CN1548814A - Heater isolating structure for integrated air conditioner - Google Patents

Abstract

The heater insulating structure for integral air conditioner includes heat exchanger hood connected to the heat exchanger frame via connecting port, heater connected to the heater frame and provide heat, insulating part in the heater frame connecting part, heat exchanger hood and connecting port, and connecting port frame connected to one end of the insulating part connecting port to raise the combining force of the insulating part. The present invention has the beneficial effect of raised insulating performance.

Description

The heater insulation structure of integral air conditioner

Technical field

What the present invention relates to is the invention of integral air conditioner, particularly be the invention of the heater insulation structure aspect of integral air conditioner.

Background technology

Integral air conditioner is that all parts that will constitute air-conditioning are contained in the equipment in the container.Integral air conditioner is an example with window type air-conditioning and wall embedded type air-conditioning.Window type air-conditioning and wall embedded type air-conditioning are to be in harmonious proportion between space and the space outerpace at air, and the front end of air-conditioning is exposed at air mediation space; The rear end side of air-conditioning is exposed on the external the space.

The front end of wall embedded type air-conditioning is exposed to air mediation space; The rear end side of air-conditioning has only the back side to be exposed on the external the space, and outdoor air is passed through in the smooth inlet chamber of wall embedded type air-conditioning.Wall embedded type air-conditioning with above-mentioned existing structure as depicted in figs. 1 and 2, the bottom surface of air-conditioning is can the install an air-conditioner substrate chassis 1 of various parts of rectangle, 1 along laterally and perpendicular to the substrate chassis being dividing plate 3 on the substrate chassis.The effect of dividing plate 3 is that air-conditioning inside is divided into indoor and outside.The two ends of dividing plate 3 have formed end sidewalls 5,5 ｀ to the place ahead of air-conditioning curved elongated.Between end sidewalls 5,5 ｀ sidewall of cutting apart 6 is arranged.Cutting apart sidewall 6 is to install and fix in addition with dividing plate 3.The indoor of being distinguished by dividing plate 3 is divided into part and the immobilising part that air flows again, and there is the motor 19 of drive chamber's internal fan 17 indoor.The symbol 7 of drawing is the air-vent on the dividing plate 3.

The indoor front end on above-mentioned substrate chassis 1 is provided with condensing water and holds groove 9.Condensing water holds groove 9 and is provided with indoor heat converter 11.Indoor heat converter 11 makes the cool matchmaker of heat-exchange system and the air in air mediation space carry out heat exchange.Heat-exchanger cover 13 is enclosed in the upper end of indoor heat converter 11.The two ends of heat-exchanger cover 13 are by the end sidewalls 5 of dividing plate 3 and cut apart sidewall 6 and support.In the bottom of heat-exchanger cover 13 and the back side of heat exchanger 11 heater 15 is installed.

Above-mentioned heater 15 and 16 fixed installations of heat-exchanger cover 13 usefulness rivets.That is, as shown in Figure 3, heater frame 15 ｀ of heater 15 are fixed on the heat-exchanger cover 13 that metal material makes with rivet 16.

The rear of above-mentioned indoor heat converter 11 is provided with indoor fan 17.It is mobile that indoor fan 17 produces the air in the air conditioning chamber.The two ends of indoor fan 17 are supported on the end sidewalls 5 of dividing plate 3 and cut apart in the middle of the sidewall 6, and the one end is supported by the accessory plate 18 of the end sidewalls 5 of dividing plate 3, and its other end links to each other with the motor 19 that is positioned at installing hole 6 ｀ of cutting apart on the sidewall 6.

In dividing plate 3 inboards that indoor fan 17 is housed turbine 21 is arranged.The air-flow that turbine 21 bootable indoor fans 17 form.

The shell of the indoor of air-conditioning is a front panel 23.The oriented air in the front of panel 23 is in harmonious proportion the space and sucks the suction grid 24 of air in front, its upper end, front forwards upper angled be discharge portion 24 ｀.

In discharge portion 24 ｀,, be provided with discharge guide portion 27 for the air of turbine 21 guiding is delivered to the direction that air is in harmonious proportion.Discharge guide portion 27 and be positioned at heat-exchanger cover 13 upper ends, and have direction of air is discharged in adjusting from discharge portion 24 ｀ louver 29.

For the outside fresh air being delivered to air mediation space, air-vent 30 is arranged in dividing plate 3.Be provided with the filter 32 that airborne foreign matter is filtered in the air-vent 30, also be provided with the ventilation door 34 that opens and closes air-vent 30 in the air-vent 30.

The shell that the outside of air-conditioning and indoor are one one is made of body shell 36.Body shell 36 is four jiaos of tubbiness, form air-conditioning two sides and top and below.

The outside of air-conditioning is provided with outdoor heat converter 38.Outdoor heat converter 38 makes the heat in air mediation space be discharged to outdoor by the cool matchmaker and the outdoor air heat exchange of heat-exchange system.Outdoor heat converter 38, cover cap 40 is arranged on the substrate chassis 1.Cover cap 40 guiding are passed through outdoor heat converter 38 equably by the outdoor air that two ends, body shell 36 back side suck.

The outdoor fan 42 that the outdoor air flows of making is arranged in the inboard of cover cap 40.Outdoor fan 42 is by the driving that is fixed on the The One On The Chassis motor 46 of substrate.

The outside on above-mentioned substrate chassis 1 is provided with the compressor 48 that constitutes heat-exchange system.Dividing plate 3 is connected with cover cap 40 usefulness angle bar 49.Unaccounted symbol 21 ｀ are top panels in the drawing.

There is following problem in above-mentioned prior art:

Heater 15 is not having to have insulating properties under the drying regime of moisture, but because the moistures such as condensing water that come out from heat exchanger 11 reduce heater 15 insulating properties own.In addition, heater frame 15 ｀ are installed on the heat-exchanger cover 13 that sheetmetal makes with metal rivet 16.This will make the insulating properties of entire product destroyed.

Summary of the invention

The objective of the invention is to overcome the defective of above-mentioned technology, a kind of heater insulation structure that improves the integral air conditioner of integral air conditioner heater insulation performance is provided.

Solving the problems of the technologies described above the technical scheme that is adopted is: a kind of heater insulation structure of integral air conditioner includes: constitute with metal material, be enclosed in the heat-exchanger cover of heat exchanger upper end; Heat-exchanger cover is connected with heater frame by connector, the heater that heat is provided and provides with heater frame, the insulation division that useful insulating materials is made between connecting portion, heat-exchanger cover and the connector of heater frame connects with an end of insulation division connector and to be connected with the connector framework that can improve the insulation division adhesion.

The invention has the beneficial effects as follows: in the heater insulation structure of integral air conditioner of the present invention, when heater frame is connected in heat-exchanger cover, in order to ensure the insulation between them, between heater frame and heat-exchanger cover, be provided with insulation division, the insulating properties of heater are improved.In addition, the lateral margin that in insulation division, forms, the part minimum that the middle protuberance in heater frame is exposed to the outside farthest improves the insulation distance between heater frame and the heat-exchanger cover, improves insulating properties.

Description of drawings

Fig. 1 is the integral air conditioner structural upright decomposing schematic representation of prior art;

Fig. 2 is the integral air conditioner section of structure of prior art;

Fig. 3 is the profile that the heater insulation of the integral air conditioner of prior art is constructed;

Fig. 4 is the perspective exploded view with primary structure of integral air conditioner of the present invention;

Fig. 5 is that heater insulation structure of the present invention is along heat-exchanger cover length direction profile;

Fig. 6 is the profile of heater insulation structure heat exchanger cover transversely cutting among Fig. 5;

Fig. 7 is the profile with the length direction cut-out of the structure heat exchanger cover of an alternative embodiment of the invention;

Fig. 8 is the profile with the heater insulation structure heat exchanger cover transversely cutting of the embodiment shown in Fig. 7;

Fig. 9 is the stereogram that constitutes the 1st and the 2nd insulation division of an alternative embodiment of the invention.

The specific embodiment

In order to reach above-mentioned purpose, the invention provides a kind of heater insulation structure of integral air conditioner, include: constitute with metal material, be enclosed in the heat-exchanger cover of heat exchanger upper end; Heat-exchanger cover is connected with heater frame by connector, the heater that heat is provided and provides with heater frame, the insulation division that useful insulating materials is made between connecting portion, heat-exchanger cover and the connector of heater frame connects with an end of insulation division connector and to be connected with the connector framework that can improve the insulation division adhesion.

Described insulation division comprises: be installed on the 1st insulation division between heat-exchanger cover and the heater frame; Between connector and heater frame, reach and do not sealed the 2nd insulation division by the 1st insulation division material.

The perforation rib that connects connector is arranged in described the 2nd insulation division, and this perforation rib makes between connector and the heater frame and insulate, and this perforation rib is inserted in the 1st insulated hole.

In the 1st insulation division and the 2nd insulation division, be provided with and guarantee between heater frame and the heat-exchanger cover insulation distance and perpendicular to the lateral margin of insulation division along the edge, the lateral margin of the 2nd insulation division is installed in the lateral margin inboard of the 1st insulation division material.

The 1st insulation division has the perforation rib of the perforation rib insertion that makes the 2nd insulation division.

The connecting portion of heater frame protrudes along the heat-exchanger cover direction and forms.

Below in conjunction with accompanying drawing embodiments of the invention are described in detail:

As Fig. 4, shown in Figure 5, substrate chassis 100 is the tabular things of the rectangle with certain area of various parts of installing an air-conditioner.Because the kind different needs difference of substrate chassis 100 upper mounting components, so become to have concavo-convex position on the substrate chassis 100.

Along passing across and being provided with dividing plate 110 perpendicular to substrate chassis 100.Dividing plate 110 is divided into indoor and outside with the air-conditioning volume inside.The backplate 112 of dividing plate 110 is parts of divided chamber inboard and outside, and there are end side 114,144 ｀ at the two ends of backplate 112.End side 114,144 ｀ supported chamber internal fans 130, and constitute the space that indoor fan 130 forms air current flow.The front end of end side 114,144 ｀ has up and down, and prolongation is formed with the 114f of mounting flange portion.The 114f of mounting flange portion position in the present embodiment is relative, prolongs by decide direction to form.But, not to do like this, can prolong formation to various direction.

The air-vent 116 that the air of outside is imported the indoor is arranged in the above-mentioned backplate 112.The filter 118 that purifies air is arranged in the air-vent 116.Air-vent 116 is opened and closed by ventilation door 119.

One end of aforementioned barriers 110 is connected with control part dividing plate 120.Control part dividing plate 120 plays the effect of divided chamber inboard and outside jointly with the counterpart of control box 122.By dividing plate 110 and control part dividing plate 120 the whole space region of air-conditioning is divided into indoor and outside.

Control part dividing plate 120 is provided with control box 122.The parts of control air-conditioning action are installed in the control box 122.The control panel 123 that various dials and button are arranged has been installed in the control box 122.Control panel 123 is exposed to the outside of air-conditioning shell by the control panel 179 of front panel 170.

There is turbine 125 inside of aforementioned barriers 110.Turbine 125 guiding are flowed by the air that indoor fan 130 forms.Turbine 125 generally is made of heat insulation turbine 126 and turbine cover 128.But can not use heat insulation turbine 126 according to designing requirement yet.Turbine cover 128 profiles are corresponding with indoor fan 130 profiles, play the effect that guiding indoor fan 130 is discharged air.Drawing symbol 126 ｀, 128 ｀ are the air-vents that correspond to dividing plate 110 air-vents 116.

Dividing plate 110 inside corresponding to turbine cover 128 are provided with indoor fan 130.Indoor fan 130 flows the indoor air of air-conditioning.In the present embodiment, indoor fan 130 is round barrel shape sirocco fans.

Above-mentioned indoor fan 130 is to be driven by the indoor motor 150 that is installed in a side end side plate 114 ｀ outside, and the rotating shaft of indoor motor 150 passes end side 114 ｀ and is connected with indoor fan 130.Indoor motor 150 is installed on the electric machine support 152.

Be provided with indoor heat converter 160 in the place ahead of indoor fan 130.Indoor heat converter 160 makes the cool matchmaker of heat-exchange system and the air in air mediation space carry out heat exchange.Indoor heat converter 160 is to hold groove 162 by the condensing water on the substrate chassis 100 to support.Condensing water holds and is discharged to the outside after groove 162 is collected the condensing water of indoor heat converter 160 generations.

The top of indoor heat converter 160 is heat-exchanger covers 165 that metal material is made.The two ends of heat-exchanger cover 165 are installed in the 114f of the mounting flange portion upper end of dividing plate 110, the upper end of sealing indoor heat converter 160.Having heaters 168 in the heat-exchanger cover 165.When air conditioning and heating moved, heater 168 was supplied with heat to air mediation space.Heater 168 is positioned at the back side of indoor heat converter 160, promptly with respect to the one side of indoor fan 130.

With reference to figure 5 and Fig. 6, the insulation structure between heat-exchanger cover 165 and the heater 168 is described:

Above-mentioned heater 168 forms as one with heater frame 168 ｀, and in the upper end of heater frame 168 ｀, the direction of heat exchanger cover 165 is protruded and is formed with protuberance 168t.Protuberance 168t is connected on the heat-exchanger cover 165 by the rivet 167 of connector.

In order to make insulation between heater frame 168 ｀ and the heat-exchanger cover 165, be provided with insulation division 166,166a, 166b.Insulation division 166 usefulness insulating materials adopt Shooting Technique manufacturing.Following (is benchmark with the drawing) of the 1st insulation division 166a has corresponding area with the protuberance 168t of heater frame 168 ｀ top (is benchmark with the drawing).There is the through hole that rivet 167 is passed in the central authorities of the 1st insulation division 166a.

Above the 2nd insulation division 166b below protuberance 168t (is benchmark with the drawing) have corresponding area.The central authorities of the 2nd insulation division 166b pass rivet 167 and connect rib 166 ｀, connect rib 166 ｀ and are inserted in the through hole of the 1st insulation division 166a.

In order to prevent rivet 167 damage insulation division 166 when riveted joint heater frame 168 and the heat-exchanger cover 165, and increase the adhesion between heat-exchanger cover 165, insulation division 166 and heater frame 168 ｀, be provided with connector framework 167 ｀.Rivet 167 connects the central authorities of connector framework 167 ｀, and the diameter of rivet 167 becomes big relatively during riveted joint, and rivet 167 is connected with connector framework 167 ｀.

Fig. 7 is extremely shown in Figure 9 to be an alternative embodiment of the invention.Heater frame 268 ｀ of heater 268 are connected with heat-exchanger cover 265 with rivet 267.

In the upper end of heater frame 268 ｀ of heater 268 bodies, the direction of heat exchanger cover 265 is protruded and is formed with protuberance 268t.Protuberance 268t is installed on the heat-exchanger cover 265.

For insulation between protuberance 268t and the heat-exchanger cover 265, be provided with insulation division 266,266a, 266b.Below, the effect of the heater insulation structure of institute's integral air conditioner is elaborated to having as above.Insulation division 266 usefulness insulating materials adopt Shooting Technique manufacturing.As shown in Figure 9, insulation division 266 is that the hexahedron of an opening is barrel-shaped, and shape, the size of the 1st insulation division 266a and the 2nd insulation division 266b junction match.

Following (is benchmark with the drawing) of the 1st insulation division 266a has corresponding area with top (is benchmark with the drawing) of protuberance 268t.Top and the protuberance 268t of the 2nd insulation division 266b following (is benchmark with the drawing) has corresponding area.The central authorities of the 2nd insulation division 266b are formed with and have connected rivet 267 perforation ribs 266 ｀, connect rib 266 ｀ play insulation around the outer peripheral face of rivet 267 effect.There are the rib of perforation 266 ｀ ｀ in central authorities at the 1st insulation division 266a.The inside that connects rib 266 ｀ ｀ is inserted with perforation rib 266 ｀ of the 2nd insulation division 266b.Perforation rib 266 ｀, 266 ｀ ｀ can constitute the structure of opposite insertion.

With the obverse edge of protuberance 268t, be formed with lateral margin 266s, 266s ｀ in the 1st and the 2nd insulation division 266a, the 266b along the reverse extending of the protrusion direction of protuberance 268t.Form in the outside of the lateral margin 266s ｀ of the lateral margin 266s inner face of the 1st insulation division 266a and the 2nd insulation division 266b and to combine closely.

The 1st insulation division 266a of said structure plays the effect that covers among the protuberance 268t with heat-exchanger cover 265 outsides.The 2nd insulation division 266b plays the effect of the outer peripheral face that covers protuberance 268t inboard and rivet 267.Can certainly make the 1st insulation division 266a cover the outer peripheral face of rivet 267.

In order to prevent rivet 267 damage insulation division 266 when riveted joint heater frame 268 ｀ and the heat-exchanger cover 265, and increase the adhesion between heat-exchanger cover 265, insulation division 266 and heater frame 268 ｀, be provided with connector framework 267 ｀.Rivet 267 connects the central authorities of connector framework 267 ｀, and the diameter of rivet 267 becomes big relatively during riveted joint, and rivet 267 is connected with connector framework 267 ｀.

Effect to the heater insulation structure of the integral air conditioner of the invention described above structure is elaborated below:

As Fig. 5, insulation structure embodiment illustrated in fig. 6, the protuberance 168t of heat-exchanger cover 165 and heater frame 168 ｀ is connected by the rivet 167 that passes connector.Between protuberance 168t and heat-exchanger cover 165, the 1st insulation division 166a is installed.The 2nd insulation division 166b has been installed below protuberance 168t.Perforation rib 166 ｀ of the 2nd insulation division are inserted in the through hole of above-mentioned the 1st insulation division 166a.

Rivet 167 connects perforation rib 166 ｀ and connector framework 167 ｀ of heat-exchanger cover 165 and the 2nd insulation division 166b, when connector framework 167 ｀ sides are riveted, makes the through hole of the external diameter of rivet 167 greater than connector framework 167 ｀.Heater 168 is connected on the heat-exchanger cover 165.

Between the protuberance 168t of heat-exchanger cover 165 and heater frame 168 ｀, insulation division 166a plays insulating effect, and between protuberance 168t and rivet 167, the 2nd insulation division 166b plays insulating effect.The 2nd insulation division 166b also plays the effect below the sealing protuberance 168t.Between heat-exchanger cover 165 and heater frame 168 ｀, be by 166 insulation of the 1st and the 2nd insulation division.

Below Fig. 7 and embodiment insulation structure shown in Figure 9 are described:

Above-mentioned heat-exchanger cover 265 is connected by rivet 267 with the protuberance 268t of heater frame 268 ｀.Between protuberance 268t and heat-exchanger cover 265, the 1st insulation division 266a has been installed.

Below protuberance 268t, the 2nd insulation division 266b has been installed.Perforation rib 266 ｀ of the 2nd insulation division 266b are inserted in the perforation rib 266 ｀ ｀ inside of the 1st insulation division 266a.Therefore, in the lateral margin 266s inboard of the 1st insulation division 266a, correspondence has been installed the lateral margin 266s ｀ of the 2nd insulation division 266b.

In the 2nd insulation division 266b, connector framework 267 ｀ have been installed, rivet 267 connects perforation rib 266 ｀ and connector framework 267 ｀ of heat-exchanger cover the 265, the 2nd insulation division 266b.

The diameter of rivet 267 1 ends is greater than the diameter of connector framework 267 ｀ through holes during riveted joint, and 268 ｀ are fixed on the heat-exchanger cover 265 with heater frame.

Between the protuberance 268t of heat-exchanger cover 265 and heater frame 268 ｀, insulation division 266a plays insulating effect, and between protuberance 268t and rivet 267, the 2nd insulation division 266b plays insulating effect.The 2nd insulation division 266b also plays the following effect of sealing protuberance 268t.Between heat-exchanger cover 265 and heater frame 268 ｀, be by 266 insulation of the 1st and the 2nd insulation division.

In the present embodiment, by lateral margin 266s, 266s playing insulating effect between heat-exchanger cover 265 and the protuberance 268t and between heater frame 268 ｀ and connector framework 267 ｀, so can guarantee sufficient insulation effect relatively.

Right of the present invention is not limited only to the embodiment of above displaying, and should be by with the true content of application range institute.In the field of the invention, the people's nature in the interest field that application range is put down in writing with common knowledge can carry out various distortion and change.

Claims (6)

1. the heater insulation of integral air conditioner structure includes: constitute with metal material, be enclosed in the heat-exchanger cover of heat exchanger upper end; Heat-exchanger cover is connected with heater frame by connector, the heater that heat is provided and provides with heater frame, it is characterized in that the insulation division that useful insulating materials is made between connecting portion, heat-exchanger cover and the connector in heater frame, connect with an end of insulation division connector and be connected with the connector framework that can improve the insulation division adhesion.

2. according to the structure of the heater insulation described in the claim 1, it is characterized in that described insulation division comprises: be installed on the 1st insulation division between heat-exchanger cover and the heater frame; Between connector and heater frame, reach and do not sealed the 2nd insulation division by the 1st insulation division material.

3. according to the structure of the heater insulation described in the claim 2, it is characterized in that the perforation rib that connects connector is arranged in described the 2nd insulation division, this perforation rib makes between connector and the heater frame and insulate, and this perforation rib is inserted in the 1st insulated hole.

4. construct according to the heater insulation described in claim 2 or 3, it is characterized in that in the 1st insulation division and the 2nd insulation division, being provided with and guarantee between heater frame and the heat-exchanger cover insulation distance and perpendicular to the lateral margin of insulation division along the edge, the lateral margin of the 2nd insulation division is installed in the lateral margin inboard of the 1st insulation division material.

5. according to the structure of the heater insulation described in the claim 4, it is characterized in that the 1st insulation division has the perforation rib of the perforation rib insertion that makes the 2nd insulation division.

6. according to the structure of the heater insulation described in the claim 5, it is characterized in that the connecting portion of heater frame protrudes formation along the heat-exchanger cover direction.

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