CN109059081B

CN109059081B - Ceiling type indoor heating device

Info

Publication number: CN109059081B
Application number: CN201810658537.5A
Authority: CN
Inventors: 王利军; 粟文兵; 闫小康; 张灵怡; 李娟�; 孟诗淇
Original assignee: China University of Mining and Technology CUMT
Current assignee: China University of Mining and Technology CUMT
Priority date: 2018-06-25
Filing date: 2018-06-25
Publication date: 2020-11-27
Anticipated expiration: 2038-06-25
Also published as: CN109059081A

Abstract

A ceiling type indoor heating device comprises a shell, a heat exchange tube, a partition plate, a wind shield, an air outlet tube, an air inlet, a heating pipeline and an air inlet host; the shell hoist and mount is in indoor ceiling corner line position department all around, it is hidden in ceiling or furred ceiling, the heat exchange tube is enclosing in the shell, both ends stretch out outside the opening that the shell is located corner one, the shell is located the corner junction with the heat exchange tube and all makes the radius and handle, heat exchange tube entry one end is the water inlet, export one end is the delivery port, the air intake is established and is located the diagonal angle position adjacent with the water inlet, be located all to be equipped with the lower part on the heat exchange tube on every wall and leave the deep bead of breach, the shell is located all to be equipped with out the tuber pipe on the downside of every. The ceiling structure is utilized, the occupied space is reduced, and the concealment is good and attractive. After the air is heated up through the heat exchange between the air duct of the device and hot water in the pipeline, the air can be uniformly fed into the room from each air outlet to heat the temperature in the room.

Description

Ceiling type indoor heating device

Technical Field

The invention relates to an indoor heating device, in particular to a ceiling type indoor heating device suitable for an indoor ceiling, and belongs to the field of heating, ventilation and heat exchange.

Background

At present, the indoor decoration of China generally adopts a mode of installing a suspended ceiling on a ceiling to ensure the attractiveness and comfort of living rooms and activity places, but the suspended ceiling occupies a part of floor height space at the top of the room, so that the suspended ceiling cannot be reasonably utilized. Meanwhile, in winter heating in most areas of China, pipeline-conveyed hot water is circularly heated by using wall-mounted radiators, but insufficient heating, uneven heat distribution, not very optimistic effect and low comfort level can be found in the actual use process.

Therefore, the space occupied by the suspended ceiling is combined with the pipeline heating system, so that a more ideal heating effect can be achieved, the pipeline heating system can be hidden in the ceiling, and the space occupied by the suspended ceiling is attractive and can be reasonably utilized.

Disclosure of Invention

The invention aims to provide a ceiling type indoor heating device aiming at the defects in the prior art, the ceiling type indoor heating device reasonably utilizes the occupied space of a ceiling, perfectly combines a heating system and the ceiling together, does not influence the appearance, and can achieve the heating effect.

The technical scheme is as follows: in order to achieve the purpose, the invention discloses a ceiling type indoor heating device, which comprises a shell, a heat exchange pipe, a partition plate, a wind shield, a wind outlet pipe, a wind inlet, a heating pipeline and a wind inlet host machine, wherein the shell is provided with a heat exchange pipe; the cross section of the shell is square, the shell is hung at the position of a corner line around an indoor ceiling and is hidden in the ceiling, the heat exchange tubes are arranged in the shell around the corner line around the ceiling, two ends of the heat exchange tubes extend out of a notch of the shell at one corner, the shell and the heat exchange tubes are positioned at the joint of the corner and are rounded, one end of an inlet of the heat exchange tube is a water inlet, one end of an outlet of the heat exchange tube is a water outlet, and the water inlet and the water outlet are connected with a heat supply pipeline; two air inlets are arranged at two corners of the shell, the two air inlets are respectively arranged at two opposite angles adjacent to the water inlet, and the two air inlets are connected with an air inlet host machine to provide required circulating air; the heat exchange tube that is located on every wall all is equipped with the deep bead that the breach was left to the lower part, the shell all is equipped with out the tuber pipe on being located the downside of every wall.

The heat exchange tubes arranged in the shell are 2 and are arranged up and down.

At least one wind shield is arranged in the shell and positioned on each wall.

The number of the air outlet pipes arranged on the lower side surface of the shell and positioned on each wall is 1-3, and the air outlet pipes are selected according to the length of the wall and are symmetrically arranged.

The air outlet pipe is of a bent and inclined rectangular structure, and the air is blown out towards the middle of a room by the inclined angle.

The two heat exchange pipes are provided with a horizontal partition plate, the structure of the partition plate is in a right-angle shape and is consistent with that of the shell, two ends of the partition plate are arranged in the middle of two adjacent walls, the arranged partition plate can prevent the air outlet temperature of two air outlets adjacent to the air inlet from being too low, and therefore the length required by the temperature after heat exchange is increased.

Has the advantages that: the invention reasonably utilizes the suspended ceiling structure of the ceiling, reduces the occupied space, enables the ceiling and the heating device system to be perfectly combined, has good concealment and can not influence the appearance. After the air is heated through heat exchange between the air duct of the device and hot water in the pipeline, the air can be immediately and uniformly fed into a room from each air outlet to heat the temperature in the room, so that the heating effect is realized, and large heat loss and heat accumulation can not be caused. The invention has simple structure, convenient manufacture and installation and good heating effect.

Drawings

FIG. 1 is a schematic assembly of the present invention;

FIG. 2 is a top view of the present invention;

fig. 3 is an enlarged view of a portion of the windshield area of the present invention.

In the figure: the heat exchanger comprises a shell 1, a heat exchange tube 2, a partition plate 3, a wind shield 4, an air outlet tube 5, an air inlet 6, a water inlet 7 and a water outlet 8.

Detailed Description

The invention will be further described with reference to examples in the drawings to which:

as shown in fig. 1 and 2, the ceiling type indoor heating device of the invention mainly comprises a shell 1, a heat exchange pipe 2, a partition plate 3, a wind shield 4, an air outlet pipe 5, an air inlet 6, a heating pipeline and an air inlet main machine; the cross-section of the shell 1 is square, the shell is hoisted at the position of a corner line around an indoor ceiling, the peripheral wall is surrounded by wiring, the corner is rounded, the size of the main section of the shell is small due to the consideration of attractive appearance and safety, the main section is hidden in the ceiling, and only the air outlet at the front end of the air outlet pipe 5 can be observed. The heat exchange tubes 2 are arranged in the shell 1 around the corner lines on the periphery of the ceiling, the number of the heat exchange tubes 2 is 2, the heat exchange tubes are arranged up and down, two ends of each heat exchange tube extend out of a gap of the shell 1 at one corner, the shell 1 and the heat exchange tubes 2 are positioned at the corner joint and are subjected to rounding treatment, one inlet end of each heat exchange tube 2 is a water inlet 7, one outlet end of each heat exchange tube 2 is a water outlet 8, and the water inlets 7 and the water outlets 8 are connected with a heat supply pipeline; a horizontal partition plate 3 is arranged between the two heat exchange tubes 2, as shown in fig. 3, the plane structure of the partition plate 3 is right-angled and is consistent with the structure of the shell 1, two ends of the partition plate 3 are respectively arranged in the middle of two adjacent walls, and the partition plate 3 can prevent the air outlet temperature of two air outlets adjacent to the air inlet 6 from being too low, so that the length required by the temperature after heat exchange is increased. Two air inlets 6 are arranged at two wall corners of the shell 1, the two air inlets 6 are respectively arranged at two opposite angle positions adjacent to the water inlet 7, and the two air inlets 6 are connected with an air inlet host (not shown in the figure) to provide required circulating air; the heat exchange tubes 2 on each wall are provided with wind shields 4 with gaps at the lower parts, and at least one wind shield 4 or two wind shields 4 on each wall can be arranged. Distance 3 both ends heads of baffle are set for distance department and are equipped with deep bead 4, and the upside position in shell 1 is installed to deep bead 4, need leave certain breach as the ventilation passageway in the below, and its purpose is shunted, lets the air-out from every air outlet even, shell 1 is located all to be equipped with out tuber pipe 5 on the downside of every wall, goes out tuber pipe 5 and is 1-3, selects and the symmetry sets up according to the length of wall. The air outlet pipe 5 is of a bent and inclined rectangular structure, hot air is not blown out vertically downwards, but the air is blown out towards the middle of a room by an inclined angle, and the wall is free from air blowing and directly blowing the human body.

When the air conditioner works, heated air is sent into the air channel of the air conditioner from the air inlets 6 at two opposite angles through the air inlet main machine, the sent air starts to be divided in the air channel at the upper side of the partition plate 3 immediately after entering, flows from the channels at two adjacent sides respectively, and exchanges heat with the heat exchange tube 2 in the narrow air channel. When the air flows to the positions of the two ends of the partition plate 3 through the upper side of the horizontal partition plate 3, the air flow is divided under the action of the air baffle 4, one part of the air flow continues to flow forwards, the rest part of the air flow returns to enter the channel at the lower side of the partition plate 3, and finally the air flow is blown out from the air outlets of the air outlet pipes 5 arranged at the lower side of the shell 1 respectively, as shown in fig. 3, the arrows in the figure represent the air direction.

In order to verify the air outlet effect of the invention, numerical simulation is carried out on the model of the invention by FLUEN simulation software. A simulation model is established for a room with the size of 4.8m multiplied by 3.6m, and boundary conditions are set as follows: the wind speed of the air inlet is 3m/s, the temperature is 278.15K (5 ℃), the water speed of the water inlet is 0.5m/s, the temperature is 333.15K (60 ℃), and the result is displayed in a numerical simulation result table. For convenience of description, the first air outlet close to the water inlet 7 is called an air outlet 1, and the air outlets behind the first air outlet are named sequentially. The result table shows that the air outlet speeds of the eight air outlets can be basically uniform, the temperature is above 299.83079K (26.68079 ℃), and the requirement of heating in winter can be met.

Numerical simulation result table

	Velocity(m/s)	Temperature(K)
			Air outlet 1	0.45907208	303.26013
Air outlet 2	0.29404213	299.83079
			Air outlet 3	0.29757673	301.91392
Air outlet 4	0.50066021	307.13283
			Air outlet 5	0.29867751	309.90985
Air outlet 6	0.26512098	300.86886
			Air outlet 7	0.30884848	302.84207
Air outlet 8	0.40786681	307.37082
			Water outlet	0.5	326.65581

Claims

1. A ceiling type indoor heating device comprises a shell (1), heat exchange tubes (2), a partition plate (3), a wind shield (4), an air outlet tube (5), an air inlet (6), a heating pipeline and an air inlet host machine; the method is characterized in that: the cross section of the shell (1) is square, the shell is hung at the position of a corner line around an indoor ceiling and is hidden in the ceiling, the heat exchange tubes (2) are arranged in the shell (1) around the corner line around the ceiling, the number of the heat exchange tubes (2) arranged in the shell (1) is 2, the heat exchange tubes are arranged up and down, two ends of each heat exchange tube extend out of a notch of the shell (1) at one corner, the shell (1) and the heat exchange tubes (2) are positioned at the corner joint and are subjected to rounding treatment, one inlet end of each heat exchange tube (2) is a water inlet (7), one outlet end of each heat exchange tube is a water outlet (8), and the water inlets (7) and the water outlets (8) are connected with a heat; the upper side of the shell (1) is respectively provided with an air inlet at two wall corners adjacent to the water inlet (7), two air inlets (6) are arranged at two wall corners of the shell (1), the two air inlets (6) are respectively arranged at two opposite angle positions adjacent to the water inlet (7), and the two air inlets (6) are connected with an air inlet host machine to provide required circulating air; all be equipped with wind screen (4) that the air outlet was left to the lower part on heat exchange tube (2) that are located every wall, shell (1) all is equipped with air-out pipe (5) on being located the downside of every wall.

2. A ceiling type indoor heating apparatus as set forth in claim 1, wherein: at least one wind shield (4) is arranged in the shell (1) and positioned on each wall.

3. A ceiling type indoor heating apparatus as set forth in claim 1, wherein: the number of the air outlet pipes (5) arranged on the lower side surface of the shell (1) and positioned on each wall is 1-3, and the air outlet pipes are selected according to the length of the wall and are symmetrically arranged.

4. A ceiling type indoor heating apparatus as set forth in claim 1 or 3, wherein: the air outlet pipe (5) is of a bent and inclined rectangular structure, and the air flow is blown out towards the middle of a room by the inclined angle.

5. A ceiling type indoor heating apparatus as set forth in claim 1, wherein: two heat exchange tubes (2) between be equipped with horizontally baffle (3), the cross-sectional structure of baffle (3) is right angle shape, keeps unanimous with the structure of shell (1), its both ends head is respectively at the intermediate position of two adjacent walls, the baffle (3) of setting can avoid the air-out temperature of two air outlets adjacent with air intake (6) too low to this increase reaches the required length of heat transfer back temperature.