CN212253202U - Reation kettle heat recovery unit - Google Patents

Abstract

The utility model discloses a reation kettle heat recovery unit, including reation kettle body, air exhauster, butt joint hose and discharge gate, nested piece is installed to the upper end nestification of reation kettle body, and the outer end of nested piece runs through installs the air exhauster, first air cavity has been seted up to the inboard of nested piece, and the internal surface of nested piece has seted up the storage tank to the inner nestification of storage tank installs the butt joint piece, the nested gas transmission pipeline of installing of output lower extreme of air exhauster, and the lower extreme of gas transmission pipeline runs through installs the butt joint hose, and the butt joint hose is connected with the output of air exhauster. This reation kettle heat recovery unit, the heat that the device produced in the course of the work will be stable copper product through the contact to the inside of piecing together the piece conduction to nested piece, and the air exhauster will be stable transmits heat energy along gas transmission pipeline, and then the stable constant temperature processing is carried out to the discharge gate position to the copper product heat conduction piece of cooperation terminal contact, has guaranteed the production quality of device.

Description

Reation kettle heat recovery unit

Technical Field

The utility model relates to a reation kettle technical field specifically is a reation kettle heat recovery unit.

Background

With the continuous development of the chemical industry in China, a reaction kettle gradually becomes one of the more common chemical equipment, and the heating, evaporation, cooling and low-high speed mixing functions of the process requirements are realized through the structural design and parameter configuration of a container, but the existing reaction kettle heat energy recovery device has certain defects, such as:

1. the heat of the existing reaction kettle can generate larger heat in the processing process, and most of the heat cannot stably recover the redundant heat, so that the phenomenon of energy waste is easy to occur;

2. most application scope of current reation kettle heat recovery unit is comparatively limited, can only adapt to the reation kettle who corresponds the model, and its unable convenient lets the user dismantle maintenance work simultaneously, and then has certain use defect.

In order to solve the above problems, innovative design based on the structure of the original heat energy recovery device is urgently needed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a reation kettle heat recovery unit to what provide in solving above-mentioned background art can produce great heat in the course of working, the heat to unnecessary production that it is most unable stable carries out recovery work, lead to the extravagant phenomenon of the energy of easily appearing, the most application scope of current reation kettle heat recovery unit is comparatively limited, can only adapt to the reation kettle who corresponds the model, its unable convenient problem that lets the user dismantle maintenance work of simultaneously.

In order to achieve the above object, the utility model provides a following technical scheme: a reaction kettle heat energy recovery device comprises a reaction kettle body, an exhaust fan, a butt joint hose and a discharge port, wherein a nested block is nested and installed at the upper end of the reaction kettle body, the outer end of the nested block is provided with the exhaust fan in a penetrating manner, the inner side of the nested block is provided with a first air cavity, the inner surface of the nested block is provided with a containing groove, the inner end of the containing groove is nested and provided with a butt joint block, the lower end of the output end of the exhaust fan is nested and provided with an air transmission pipeline, the lower end of the air transmission pipeline is provided with the butt joint hose in a penetrating manner, the butt joint hose is connected with the output end of the exhaust fan, the lower end of the air transmission pipeline is connected with a movable block through a bearing, the inner side of the movable block is provided with a second air cavity, the second air cavity is connected, butterfly bolts are nested at the tail ends of the movable blocks, a discharge port is formed in the lower end of the reaction kettle body, and the discharge port is connected with the movable blocks.

Preferably, the nesting block is of a circular ring structure in plan view, the inner sides of the nesting blocks are provided with butt-joint blocks at equal angles, and the nesting blocks and the outer side of the upper end of the reaction kettle body form a nesting structure through the butt-joint blocks.

Preferably, the accommodating groove is provided with a return spring and a sealing ring, the inner surface of the accommodating groove is nested with the return spring, the inner end of the return spring is connected with the butt joint block, and the inner surface of the accommodating groove is bonded with the sealing ring.

Preferably, the accommodating groove forms a telescopic structure with the butt joint block through a return spring, and the outer surface of the butt joint block is respectively attached to the outer surface of the sealing ring and the outer surface of the reaction kettle body.

Preferably, the gas transmission pipeline and the output end of the exhaust fan form a detachable installation structure, a butt joint hose is installed on the inner side of the gas transmission pipeline in a nested mode, and the gas transmission pipeline is communicated with the inner side of the second air cavity through the butt joint hose.

Preferably, the movable block is arranged symmetrically about the center point of the gas pipeline, the movable block and the heat conduction block are of an integrated structure, and the heat conduction block and the butt joint block are made of copper materials.

Compared with the prior art, the beneficial effects of the utility model are that: the reaction kettle heat energy recovery device;

1. the device is provided with the nested block which is nested and butted, heat generated in the working process of the device conducts the stable copper material which is contacted to the nested block to the inside of the nested block, the exhaust fan stably transfers heat energy along the gas transmission pipeline, and the constant temperature treatment is further stably carried out on the position of a discharge hole by matching with the copper material heat conduction block with which the tail end is contacted, so that the constant temperature contact can be stably carried out on the produced material while the waste heat is recovered, and the production quality of the device is ensured;

2. be provided with detachable gas transmission pipeline, the user only need can be convenient through butterfly bolt carry out the dismantlement work to 2 movable block groups along the lower extreme of discharge gate, and then carry out the separation work through the lower extreme of gas transmission pipeline with the air exhauster, what nested piece of cooperation nested butt joint can be stable lets the user dismantle to overhaul change work to this heat recovery unit, but the adaptation has improved the application scope of device with the reation kettle of different grade type simultaneously.

Drawings

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

FIG. 2 is a schematic view of a top cross-sectional structure of the nested block of the present invention;

FIG. 3 is a schematic view of a sectional structure of the butt-joint block of the present invention;

FIG. 4 is an enlarged schematic view of the structure at A of FIG. 1 according to the present invention;

fig. 5 is the utility model discloses the movable block structural schematic diagram of bowing.

In the figure: 1. a reaction kettle body; 2. nesting blocks; 3. an exhaust fan; 4. a first air cavity; 5. a containing groove; 6. a butt joint block; 7. a return spring; 8. a seal ring; 9. a gas pipeline; 10. butting a hose; 11. a movable block; 12. a second air cavity; 13. a heat conducting block; 14. a butterfly bolt; 15. and (4) a discharge port.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a reaction kettle heat energy recovery device comprises a reaction kettle body 1, a nested block 2, an exhaust fan 3, a first air cavity 4, a containing groove 5, a butt joint block 6, a reset spring 7, a sealing ring 8, an air conveying pipeline 9, a butt joint hose 10, a movable block 11, a second air cavity 12, a heat conducting block 13, a butterfly bolt 14 and a discharge hole 15, wherein the nested block 2 is nested and installed at the upper end of the reaction kettle body 1, the exhaust fan 3 is installed at the outer end of the nested block 2 in a penetrating manner, the first air cavity 4 is arranged at the inner side of the nested block 2, the containing groove 5 is arranged on the inner surface of the nested block 2, the butt joint block 6 is nested and installed at the inner end of the containing groove 5, the air conveying pipeline 9 is nested and installed at the lower end of the output end of the exhaust fan 3, the butt joint hose 10 is installed at the lower end of the air conveying pipeline 9 in a penetrating, and the inboard of movable block 11 has seted up second air cavity 12 to second air cavity 12 is connected with the end of butt joint hose 10, and the inner fixedly connected with heat conduction piece 13 of movable block 11, and heat conduction piece 13 is connected with the inboard of second air cavity 12, and butterfly bolt 14 is installed to the end nestification of movable block 11, and the lower extreme of reation kettle body 1 is provided with discharge gate 15, and discharge gate 15 is connected with movable block 11.

The nesting block 2 is of an annular structure when viewed from above, the inner side of the nesting block 2 is provided with the butt-joint block 6 at an equal angle, the nesting block 2 and the outer side of the upper end of the reaction kettle body 1 form a nesting structure through the butt-joint block 6, and the butt-joint block 6 and the upper end of the reaction kettle body 1 can be stably matched for nesting installation work through the annular nesting block 2;

the accommodating groove 5 is provided with a return spring 7 and a sealing ring 8, the inner surface of the accommodating groove 5 is nested with the return spring 7, the inner end of the return spring 7 is connected with the butt joint block 6, the inner surface of the accommodating groove 5 is bonded with the sealing ring 8, the accommodating groove 5 and the butt joint block 6 form a telescopic structure through the return spring 7, the outer surface of the butt joint block 6 is respectively attached to the outer surfaces of the sealing ring 8 and the reaction kettle body 1, the butt joint block 6 can be subjected to position telescopic through the return spring 7, and the installation work can be stably adapted to workpieces of different types;

the gas transmission pipeline 9 and the output end of the exhaust fan 3 form a disassembly and assembly structure, the inner side of the gas transmission pipeline 9 is nested with a butt joint hose 10, the gas transmission pipeline 9 is communicated with the inner side of the second air cavity 12 through the butt joint hose 10, and hot gas transmitted by the exhaust fan 3 can stably supply gas to the inner side of the second air cavity 12 through the butt joint hose 10;

the movable block 11 sets up about the central point symmetry of gas transmission pipeline 9, and movable block 11 and heat conduction piece 13 be the integral structure to heat conduction piece 13 and butt joint piece 6 are the copper product, through the good heat conductivility of copper product heat conduction piece 13 and butt joint piece 6, can stabilize and carry out constant temperature work to the discharge gate 15 of contact.

The working principle is as follows: when the reaction kettle heat energy recovery device is used, according to the figures 1-3, the device is firstly placed at the position where work is needed, then the whole device can work by switching on a power supply, the reaction processing is carried out on the materials inside along with the reaction kettle body 1, the waste heat generated at the surface end of the reaction kettle contacts with the copper material pair connecting block 6 which is distributed at equal angles on the inner side of the reaction kettle body 1 in advance, thereby leading the heat to be stably conducted to the inside of the first air cavity 4, and the exhaust fan 3 carries out the extraction work of the stably conducted heat along the air transmission pipeline 9, and is stably transferred to the inside of the second air chamber 12 of the movable block 11 along the docking hose 10 at the lower end of the air delivery pipe 9, and the constant temperature treatment is stably carried out on the position of the discharge hole 15 by matching with the copper heat-conducting block 13 with the tail end contacted, the waste heat is recovered, and meanwhile, the constant-temperature treatment work can be stably carried out on the produced materials;

according to the figures 1 and 3-5, after the device is used for a certain period, a user can hold the butterfly bolt 14 at the tail end of the movable block 11 to disassemble the device, so that the movable blocks 11 in the groups 2 are separated from the limit state between the movable blocks and the discharge port 15, then the gas pipeline 9 can be separated, replaced and maintained along the lower end of the exhaust fan 3, the nested block 2 matched with the nested butt joint can stably enable the user to integrally disassemble, repair and replace the heat energy recovery device along the outer side of the reaction kettle body 1, meanwhile, the elastic support state between the nested block 2 and the butt joint block 6 and the butt joint structure of the movable blocks 11 can be matched with the reaction kettles of different types, the application range of the device is improved, and the overall practicability is increased.

Those not described in detail in this specification are within the skill of the art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a reation kettle heat recovery unit, includes reation kettle body (1), air exhauster (3), butt joint hose (10) and discharge gate (15), its characterized in that: the reaction kettle comprises a reaction kettle body (1), wherein nested blocks (2) are nested at the upper end of the reaction kettle body (1), an exhaust fan (3) is arranged at the outer ends of the nested blocks (2) in a penetrating manner, a first air cavity (4) is formed in the inner side of each nested block (2), a containing groove (5) is formed in the inner surface of each nested block (2), a butt joint block (6) is nested at the inner end of each containing groove (5), an air transmission pipeline (9) is nested at the lower end of the output end of the exhaust fan (3), a butt joint hose (10) is arranged at the lower end of the air transmission pipeline (9) in a penetrating manner, the butt joint hose (10) is connected with the output end of the exhaust fan (3), a movable block (11) is connected to a lower end bearing of the air transmission pipeline (9), a second air cavity (12) is formed in the inner side of, the inner end of the movable block (11) is fixedly connected with a heat conducting block (13), the heat conducting block (13) is connected with the inner side of the second air cavity (12), a butterfly bolt (14) is embedded at the tail end of the movable block (11), a discharge hole (15) is formed in the lower end of the reaction kettle body (1), and the discharge hole (15) is connected with the movable block (11).

2. The reactor thermal energy recovery device of claim 1, wherein: the nested structure is characterized in that the nested block (2) is of a circular ring-shaped structure when viewed from above, butt-joint blocks (6) are arranged on the inner sides of the nested block (2) at equal angles, and the nested block (2) and the outer side of the upper end of the reaction kettle body (1) form the nested structure through the butt-joint blocks (6).

3. The reactor thermal energy recovery device of claim 1, wherein: the anti-theft device is characterized in that the accommodating groove (5) is provided with a return spring (7) and a sealing ring (8), the inner surface of the accommodating groove (5) is nested with the return spring (7), the inner end of the return spring (7) is connected with the butt joint block (6), and the inner surface of the accommodating groove (5) is connected with the sealing ring (8) in a bonding mode.

4. The reactor thermal energy recovery device of claim 3, wherein: the accommodating groove (5) and the butt joint block (6) form an expansion structure through a return spring (7), and the outer surface of the butt joint block (6) is respectively attached to the outer surfaces of the sealing ring (8) and the reaction kettle body (1).

5. The reactor thermal energy recovery device of claim 1, wherein: the gas transmission pipeline (9) and the output end of the exhaust fan (3) form a disassembly and assembly structure, a butt joint hose (10) is nested and installed on the inner side of the gas transmission pipeline (9), and the gas transmission pipeline (9) is communicated with the inner side of the second air cavity (12) through the butt joint hose (10).

6. The reactor thermal energy recovery device of claim 1, wherein: the movable block (11) is symmetrically arranged about the central point of the gas transmission pipeline (9), the movable block (11) and the heat conduction block (13) are of an integrated structure, and the heat conduction block (13) and the butt joint block (6) are both made of copper materials.

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