CN215898042U - Inward-bending heater device - Google Patents

Abstract

The utility model discloses an inward-bending heater device which comprises an inward-bending bearing frame with a symmetrical structure, wherein a central bearing base is arranged at the center of the inward-bending bearing frame, a bearing block is arranged on the inner side of the central bearing base in a matching manner, a coil heating device is arranged above the bearing block in a matching manner, a power supply seat is fixedly arranged on the outer side of the inward-bending bearing frame, and the power supply seat is electrically connected with the coil heating device. The utility model integrally solves the problems that the existing heater is mostly closed, but the use environment of the electric heater often needs to be switched over the heat conducting block or the covering area of the heat conducting block, and an inward-bending heater device needs to be designed to meet the heating requirement of bearing the heat conducting block above the accommodating area or the accommodating area by designing the prefabricated frame.

Description

Inward-bending heater device

Technical Field

The utility model relates to an inward-bending heater device, and belongs to the technical field of heater design.

Background

The existing heater is mostly closed, but the service environment of the electric heater often needs to be switched over the heat conduction block or the coverage area of the heat conduction block, and an inward-bending heater device is necessary to be designed so as to meet the heating requirement of bearing the heat conduction block above the accommodating area or the accommodating area per se through designing a prefabricated frame.

SUMMERY OF THE UTILITY MODEL

The present invention is directed to overcome the technical defects of the prior art, solve the above technical problems, and provide an inwardly bent heater apparatus.

The utility model specifically adopts the following technical scheme: the utility model provides an incurved heater device, bears the frame including symmetrical structure's incurved, the center that the incurved bore was born is provided with central bearing base, the inboard cooperation of central bearing base is provided with the carrier block, the top cooperation of carrier block is provided with coil heating device, the fixed power socket that is provided with in the outside that the incurved bore was born, the power socket with coil heating device electricity is connected.

In a preferred embodiment, an electrical connector is fixedly disposed at the center of the bearing block, and the electrical connector is electrically connected to the power socket through a wiring harness.

As a preferred embodiment, the coil heating device includes a heat conducting plate, an induction coil is disposed at the center of the heat conducting plate, symmetrically distributed heating coils are disposed on the heat conducting plate outside the induction coil, and an electrical connection hoop adapted to the bearing block is disposed at the center of the induction coil.

As a preferred embodiment, the heat conducting plate is provided with symmetrically distributed protection plate members, and the protection plate members are fittingly arranged on the outer periphery of the electrical connection collar by tightening the cap member.

As a preferred embodiment, the inward-bent bearing frame is provided with a profiling groove with a shape similar to that of the inward-bent bearing frame.

As a better embodiment, the profiling groove is provided with longitudinal drainage grooves which are symmetrically distributed and communicated with the profiling groove.

As a preferred embodiment, the inner side of the inward-bending bearing frame is provided with symmetrically distributed assembling clamping blocks, and the assembling clamping blocks are arranged between the inward-bending bearing frame and the central bearing base.

As a preferred embodiment, a double-groove cushion block is prefabricated between the assembling fixture block and the central bearing base.

In a preferred embodiment, symmetrically distributed mounting bases are arranged on the outer side of the inward bent bearing frame.

The utility model achieves the following beneficial effects: the utility model aims at solving the problem that the existing heater is mostly closed, but the use environment of the electric heater often needs to be switched over a heat conduction block or a heat conduction block coverage area, and an inward-bending heater device needs to be designed to solve the heating requirement of bearing the heat conduction block above a containing area or the containing area by designing a prefabricated frame, a heat conduction plate is arranged above a central bearing base of an inward-bending bearing frame, the heat conduction plate is matched with an electric connector through an electric connection hoop to be communicated with a power supply seat and an induction coil, a power supply can be arranged in the power supply seat or used as an interface external power supply, the electric connection hoop is electrified through the electric connector, a lead bundle and the power supply seat, the induction coil is electrified to drive a heating coil to be electrified to heat the heat conduction plate, the use environment of the electric heater can be used as a heat source and is placed on the inward-bending bearing frame, the size of the heat conduction plate can be increased to cover the inner side area of the inward-bending bearing frame for heating, the protection plate is matched with the double-groove cushion block to prevent the heating coil from being in direct contact with the inward-bending bearing frame and the inner side area of the inward-bending bearing frame, so that electric heat jointly acts on the inward-bending bearing frame and the inner side area of the inward-bending bearing frame to cause danger, the design of the longitudinal drainage groove and the profiling groove on the inward-bending bearing frame is that volatile liquid in a heating use environment is stored and guided to the inner side area of the inward-bending bearing frame, the problem that the existing heater is closed on the whole is solved, but the use environment of the electric heater is often required to be switched over the heat conduction block or the heat conduction block covering area, and the inward-bending heater device is necessary to be designed, and the heating requirement that the heat conduction block is carried on the accommodating area or the accommodating area through the design of the prefabricated frame is solved.

Drawings

FIG. 1 is a schematic structural diagram of a preferred embodiment of the present invention;

fig. 2 is a schematic structural view of a coil heating device of the present invention.

The meanings of the symbols in the figures: 1-an inward-bent bearing frame, 2-a profiling groove, 3-an assembly base, 4-a longitudinal diversion groove, 5-a central bearing base, 6-a bearing block, 7-an assembly fixture block, 8-an electric connector, 9-a power supply base, 10-a wire harness, 11-a double-groove cushion block, 12-a heat-conducting plate, 13-a heating coil, 14-an induction coil, 15-a protective plate, 16-a tightening cap and 17-an electric connection hoop.

Detailed Description

The utility model is further described below with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

Example 1: as shown in fig. 1 and 2, an inward bending type heater apparatus includes an inward bending bearing frame 1 with a symmetrical structure, a central bearing base 5 is disposed at the center of the inward bending bearing frame 1, a bearing block 6 is disposed inside the central bearing base 5 in a matching manner, a coil heating device is disposed above the bearing block 6 in a matching manner, two power supply bases 9 symmetrically distributed are fixedly disposed outside the inward bending bearing frame 1, and the power supply bases 9 are electrically connected with the coil heating device.

In a preferred embodiment, an electrical connector 8 is fixedly disposed at the center of the bearing block 6, and the electrical connector 8 is electrically connected to a power socket 9 through a wiring harness 10.

As shown in fig. 2, as a preferred embodiment, the coil heating device includes a heat conducting plate 12, an induction coil 14 is disposed at the center of the heat conducting plate 12, heating coils 13 symmetrically disposed on the heat conducting plate 12 and located outside the induction coil 14, an electrical connection hoop 17 adapted to the carrying block 6 is disposed at the center of the induction coil 14, the electrical connection hoop 17 is energized with a power socket 9 through an electrical connector 8 and a wire bundle 10, so that the induction coil 14 is energized to drive the heating coils 13 to be energized for heating the heat conducting plate 12, and the application environment may be that the heat conducting plate 12 is used as a heat source and is placed on the inward-bent carrying frame 1, and the size of the heat conducting plate 12 may be increased to cover the inside area of the inward-bent carrying frame 1 for heating.

As a preferred embodiment, the heat conductive plate member 12 is provided with symmetrically distributed shielding plates 15, the shielding plates 15 are fitted on the outer circumference of the electrical connection collar 17 by tightening the cap member 16, and the shielding plates 15 prevent the heating coil 13 from coming into direct contact with the inwardly bent carrier 1 and its inner region, causing danger of electric heat acting together on the inwardly bent carrier 1 and its inner region.

In a preferred embodiment, the inward-bent bearing frame 1 is provided with a profiling groove 2 similar to the inward-bent bearing frame 1 in shape.

As a better embodiment, four longitudinal drainage grooves 4 are symmetrically distributed on the profiling groove 2, the longitudinal drainage grooves 4 are communicated with the profiling groove 2, and the longitudinal drainage grooves 4 and the profiling groove 2 are designed to contain volatile liquid in a heating use environment and guide the volatile liquid to the inner side area of the inward-bent bearing frame 1.

As a preferred embodiment, two assembling blocks 7 are symmetrically arranged on the inner side of the inward-bending bearing frame 1, and the assembling blocks 7 are arranged between the inward-bending bearing frame 1 and the central bearing base 5 for accurately assembling the inward-bending bearing frame 1 and the central bearing base 5.

As a preferred embodiment, a double-groove spacer 11 is also prefabricated between the assembly fixture 7 and the central bearing base 5, the double-groove spacer 11 being used to perform the cooperation with the protection plate 15.

As a preferred embodiment, the outside of the inwardly bent carrier 1 is provided with four assembly seats 3 symmetrically distributed for prefabricating the external assembly.

The working principle of the utility model is as follows: the utility model aims at solving the problem that the existing heater is mostly closed, but the use environment of the electric heater often needs to be switched over a heat conduction block or a heat conduction block coverage area, and an inward-bending type heater device needs to be designed to solve the heating requirement of bearing the heat conduction block above a containing area or the containing area by designing a prefabricated frame, a heat conduction plate 12 is arranged above a central bearing base 5 of an inward-bending bearing frame 1, the heat conduction plate 12 is matched with an electric connector 8 through an electric connection hoop 17 to be communicated with a power supply seat 9 and an induction coil 14, a power supply can be arranged in the power supply seat 9 or used as an interface external power supply, the electric connection hoop 17 is electrified with the power supply seat 9 through the electric connector 8 and a conductor bundle 10, the induction coil 14 is electrified to drive a heating coil 13 to be electrified to heat the heat conduction plate 12, the use environment of the utility model can be that the heat conduction plate 12 is used as a heat source, placed on the inwardly bent carrier 1, the heat conductive plate member 12 may be increased in size to cover the inner region of the inwardly bent carrier 1 for heating, and the shielding plate member 15 is engaged with the double tub cushion 11 in order to prevent the heating coil 13 from being brought into direct contact with the inwardly bent carrier 1 and the inner region thereof, causing a danger of electric heat acting together on the inwardly bent carrier 1 and the inner region thereof, the design of the longitudinal drainage groove 4 and the profiling groove 2 on the inward-bent bearing frame 1 is that the volatile liquid in the heating using environment is contained and guided to the inner side area of the inward-bent bearing frame 1, thereby integrally solving the problems that the existing heater is mostly closed, however, the use environment of the electric heater often needs to be switched over the heat conducting block or the covering area of the heat conducting block, and the design of the inward bending type heater device is necessary, the heating requirement of the heat conduction block carried by the prefabricated frame above the containing area or the containing area is met.

The above description is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the protection scope of the present invention.

Claims (9)

1. The utility model provides an incurved heater device, its characterized in that bears frame (1) including symmetrical structure's incurved, the incurved center that bears frame (1) is provided with central bearing base (5), the inboard cooperation of central bearing base (5) is provided with carrier block (6), the top cooperation of carrier block (6) is provided with coil heating device, the incurved outside that bears frame (1) is fixed and is provided with power socket (9), power socket (9) with coil heating device electricity is connected.

2. Inward bending heater device according to claim 1, wherein an electric connector (8) is fixedly arranged at the center of the bearing block (6), and the electric connector (8) is electrically connected with the power supply base (9) through a wire harness (10).

3. An inflected heater device according to claim 1, wherein the coil heating means comprises a heat conducting plate (12), an induction coil (14) is arranged in the center of the heat conducting plate (12), symmetrically distributed heating coils (13) are arranged on the heat conducting plate (12) outside the induction coil (14), and an electrical connection collar (17) adapted to the carrier block (6) is arranged in the center of the induction coil (14).

4. Inward bending heater device according to claim 3, wherein symmetrically distributed protective plates (15) are arranged on the heat conducting plate (12), and the protective plates (15) are arranged on the outer periphery of the electric connection hoop (17) in a matching way through screwing a cap piece (16).

5. The inwardly bent heater apparatus according to claim 1, wherein the inwardly bent carrier (1) is provided with a profiled groove (2) having a shape similar to the inwardly bent carrier (1).

6. The incurved heater device according to claim 5, characterized in that the profiling groove (2) is provided with symmetrically distributed longitudinal drainage grooves (4), the longitudinal drainage grooves (4) being in communication with the profiling groove (2).

7. Inward bending heater device according to claim 1, wherein the inner side of the inward bending carrier (1) is provided with symmetrically distributed fitting blocks (7), and the fitting blocks (7) are arranged between the inward bending carrier (1) and the central bearing base (5).

8. Inward-bending heater device according to claim 7, wherein a double-groove spacer (11) is also prefabricated between the assembly fixture block (7) and the central bearing base (5).

9. Inward bending heater device according to claim 1, wherein the outer sides of the inward bending carriers (1) are provided with symmetrically distributed mounting bases (3).

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