CN105115096A - Double helix structure total heat exchanger core with reinforcing ribs - Google Patents

Abstract

The invention discloses a double helix structure total heat exchanger core with reinforcing ribs. The double helix structure total heat exchanger core with the reinforcing ribs comprises a shell which is internally provided with a fresh air channel, an exhaust channel, a fresh air inlet, a fresh air outlet, an exhaust air inlet and an exhaust air outlet; the reinforcing ribs are arranged in the fresh air channel and the exhaust channel which are each of a helix structure, and the fresh air channel and the exhaust channel form a double helix structure; the fresh air outlet is connected with the internal end of the helix-structure fresh air channel, the exhaust air inlet is connected with the internal end of the helix-structure exhaust channel, the fresh air inlet is connected with the external end of the helix-structure fresh air channel, and the exhaust air outlet is connected with the external end of the helix-structure exhaust channel. According to the double helix structure total heat exchanger core with the reinforcing ribs, the reinforcing ribs are arranged in the helix-structure fresh air channel and the helix-structure exhaust channel, and the structural strength of the fresh air channel and the exhaust channel is enhanced; by means of the helix structures, contact time of fresh air and exhaust air is longer, and the energy exchange is more thorough.

Description

A kind of double-spiral structure Total heat exchange core body with reinforcement

Technical field

The present invention relates to air heat exchange equipment, the double-spiral structure Total heat exchange core body especially with reinforcement.

Background technology

Total-heat exchanger product introduction: refer to a kind of new wind, exhaust ventilation equipment containing Total heat exchange core body.Its operation principle is: during product work, indoor exhaust wind and new wind are when orthogonal thereto fork mode flows through heat exchanger core body respectively, there is the temperature difference due to splitter plate two sidewind and vapor partial pressure is poor, two strands of air-flows, by presenting heat and mass phenomenon during demarcation strip, cause Total heat exchange process.During summer operation, new wind obtains cold from air conditioning air exhaust, and temperature is reduced, simultaneously dry by air-conditioner wind, and new wind water capacity is reduced; During winter operation, new wind obtains heat from air conditioning chamber's air draft, and temperature raises, simultaneously by air conditioning chamber's air draft humidification.Like this, by the complete hot heat transfer process of heat exchange core body, new wind is allowed to recover energy from air conditioning air exhaust.Equipment forms primarily of cabinet, Total heat exchange core body and blowing and discharging fan.

Total-heat exchanger product, refers to a kind of new wind, exhaust ventilation equipment containing Total heat exchange core body.Its operation principle is: during product work, indoor exhaust wind and new wind are when orthogonal thereto fork mode flows through heat exchanger core body respectively, there is the temperature difference due to splitter plate two sidewind and vapor partial pressure is poor, two strands of air-flows, by presenting heat and mass phenomenon during demarcation strip, cause Total heat exchange process.During summer operation, new wind obtains cold from air conditioning air exhaust, and temperature is reduced, simultaneously dry by air-conditioner wind, and new wind water capacity is reduced; During winter operation, new wind obtains heat from air conditioning chamber's air draft, and temperature raises, simultaneously by air conditioning chamber's air draft humidification.Like this, by the complete hot heat transfer process of heat exchange core body, new wind is allowed to recover energy from air conditioning air exhaust.Total heat exchange core body is in decisive status in total-heat exchanger product as can be seen here, the operating efficiency of Total heat exchange core body determines the operating efficiency of total-heat exchanger product, in order to improve the operating efficiency of total-heat exchanger product and reduce operating cost, the Total heat exchange core body needing rate of heat exchange higher.In right existing total-heat exchanger new wind and air draft short for time of contact, heat exchanger effectiveness is low, not thoroughly.

Summary of the invention

Problem to be solved by this invention is, for above-mentioned shortcoming of the prior art, provides a kind of double-spiral structure Total heat exchange core body with reinforcement.

For solving the problem, the scheme that the present invention adopts is as follows:

With a double-spiral structure Total heat exchange core body for reinforcement, it is characterized in that, comprise shell, in described shell, be provided with new wind passage, air exhaust passage, fresh inlet, new wind outlet, air draft import and wind exhausting outlet; Described new wind passage and air exhaust passage inside are provided with reinforcement; Described new wind passage and air exhaust passage are helical structure, and new wind passage and air exhaust passage composition double-spiral structure; Described new wind outlet is connected with the new wind channel interior end of helical structure; Described air draft import is connected with the air exhaust passage inside end of helical structure; Described fresh inlet is connected with the new wind passage outer end of helical structure; Described wind exhausting outlet is connected with the air exhaust passage outer end of helical structure.

Further, according to the double-spiral structure Total heat exchange core body of band reinforcement of the present invention, described new wind passage and air exhaust passage are obtained by nanometer micropore heat exchange diaphragm.

Further, according to the double-spiral structure Total heat exchange core body of band reinforcement of the present invention, described fresh inlet is also provided with airstrainer.

Further, according to the double-spiral structure Total heat exchange core body of band reinforcement of the present invention, described air draft import is also provided with airstrainer.

Further, according to the double-spiral structure Total heat exchange core body of band reinforcement of the present invention, described shell is insulation material.

The present invention can also be applied to a kind of new blower fan, and described new blower fan comprises the double-spiral structure Total heat exchange core body of band reinforcement.Use the total-heat exchanger in the existing new blower fan of double-spiral structure Total heat exchange core body replacement of band reinforcement of the present invention.

Technique effect of the present invention is as follows: the double-spiral structure Total heat exchange core body of band reinforcement of the present invention adopts double-stranded new wind passage and air exhaust passage to form, outside is fixed with insulation material again, make double-spiral structure Total heat exchange core body form an incremental energy exchanger, reverse flow is taked in new wind and air draft in the apparatus.In helical structure, constantly carry out energy exchange, make the central temperature of double-stranded Total heat exchange core body identical with indoor exhaust wind; The new wind facies of external structure temperature and outdoor with, so just can ensure that new wind by double-spiral structure Total heat exchange core body laggard enter the temperature of indoor identical with indoor actual temperature, namely have updated IAQ, maintain again indoor temperature constant.Stable in order to ensure that double-spiral structure Total heat exchange core body is in operation, reinforcement is provided with at new wind passage and air exhaust passage inside, avoid double-spiral structure Total heat exchange core body in running because of pressure differential distortion, extend service life of the present invention, save cost, improve practical efficiency.

Accompanying drawing explanation

Fig. 1 is the cross-sectional structure schematic diagram of the double-spiral structure Total heat exchange core body of band reinforcement.

Fig. 2 is the structural representation of the double-spiral structure Total heat exchange core body of band reinforcement.

Fig. 3 is the vertical section structure schematic diagram of the double-spiral structure Total heat exchange core body of band reinforcement.

Detailed description of the invention

Below in conjunction with accompanying drawing, the present invention is described in further details.

Embodiment 1: a kind of double-spiral structure Total heat exchange core body with reinforcement, comprises shell 1, is provided with new wind passage 2, air exhaust passage 3, fresh inlet 4, new wind outlet 5, air draft import 6 and wind exhausting outlet 7 in described shell 1; Described new wind passage 2 and air exhaust passage 3 inside are provided with reinforcement 8; Described new wind passage 2 and air exhaust passage 3 are helical structure, and new wind passage 2 and air exhaust passage 3 form double-spiral structure; Described new wind outlet 5 is connected with new wind passage 2 inside end of helical structure; Described air draft import 7 is connected with air exhaust passage 3 inside end of helical structure; Described fresh inlet 4 is connected with new wind passage 2 outer end of helical structure; Described wind exhausting outlet 7 is connected with air exhaust passage 3 outer end of helical structure.

Embodiment 2: a kind of double-spiral structure Total heat exchange core body with reinforcement, comprises shell 1, is provided with new wind passage 2, air exhaust passage 3, fresh inlet 4, new wind outlet 5, air draft import 6 and wind exhausting outlet 7 in described shell 1; Described new wind passage 2 and air exhaust passage 3 inside are provided with reinforcement 8; Described new wind passage 2 and air exhaust passage 3 are helical structure, and new wind passage 2 and air exhaust passage 3 form double-spiral structure; Described new wind outlet 5 is connected with new wind passage 2 inside end of helical structure; Described air draft import 7 is connected with air exhaust passage 3 inside end of helical structure; Described fresh inlet 4 is connected with new wind passage 2 outer end of helical structure; Described wind exhausting outlet 7 is connected with air exhaust passage 3 outer end of helical structure, and described new wind passage 2 and air exhaust passage 3 are obtained by nanometer micropore heat exchange diaphragm.

Embodiment 3: a kind of double-spiral structure Total heat exchange core body with reinforcement, comprises shell 1, is provided with new wind passage 2, air exhaust passage 3, fresh inlet 4, new wind outlet 5, air draft import 6 and wind exhausting outlet 7 in described shell 1; Described new wind passage 2 and air exhaust passage 3 inside are provided with reinforcement 8; Described new wind passage 2 and air exhaust passage 3 are helical structure, and new wind passage 2 and air exhaust passage 3 form double-spiral structure; Described new wind outlet 5 is connected with new wind passage 2 inside end of helical structure; Described air draft import 7 is connected with air exhaust passage 3 inside end of helical structure; Described fresh inlet 4 is connected with new wind passage 2 outer end of helical structure; Described wind exhausting outlet 7 is connected with air exhaust passage 3 outer end of helical structure, and described fresh inlet 4 is also provided with airstrainer.

Embodiment 4: a kind of double-spiral structure Total heat exchange core body with reinforcement, comprises shell 1, is provided with new wind passage 2, air exhaust passage 3, fresh inlet 4, new wind outlet 5, air draft import 6 and wind exhausting outlet 7 in described shell 1; Described new wind passage 2 and air exhaust passage 3 inside are provided with reinforcement 8; Described new wind passage 2 and air exhaust passage 3 are helical structure, and new wind passage 2 and air exhaust passage 3 form double-spiral structure; Described new wind outlet 5 is connected with new wind passage 2 inside end of helical structure; Described air draft import 7 is connected with air exhaust passage 3 inside end of helical structure; Described fresh inlet 4 is connected with new wind passage 2 outer end of helical structure; Described wind exhausting outlet 7 is connected with air exhaust passage 3 outer end of helical structure, and described air draft import 6 is also provided with airstrainer.

Embodiment 5: a kind of double-spiral structure Total heat exchange core body with reinforcement, comprises shell 1, is provided with new wind passage 2, air exhaust passage 3, fresh inlet 4, new wind outlet 5, air draft import 6 and wind exhausting outlet 7 in described shell 1; Described new wind passage 2 and air exhaust passage 3 inside are provided with reinforcement 8; Described new wind passage 2 and air exhaust passage 3 are helical structure, and new wind passage 2 and air exhaust passage 3 form double-spiral structure; Described new wind outlet 5 is connected with new wind passage 2 inside end of helical structure; Described air draft import 7 is connected with air exhaust passage 3 inside end of helical structure; Described fresh inlet 4 is connected with new wind passage 2 outer end of helical structure; Described wind exhausting outlet 7 is connected with air exhaust passage 3 outer end of helical structure, and described shell 1 is insulation material.

Claims (6)

1. the double-spiral structure Total heat exchange core body with reinforcement, it is characterized in that, comprise shell (1), in described shell (1), be provided with new wind passage (2), air exhaust passage (3), fresh inlet (4), new wind outlet (5), air draft import (6) and wind exhausting outlet (7); Described new wind passage (2) and air exhaust passage (3) inside are provided with reinforcement (8); Described new wind passage (2) and air exhaust passage (3) are helical structure, and new wind passage (2) and air exhaust passage (3) composition double-spiral structure; Described new wind outlet (5) is connected with new wind passage (2) inside end of helical structure; Described air draft import (7) is connected with air exhaust passage (3) inside end of helical structure; Described fresh inlet (4) is connected with new wind passage (2) outer end of helical structure; Described wind exhausting outlet (7) is connected with air exhaust passage (3) outer end of helical structure.

2. the double-spiral structure Total heat exchange core body according to claim 1 with reinforcement, is characterized in that, described new wind passage (2) and air exhaust passage (3) are obtained by nanometer micropore heat exchange diaphragm.

3. the double-spiral structure Total heat exchange core body according to claim 1 with reinforcement, is characterized in that, described fresh inlet (4) is also provided with airstrainer.

4. the double-spiral structure Total heat exchange core body according to claim 1 with reinforcement, is characterized in that, described air draft import (6) is also provided with airstrainer.

5. the double-spiral structure Total heat exchange core body according to claim 1 with reinforcement, is characterized in that, described shell (1) is insulation material.

6. be provided with a new blower fan for the double-spiral structure Total heat exchange core body of band reinforcement, it is characterized in that, described new blower fan comprises the double-spiral structure Total heat exchange core body of band reinforcement.