamber; 406. heating resistance wires; 407. heating plates; 408. a chute; 5. a cooling assembly; 501. a water tank; 502. a circulation pump; 503. a water pipe; 504. a semiconductor refrigeration sheet; 505. a handle; 506. sealing the cover plate; 507. a hole groove; 508. an S-shaped pipe; 509. a separator.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

As shown in fig. 1-4, a combined type sulfur fumigation device comprises a housing 2, and further comprises a grinding component 4 and a cooling component 5, wherein the grinding component 4 specifically comprises a grinding motor 401, a grinding propulsion head 402, an extrusion through hole 403, a pipeline 404, a combustion chamber 405, a heating resistance wire 406, a heating plate 407 and a chute 408, the grinding component 4 is installed on the surface of the bottom of the inner side of the housing 2, the grinding motor 401 is installed on the inner wall of the grinding component 4, the power output end of the grinding motor 401 is connected with the power input end of the grinding propulsion head 402, the extrusion through hole 403 is formed in one side of the grinding component 4, the combustion chamber 405 is installed on the surface of one side of the housing 2, the extrusion through hole 403 extends into the combustion chamber 405, the heating resistance wire 406 is installed at the bottom of the combustion chamber 405, the chute 408 is formed in the bottom of the inner side of the combustion chamber 405, the heating plate 407 is slidably connected in the chute 408, the top of the combustion bin 405 is provided with a pipeline 404 in a matching manner, and the cooling assembly 5 specifically comprises a water tank 501, a circulating pump 502, a water pipe 503, a semiconductor refrigeration sheet 504, a handle 505, a sealing cover plate 506, a hole groove 507, an S-shaped pipe 508 and a partition 509.

Wherein, the cooling component 5 is installed at one side of the combustion chamber 405, one end of the pipeline 404 is connected with the cooling component 5 through the pipeline and then is matched with the S-shaped pipe 508, a partition 509 is arranged in the cooling component 5, the top end of the S-shaped pipe 508 is penetrated through the partition 509, the semiconductor refrigerating sheet 504 is installed at one side of the cooling component 5, the top of the cooling component 5 is provided with a hole groove 507, the top of the cooling component 5 is provided with a sealing cover plate 506, the sealing cover plate 506 is provided with a handle 505, the bottom of the cooling component 5 is provided with a circulating pump 502, the bottom of the circulating pump 502 is matched with a water tank 501, the top of the water tank 501 is provided with a water pipe 503, the top end of the water pipe 503 is inserted in the cooling component 5, when sulfur dioxide steam is generated by heating sulfur, the temperature of the sulfur dioxide steam which is just prepared through combustion is higher, and the prepared sulfur dioxide gas flows upwards, the sulfur dioxide gas enters an S-shaped pipe 508 in the cooling assembly 5 through a pipeline 404, the S-shaped pipe 508 is covered by water in the cooling assembly 5, the sulfur dioxide gas in the S-shaped pipe 508 can be cooled through the water, at the moment, the circulating pump 502 is electrified to be in a working state, the circulating pump 502 enables the water in the water tank 501 and the cooling assembly 5 to flow, the effect of cooling can be prevented from being influenced by local overheating under the condition that the water does not flow after absorbing heat, the absorbed heat of the flowing water can be uniformly dispersed, the effect of absorbing the heat by the water can be effectively improved, in the process that the water continuously flows, the contact area between the water and the air can be enlarged through the surfaces of the cooling assembly 5 and the water pipe 503, so that the outward radiation of the heat can be accelerated, in addition, the heat on the surface of the cooling assembly 5 can be transferred through the semiconductor cooling sheet 504, the heat of the cooling assembly 5 is transferred from the cold end of the semiconductor cooling sheet 504 to the hot end of the semiconductor sheet 504, thereby the feedwater stream is cooled down, through dual setting, can effectual improvement to the cooling effect of hot sulfur dioxide steam, can prevent that overheated sulfur dioxide steam from causing the problem of damage to the material when stifling.

Wherein, the mouth 3 is placed to the sulphur is installed at 2 tops of shell, 3 one end of mouth run through with the top surface of shell 2 is placed to the sulphur, place mouthful 3 through the sulphur and put into the sulphur, can make the sulphur get into in the device.

Wherein, the welding of 2 bottoms of shell has base 1, base 1 is provided with two sets ofly, can make the device remain stable through two sets of base 1.

It should be noted that, the utility model relates to a combined sulfur smoking device, in operation, at first put into the device through sulfur placing port 3, sulfur drops downwards under the effect of gravity, until entering grinding component 4, the grinding propulsion head 402 in grinding component 4 at this moment is rotated under the drive of grinding motor 401, grinding propulsion head 402 is spiral structure, can make massive sulfur block advance forward in grinding component 4 rotation, in the advancing process, spiral grinding propulsion head 402 can grind sulfur, when advancing sulfur to extrusion through hole 403, because grinding propulsion head 402 is still rotating ceaselessly, so sulfur that makes is piled up in extrusion through hole 403, and continuously extrude sulfur, make it become more finely divided sulfur powder, until sulfur powder enters combustion chamber 405 through extrusion through hole 403, the sulfur powder falling on the heating plate 407 is heated by the heating resistor and burned to generate sulfur dioxide gas, which can crush large sulfur to powder, so as to reduce the ignition point of sulfur, and sulfur can be burned without more heat, the contact area between the powder sulfur and flame is larger, so that the combustion of sulfur is more sufficient, the sulfur is not wasted, the utilization efficiency is improved, when sulfur dioxide steam is generated by heating sulfur, the temperature of the sulfur dioxide steam which is just prepared by burning is higher, the prepared sulfur dioxide gas flows upwards and enters the S-shaped pipe 508 in the cooling assembly 5 through the pipeline 404, the S-shaped pipe 508 is covered by water in the cooling assembly 5, the sulfur dioxide gas in the S-shaped pipe 508 can be cooled through water, and the circulating pump 502 is powered on to be in a working state, the circulating pump 502 enables the water in the water tank 501 and the cooling component 5 to flow, which can prevent the water from being locally overheated without flowing after absorbing heat to affect the cooling effect, the absorbed heat of the flowing water can be uniformly dispersed, can effectively improve the absorption effect of water on heat, and in the process of continuous flowing of water, the contact area of water and air can be increased by the surface of the temperature reducing assembly 5 and the water pipe 503, thereby accelerating the external radiation of heat, and the semiconductor chilling plate 504 can transfer the heat on the surface of the cooling component 5 at the moment, transferring the heat of the cooling component 5 from the cold end of the semiconductor chilling plate 504 to the hot end of the semiconductor chilling plate 504, thereby the feedwater stream cools down, through dual setting, can effectual improvement to the cooling effect of hot sulfur dioxide steam, can prevent that overheated sulfur dioxide steam from causing the problem of damage to the material when stifling. .

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (4)

1. The combined type sulfur fumigation device comprises a shell (2) and is characterized by further comprising a grinding component (4) and a cooling component (5), wherein the grinding component (4) specifically comprises a grinding motor (401), a grinding propulsion head (402), an extrusion through hole (403), a pipeline (404), a combustion bin (405), a heating resistance wire (406), a heating plate (407) and a sliding groove (408), the grinding component (4) is installed on the bottom surface of the inner side of the shell (2), the grinding motor (401) is installed on the inner wall of the grinding component (4), the power output end of the grinding motor (401) is connected with the power input end of the grinding propulsion head (402), the extrusion through hole (403) is formed in one side of the grinding component (4), the combustion bin (405) is installed on the surface of one side of the shell (2), and the extrusion through hole (403) extends into the combustion bin (405), heating resistance wire (406) is installed to combustion chamber (405) bottom, spout (408) have been seted up to combustion chamber (405) inboard bottom, sliding connection has hot plate (407) in spout (408), pipeline (404) are installed in combustion chamber (405) top cooperation, cooling subassembly (5) specifically comprise water tank (501), circulating pump (502), water pipe (503), semiconductor refrigeration piece (504), handle (505), sealed apron (506), hole groove (507), S type pipe (508) and baffle (509).

2. The combined fumigation device as defined in claim 1, wherein: the cooling component (5) is arranged at one side of the combustion bin (405), one end of the pipeline (404) penetrates through the cooling component (5) and then is connected with the S-shaped pipe (508) in a matching way, a clapboard (509) is arranged in the cooling component (5), the top end of the S-shaped pipe (508) penetrates through the clapboard (509), a semiconductor refrigerating sheet (504) is arranged on one side of the cooling component (5), a hole groove (507) is arranged on the top of the cooling component (5), a sealing cover plate (506) is arranged at the top of the cooling component (5), a handle (505) is arranged on the sealing cover plate (506), the bottom of the cooling component (5) is provided with a circulating pump (502), the bottom of the circulating pump (502) is provided with a water tank (501) in a matching way, a water pipe (503) is installed at the top of the water tank (501), and the top end of the water pipe (503) is inserted into the cooling assembly (5).

3. The combined fumigation device as defined in claim 1, wherein: the top of the shell (2) is provided with a sulfur placing port (3), and one end of the sulfur placing port (3) penetrates through the top surface of the shell (2).

4. The combined fumigation device as defined in claim 1, wherein: the welding of shell (2) bottom has base (1), base (1) is provided with two sets ofly.

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