CN216716773U - Multifunctional circulating heating mechanism - Google Patents

Abstract

The application relates to the technical field of circulation heating, especially, relate to a multi-functional circulation heating mechanism, its technical scheme is: the waste conveying assembly comprises a conveying frame and a conveying belt for placing waste soil, and a conveying motor for driving the conveying belt to transmit is arranged in the conveying frame; the waste heating assembly comprises a solar heating element and a drying element, the solar heating element comprises a solar heating frame body, a plurality of solar heating pipes are arranged on the solar heating frame body, the solar heating element also comprises heat exchange pipes connected with the solar heating pipes through pipelines, and exchange holes are formed in the side wall of the conveying frame; the drying part comprises a drying box body, a drying pipeline is arranged on the side wall of the drying box body, the drying pipeline is arranged on the side wall of the drying box body, and a connecting hole for connecting the drying pipeline is formed in the side wall of the conveying frame; this application has the heating of drying by utilizing multiple energy, improves waste material soil drying efficiency's technological effect.

Description

Multifunctional circulating heating mechanism

Technical Field

The utility model relates to the technical field of circulation heating, in particular to a multifunctional circulation heating mechanism.

Background

The fungi is a plant which does not contain chlorophyll and can not carry out photosynthesis, does not have the differentiation of roots, stems and leaves, and does not contain photosynthetic pigments such as chlorophyll (except a few photosynthetic bacteria). Nowadays, more and more fungi enter the dining table, and many fungi need to be cultured artificially to maintain huge market demands.

Fungus class plant is picked the back, and it has fungus root system soil and will be retrieved, and the waste material soil that will retrieve forms new nutrition soil after processing, but waste material soil is in retrieving the back, contains a large amount of moisture in the soil, consequently need dry the processing to the waste material soil of retrieving, but because weather is uncontrollable reason, consequently need a multi-functional circulation heating mechanism to carry out circulation heating to waste material soil for waste material soil can fast drying.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a multifunctional circulating heating mechanism.

The technical scheme adopted by the utility model for solving the technical problems is as follows:

a multifunctional circulating heating mechanism comprises a waste conveying assembly and a waste heating assembly, wherein the waste conveying assembly is used for placing recycled waste soil, and the waste heating assembly is used for heating and drying the waste soil on the waste conveying assembly;

the waste conveying assembly comprises a conveying frame and a conveying belt for placing waste soil, and a conveying motor for driving the conveying belt to transmit is arranged in the conveying frame;

the waste heating assembly comprises a solar heating element and a drying element, the solar heating element comprises a solar heating frame body, a plurality of solar heating pipes are arranged on the solar heating frame body, the solar heating element also comprises heat exchange pipes connected with the solar heating pipes through pipelines, the heat exchange pipes are arranged in the conveying frame, and heat exchange holes for heat supply exchange pipes to pass through are formed in the side wall of the conveying frame;

the drying part comprises a drying box body, a drying pipeline is arranged on the side wall of the drying box body, the drying pipeline is arranged on the side wall of the drying box body, and a connecting hole used for connecting the drying pipeline is formed in the side wall of the conveying frame.

Preferably, the solar heating element further comprises a circulation pump for rapidly supplying hot water heated in the solar heating pipe to the heat exchanging pipe, and the solar heating element further comprises a temperature detector for detecting a temperature.

Preferably, a heat sleeve for supporting the heat exchange tube is arranged in the conveying frame, and the heat sleeve is distributed in a serpentine shape in the conveying frame.

Preferably, one side of heat-exchanging pipe is equipped with the outer heating member of pipe connection, outer heating member is including storing the water tank, outer heating member still includes the electrical heating rod to carrying out heat treatment in the storing the water tank.

Preferably, the storage water tank is provided with a conveying pipe for connecting the pipeline with the heat exchange pipe, and the conveying pipe is provided with an electromagnetic valve for controlling the opening and closing of the conveying pipe.

Preferably, a heating element and a fan are arranged in the drying box body, a plurality of uniformly distributed air supply pipes are arranged in the drying pipeline, and the air supply pipes are used for conveying heat generated by the heating element.

Preferably, the drying box body is also internally provided with a temperature control part, the temperature control part comprises a temperature detection sensor arranged in the drying box body, and the temperature control part further comprises a controller used for receiving a detection signal of the temperature sensor.

Preferably, the bottom of the drying box body is provided with a bottom frame, and a fan for ventilation treatment is arranged on the bottom frame.

Preferably, an oil control heating assembly is arranged in the drying box body, the oil control heating assembly comprises an oil pipe arranged in the drying pipeline in a penetrating mode, the oil control heating assembly further comprises a hot oil box arranged in the drying box body, and the oil pipe is connected with the hot oil box through an oil pump pipeline.

The utility model has the beneficial effects that:

1. the recycled waste soil is put on a conveyor belt to be exposed, so that moisture in the waste soil is quickly lost, solar energy is fully utilized to quickly heat a solar tube machine, the heated calculated moisture is sent into a conveying frame, the bottom of the conveyor belt is heated, the effect of simultaneously heating the inside and the outside of the conveyor belt is achieved, and the effect of saving energy is achieved by the aid of a solar heating element;

2. by arranging the external heating element, under the condition of insufficient illumination or no illumination, the water temperature is heated by the electric heating rod, and heated water is conveyed into the conveying belt to complete heat exchange treatment, so that the heating effect on waste soil is accelerated;

3. the external heating element generates heat after being electrified, and then the generated heat is transmitted into the transmission frame by using the fan, so that the drying efficiency is further accelerated, and the combination of air heating and water heating is adopted, so that the heat exchange efficiency in the transmission frame is improved, and the drying effect and the drying efficiency are greatly improved;

4. the oil control heating assembly arranged in the drying box body conveys heated oil into the oil pipe by utilizing the characteristics of high oil absorption efficiency, high temperature and long maintaining time, and the oil pipe is arranged in the conveying frame for heat exchange, so that the drying efficiency is further improved.

Drawings

FIG. 1 is a schematic overall structure diagram of an embodiment of the present application;

FIG. 2 is a schematic view of the overall structure of a solar heating element and an external heating element according to an embodiment of the present application;

FIG. 3 is a schematic sectional view of a part of a drying part according to an embodiment of the present disclosure;

fig. 4 is a schematic structural diagram of an overall oil control heating assembly according to an embodiment of the present application.

Wherein, 1, a waste conveying component; 11. a transfer frame; 12. a conveyor belt; 13. a thermal sleeve; 2. a waste heating assembly; 21. a solar heating element; 211. a solar heating frame body; 212. a solar heating pipe; 213. a heat exchange tube; 214. a circulation pump; 22. drying the workpiece; 23. drying the box body; 24. drying the pipeline; 25. connecting holes; 26. a chassis; 27. a fan; 3. an outer heating member; 31. a storage water tank; 32. an electrical heating rod; 33. an electromagnetic valve; 34. a delivery pipe; 41. a heating element; 42. a fan; 43. an air supply pipe; 5. a temperature control member; 51. a temperature detection sensor; 6. an oil control heating assembly; 61. an oil pipe; 62. a hot oil tank.

Detailed Description

For the purpose of enhancing understanding of the present invention, the present invention will be described in further detail with reference to examples, which are provided for illustration only and are not intended to limit the scope of the present invention.

Example (b):

referring to fig. 1, for the multi-functional circulation heating mechanism that this application discloses, including waste material conveying assembly 1 and waste material heating assembly 2, waste material conveying assembly 1 includes conveying frame 11 and the conveyer belt 12 that is used for placing waste material soil, be equipped with in the conveying frame 11 and be used for driving conveyer belt 12 pivoted conveying motor, throw in the waste material soil of retrieving at conveyer belt 12 and carry out the sunning, waste material heating assembly 2 carries out heat treatment to the waste material soil on the conveyer belt 12 simultaneously, accelerate the stoving speed of waste material soil, shorten the stoving time of waste material soil, improve the work efficiency of whole production line.

Referring to fig. 1 and 2, the waste heating assembly 2 includes a solar heating element 21 and a drying element 22, the solar heating element 21 heats moisture by using sunlight under the condition of sufficient illumination, then the heated moisture is conveyed to the conveying frame 11 to complete heat exchange, so as to achieve the drying effect on waste soil, and the moisture returns to the solar heating element 21 again after the heat exchange is completed, so that the whole solar heating element 21 achieves the effect of water circulation heating.

Solar heating element 21 includes solar heating support body 211, be equipped with a plurality of solar heating pipe 212 on the solar heating support body 211, with a plurality of solar heating pipe 212 end-to-end connection, and put into the circulating water in solar heating pipe 212, solar heating element 21 still includes the heat exchange pipe 213 of pipe connection solar heating pipe 212, the circulating water heats the back in solar heating pipe 212, utilize circulating pump 214 to carry the circulating water of heating to during heat exchange pipe 213, set up heat exchange pipe 213 in transport frame 11, be equipped with the heat exchange hole that heat supply exchange pipe 213 passed on the lateral wall of transport frame 11, wear to establish in transport frame 11 heat exchange pipe 213, accomplish the heat exchange in transport frame 11.

Be equipped with in the transport frame 11 and be used for supporting heat pipe 13 of hot exchange pipe 213, hot pipe 13 snakelike distribution improves the homogeneity of heating in transport frame 11 simultaneously, utilizes snakelike distribution people's heat shrinkable tube, and adopts hot pipe 13 to accelerate the heat absorption speed. The solar heating element 21 further comprises a temperature detector for detecting the temperature, the temperature detector is used for detecting the temperature of the circulating water in the solar heating pipe 212, and when the temperature is lower than a set value, the circulating pump 214 is turned off, which indicates that the illumination is insufficient.

Referring to fig. 1 and 2, one side of the heat exchange tube 213 is provided with an external heating member 3 connected by a pipe, the external heating member 3 includes a storage water tank 31, and the external heating member 3 further includes an electric heating rod 32 for heating the inside of the storage water tank 31. After insufficient light, the circulation pump 214 will be deactivated. The external heating member 3 is connected to continue to heat the circulating water, and the electric heating rod 32 is used for heating, so that the waste soil on the conveyor belt 12 can continuously receive the drying effect. The storage water tank 31 is provided with a delivery pipe 34 connected with the heat exchange pipe 213 through a pipeline, the delivery pipe 34 is provided with an electromagnetic valve 33, the electromagnetic valve 33 is used for controlling the opening and closing of the delivery pipe 34, after the circulating pump 214 is closed, the electric heating rod 32 and the electromagnetic valve 33 are opened, and the waste soil is continuously heated by the external heating element 3.

Referring to fig. 1 to 4, the drying part 22 includes a drying box 23 and a drying duct 24, the drying duct 24 is fixedly disposed on a side wall of the drying box 23, a heating element 41 for generating heat is disposed in the drying box 23, after the heating element 41 generates heat, a fan 42 blows the generated heat to the drying duct 24, one side of the drying duct 24, which is far away from the drying box 23, is communicated with a side wall of the conveying rack 11, so that the generated heat is blown to the conveying rack 11, and the waste soil on the conveying belt 12 is dried. The lateral wall of the conveying frame 11 is provided with a connecting hole 25 for connecting the drying pipeline 24, the drying pipeline 24 is internally provided with a plurality of uniformly distributed air supply pipes 43, and the generated heat is blown to the air supply pipes 43 by the fan 42, so that the effect of drying waste soil is achieved.

The bottom of the drying box 23 is provided with a bottom frame 26, the bottom frame 26 is provided with a fan 27 for ventilation treatment, and the fan 27 is connected into the conveying frame 11 through a pipeline, so that air in the conveying frame 11 can flow rapidly, and the heat transfer efficiency is improved. Be equipped with oil accuse heating element 6 in the drying box body 23, oil accuse heating element 6 is including setting up the oil pipe 61 of wearing to establish in drying duct 24, and oil accuse heating element 6 is still including setting up hot oil tank 62 in drying box body 23, and oil pipe 61 passes through oil pump pipe connection with hot oil tank 62, utilizes the mode of oil heating to accomplish the heat exchange in conveying frame 11, improves drying efficiency. The drying box body 23 is also internally provided with a temperature control part 5, the temperature control part 5 comprises a temperature detection sensor 51 arranged in the drying box body 23, and the temperature control part 5 further comprises a controller used for receiving a detection signal of the temperature sensor. Temperature detection sensor 51 carries out temperature detection to the temperature in the stoving box 23 to send detected signal to the controller, start oil accuse heating element 6 under low temperature state, utilize the high characteristics of oil heating temperature to dry waste material soil, keep waste material soil's stoving speed.

The above embodiments should not limit the present invention in any way, and all technical solutions obtained by using equivalent alternatives or equivalent transformations fall within the protection scope of the present invention.

Claims (9)

1. The utility model provides a multi-functional circulation heating mechanism which characterized in that: the waste material drying device comprises a waste material conveying assembly (1) and a waste material heating assembly (2), wherein the waste material conveying assembly (1) is used for placing recycled waste material soil, and the waste material heating assembly (2) is used for heating and drying the waste material soil on the waste material conveying assembly (1);

the waste conveying assembly (1) comprises a conveying frame (11) and a conveying belt (12) for placing waste soil, wherein a conveying motor for driving the conveying belt (12) to transmit is arranged in the conveying frame (11);

the waste heating assembly (2) comprises a solar heating element (21) and a drying element (22), the solar heating element (21) comprises a solar heating frame body (211), a plurality of solar heating pipes (212) are arranged on the solar heating frame body (211), the solar heating element (21) further comprises a heat exchange pipe (213) connected with the solar heating pipes (212) through a pipeline, the heat exchange pipe (213) is arranged in the conveying frame (11), and a heat exchange hole for the heat supply exchange pipe (213) to pass through is formed in the side wall of the conveying frame (11);

the drying part (22) comprises a drying box body (23), a drying pipeline (24) is arranged on the side wall of the drying box body (23), the drying pipeline (24) is arranged on the side wall of the drying box body (23), and a connecting hole (25) used for connecting the drying pipeline (24) is formed in the side wall of the conveying frame (11).

2. A multi-functional hydronic heating mechanism according to claim 1, wherein: the solar heating element (21) further comprises a circulating pump (214), the circulating pump (214) is used for rapidly sending hot water heated in the solar heating pipe (212) to the heat exchange pipe (213), and the solar heating element (21) further comprises a temperature detector for detecting temperature.

3. A multifunctional circulation heating mechanism as claimed in claim 2, wherein: the conveying frame (11) is internally provided with a heat sleeve (13) for supporting the heat exchange tube (213), and the heat sleeve (13) is distributed in the conveying frame (11) in a snake shape.

4. A multi-functional hydronic heating mechanism according to claim 1, wherein: one side of heat exchange pipe (213) is equipped with outer heating member (3) of pipe connection, outer heating member (3) are including storage water tank (31), outer heating member (3) still include to carrying out heat treatment's electrical heating stick (32) in storage water tank (31).

5. A multifunctional circulation heating mechanism as claimed in claim 4, wherein: the storage water tank (31) is provided with a conveying pipe (34) for connecting the heat exchange pipe (213) with the pipeline, and the conveying pipe (34) is provided with an electromagnetic valve (33) for controlling the opening and closing of the conveying pipe (34).

6. A multi-functional hydronic heating mechanism according to claim 1, wherein: heating elements (41) and fans (42) are arranged in the drying box body (23), a plurality of uniformly distributed air supply pipes (43) are arranged in the drying pipeline (24), and the air supply pipes (43) are used for conveying heat generated by the heating elements.

7. A multifunctional circulation heating mechanism as claimed in claim 6, wherein: still be equipped with temperature control spare (5) in stoving box (23), temperature control spare (5) are including setting up temperature detection sensor (51) in stoving box (23), temperature control spare (5) still include the controller that is used for receiving temperature sensor detected signal.

8. A multi-functional hydronic heating mechanism according to claim 7, wherein: the bottom of the drying box body (23) is provided with a bottom frame (26), and a fan (27) for ventilation treatment is arranged on the bottom frame (26).

9. A multi-functional hydronic heating mechanism according to claim 1, wherein: the drying device is characterized in that an oil control heating assembly (6) is arranged in the drying box body (23), the oil control heating assembly (6) comprises an oil pipe (61) arranged in the drying pipeline (24) in a penetrating mode, the oil control heating assembly (6) further comprises a hot oil tank (62) arranged in the drying box body (23), and the oil pipe (61) is connected with the hot oil tank (62) through an oil pump pipeline.

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