CN211502995U - Be applied to reflecting plate structure in room heater - Google Patents

Abstract

The utility model discloses a reflecting plate structure applied in a warmer, the warmer comprises a fire head component and a gas tank arranged under the fire head component, and the interface end of the gas tank is connected with the fuel inlet end of the fire head component; the reflecting plate structure is arranged between the fire head assembly and the gas tank and comprises an inner plate body and an outer plate body which are concentrically arranged, and an annular channel is formed between the inner plate body and the outer plate body and used for allowing heat around the furnace end to radiate to the position around the interface end on the gas tank; the projection surface of the furnace end on the reflecting plate structure in the longitudinal direction is completely positioned on the inner plate body, so that the heat at the bottom of the furnace end is prevented from directly radiating to the interface end of the gas tank. Its technical scheme can make the heat radiation that the furnace end produced to the interface end of gas pitcher around and the separation direct radiation to the interface end, makes the fuel in the gas pitcher use more abundant, avoids appearing condensing in the inside and extravagant problem of gas pitcher because of the lower and appearance of temperature in the gas pitcher, effectively improves the utilization ratio of fuel.

Description

Be applied to reflecting plate structure in room heater

Technical Field

The utility model relates to a heating installation technical field especially relates to a be applied to reflecting plate structure in room heater.

Background

The warmer is mainly divided into an electric drive and a gas drive by fuel, and the latter is generally adopted for the warmer used outdoors. The gas-driven warmer usually comprises a detachable and replaceable gas tank, a gate valve, a burner assembly and a stove body as an external shell, wherein the gas tank, the valve and the burner assembly are usually in the same longitudinal direction for the purpose of maximizing firepower and minimizing volume, in use, heat generated at the bottom of a stove head of the burner assembly is easy to radiate downwards to directly bake a valve and a connector end of the gas tank, such a structure has a safety hazard, meanwhile, for increasing storage capacity of the gas tank, gas stored inside is generally liquid or solid under a high-pressure and low-temperature state, when in use, the gas tank is easy to be incapable of being used due to relatively low external air pressure or low temperature, particularly in a plateau area, the situation that nearly one fourth of gas is left unused and the gas cannot flow out is often generated, the fuel utilization rate is too low, the experience is not good.

SUMMERY OF THE UTILITY MODEL

In view of the above problems in the prior art, there is provided a reflection plate structure applied in a warmer, which aims to enable heat generated by a burner to radiate to the periphery of an interface end of a gas tank and block direct radiation to the interface end so as to effectively improve the utilization rate of fuel, so as to overcome the technical defects.

The specific technical scheme is as follows:

a reflecting plate structure applied to a warmer comprises a fire head assembly and a gas tank arranged at the position right below the fire head assembly, wherein a connector end of the gas tank is connected with a fuel inlet end of the fire head assembly;

the reflecting plate structure is arranged between the fire head assembly and the gas tank and comprises an inner plate body and an outer plate body which are concentrically arranged, and an annular channel is formed between the inner plate body and the outer plate body and used for allowing heat around the furnace end to radiate to the position around the interface end on the gas tank;

the projection surface of the furnace end on the reflecting plate structure in the longitudinal direction is completely positioned on the inner plate body, so that the heat at the bottom of the furnace end is prevented from directly radiating to the interface end of the gas tank.

Preferably, the inner plate body and the outer plate body are positioned on the same horizontal plane.

Preferably, the outer plate body is fixed on the furnace body through a plurality of brackets, the brackets are erected on the upper end face of the furnace body, the outer plate body is provided with clamping grooves which are in the same number as the brackets and are opposite in position in a penetrating manner, and the brackets penetrate through the clamping grooves and are provided with bulges used for supporting the outer plate body on the inner side and the outer side respectively.

Preferably, the central position of the inner plate body is further provided with a mounting hole for penetrating through the tube body of the fire head assembly, and the inner plate body is fixedly connected to the periphery of the tube body of the fire head assembly.

The beneficial effects of the above technical scheme are that:

the reflecting plate structure can enable heat generated by the furnace end to radiate to the periphery of the interface end of the gas tank and prevent the heat from directly radiating to the interface end, so that fuel in the gas tank is more fully used, the problem that the fuel is condensed in the gas tank and is wasted due to the fact that the temperature in the gas tank is low is avoided, the utilization rate of the fuel is effectively improved, and the reflecting plate structure is particularly suitable for areas with low air pressure such as plateaus.

Drawings

FIG. 1 is a perspective view of a first embodiment of a reflector structure applied in a warmer of the present invention;

FIG. 2 is a perspective view of a heater using the embodiment of the reflecting plate structure of the present invention;

FIG. 3 is a cross-sectional view of FIG. 2;

FIG. 4 is a perspective view of the heater hood and mesh enclosure assembly of FIG. 2;

FIG. 5 is a perspective view of FIG. 4 with the reflector structure further omitted;

fig. 6 is a perspective view of the gas tank in fig. 2 with omission;

FIG. 7 is a top view of a second embodiment of a reflection plate structure used in a heater according to the present invention;

FIG. 8 is a top view of a third combination burner assembly of the embodiment of the baffle structure of the present invention applied to a warmer;

FIG. 9 is a side view of a third combination burner assembly of the embodiment of the baffle structure of the present invention applied to a warmer;

FIG. 10 is a top view of a four-burner assembly of the embodiment of the baffle structure of the present invention applied in a warmer;

FIG. 11 is a side view of a four-burner assembly of the embodiment of the baffle structure of the present invention applied to a warmer;

FIG. 12 is a top view of a fifth combination burner assembly of the embodiment of the baffle structure of the present invention applied to a warmer;

fig. 13 is a side view of the reflecting plate structure embodiment of the present invention applied to a warmer, which is a five-combination burner assembly.

Detailed Description

In order to make the technical means, creation features, achievement purposes and effects of the present invention easy to understand, the following embodiments are specifically illustrated in conjunction with the accompanying drawings. Wherein, for the function of the concrete show reflecting plate structure, all contain in figure 7 and figure 13 and show the furnace end subassembly, the upper and lower direction that the definition is shown as the paper in figure 3 does the utility model provides a top and bottom direction is the direction of outside-in by the direction of screen panel subassembly to the furnace end on the paper

In the first embodiment, the first step is,

referring to fig. 1 to 6, the reflection plate structure provided by the present invention is applied to a heater, and the heater includes a fire head assembly 5 and a gas tank 6 disposed under the fire head assembly 5, and a connector end of the gas tank 6 is connected to a fuel inlet end of the fire head assembly 5;

wherein, the reflecting plate structure 3 is installed between the fire head assembly 5 and the gas tank 6, the reflecting plate structure 3 comprises a blocking area and a radiation area, and the blocking area comprises a projection surface of the burner 51 on the reflecting plate structure 3 in the longitudinal direction, so as to block the heat at the bottom of the burner 51 from directly radiating to the interface end 61 of the gas tank 6, the radiation area is not overlapped with the blocking area, and the heat around the burner 51 is allowed to radiate to the peripheral position 62 of the interface end on the gas tank 6.

Based on above-mentioned technical scheme, reflecting plate structure 3 can make the heat radiation that furnace end 51 produced to the interface end of gas pitcher 6 around and the separation directly radiates to the interface end for fuel in the gas pitcher 6 uses more fully, avoids appearing condensing in the inside and extravagant problem of gas pitcher 6 because of the lower temperature appears in the gas pitcher 6, effectively improves the utilization ratio of fuel, and is particularly useful for the lower areas of atmospheric pressure such as plateau.

In a preferred embodiment, as shown in fig. 1 in particular, in this embodiment, at least one through hole 31 is longitudinally opened on the reflection plate structure 3 as the radiation area, and the through hole 31 does not overlap with the blocking area. Further, the whole reflecting plate structure 3 is a circular plate structure, and the number of the through holes 31 is a plurality of holes which are uniformly arranged in the circumferential direction. Further, the through hole 31 is integrally in an arc-shaped waist-shaped groove structure. Further, the number of the through holes 31 is four, but not limited thereto.

In addition, the central position of the reflection plate structure 3 is further provided with a mounting hole 33 for passing through the pipe body of the fire head assembly 5. The fire head assembly 5 and the gas tank 6 are connected by a valve 7. And the fire head component 5, the reflecting plate structure 3, the gas tank 6 and the valve 7 are all arranged on the furnace body 1 of the warmer.

In the second embodiment, the first embodiment of the method,

referring to fig. 7, the structure and content of the baffle structure provided in this embodiment are substantially the same as those of the first embodiment, except that in this embodiment, the baffle structure 3 is a plate-shaped structure, and the projection plane of the burner 51 on the baffle structure 3 in the longitudinal direction is completely located in the baffle structure 3 to block the heat at the bottom of the burner 51 from directly radiating to the interface end of the gas tank 6. Specifically, the whole reflection plate structure 3 is a circular plate-shaped structure, and the main body of the reflection plate structure 3 constitutes the heat insulation area, and the part outside the outer edge of the reflection plate structure 3 constitutes the radiation area.

In the third embodiment, the first step is that,

referring to fig. 8 and 9, the structure of the reflection plate provided in this embodiment is substantially the same as the structure and content of the reflection plate in the first embodiment, except that, in this embodiment, the reflection plate structure 3 is formed by splicing a plurality of plate bodies 34 having the same shape, and at least one of the plate bodies 34 is provided with a through hole 31 for allowing heat around the burner 51 to radiate to a peripheral position of the interface end on the gas tank 6.

Specifically, the whole reflection plate structure 3 is a circular plate structure, and the whole through hole 31 is an arc waist-shaped groove structure.

Fourth embodiment, referring to fig. 10 and 11, the structure of the reflective plate provided in this embodiment is substantially the same as the structure and content of the reflective plate in the first embodiment, except that, in this embodiment,

the reflecting plate structure 3 is installed between the fire head assembly 5 and the gas tank 6 and comprises an inner plate body 35 and an outer plate body 36 which are concentrically arranged, and an annular channel 37 is arranged between the inner plate body 35 and the outer plate body 36 and used for allowing heat around the burner 51 to radiate to the position around the upper interface end of the gas tank 6; the projection surface of the burner 51 on the baffle structure 3 in the longitudinal direction is completely located on the inner plate body 35 to block the heat at the bottom of the burner 51 from directly radiating to the interface end of the gas tank 6.

In a preferred embodiment, the inner panel 35 and the outer panel 36 are located on the same horizontal plane. Further, the outer plate body 36 is fixed on the furnace body 1 of the warmer through a plurality of brackets, the brackets are erected on the upper end face of the furnace body 1, the outer plate body 36 is provided with clamping grooves 32 which are equal in number and opposite in position to the brackets in a penetrating manner, and the brackets penetrate through the clamping grooves 32 and are provided with bulges used for supporting the outer plate body 36 on the inner side and the outer side respectively. So as to realize the purpose of horizontally fixing the outer plate body 36. Further, the central position of the inner plate body 35 is provided with a mounting hole 33 for penetrating through the tube body of the fire head assembly 5, and the inner plate body 35 is fixedly connected to the periphery of the tube body of the fire head assembly 5.

In the fifth embodiment, the first step is,

with reference to fig. 12 and 13, the structure of the reflective plate provided in this embodiment is substantially the same as the structure of the reflective plate in the first embodiment, except that in this embodiment, the through holes 31 are rectangular grooves and are uniformly arranged around the blocking area. Furthermore, each through hole 31 is further connected with a baffle 38 with an overall shape of "Jiong", and the feet of both sides of the baffle 38 are respectively connected to the edges of the through hole 31, and each baffle 38 and the main body of the reflector structure surround to form a channel in the horizontal direction. Further, the baffle 38 is disposed upward or downward. So that the speed of the heat flow can be slowed down.

Obviously, the structure of the reflective plate structure 3 provided in the second to fifth embodiments can achieve the functions described in the first embodiment, that is, the shape and size of the reflective plate structure 3 can be changed according to the overall size and requirement of the reflective plate structure, and is not limited thereto.

In particular, in use, as shown in fig. 1 and 2, the lower edge of the heat-generating shield suspended within the screen assembly 2 is directly opposite to the through hole 31 and located at a position around the burner 51, so that heat at the bottom position of the burner 51 is blocked by the blocking region of the reflection plate 3 on the one hand, and heat near the lower edge of the heat-generating shield is allowed to be directly thermally radiated to a position around the interface end of the gas cylinder 6 by the through hole 31 to heat the gas cylinder. Meanwhile, the temperature above the through hole 31 is higher, and the temperature below the through hole is lower, so that the process of cold air convection from bottom to top is also carried out in the through hole 31, and an air flowing circulation is formed.

The foregoing is only a preferred embodiment of the present invention, which is illustrative, not limiting. Those skilled in the art will appreciate that many variations, modifications, and equivalents may be made thereto without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (4)

1. A reflecting plate structure applied to a warmer comprises a fire head assembly (5) and a gas tank (6) arranged at a position right below the fire head assembly (5), wherein the interface end of the gas tank (6) is connected with the fuel inlet end of the fire head assembly (5); it is characterized in that the preparation method is characterized in that,

the reflecting plate structure (3) is arranged between the fire head assembly (5) and the gas tank (6) and comprises an inner plate body (35) and an outer plate body (36) which are concentrically arranged, and an annular channel (37) is arranged between the inner plate body (35) and the outer plate body (36) and used for allowing heat around a burner (51) of the fire head assembly (5) to be radiated to the peripheral position of an upper interface end of the gas tank (6);

the projection surface of the furnace end (51) on the reflector structure (3) in the longitudinal direction is completely positioned on the inner plate body (35) and used for preventing heat at the bottom of the furnace end (51) from directly radiating to the interface end of the gas tank (6).

2. Reflecting plate structure applied in warmer, according to claim 1, characterized in that the inner plate body (35) and the outer plate body (36) are located on the same horizontal plane.

3. The reflecting plate structure applied to the warmer according to claim 2, wherein the outer plate (36) is fixed on the warmer body (1) through a plurality of brackets, the brackets are erected on the upper end surface of the warmer body (1), the outer plate (36) is provided with clamping grooves (32) which are equal in number and opposite in position to the brackets, the brackets penetrate through the clamping grooves (32), and the inner side and the outer side of the brackets are respectively provided with protrusions for supporting the outer plate (36).

4. The reflecting plate structure applied to the warmer as recited in claim 3, wherein the central position of the inner plate body (35) is further opened with a mounting hole (33) for passing through the tube body of the fire head assembly (5), and the inner plate body (35) is fixedly connected to the outer periphery of the tube body of the fire head assembly (5).

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