CN220043690U - Novel heating body structure - Google Patents

Abstract

The utility model relates to the field of heating element structures, and particularly discloses a novel heating element structure, which comprises a heating element, a cast iron plate for heat conduction and a galvanized plate for heat reflection, wherein the galvanized plate is in adhesive connection with the cast iron plate, a hollow cavity is formed between the cast iron plate and the galvanized plate, the heating element is arranged in the hollow cavity, and the cast iron plate and the galvanized plate wrap the heating element up and down, so that the structure realizes heat transfer and heat storage, achieves heating and continuous heating effects, is convenient to operate, and can maximally utilize the heating effect and the continuous heating effect in storage.

Description

Novel heating body structure

Technical Field

The utility model relates to the field of heating element structure industry, in particular to a novel heating element structure.

Background

Existing heater structures generally include both steel and cast iron types. The steel heating body structure is good in metal heat intensity generally, but poor in corrosion resistance; the structure of the cast iron heating body is complex to install, the heat transfer efficiency is poor, the heating effect is poor easily, and the continuous heating effect cannot be realized.

Disclosure of Invention

The utility model aims to provide a novel heating body structure and aims to solve the problems that the heating effect is poor and the continuous heating effect cannot be realized in the prior art.

In order to achieve the above purpose, the utility model provides a novel heating element structure, which comprises a heating element, a cast iron plate for heat conduction and a galvanized plate for heat reflection, wherein the galvanized plate is connected with the cast iron plate in an adhesive mode, a hollow cavity is formed between the cast iron plate and the galvanized plate, and the heating element is arranged in the hollow cavity.

Preferably, the heating element comprises a heating sheet and two groups of mica sheets, the heating sheet is clamped between the two mica sheets, the heating sheet is provided with two groups, the heating sheet comprises flat wire heating elements, and an electric gap between the flat wire heating elements on the two groups of heating sheets is larger than 4mm.

Preferably, the two groups of heating sheets are electrically connected, and lead connectors are arranged on the two groups of heating sheets and respectively rivet positive and negative electrode leads.

Preferably, the side wall of the heating sheet is of a wavy structure, the flat wire heating body is fixed on the heating sheet in a limiting mode through the wavy structure, a groove is formed in the surface of the mica sheet, and the flat wire heating body is embedded into the groove.

Preferably, the galvanized plate is adhered and fixed on the cast iron plate by using silica gel with the temperature resistance of more than 300 ℃.

Preferably, one side of the cast iron plate facing the galvanized plate is provided with two groups of limiting parts, and the heating element and the galvanized plate are both positioned between the two groups of limiting parts.

Preferably, the cast iron plate is provided with a fixing part, the fixing part is detachably connected with a bracket component, the bracket component comprises a fixed shaft, a fixed seat and a hanging frame, and the fixed shaft is respectively connected with the cast iron plate, the fixed seat and the hanging frame in a jogged manner.

Preferably, a gasket is clamped between the fixing seat and the hanging frame, a mounting hole is formed in the fixing portion, a connecting hole is formed in one side, facing the bracket assembly, of the hanging frame, the mounting hole and the connecting hole are communicated with each other, and the fixing shaft sequentially penetrates through the mounting hole, the fixing seat, the gasket and the connecting hole.

Preferably, the fixing part and the bracket component are respectively and symmetrically distributed with two groups along the vertical central axis of the cast iron plate, the hanging frame is arranged into a concave structure, and the opening direction faces the cast iron plate.

Preferably, a strip-shaped groove is formed in one side, facing the heating body, of the galvanized plate, protrusions corresponding to the strip-shaped grooves are formed in one side, far away from the heating body, of the galvanized plate, the strip-shaped grooves comprise two groups, and the two groups of strip-shaped grooves are uniformly distributed on the galvanized plate.

According to the novel heating body structure provided by the utility model, the cast iron plate and the galvanized plate wrap the heating body up and down, so that the structure realizes heat transfer and heat storage, achieves heating and continuous heating effects, is convenient to operate, and can maximally utilize the heating effect and the storage type continuous heating effect.

Drawings

FIG. 1 is a schematic diagram of a novel heat-generating body structure of the present utility model;

FIG. 2 is a schematic diagram of an explosive structure of a novel heating element structure of the present utility model.

Reference numerals illustrate: 1. a heating element; 11. a heat generating sheet; 12. mica sheets; 13. a lead wire connector; 2. a cast iron plate; 21. a limit part; 22. a fixing part; 221. a mounting hole;

3. a galvanized plate; 31. a bar-shaped groove;

4. a bracket assembly; 41. a fixed shaft; 42. a fixing seat; 43. a hanging rack; 431. a connection hole; 44. a gasket.

Detailed Description

The present utility model will be described in detail with reference to specific examples.

In the present utility model, unless explicitly stated and limited otherwise, when terminology such as "disposed," "connected," or "connected" is intended to be interpreted broadly, such as, for example, a fixed connection, a removable connection, or an integral connection; may be directly connected or connected through one or more intermediaries. The specific meaning of the terms described above in the present utility model can be understood by those skilled in the art according to the specific circumstances. The direction words appearing in the utility model are used for better explaining the characteristics of the features and the relation among the features, and it is understood that when the arrangement direction of the utility model is changed, the characteristics of the features and the directions of the relation among the features are correspondingly changed, so that the direction words do not form absolute limiting effect on the characteristics of the features and the relation among the features in space, and only play a role in relative limiting.

Referring to fig. 1-2, the present utility model provides a novel heating element structure technical scheme: the heat-conducting type heat-conducting device comprises a heating body 1, a cast iron plate 2 used for conducting heat and a galvanized plate 3 used for reflecting heat, wherein the galvanized plate 3 is connected with the cast iron plate 2 in an adhesive mode, a hollow cavity is formed between the cast iron plate 2 and the galvanized plate 3, and the heating body 1 is installed in the hollow cavity.

Through above-mentioned technical scheme, cast iron plate 2 and galvanized sheet 3 wrap up and down heat-generating body 1, make this structure realize transmitting heat dissipation and heat-retaining, reach and heat production and last heat supply effect, convenient operation to can maximize and utilize heat production effect and storage formula to last heat supply effect.

In this embodiment, heat-generating body 1 includes piece 11, two sets of mica sheet 12 generate heat, and the piece 11 that generate heat is held between two mica sheets 12, and piece 11 that generate heat is provided with two sets of, and piece 11 that generate heat includes flat filament heat-generating body (not shown in the figure), and it should be noted that, the electric gap between the flat filament heat-generating body on two sets of pieces 11 that generate heat is greater than 4mm, can ensure the stability and the security of this structure electric property.

In this embodiment, the structure adopts the electrified heating, the two groups of heating sheets 11 are electrically connected, and the two groups of heating sheets 11 are all provided with lead connectors 13, and the two lead connectors 13 are respectively riveted with the lead wires of the positive electrode and the negative electrode, so that the heating body 1 is electrified and converted into heat energy.

In this embodiment, the lateral wall of piece 11 generates heat sets up to wave structure, and the flat wire heat-generating body passes through wave structure spacing to be fixed on piece 11 generates heat, and mica sheet 12 surface is provided with the recess, and in the flat wire heat-generating body embedded groove, can guarantee the stability of flat wire heat-generating body, further, guarantees the security of this structure.

In this embodiment, the galvanized sheet 3 is adhered and fixed on the cast iron plate 2 by using silica gel with a temperature resistance of more than 300 ℃ so as to realize the fixed connection between the galvanized sheet 3 and the cast iron plate 2.

As shown in the figure, two groups of limiting parts 21 are arranged on one side, facing the galvanized plate 3, of the cast iron plate 2, and the heating body 1 and the galvanized plate 3 are both positioned between the two groups of limiting parts 21, so that the structural stability is further ensured.

As shown in fig. 2, the cast iron plate 2 is provided with a fixing portion 22, the fixing portion 22 is detachably connected with a bracket assembly 4, the bracket assembly 4 comprises a fixing shaft 41, a fixing seat 42 and a hanging frame 43, the fixing shaft 41 is respectively connected with the cast iron plate 2, the fixing seat 42 and the hanging frame 43 in a jogged mode, the structure can be installed and fixed on objects such as a rack, a wall surface and the like, in the embodiment, a gasket 44 is clamped between the fixing seat 42 and the hanging frame 43, the stability of connection between the fixing portion 22 and the bracket assembly 4 can be improved, a mounting hole 221 is formed in the fixing portion 22, a connecting hole 431 is formed in one side of the hanging frame 43, the mounting hole 221 is communicated with the connecting hole 431, and the fixing shaft 41 sequentially penetrates through the mounting hole 221, the fixing seat 42, the gasket 44 and the connecting hole 431.

In this embodiment, the fixing shaft 41 is made of high temperature resistant plastic, the fixing base 42 is made of ceramic, the gasket 44 is made of silica gel, and in other embodiments, the fixing shaft 41, the fixing base 42 and the gasket 44 may be made of other materials suitable for fixing the structure.

In this embodiment, the fixing portion 22 and the bracket assembly 4 are respectively and symmetrically distributed along the vertical central axis of the cast iron plate 2, and the hanger 43 is set to be a concave structure, and the opening direction is toward the cast iron plate 2, so that the structure can be stably clamped and fixed on an object for use.

In this embodiment, galvanized sheet 3 is provided with bar groove 31 towards one side of heat-generating body 1, and one side that galvanized sheet 3 kept away from heat-generating body 1 is formed with the arch corresponding with bar groove 31, and bar groove 31 is including two sets of, and the even distribution of two sets of bar grooves 31 is on galvanized sheet 3, can prevent effectively that galvanized sheet 3 from distortion, increases galvanized sheet 3's roughness, and is further, can make galvanized sheet 3's radiating area increase, makes galvanized sheet 3 more abundant contact with heat-generating body 1, makes this structure radiating effect higher.

The above-described embodiments and features of the embodiments may be combined with each other without conflict.

Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the scope of the present utility model, and although the present utility model has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions can be made to the technical solution of the present utility model without departing from the spirit and scope of the technical solution of the present utility model.

Claims (10)

1. A novel heating element structure, which is characterized in that: the heat-conducting device comprises a heating body, a cast iron plate for conducting heat and a galvanized plate for reflecting heat, wherein the galvanized plate is connected with the cast iron plate in an adhesive mode, a hollow cavity is formed between the cast iron plate and the galvanized plate, and the heating body is arranged in the hollow cavity.

2. A novel heat-generating body structure as described in claim 1, wherein: the heating element comprises a heating sheet and two groups of mica sheets, the heating sheet is clamped between the two mica sheets, the heating sheet is provided with two groups, the heating sheet comprises flat wire heating elements, and the electric gap between the flat wire heating elements on the two groups of heating sheets is larger than 4mm.

3. A novel heat-generating body structure as described in claim 2, wherein: the two groups of heating sheets are electrically connected, and lead connectors are arranged on the two groups of heating sheets and respectively rivet positive and negative electrode leads.

4. A novel heat-generating body structure as described in claim 3, wherein: the lateral wall of the heating piece sets up to wave structure, and the flat filament heat-generating body is spacing fixed on the heating piece through wave structure, and mica sheet surface is provided with the recess, and flat filament heat-generating body embedding is in the recess.

5. A novel heat-generating body structure as described in claim 1, wherein: the galvanized plate is adhered and fixed on the cast iron plate by using silica gel with the temperature resistance of more than 300 ℃.

6. A novel heating element structure as recited in claim 5, wherein: two groups of limiting parts are arranged on one side of the cast iron plate, facing the galvanized plate, and the heating body and the galvanized plate are positioned between the two groups of limiting parts.

7. A novel heat-generating body structure as described in claim 1, wherein: the cast iron plate is provided with a fixed part, the fixed part is detachably connected with a bracket component, the bracket component comprises a fixed shaft, a fixed seat and a hanging frame, and the fixed shaft is respectively connected with the cast iron plate, the fixed seat and the hanging frame in a jogged manner.

8. A novel heating element structure as recited in claim 7, wherein: the fixing base and the hanging frame are clamped with the gasket, the fixing portion is provided with a mounting hole, one side of the hanging frame, facing the bracket component, of the hanging frame is provided with a connecting hole, the mounting hole and the connecting hole are mutually communicated, and the fixing shaft sequentially penetrates through the mounting hole, the fixing base, the gasket and the connecting hole.

9. A novel heating element structure as recited in claim 8, wherein: the fixing part and the bracket component are respectively and symmetrically distributed with two groups along the vertical central axis of the cast iron plate, the hanging frame is in a concave structure, and the opening direction faces the cast iron plate.

10. A novel heat-generating body structure as described in claim 1, wherein: one side of the galvanized sheet facing the heating body is provided with a strip groove, one side of the galvanized sheet far away from the heating body is provided with a bulge corresponding to the strip groove, the strip groove comprises two groups, and the two groups of strip grooves are uniformly distributed on the galvanized sheet.