CN201637026U - Modularized constant-temperature air interchanger based on heat pipe heat exchange - Google Patents

Abstract

The utility model discloses a modularized constant-temperature air interchanger based on heat pipe heat exchange, comprising a telescopic heat insulation module, a host module and a heat pipe heat exchange module, wherein the heat pipe heat exchange module comprises fin sets, partition boards and heat pipe sets. Two fin sets of the same structure are respectively arranged at both sides of the partition boards; each fin is provided with a blind window; the fin sets and the partition boards are respectively provided with hole sites for mounting the heat pipe sets; the heat pipe sets are arranged at the hole sites on the fin sets and the partition boards; a main machine shell comprises an air outlet channel, an air inlet channel and air guide curved surfaces; two fans are respectively obliquely arranged on the air outlet channel and the air inlet channel; and two air guide curved surfaces are respectively used for mounting the fin sets and the heat pipe sets on both sides of the partition boards of the heat pipe heat exchange module. The utility model is a new-generation constant temperature air interchanger which is suitable for modern airtight architectural space and has compact structure, high heat transfer efficiency, environment protection and energy saving with a healthy idea.

Description

A kind of modularization thermostatic air exchanger based on heat pipe heat exchanging

Technical field

The utility model relates to a kind of modularization thermostatic air exchanger based on heat pipe heat exchanging, especially can be according to the interior space and door and window size arbitrary combination ventilation fan module and flexible thermal insulation board module.

Background technology

The widely-used air-tightness of building of impelling of the air-conditioning of no ventilatory improves a lot than before in the modern building, and in order to obtain fresh, healthy air, increasing user has selected air interchanger.Use common ventilation fan ventilation, owing to directly be discharged to the cold air or the hot-air of indoor section outdoor, must cause freezing or indoor exhaust air that a big chunk power of heating equipment is discharged from expends, this has not only caused huge energy waste, has also increased the load of refrigeration or heating equipment greatly.Simultaneously, common ventilation fan can't really be isolated the two kinds of air ambients in indoor and outdoor, can't filter the extraneous air in the inlet chamber effectively.Therefore, market press for that airtight space of a kind of suitable modern times uses, compact conformation, heat transfer efficiency height, meet environmental protection, the thermostatic air exchanger of new generation of energy-conservation, health idea.

The utility model content

The purpose of this utility model is to overcome the shortcoming of prior art, adopts idea of modular, provides a kind of energy-saving and environmental protection and cost the low modularization thermostatic air exchanger based on heat pipe heat exchanging.

The utility model is achieved through the following technical solutions:

A kind of modularization thermostatic air exchanger based on heat pipe heat exchanging comprises flexible heat insulation module, host module and heat pipe heat exchanging module; Flexible heat insulation module is made up of vertical scalable thermal insulation board, side thermal insulation board and window frame clamping device; The side thermal insulation board is two, is arranged in the both sides of body main casing, and vertical scalable thermal insulation board is positioned at side thermal insulation board upper end, is fixed on the push-pull door and window by the window frame clamping device;

The heat pipe heat exchanging module is made up of fins set, dividing plate and heat pipe heat; Fins set is identical two groups of structure, the dividing plate both sides that are placed in, and each fin all offers shutter, and fins set and dividing plate all offer and are used for the position, hole that heat pipe heat is installed; Heat pipe heat is installed on the position, hole on fins set and the dividing plate;

Host module comprises preceding dividing plate, controller for blasting, front panel, fan, back filtering fence and body main casing; The body main casing comprises air-out passage, inlet air passage and wind-guiding curved surface, and two fans are installed in respectively on air-out passage and the inlet air passage, tilts to install; The wind-guiding curved surface is two, is respectively applied for the fins set and the heat pipe heat of the dividing plate both sides that the heat pipe heat exchanging module is installed; Two wind-guiding curved surfaces respectively with air-out passage and inlet air channel connection; The air-supply control panel comprises supervisory keyboard, and state shows LCD, is installed on the front panel; Back filtering fence is positioned at body main casing rear portion, is provided with the multilayer Air Filter; The side thermal insulation board is installed in body main casing upper end.

For further realizing the utility model purpose, the moving thermal insulation board of described vertical scalable thermal insulation board is fixed with two cylinder linear guides, and guide rod one end stretches within the guide pin bushing, and guide pin bushing is fixed in to be decided above the thermal insulation board, one end of guide pin bushing stretches out, and inserts installation position corresponding on the body main casing; Realize the flexible of dividing plate by the relative position of regulating guide rod and guide pin bushing, adapt to the push-pull door and window of various different sizes by the collapsing length of adjusting flexible dividing plate module.

Hole, corresponding installation position is installed and is fixed on the mount pin of described side thermal insulation board by two ends and the body main casing.

Described window frame clamping device comprises gum cover and support bar, and on gum cover suit and the support bar, support bar is a back-shaped structure, is installed on body main casing below.

Described body main casing side is respectively equipped with the hole, installation position, and the upper end is provided with the installation position, is provided with the mounting groove position between the two wind-guiding curved surfaces, and the trapezoidal clamping matching of mounting groove position and heat pipe heat exchanging module is used for fixing the heat pipe heat exchanging module.

The utility model has following characteristics compared to existing technology:

(1) thus vertical scalable thermal insulation board elongation back embeds and can stop the indoor-outdoor air convection current to reduce cold air in the aluminium alloy window chute to run off, the side thermal insulation board also is used for fuselage except possessing above-mentioned heat insulating function fixing and spacing.And any combined interface of each module is that multiple installation and expansion are provided convenience.Applicable to the push-pull door and window of different size, need not anyly pay extra cost (as: transform window, punch on the wall etc.) and realize Fast Installation.

(2) inlet and outlet interlaced arrangement prevents that the foul atmosphere of discharging from by in the suction chamber at once, keeping the pure and fresh of air inlet.Fan adopts install cooperate unique wind-guiding curved surface to help reducing windage, and exhaust fan is downward-sloping more helps draining foul atmosphere (because dirty air generally is distributed in the lower floor of air).

(3) heat pipe adopts non-uniform Distribution (temperature field according to heat transfer space distributes definite), has realized the heat exchange between the air of both sides when having reduced the heat pipe usage quantity substantially.

(4) venetian blind type radiation fin structure design time that air is stopped in heat transfer space longer and enlarged heat exchange area, improve heat exchange efficiency.

Description of drawings

Fig. 1 is the structural representation based on the modularization thermostatic air exchanger of heat pipe heat exchanging.

Fig. 2 is the fundamental diagram based on the modularization thermostatic air exchanger of heat pipe heat exchanging.

Fig. 3 is the structural representation of vertical scalable thermal insulation board.

Fig. 4 is the scheme of installation of vertical scalable heat insulation module.

Fig. 5 is the structural representation of body main casing.

Fig. 6-1 is the scheme of installation of fan.Fig. 6-2 is the left view of Fig. 6-1.

Fig. 7 is the structural representation of heat pipe heat exchanging module.

Fig. 8 is the partial schematic diagram of Fig. 7.

Fig. 9 is the structural representation of window frame clamping device.

Figure 10 is a scheme of installation of the present utility model.

Figure 11 is the partial schematic diagram of Figure 10.

The specific embodiment

Below in conjunction with drawings and embodiments the utility model is further described.

As shown in Figure 1, a kind of modularization thermostatic air exchanger based on heat pipe heat exchanging comprises flexible heat insulation module 1, host module 2 and heat pipe heat exchanging module 3.Flexible heat insulation module 1 is made up of vertical scalable thermal insulation board 11, side thermal insulation board 12 and window frame clamping device 13; As Fig. 3, shown in 4, the moving thermal insulation board 111 of vertical scalable thermal insulation board 11 is fixed with two cylinder linear guides 112, guide rod 112 1 ends stretch within the guide pin bushing 114, guide pin bushing 114 is fixed in to be decided above the thermal insulation board 113, one end of guide pin bushing 114 stretches out, insert installation position 261 corresponding on the body main casing, move thermal insulation board 111 and decide thermal insulation board 113 separate, moving thermal insulation board 111 is with linear guide 112 motions, realize the flexible of dividing plate by the relative position of regulating guide rod 112 and guide pin bushing 114, adapt to the push-pull door and window of various different sizes by the collapsing length of adjusting flexible dividing plate module 1.Side thermal insulation board 12 is that two block of material are the moulding of composite polyethylene material, is arranged in the both sides of body main casing 26, and hole, corresponding installation position 262 is realized cooperating and installed and fixing on the mount pin 121 by two ends and the body main casing.

As shown in Figure 9, window frame clamping device 13 comprises gum cover 131 and support bar 132, and gum cover 131 materials are the bigger rubber of skin-friction coefficient, on suit and the support bar 132.Support bar is a back-shaped moulding, is installed on body main casing 26 belows.The window frame clamping device 13 main functions that install and fix that realize entire equipment.Shown in Figure 10,11, when the utility model is installed, what window frame fixture 13 was withstood plug-type aluminum window slides conduit 4, what vertical scalable thermal insulation board 111 withstood windowsill top slides conduit 4, again plug-type aluminum window is close to equipment, utilize equipment self-weight and frictional force, and the fixed installation of the support realization equipment of aluminum window, thereby the indoor and outdoor is effectively isolated.The flexible heat insulation module 1 main function that installs and fixes that realizes indoor and outdoor isolation and finishing device.

Shown in Fig. 7,8, heat pipe heat exchanging module 3 is made up of fins set 31, dividing plate 32 and heat pipe heat 33.Fins set 31 is identical two groups of structure, dividing plate 32 both sides that are placed in, and each fin all offers the shutter 311 of nonlinear arrangement, is beneficial to the circulation of air; Fins set 31 and dividing plate 32 all offer and are used for the position, hole that heat pipe heat 33 is installed; Heat pipe heat 33 is installed on the position, hole on fins set 31 and the dividing plate 32, as the bridge of dividing plate both sides heat exchange.Heat pipe heat exchanging module 3 is connected and installed by 321 realizations of the trapezoidal screens on the dividing plate 32 and host module.Heat pipe heat exchanging module 3 realizes the heat exchange of different temperatures air in the turnover wind passage by high-efficiency heat conduction micro heat pipe and the design of venetian blind type radiation fin structure.

Host module 2 comprises preceding dividing plate 21, air-supply control panel 22, front panel 23, fan 24, back filtering fence 25 and body main casing 26.Shown in Fig. 5,6, body main casing 26 comprises air-out passage, inlet air passage and wind-guiding curved surface 264, two fans 24 are installed in respectively on air-out passage and the inlet air passage, and become to tilt to install, wind-guiding curved surface 264 is two, is respectively applied for the fins set 31 and the heat pipe heat 33 of the dividing plate both sides that heat pipe heat exchanging module 3 is installed.Two wind-guiding curved surfaces 264 respectively with air-out passage and inlet air channel connection, body main casing 26 sides are respectively equipped with hole, installation position 262, the upper end is provided with installation position 261, be provided with mounting groove position 263 between the two wind-guiding curved surfaces 264, cooperate with the trapezoidal screens 321 of heat pipe heat exchanging module 3 to be used for fixing heat pipe heat exchanging module 3.As shown in Figure 7, the air-supply control panel 22 of host module 2 comprises supervisory keyboard, and state shows LCD, is installed on the front panel 23.The air intake vent of host module 2 and air outlet two arrange that respectively ventilation fan connects inlet air passage and air-out passage, and the inlet air passage is narrower than the air-out passage.In the back filtering fence 25 of host module 2 the multilayer Air Filter is arranged, guarantee the pure and fresh of inlet air.The host module 2 main interchange process that realize indoor and outdoor air, and realize device control and human-computer dialogue.

The utility model is installed on plug-type aluminium alloy windowsill, regulates scalable thermal insulation board height and cooperates with the windowsill height, finishes installation.After installing, as shown in Figure 2, outdoor air enters in the body main casing 26 of host module 2 in the air channel by air intake vent under the guiding of aerofoil fan, and the side by heat pipe heat exchanging module 3, flows at last in the wind-guiding curved surface 264; Room air enters in the body main casing 26 of host module 2 in the wind-guiding curved surface 264 by air outlet under the guiding of aerofoil fan, and two outer sides by the heat pipe heat exchanging module, finally gets rid of outdoorly, realizes the fresh-air ventilation process of indoor and outdoor.Dividing plate 32 has good air-tightness, prevents that the outdoor fresh air in the inlet chamber is subjected to the pollution of indoor discharge air.During the both sides of two strands of air communication superheater tube heat exchange modules 3, utilize good isothermal performance of heat pipe and fins set to realize heat transfer process.The utility model carries out exchange heat by indoor and outdoor exchange air-flow when finishing the complete fresh-air ventilation of indoor and outdoor, pass through to reduce the indoor air themperature of outdoor inflow in summer, can reduce the actual working pressure of air-conditioning; Raise winter air themperature in the outdoor inlet chamber realizes the recovery of heat.Both can keep the cleannes of room air, reclaim part energy simultaneously, meet environmental protection, energy-conservation, healthy design concept.

Claims (5)

1. the modularization thermostatic air exchanger based on heat pipe heat exchanging is characterized in that, comprises flexible heat insulation module, host module and heat pipe heat exchanging module; Flexible heat insulation module is made up of vertical scalable thermal insulation board, side thermal insulation board and window frame clamping device; The side thermal insulation board is two, is arranged in the both sides of body main casing, and vertical scalable thermal insulation board is positioned at side thermal insulation board upper end, is fixed on the push-pull door and window by the window frame clamping device;

The heat pipe heat exchanging module is made up of fins set, dividing plate and heat pipe heat; Fins set is identical two groups of structure, the dividing plate both sides that are placed in, and each fin all offers shutter, and fins set and dividing plate all offer and are used for the position, hole that heat pipe heat is installed; Heat pipe heat is installed on the position, hole on fins set and the dividing plate;

Host module comprises preceding dividing plate, controller for blasting, front panel, fan, back filtering fence and body main casing; The body main casing comprises air-out passage, inlet air passage and wind-guiding curved surface, and two fans are installed in respectively on air-out passage and the inlet air passage, tilts to install; The wind-guiding curved surface is two, is respectively applied for the fins set and the heat pipe heat of the dividing plate both sides that the heat pipe heat exchanging module is installed; Two wind-guiding curved surfaces respectively with air-out passage and inlet air channel connection; The air-supply control panel comprises supervisory keyboard, and state shows LCD, is installed on the front panel; Back filtering fence is positioned at body main casing rear portion, is provided with the multilayer Air Filter; The side thermal insulation board is installed in body main casing upper end.

2. a kind of modularization thermostatic air exchanger according to claim 1 based on heat pipe heat exchanging, the moving thermal insulation board that it is characterized in that described vertical scalable thermal insulation board is fixed with two cylinder linear guides, guide rod one end stretches within the guide pin bushing, guide pin bushing is fixed in to be decided above the thermal insulation board, one end of guide pin bushing stretches out, and inserts installation position corresponding on the body main casing; Realize the flexible of dividing plate by the relative position of regulating guide rod and guide pin bushing, adapt to the push-pull door and window of various different sizes by the collapsing length of adjusting flexible dividing plate module.

3. a kind of modularization thermostatic air exchanger based on heat pipe heat exchanging according to claim 1 is characterized in that on the mount pin of described side thermal insulation board by two ends and the body main casing that hole, corresponding installation position installs and fix.

4. a kind of modularization thermostatic air exchanger based on heat pipe heat exchanging according to claim 1 is characterized in that described window frame clamping device comprises gum cover and support bar, and gum cover is set on the support bar, and support bar is a back-shaped structure, is installed on body main casing below.

5. a kind of modularization thermostatic air exchanger according to claim 1 based on heat pipe heat exchanging, it is characterized in that described body main casing side is respectively equipped with the hole, installation position, the upper end is provided with the installation position, be provided with the mounting groove position between the two wind-guiding curved surfaces, the trapezoidal clamping matching of mounting groove position and heat pipe heat exchanging module is used for fixing the heat pipe heat exchanging module.

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