CN201574534U - Roof thermal insulating device - Google Patents

Abstract

The utility model provides a roof thermal insulating device, which comprises a water supply device, insulating bricks, a water draining device and a control panel, wherein the water supply device, the insulating bricks and the water draining device are connected in sequence and are connected with the control panel respectively; the insulating bricks comprise a heat dissipation layer, a water flow layer and a thermal insulating layer which are stacked in sequence from top to bottom; the insulating bricks are mounted on a cement plate of a roof through a bracket; and a gap between the thermal insulating layer and the cement plate of the roof forms a ventilation layer. Water in the water flow layer can be constantly refreshed, so that the water flow layer can absorb heat passed downwards from the heat dissipation layer, thereby avoiding persistent temperature rise, and effectively achieving the thermal insulation effect; and the device has the advantages of low cost, convenient use, high operability and so on.

Description

A kind of thermal insulation of roof attemperator

Technical field

The utility model belongs to the thermal isolation technique field on roof, particularly utilizes current to realize the thermal insulation of roof attemperator of cement works.

Background technology

At present, overwhelming majority resident room all is a cement works, house for cement works, in summer, the interior temperature of house top layer is then higher relatively, and in winter, the interior temperature of house top layer is then on the low side relatively, these people that can make in the inhabitation of house top layer feel uncomfortable or have difficulty in going to sleep evening, influence normal live and work.Therefore, when cement works is generally constructed, can be covered with heat insulating tile usually, to realize radiating effect.Though residential building top layer major part all is covered with heat insulating tile at present, but raising day by day along with people's living standard, under the situation of making every effort to better people's living environment, existing heat insulating tile can not well be realized the function of heat-insulation and heat-preservation, can not satisfy people's needs.Therefore, existing heat insulation facility requires further improvement, and with the demand in the current market of continuous adaptation, satisfies people's life requirement, makes that the environment of life is more comfortable.

The utility model content

The purpose of this utility model is to overcome the shortcoming of prior art with not enough, provides a kind of simple and reasonable for structure, utilizes current to realize thermal insulation of roof attemperator to the heat-insulation and heat-preservation function on cement works roof.

The purpose of this utility model is achieved through the following technical solutions: a kind of thermal insulation of roof attemperator, comprise water supply installation, heat insulating tile, dewatering installation and control panel, described water supply installation, heat insulating tile, dewatering installation connect successively, described water supply installation, heat insulating tile, dewatering installation are connected with control panel respectively, described heat insulating tile comprises heat dissipating layer, current layer and insulation layer, and described heat dissipating layer, current layer and insulation layer are from top to bottom built folded the setting successively; Described heat insulating tile is installed on the cement board on roof by support.

As preferred version, be provided with the gap between the cement board on described insulation layer and roof, form ventilated layer.

Described insulation layer adopts heat insulating material to make, preferred mineral wool material.

Be provided with water yield checkout gear in the described current layer, water yield checkout gear is by being connected with control panel.

Be provided with temperature pick up in the described current layer, described temperature pick up is connected with control panel.

Be provided with control module and signal processing module in the described control panel, described control module is connected with signal processing module; Described control module is connected with water supply installation, dewatering installation respectively.

Described water supply installation comprises feed cistern and feed pipe, and described feed cistern is connected with feed pipe, and described feed pipe is connected with current layer in the heat insulating tile; Described feed pipe is provided with Water supply switch valve, and described Water supply switch valve is connected with control panel.

Described dewatering installation comprises discharge casing and gutter, and described discharge casing is connected with gutter, and described gutter is connected with current layer in the heat insulating tile; Described gutter is provided with drainage switch, and described drainage switch is connected with control panel.

Described control panel is connected with water yield checkout gear, temperature pick up, Water supply switch valve and drainage switch respectively by electronic circuit.

Described water yield checkout gear, temperature pick up are connected with signal processing module in the control panel respectively; Described Water supply switch valve and drainage switch are connected with control module in the control panel respectively.

Mechanism of the present utility model and principle: after pressing the shift knob of control panel, this device starts, and control panel control Water supply switch valve and drainage switch make that Water supply switch valve is opened, drainage switch closes, and feed pipe feedwater fluid layer supplies water; When the water yield checkout gear in the current layer detects water and has filled with, control panel control Water supply switch valve and drainage switch, make that Water supply switch valve is closed, drainage switch keeps closing, absorb the heat that heat dissipating layer down transmits by the current layer, the temperature of current layer also raises simultaneously; Temperature pick up feeds back to control panel by signal processing module in real time with the temperature of current layer, control module in the control panel compares the temperature and the user preset temperature of current layer, when the temperature of current layer is elevated to the user preset temperature, control panel control Water supply switch valve and drainage switch, make that Water supply switch valve keeps closing, drainage switch is opened, the water of current layer is discharged to discharge casing by gutter; When the water of current layer had drained, control panel control Water supply switch valve and drainage switch made that Water supply switch valve is opened, drainage switch closes, and the fluid layer that feeds water again supplies water, and so moves in circles.

The utility model compared with prior art has following advantage and beneficial effect:

(1) the utility model absorbs the heat that heat dissipating layer down transmits by bringing in constant renewal in water in the current layer by the current layer, can guarantee that temperature can not continue to raise, and reaches effect of heat insulation effectively; The material of insulation layer can play heat insulation effect simultaneously.

(2) discharge casing of the present utility model has heat preservation effect, and the water in the discharge casing can be had a shower or other purposes for the user, realizes the effect of energy-conserving and environment-protective.

(3) temperature of the predeterminable current layer of the utility model heating, i.e. user preset temperature, this temperature can be used as the temperature of water in the discharge casing, can use as required for the user, has conveniently, the advantage of practicality.

(4) the utility model can be controlled use automatically by control panel, and versatility is good, workable, is adapted at using in the average family.

(5) the utility model cost is low, easy construction, easy to install.

Description of drawings

Fig. 1 is a general structure schematic diagram of the present utility model.

Fig. 2 is the structural representation of heat insulating tile shown in Figure 1.

Among each figure: 1. feed tank; 2. Water supply switch valve; 3. heat dissipating layer; 4. current layer; 5. insulation layer; 6. ventilated layer; 7. the cement board on roof; 8. support; 9. drainage switch; 10. discharge casing; 11. gutter; 12. control panel; 13. temperature pick up.

The specific embodiment

Below in conjunction with embodiment and accompanying drawing the utility model is described in further detail, but embodiment of the present utility model is not limited thereto.

Embodiment

Fig. 1～Fig. 2 shows the concrete structure of present embodiment, as shown in Figure 1, this device comprises water supply installation, heat insulating tile, dewatering installation and control panel, and water supply installation, heat insulating tile, dewatering installation connect successively, and water supply installation, heat insulating tile, dewatering installation are connected with control panel 12 respectively; Heat insulating tile comprises heat dissipating layer 4, current layer 5 and insulation layer 6, and described heat dissipating layer 4, current layer 5 and insulation layer 6 are from top to bottom built folded the setting successively, as shown in Figure 2; Heat insulating tile is installed on the cement board 7 on roof by support 8.

Be provided with the gap between the cement board 7 on insulation layer 6 and roof, form ventilated layer.

Insulation layer 6 adopts the heat insulating material of mineral wool material to make.

Be provided with water yield checkout gear in the current layer 5, described water yield checkout gear is connected with control panel 12 by electronic circuit, is connected with signal processing module in the control panel.

Be provided with temperature pick up 13 in the current layer 5, described temperature pick up 13 is connected with control panel 12 by electronic circuit, is connected with signal processing module in the control panel.

Be provided with control module and signal processing module in the control panel 12, described control module is connected with signal processing module; Described control module is connected with water supply installation, dewatering installation respectively.

Water supply installation comprises feed cistern 1 and feed pipe, and described feed cistern is connected with feed pipe, and described feed pipe is connected with current layer 5 in the heat insulating tile; Described feed pipe is provided with Water supply switch valve 2, and described Water supply switch valve 2 is connected with control panel 12 by electronic circuit, is connected with control module in the control panel.

Dewatering installation comprises discharge casing 10 and gutter, and discharge casing 10 is connected with gutter, and gutter is connected with current layer 5 in the heat insulating tile; Gutter is provided with drainage switch 9, and described drainage switch 9 is connected with control panel 12 by electronic circuit, is connected with control module in the control panel.

The mechanism of present embodiment: after pressing the shift knob of control panel, this device starts, and control panel control Water supply switch valve and drainage switch make that Water supply switch valve is opened, drainage switch closes, and feed pipe feedwater fluid layer supplies water; When the water yield checkout gear in the current layer detects water and has filled with, control panel control Water supply switch valve and drainage switch, make that Water supply switch valve is closed, drainage switch keeps closing, absorb the heat that heat dissipating layer down transmits by the current layer, the temperature of current layer also raises simultaneously; When the temperature of current layer was elevated to the user preset temperature, control panel control Water supply switch valve and drainage switch made that Water supply switch valve keeps closing, drainage switch is opened, and the water of current layer is discharged to discharge casing by gutter; When the water of current layer had drained, control panel control Water supply switch valve and drainage switch made that Water supply switch valve is opened, drainage switch closes, and the fluid layer that feeds water again supplies water, and so moves in circles.

The foregoing description is the utility model preferred implementation; but embodiment of the present utility model is not restricted to the described embodiments; other any do not deviate from change, the modification done under spiritual essence of the present utility model and the principle, substitutes, combination, simplify; all should be the substitute mode of equivalence, be included within the protection domain of the present utility model.

Claims (10)

1. thermal insulation of roof attemperator, comprise water supply installation, heat insulating tile, dewatering installation and control panel, described water supply installation, heat insulating tile, dewatering installation connect successively, described water supply installation, heat insulating tile, dewatering installation are connected with control panel respectively, it is characterized in that: described heat insulating tile comprises heat dissipating layer, current layer and insulation layer, and described heat dissipating layer, current layer and insulation layer are from top to bottom built folded the setting successively; Described heat insulating tile is installed on the cement board on roof by support.

2. thermal insulation of roof attemperator according to claim 1 is characterized in that: be provided with the gap between the cement board on described insulation layer and roof, form ventilated layer.

3. thermal insulation of roof attemperator according to claim 1 is characterized in that: the insulation layer that described insulation layer is made for the mineral wool material.

4. thermal insulation of roof attemperator according to claim 1 is characterized in that: be provided with water yield checkout gear in the described current layer, water yield checkout gear is connected with control panel.

5. thermal insulation of roof attemperator according to claim 1 is characterized in that: be provided with temperature pick up in the described current layer, described temperature pick up is connected with control panel.

6. thermal insulation of roof attemperator according to claim 1 is characterized in that: be provided with control module and signal processing module in the described control panel, described control module is connected with signal processing module; Described control module is connected with water supply installation, dewatering installation respectively.

7. thermal insulation of roof attemperator according to claim 1 is characterized in that: described water supply installation comprises feed cistern and feed pipe, and described feed cistern is connected with feed pipe, and described feed pipe is connected with current layer in the heat insulating tile; Described feed pipe is provided with Water supply switch valve, and described Water supply switch valve is connected with control panel.

8. thermal insulation of roof attemperator according to claim 1 is characterized in that: described dewatering installation comprises discharge casing and gutter, and described discharge casing is connected with gutter, and described gutter is connected with current layer in the heat insulating tile; Described gutter is provided with drainage switch, and described drainage switch is connected with control panel.

9. according to each described thermal insulation of roof attemperator of claim 1～8, it is characterized in that: described control panel is connected with water yield checkout gear, temperature pick up, Water supply switch valve and drainage switch respectively by electronic circuit.

10. thermal insulation of roof attemperator according to claim 9 is characterized in that: described water yield checkout gear, temperature pick up are connected with signal processing module in the control panel respectively; Described Water supply switch valve and drainage switch are connected with control module in the control panel respectively.

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