CN220417661U - Temperature-controllable warm air duct fanless structure - Google Patents

Abstract

The utility model discloses a temperature-controllable warm air duct fanless structure, which comprises a protective cover and mounting brackets, wherein a fan motor is fixed on one of the mounting brackets, a heat dissipation wind wheel connected with the fan motor is arranged on the two mounting brackets, an air duct baffle is arranged between the two mounting brackets, an air inlet window is arranged on the protective cover, a heater with a control circuit board is fixed on the inner wall of the protective cover, a temperature sensor is arranged on the inner wall of the mounting bracket, and the temperature sensor is connected with the control circuit board of the heater; the outer wall of the protective cover is fixed with a heat storage protective cover. The heat storage type solar energy heat storage device is reasonable in structural arrangement, senses temperature data in real time, controls the heater through the control circuit board, achieves the effect of constant temperature controllability, is also provided with the heat storage protection cover, can concentrate heat emitted by the heater, blows the heat in the heat storage protection cover again through the heat radiation wind wheel, is beneficial to improving the heat utilization efficiency, and is strong in applicability and good in practicability.

Description

Temperature-controllable warm air duct fanless structure

Technical Field

The utility model belongs to the technical field of fan lamps, and particularly relates to a temperature-controllable warm air duct fanless structure.

Background

The fan lamp is a common structure integrating a fan and a lamp, and the conventional fan lamp mainly comprises a lamp holder, a fan fixed on the lamp holder, and a light source and a lamp shade fixed on the bottom surface of the lamp holder, wherein although the fan lamp can meet the use requirements of general conditions, the fan lamp needs to be provided with fan blades fixed on a main shaft of a fan motor, and the rotation range of the fan blades is larger, so that the required volume is larger, such as the Chinese patent publication number is: CN217582536U, patent name: a fan lamp convenient for heat dissipation comprises a hoisting assembly, wherein one end of the hoisting assembly is connected with a mounting position; the motor is connected with the other end of the hoisting assembly; the shell is enclosed to form a containing cavity communicated with the outside, a first connecting plate and a second connecting plate which are respectively connected with the upper end and the lower end of the motor through a first detachable structure are arranged at one side of the shell at intervals so as to enclose to form a radiating cavity communicated with the containing cavity, and an air inlet communicated with the radiating cavity and the outside is arranged on the shell; the fan blade is connected with the other side of the shell, and when the motor drives the fan blade to rotate, air can flow back to the outside from the outside through the air inlet, the heat dissipation cavity and the accommodating cavity; the light source component is connected with the motor through a second detachable structure.

The fan blades are also arranged in the patent, so that the required space and the volume are large, and the fan blades are not beneficial to installing a heating structure due to the limitation of the structure, so that the heating operation cannot be realized, the application range is limited, the market demand is difficult to meet, and the practicability is limited.

Disclosure of Invention

The utility model aims to provide a temperature-controllable fan-free structure of a warm air duct, which is reasonable in structural arrangement and beneficial to improving heat utilization efficiency.

The technical proposal for realizing the aim of the utility model is a temperature-controllable warm air duct fanless structure, which comprises a protective cover and two mounting brackets arranged in the protective cover, wherein one mounting bracket is fixedly provided with a fan motor, the two mounting brackets are provided with a heat radiation wind wheel connected with the fan motor,

an air duct baffle is arranged between the two mounting brackets, and a heating air duct is formed between the air duct baffle and the heat dissipation wind wheel;

an air inlet window is arranged on the protective cover, a heater with a control circuit board is fixed on the inner wall of the protective cover, the heater is positioned on the inner side of the air inlet window, a temperature sensor is arranged on the inner wall of the mounting bracket, and the temperature sensor is connected with the control circuit board of the heater;

the heat storage protective cover is fixed on the outer wall of the protective cover and is positioned below the outer side face of the air inlet window.

Further preferred are: the air duct baffle is an aluminum air duct baffle, and the air duct baffle and the air inlet window are arranged on two sides of the heat dissipation wind wheel.

Further preferred are: the heater is a PTC material heater.

Further preferred are: the length of the heat storage protection cover is matched with the length of the air inlet window.

Further preferred are: the heater is fixed on the inner wall of the protective cover through screws.

Further preferred are: the air duct baffle is in an arc-shaped arrangement, and reinforcing ribs are fixed on the back face of the air duct baffle.

The utility model has the positive effects that: the heat storage type solar heat collector is reasonable in structural arrangement, the heater is arranged on the inner side of the air inlet window and matched with the temperature sensor on the inner wall of the mounting bracket, so that temperature data can be sensed in real time, the heater is controlled through the control circuit board, the effect of constant temperature controllability is achieved, the heat storage protective cover is further arranged, heat emitted by the heater can be concentrated, the heat in the heat storage protective cover is blown in again through the heat radiation wind wheel, the heat utilization efficiency is improved, heat radiation is more uniform, and the heat storage type solar heat collector is high in applicability and good in practicability.

Drawings

In order that the utility model may be more readily understood, a more particular description of the utility model will be rendered by reference to specific embodiments that are illustrated in the appended drawings, in which:

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a view of another view of the present utility model;

FIG. 3 is a schematic view of the bottom side view of the present utility model;

fig. 4 is a schematic diagram of an explosive structure according to the present utility model.

Reference numerals: the heat storage type air conditioner comprises a protective cover 1, a mounting bracket 2, a fan motor 3, a heat dissipation wind wheel 4, an air duct baffle 5, an air inlet window 6, a heater 7, a temperature sensor 8 and a heat storage protective cover 9.

Description of the embodiments

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Examples

As shown in fig. 1 to 4, a temperature-controllable fan-less structure of a warm air duct includes a protection cover 1 and two mounting brackets 2 disposed in the protection cover, wherein a fan motor 3 is fixed on one of the mounting brackets, and the two mounting brackets are provided with a heat dissipation wind wheel 4 connected with the fan motor.

An air duct baffle 5 is arranged between the two mounting brackets, and a heating air duct is formed between the air duct baffle and the heat dissipation wind wheel; in this embodiment, the air duct baffle is an aluminum air duct baffle, and the air duct baffle and the air inlet window are disposed at two sides of the heat dissipation wind wheel. The air duct baffle is in an arc-shaped arrangement, and reinforcing ribs are fixed on the back face of the air duct baffle. The aluminum air duct baffle is favorable for enabling heat dissipation to be more uniform, and meanwhile, heat generated by effective flow input work can be emitted.

An air inlet window 6 is arranged on the protective cover, a heater 7 with a control circuit board is fixed on the inner wall of the protective cover, and the heater is a PTC material heater. The heater is fixed on the inner wall of the protective cover through screws. The heater is positioned at the inner side of the air inlet window, a temperature sensor 8 is arranged on the inner wall of the mounting bracket, and the temperature sensor is connected with a control circuit board of the heater; in this embodiment, the temperature sensor is a conventional structure in the prior art, and is mainly used for detecting temperature and stopping the heater when the temperature exceeds a certain range, and the heater normally works when the temperature is lower than a certain range, so that the effects of power saving and constant temperature control are achieved, and the practicability is strong.

The outer wall of the protection cover is fixedly provided with a heat storage protection cover 9, and the heat storage protection cover is positioned below the outer side face of the air inlet window. The length of the heat storage protection cover is matched with the length of the air inlet window. In this embodiment, the heat storage protection cover can concentrate the heat generated by the heater, is a conventional structure in the prior art, is simply applied, and can be blown out by means of the heat dissipation wind wheel, so that the heat dissipation can be reduced, and the heat utilization efficiency is improved.

The utility model has the positive effects that: the heat storage type solar heat collector is reasonable in structural arrangement, the heater is arranged on the inner side of the air inlet window and matched with the temperature sensor on the inner wall of the mounting bracket, so that temperature data can be sensed in real time, the heater is controlled through the control circuit board, the effect of constant temperature controllability is achieved, the heat storage protective cover is further arranged, heat emitted by the heater can be concentrated, the heat in the heat storage protective cover is blown in again through the heat radiation wind wheel, the heat utilization efficiency is improved, heat radiation is more uniform, and the heat storage type solar heat collector is high in applicability and good in practicability.

The standard components used in this embodiment may be purchased directly from the market, but the nonstandard structural components described in the specification may also be obtained directly by unambiguous processing according to the common general knowledge in the prior art, and meanwhile, the connection manner of each component adopts the conventional means mature in the prior art, and the machinery, the components and the equipment all adopt the conventional types in the prior art, so that no specific description will be made here.

It is to be understood that the above examples of the present utility model are provided by way of illustration only and not by way of limitation of the embodiments of the present utility model. Other variations or modifications of the above teachings will be apparent to those of ordinary skill in the art. It is not necessary here nor is it exhaustive of all embodiments. While those obvious variations or modifications which come within the spirit of the utility model remain within the scope of the utility model.

Claims (6)

1. The utility model provides a controllable temperature's warm braw wind channel vaneless fan structure, is in including safety cover and setting two installing support in the protection, be fixed with fan motor on one of them installing support, and two installing support be provided with the heat dissipation wind wheel that fan motor is connected, its characterized in that:

an air duct baffle is arranged between the two mounting brackets, and a heating air duct is formed between the air duct baffle and the heat dissipation wind wheel;

an air inlet window is arranged on the protective cover, a heater with a control circuit board is fixed on the inner wall of the protective cover, the heater is positioned on the inner side of the air inlet window, a temperature sensor is arranged on the inner wall of the mounting bracket, and the temperature sensor is connected with the control circuit board of the heater;

the heat storage protective cover is fixed on the outer wall of the protective cover and is positioned below the outer side face of the air inlet window.

2. The temperature-controllable warm air duct fanless structure of claim 1, wherein: the air duct baffle is an aluminum air duct baffle, and the air duct baffle and the air inlet window are arranged on two sides of the heat dissipation wind wheel.

3. The temperature-controllable warm air duct fanless structure of claim 2, wherein: the heater is a PTC material heater.

4. A temperature controllable warm air duct fanless structure according to claim 3, wherein: the length of the heat storage protection cover is matched with the length of the air inlet window.

5. The temperature-controllable warm air duct fanless structure of claim 1, wherein: the heater is fixed on the inner wall of the protective cover through screws.

6. The temperature-controllable warm air duct fanless structure of claim 1, wherein: the air duct baffle is in an arc-shaped arrangement, and reinforcing ribs are fixed on the back face of the air duct baffle.