CN203758317U - Plate-type heat exchange device - Google Patents

Abstract

The utility model discloses a plate-type heat exchange device which comprises a heat recycling section device, a cooling water cooling section device and an ice water cooling section device. The cooling water cooling section device is connected with the heat recycling section device. An upper heat recycling sleeve (11) and a lower heat recycling sleeve (21) sleeve an upper heat recycling section pipe (1) and a lower heat recycling section pipe (2) respectively. The upper heat recycling sleeve (11) is connected with a reverse osmosis (RO) water inlet pipe (12) and a tap water inlet pipe (13). The upper heat recycling sleeve (11) and the lower heat recycling section sleeve (21) are communicated through a connection pipe. A hot water outlet (22) is arranged in the lower heat recycling section sleeve (21), and the ice water cooling section device is connected with the cooling water cooling section device. The plate-type heat exchange device is simple in structure, high temperature tea soup is cooled for multiple times through low temperature water, and herbal tea or green tea with required temperature can be obtained.

Description

A kind of plate type heat exchanger

Technical field

The utility model relates to heat exchange field, refers more particularly to a kind of plate type heat exchanger.

Background technology

The device of the current cooling for millet paste, is all to adopt simple frozen water to lower the temperature, and so will adopt a large amount of frozen water, because the cost of frozen water is high, thereby cause production cost also high, and the temperature of cooling is not easy to control.

Utility model content

The purpose of this utility model is to overcome above-mentioned weak point of the prior art and a kind of simple in structure, practical plate type heat exchanger is provided.

The utility model is realized in the following way:

A kind of plate type heat exchanger, it is characterized in that: comprise heat-recovery section device, cooling water temperature section apparatus, frozen water temperature descending section device, described heat-recovery section device comprises heat-recovery section pipe 1 and lower heat-recovery section pipe 2, and the water side of described lower heat-recovery section pipe 2 is connected with the water inlet end of upper heat-recovery section pipe 1; On described upper heat-recovery section pipe 1 and lower heat-recovery section pipe 2, be arranged with respectively heat-recovery section sleeve pipe 11 and lower heat-recovery section sleeve pipe 21; Described upper heat-recovery section sleeve pipe 11 is connected with running water water inlet pipe 13 with RO water water inlet pipe 12; Described upper heat-recovery section sleeve pipe 11 is connected by tube connector with lower heat-recovery section sleeve pipe 21; Described lower heat-recovery section sleeve pipe 21 is provided with hot water outlet 22;

Described cooling water temperature section apparatus comprises cooling water temperature section pipe 3 and lower cooling water temperature section pipe 4, and the water inlet end of described lower cooling water temperature section pipe 4 is connected with the water side of upper heat-recovery section pipe 1; The water inlet end of described upper cooling water temperature section pipe 3 is connected with the water side of lower cooling water temperature section pipe 4; On described upper cooling water temperature section pipe 3 and lower cooling water temperature section pipe 4, be arranged with respectively cooling water temperature section sleeve pipe 31 and lower cooling water temperature section sleeve pipe 41; Described upper cooling water temperature section sleeve pipe 31 and lower cooling water temperature section sleeve pipe 41 are connected by tube connector; Described upper cooling water temperature section sleeve pipe 31 is connected with cooling water inlet pipe 32; Described lower cooling water temperature section sleeve pipe 41 is connected with cooling water outlet pipe 42;

Described frozen water temperature descending section device comprises frozen water temperature descending section pipe 5 and lower frozen water temperature descending section pipe 6, and the water inlet end of described upper frozen water temperature descending section pipe 5 is connected with the water side of lower frozen water temperature descending section pipe 6; The water inlet end of described lower frozen water temperature descending section pipe 6 is connected with the water side of upper cooling water temperature section pipe 3; On described upper frozen water temperature descending section pipe 5 and lower frozen water temperature descending section pipe 6, be arranged with respectively frozen water temperature descending section sleeve pipe 51 and lower frozen water temperature descending section sleeve pipe 61; Described upper frozen water temperature descending section sleeve pipe 51 and lower frozen water temperature descending section sleeve pipe 61 are connected by tube connector; Described upper frozen water temperature descending section sleeve pipe 51 is connected with frozen water water inlet pipe 52; Described lower frozen water temperature descending section sleeve pipe 61 is connected with frozen water outlet pipe 62.

On described RO water water inlet pipe 12, running water water inlet pipe 13, cooling water inlet pipe 32, cooling water outlet pipe 42, frozen water water inlet pipe 52, frozen water outlet pipe 62, be equipped with a valve.

The beneficial effects of the utility model are: simple in structure, save the energy.

Accompanying drawing explanation

Fig. 1 the utility model structural representation.

The specific embodiment

Now by reference to the accompanying drawings, the utility model specific embodiment is described in detail in detail:

As shown in Figure 1, a kind of plate type heat exchanger, comprise heat-recovery section device, cooling water temperature section apparatus, frozen water temperature descending section device, heat-recovery section device comprises heat-recovery section pipe 1 and lower heat-recovery section pipe 2, and the water side of lower heat-recovery section pipe 2 is connected with the water inlet end of upper heat-recovery section pipe 1; On upper heat-recovery section pipe 1 and lower heat-recovery section pipe 2, be arranged with respectively heat-recovery section sleeve pipe 11 and lower heat-recovery section sleeve pipe 21; Upper heat-recovery section sleeve pipe 11 is connected with running water water inlet pipe 13 with RO water water inlet pipe 12; Upper heat-recovery section sleeve pipe 11 is connected by tube connector with lower heat-recovery section sleeve pipe 21; Lower heat-recovery section sleeve pipe 21 is provided with hot water outlet 22; Cooling water temperature section apparatus comprises cooling water temperature section pipe 3 and lower cooling water temperature section pipe 4, and the water inlet end of lower cooling water temperature section pipe 4 is connected with the water side of upper heat-recovery section pipe 1; The water inlet end of upper cooling water temperature section pipe 3 is connected with the water side of lower cooling water temperature section pipe 4; On upper cooling water temperature section pipe 3 and lower cooling water temperature section pipe 4, be arranged with respectively cooling water temperature section sleeve pipe 31 and lower cooling water temperature section sleeve pipe 41; Upper cooling water temperature section sleeve pipe 31 and lower cooling water temperature section sleeve pipe 41 are connected by tube connector; Upper cooling water temperature section sleeve pipe 31 is connected with cooling water inlet pipe 32; Lower cooling water temperature section sleeve pipe 41 is connected with cooling water outlet pipe 42; Frozen water temperature descending section device comprises frozen water temperature descending section pipe 5 and lower frozen water temperature descending section pipe 6, and the water inlet end of upper frozen water temperature descending section pipe 5 is connected with the water side of lower frozen water temperature descending section pipe 6; The water inlet end of lower frozen water temperature descending section pipe 6 is connected with the water side of upper cooling water temperature section pipe 3; On upper frozen water temperature descending section pipe 5 and lower frozen water temperature descending section pipe 6, be arranged with respectively frozen water temperature descending section sleeve pipe 51 and lower frozen water temperature descending section sleeve pipe 61; Upper frozen water temperature descending section sleeve pipe 51 and lower frozen water temperature descending section sleeve pipe 61 are connected by tube connector; Upper frozen water temperature descending section sleeve pipe 51 is connected with frozen water water inlet pipe 52; Lower frozen water temperature descending section sleeve pipe 61 is connected with frozen water outlet pipe 62.

On the utility model RO water water inlet pipe 12, running water water inlet pipe 13, cooling water inlet pipe 32, cooling water outlet pipe 42, frozen water water inlet pipe 52, frozen water outlet pipe 62, be equipped with a valve.

During use, the millet paste of 85-90 ° enters the lower heat-recovery section pipe 2 of flowing through successively, upper heat-recovery section pipe 1, lower cooling water temperature section pipe 4, upper cooling water temperature section pipe 3, lower frozen water temperature descending section pipe 6 from the water inlet end of lower heat-recovery section pipe 2, finally from upper frozen water temperature descending section pipe 5 water sides, flow out the cold tea of 20 ° or the green tea of 35-40 °, therebetween, heat-recovery section device place, the RO water of the running water of 20-25 ° and 20-25 ° enters the millet paste in heat-recovery section device is lowered the temperature from upper heat-recovery section sleeve pipe 11, and the water after cooling flows out and is separately used as him from hot water outlet 22; Cooling water temperature section apparatus place, the cooling water of 25 ° enters the millet paste in cooling water temperature section apparatus is cooled from upper cooling water temperature section sleeve pipe 31, and the water after cooling flows out from cooling water outlet pipe 42; Frozen water temperature descending section device place, the frozen water of 2 ° enters the millet paste in frozen water temperature descending section device is cooled from upper frozen water temperature descending section sleeve pipe 51, and the water after cooling flows out from frozen water outlet pipe 62.

The foregoing is only embodiment of the present utility model; not thereby limit the scope of the claims of the present utility model; every equivalent structure or conversion of equivalent flow process that utilizes the utility model description and accompanying drawing content to do; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (2)

1. a plate type heat exchanger, it is characterized in that: comprise heat-recovery section device, cooling water temperature section apparatus, frozen water temperature descending section device, described heat-recovery section device comprises heat-recovery section pipe (1) and lower heat-recovery section pipe (2), and the water side of described lower heat-recovery section pipe (2) is connected with the water inlet end of upper heat-recovery section pipe (1); On described upper heat-recovery section pipe (1) and lower heat-recovery section pipe (2), be arranged with respectively heat-recovery section sleeve pipe (11) and lower heat-recovery section sleeve pipe (21); Described upper heat-recovery section sleeve pipe (11) is connected with running water water inlet pipe (13) with RO water water inlet pipe (12); Described upper heat-recovery section sleeve pipe (11) is connected by tube connector with lower heat-recovery section sleeve pipe (21); Described lower heat-recovery section sleeve pipe (21) is provided with hot water outlet (22);

Described cooling water temperature section apparatus comprises cooling water temperature section pipe (3) and lower cooling water temperature section pipe (4), and the water inlet end of described lower cooling water temperature section pipe (4) is connected with the water side of upper heat-recovery section pipe (1); The water inlet end of described upper cooling water temperature section pipe (3) is connected with the water side of lower cooling water temperature section pipe (4); On described upper cooling water temperature section pipe (3) and lower cooling water temperature section pipe (4), be arranged with respectively cooling water temperature section sleeve pipe (31) and lower cooling water temperature section sleeve pipe (41); Described upper cooling water temperature section sleeve pipe (31) and lower cooling water temperature section sleeve pipe (41) are connected by tube connector; Described upper cooling water temperature section sleeve pipe (31) is connected with cooling water inlet pipe (32); Described lower cooling water temperature section sleeve pipe (41) is connected with cooling water outlet pipe (42);

Described frozen water temperature descending section device comprises frozen water temperature descending section pipe (5) and lower frozen water temperature descending section pipe (6), and the water inlet end of described upper frozen water temperature descending section pipe (5) is connected with the water side of lower frozen water temperature descending section pipe (6); The water inlet end of described lower frozen water temperature descending section pipe (6) is connected with the water side of upper cooling water temperature section pipe (3); On described upper frozen water temperature descending section pipe (5) and lower frozen water temperature descending section pipe (6), be arranged with respectively frozen water temperature descending section sleeve pipe (51) and lower frozen water temperature descending section sleeve pipe (61); Described upper frozen water temperature descending section sleeve pipe (51) and lower frozen water temperature descending section sleeve pipe (61) are connected by tube connector; Described upper frozen water temperature descending section sleeve pipe (51) is connected with frozen water water inlet pipe (52); Described lower frozen water temperature descending section sleeve pipe (61) is connected with frozen water outlet pipe (62).

2. a kind of plate type heat exchanger according to claim 1, is characterized in that: described RO water water inlet pipe (12), running water water inlet pipe (13), cooling water inlet pipe (32), cooling water outlet pipe (42), frozen water water inlet pipe (52), frozen water outlet pipe are equipped with a valve on (62).