CN219168397U - Reaction heating device - Google Patents

Abstract

The utility model relates to a reaction heating device, which solves the problems that the induction heating material of the existing reaction heating device can only be a metal material, the heating reaction can not be carried out on a non-conductor material, and the heating efficiency is low. The induction coil comprises a first induction coil and a second induction coil, more than one feeding pipeline is arranged on the wall of the reaction cavity above the first induction coil, and a conductor heating cavity is arranged in the reaction cavity corresponding to the second induction coil. The first induction coil heats the conductor material at the upper part of the reaction cavity, the second induction coil heats the conductor heating cavity, the conductor heating cavity heats the non-conductor or/and the conductor with holes on the first material support frame, and the gas after the reaction flows out from the outlet of the reaction cavity, so that the diversified material reaction requirements are met, and the reaction device is not limited by metal materials; the other two groups of induction coils respectively heat the upper part and the lower part of the reaction cavity simultaneously, so that the working efficiency is high.

Description

Reaction heating device

Technical Field

The present utility model relates to a reaction heating apparatus.

Background

The existing chemical reaction heating reaction chamber heats materials in the reaction chamber through an induction coil, and the induction coil only can heat conductors, but can not heat non-conductor materials, so that the heating reaction requirements of diversified materials of the reaction heating device are limited, and in addition, only one group of induction coils have low heating efficiency.

Disclosure of Invention

The utility model aims to solve the problems that an induction heating material of the existing reaction heating device can only be a metal material, a heating reaction can not be carried out on a non-conductor material, and the heating efficiency is low.

The technical scheme adopted for solving the technical problems is as follows: the reaction heating device comprises an organic case, a reaction cavity arranged in the case, and an induction coil for heating materials in the reaction cavity, wherein the reaction cavity is a sealed insulating layer cavity, the induction coil comprises a first induction coil and a second induction coil which are respectively arranged corresponding to the upper part and the lower part of the outside of the reaction cavity, more than one feeding pipeline communicated with the reaction cavity is arranged on the reaction cavity wall corresponding to the upper part of the first induction coil, a conductor heating cavity is arranged in the reaction cavity corresponding to the second induction coil, a conductor heating cavity inlet is arranged at the top of the conductor heating cavity, a reaction cavity outlet is arranged at the bottom of the conductor heating cavity, and a first material supporting frame with holes is arranged in the conductor heating cavity.

The technical scheme for further limiting the utility model comprises the following steps:

the feeding pipeline is provided with more than two insulating material guide cavities corresponding to the reaction cavities of the first induction coils, the upper parts of the insulating material guide cavities are communicated with one feeding pipeline, and the bottoms of the insulating material guide cavities are provided with insulating material guide cavity outlets corresponding to the inlets of the conductor heating cavities; the insulating material guiding cavity is internally provided with a second material supporting frame with holes corresponding to the first induction coil

The top of the reaction chamber is a detachable reaction chamber top cover, the insulating material guide chamber is fixedly connected with the reaction chamber top cover, and the feeding pipeline is communicated with the reaction chamber through the reaction chamber top cover.

The feeding pipeline is connected with the reaction cavity top cover or the side wall of the insulating guide cavity, and the top of the insulating guide cavity is a detachable insulating guide cavity top cover.

The upper part and the lower part in the reaction cavity are respectively provided with a first temperature sensor and a second temperature sensor.

The reaction chamber is made of transparent quartz glass material.

The side of the case is provided with a transparent observation window.

The insulating guide cavity is made of transparent quartz glass material.

The conductor heating cavity is made of graphite.

The bottom of the case is provided with a supporting seat, and the bottom of the supporting seat is provided with universal wheels and adjustable supporting feet.

Through the technical scheme, the utility model has the beneficial effects that: the reaction cavity of the reaction heating device is a sealed insulating layer cavity, the induction coil comprises a first induction coil and a second induction coil which are respectively arranged at the upper part and the lower part corresponding to the outside of the reaction cavity, the first induction coil heats conductor materials at the upper part of the reaction cavity, the second induction coil heats the conductor heating cavity, the conductor heating cavity heats a non-conductor or/and a conductor with holes on a first material supporting frame, and gas after the reaction flows out from an outlet of the reaction cavity, so that the reaction requirement of diversified materials is met, and the reaction heating device is not limited to metal materials; the other two groups of induction coils respectively heat the upper part and the lower part of the reaction cavity simultaneously, so that the working efficiency is high.

Drawings

FIG. 1 is a schematic perspective view of a reaction heating apparatus according to the present utility model.

FIG. 2 is a schematic sectional view of a reaction heating apparatus according to the present utility model.

Detailed Description

The structure of the present utility model will be further described with reference to the accompanying drawings.

In the description of the present application, it should be understood that the terms "center," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate orientations or positional relationships based on the orientation or positional relationships shown in the drawings, merely to facilitate description of the present application and simplify the description, and do not indicate or imply that the device or component referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present application.

Referring to fig. 1 and 2, a reaction heating device includes an organic case 1, a reaction chamber 2 disposed in the case, and an induction coil 3 for heating materials in the reaction chamber, where the reaction chamber is a sealed insulating layer chamber, the induction coil 3 includes a first induction coil 31 and a second induction coil 32 disposed on an upper portion and a lower portion of an outer portion of the reaction chamber, where more than one feeding pipe 4 communicated with the reaction chamber is disposed on a wall of the reaction chamber above the first induction coil, and gas, liquid or metal materials can be introduced through the feeding pipe, a conductor heating chamber 5 is disposed in the reaction chamber corresponding to the second induction coil, a conductor heating chamber inlet 51 is disposed at a top of the conductor heating chamber, a reaction chamber outlet 52 is disposed at a bottom of the conductor heating chamber, and a first material support 53 with holes is disposed in the conductor heating chamber. When the reaction chamber is used, the first induction coil heats the conductor material at the upper part of the reaction chamber, the second induction coil heats the conductor heating chamber, the conductor heating chamber heats the non-conductor or/and the conductor with holes on the first material support frame, and the gas after the reaction flows out from the outlet of the reaction chamber, so that the reaction requirements of diversified materials are met, and the reaction chamber is not limited to metal materials; the other two groups of induction coils respectively heat the upper part and the lower part of the reaction cavity simultaneously, so that the working efficiency is high.

In this embodiment, the feeding pipeline 4 is provided with more than two insulating guide cavities 6 corresponding to the reaction cavities of the first induction coils, the upper parts of the insulating guide cavities are communicated with one feeding pipeline, and the bottoms of the insulating guide cavities are provided with insulating guide cavity outlets 61 corresponding to the inlets of the conductor heating cavities; a second material supporting frame 62 with holes is arranged in the insulating material guiding cavity 6 corresponding to the first induction coil. The metal solid material with holes can be placed on the second material supporting frame for heating, the gas material which needs to react with the metal fixing material can be introduced into the feeding pipeline communicated with the insulating material guiding cavity for reaction, a compound is generated and flows out into the conductor heating cavity for reaction with the fixing material with holes in the conductor heating cavity, and different reaction materials can be introduced into each feeding pipeline according to the requirement.

In this embodiment, the top of the reaction chamber 2 is a detachable reaction chamber top cover 21, the insulating material guiding chamber is fixedly connected with the reaction chamber top cover, and the feeding pipeline is communicated with the reaction chamber through the reaction chamber top cover. The detachable reaction cavity top cover is convenient for adding materials on the first material support frame in the conductor heating cavity. In this embodiment, the feeding pipe is connected to the reaction chamber top cover or the insulating guide chamber side wall, and the top of the insulating guide chamber 6 is a detachable insulating guide chamber top cover 63. The detachable insulating material guide cavity top cover is convenient for adding materials on the second material support frame.

In this embodiment, the upper and lower parts in the reaction chamber are respectively provided with a first temperature sensor 7 and a second temperature sensor 8. The first temperature sensor is used for detecting the temperature of the upper part of the reaction cavity, and the second temperature sensor is used for detecting the temperature of the lower part of the reaction cavity, so that the current in the induction coil can be adjusted according to the temperature requirement.

In this embodiment, the reaction chamber and the insulating guide chamber are both made of a transparent quartz glass material. Thereby facilitating the manufacture by observation. In this embodiment, a transparent observation window 9 is provided on the side of the casing 1. Thereby the reaction condition in the reaction cavity can be observed at any time.

In this embodiment, the conductor heating chamber is made of graphite. So that it can be inductively heated by the induction coil. Is convenient to manufacture and low in cost.

In this embodiment, a supporting seat 11 is provided at the bottom of the chassis 1, and universal wheels 12 and adjustable supporting legs 13 are provided at the bottom of the supporting seat. The universal wheels are convenient for the chassis to move, the adjustable supporting legs can be screw rods, the height of the chassis can be adjusted, and the use is convenient.

Although specific embodiments of the utility model have been described in detail with reference to the accompanying drawings, the utility model should not be construed as limited to the scope of protection of the utility model. Various modifications and variations which may be made by those skilled in the art without the creative effort fall within the protection scope of the present utility model within the scope described in the claims.

Claims (10)

1. The reaction heating device comprises an organic case, a reaction cavity arranged in the case and an induction coil for heating materials in the reaction cavity, and is characterized in that: the reaction chamber be sealed insulating layer cavity, the induction coil including correspond outside upper portion of reaction chamber and the lower part do not set up first induction coil and second induction coil, be equipped with more than one on the reaction chamber wall that corresponds first induction coil top with the reaction chamber intercommunication, be equipped with the conductor in the reaction chamber that corresponds the second induction coil and generate heat the chamber, the top in conductor heating chamber is equipped with the conductor and generates heat the chamber entry, the bottom in conductor heating chamber is equipped with the reaction chamber export, the conductor generate heat the intracavity be equipped with foraminiferous first material support frame.

2. A reaction heating apparatus as claimed in claim 1, wherein: the feeding pipeline is provided with more than two insulating material guide cavities corresponding to the reaction cavities of the first induction coils, the upper parts of the insulating material guide cavities are communicated with one feeding pipeline, and the bottoms of the insulating material guide cavities are provided with insulating material guide cavity outlets corresponding to the inlets of the conductor heating cavities; and a second material supporting frame with holes is arranged in the insulating material guiding cavity corresponding to the first induction coil.

3. A reaction heating apparatus as claimed in claim 2, wherein: the top of the reaction chamber is a detachable reaction chamber top cover, the insulating material guide chamber is fixedly connected with the reaction chamber top cover, and the feeding pipeline is communicated with the reaction chamber through the reaction chamber top cover.

4. A reaction heating apparatus as claimed in claim 3, wherein: the feeding pipeline is connected with the reaction cavity top cover or the side wall of the insulating guide cavity, and the top of the insulating guide cavity is a detachable insulating guide cavity top cover.

5. A reaction heating apparatus as claimed in claim 1, wherein: the upper part and the lower part in the reaction cavity are respectively provided with a first temperature sensor and a second temperature sensor.

6. A reaction heating apparatus as claimed in claim 1, wherein: the reaction chamber is made of transparent quartz glass material.

7. A reaction heating apparatus as claimed in claim 6, wherein: the side of the case is provided with a transparent observation window.

8. A reaction heating apparatus as claimed in claim 1, wherein: the insulating guide cavity is made of transparent quartz glass material.

9. A reaction heating apparatus as claimed in claim 1, wherein: the conductor heating cavity is made of graphite.

10. A reaction heating apparatus as claimed in claim 1, wherein: the bottom of the case is provided with a supporting seat, and the bottom of the supporting seat is provided with universal wheels and adjustable supporting feet.

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