CN209054985U - A kind of energy-saving heat exchange equipment - Google Patents

Abstract

The utility model discloses a kind of energy-saving heat exchange equipments, including bobbin carriage, the bobbin carriage left and right ends are fixedly installed with the first vent board, first vent board is fixedly connected by airstrainer with the second vent board, second vent board left end is fixedly connected with end socket, the bobbin carriage left and right ends are symmetrically connected with pipe nozzle, the first vent board middle inside is fixedly connected with impeller shaft, the impeller shaft both ends are cased with impeller, support tube is cased on the outside of the impeller shaft, the support tube is provided with venthole, the first finned tube and the second finned tube are wound on the outside of the support tube, reinforcing strip is plugged among first finned tube and the second finned tube.The utility model can filter the suspended matter in heat exchange air, reduce attachment on fin, accelerate the flowing of air in bobbin carriage by setting airstrainer, support tube and impeller, play heat exchange sufficiently, energy saving effect.

Description

A kind of energy-saving heat exchange equipment

Technical field

The utility model relates to field of heat exchange equipment, specially a kind of energy-saving heat exchange equipment.

Background technique

The equipment that heat exchange equipment makes heat be transmitted to cold fluid from hot fluid is known as heat exchange equipment, and heat exchange equipment is widely applied In oil refining, chemical industry, light industry, pharmacy, machinery, food processing, power and atomic energy industry department, usually can in production Such case is encountered, the heat transfer coefficient difference of two side liquid of heat exchanger partition is rather greatly different.At this moment it is contemplated that using fin tube type Heat exchanger, the installation of fin-tube heat exchanger must enable air to pass through from the depths between two fins, otherwise the gas between fin Cognition forms dead zone, keeps heat-transfer effect low, and if heat exchange is high-temperature flue gas etc., is usually mingled in such gas a large amount of Solid particulate matter or suspended matter, these dusts are liable to stick on fin or accumulate between fin, influence heat-transfer effect, because This, this finned tube exchanger needs periodically to shut down cleaning dust, influences normally to produce.For this purpose, it is proposed that a kind of energy-saving Heat exchange equipment.

Utility model content

It is mentioned above in the background art to solve the purpose of this utility model is to provide a kind of energy-saving heat exchange equipment Problem.

To achieve the above object, the utility model provides the following technical solutions: a kind of energy-saving heat exchange equipment, including pipe Case, the bobbin carriage left and right ends are fixedly installed with the first vent board, and first vent board has been bolted to connection Two vent boards, are equipped with airstrainer between first vent board and the second vent board, the second vent board outside is solid Surely it is connected with end socket, the end socket tail end is fixedly connected with inflating port, and upper and lower ends have been respectively fixedly connected on the left of the bobbin carriage First pipe nozzle and the second pipe nozzle, bobbin carriage right side upper and lower ends have been respectively fixedly connected with the second outlet spout and the first outlet pipe Mouthful, the first vent board middle inside is fixedly connected with support tube, and the support tube inner chamber is movably installed with leaf by bracket Wheel, the support tube side wall have uniformly opened venthole, and support tube outer end uniform winding has the first finned tube, and described first Finned tube outer end is evenly distributed with 6 reinforcing strips, and copper mesh is fixedly connected between the reinforcing strip, and the reinforcing strip outer end is uniform It is wound with the second finned tube, left and right ends are fixedly connected to support on the downside of the bobbin carriage.

Preferably, first pipe nozzle and the second pipe nozzle are respectively positioned on the inside of the first vent board, first outlet spout It is respectively positioned on the inside of the first vent board with the second outlet spout.

Preferably, the quantity of the impeller is 3, and impeller is evenly distributed on support tube inner chamber.

Preferably, the support tube right end is fixedly connected with the first vent board.

Preferably, the second finned tube head and the tail both ends extend through the first pipe nozzle and the first outlet spout, and described first Finned tube head and the tail both ends extend through the second pipe nozzle and the second outlet spout.

Compared with prior art, the utility model has the beneficial effects that this kind of energy-saving heat exchange equipment, by the way that air is arranged Filter screen can filter solid particulate matter or suspended matter in heat exchange air, reduce attachment on fin, ensure that heat transfer effect Fruit；By setting support tube, venthole, gasket and impeller, it can speed up the flowing of air in bobbin carriage, enable air to from two fins Between depths pass through, play heat exchange sufficiently, improve heat transfer efficiency, achieved the effect that energy-efficient.

Detailed description of the invention

Fig. 1 is the utility model structural section figure；

Fig. 2 is the utility model reinforcing strip main view.

In figure: 1 bobbin carriage, 2 first pipe nozzles, 21 first outlet spouts, 3 second pipe nozzles, 31 second outlet spouts, 4 first wings Piece pipe, 41 second finned tubes, 5 first vent boards, 51 second vent boards, 6 airstrainers, 7 inflating ports, 9 impellers, 10 supports Cylinder, 11 ventholes, 12 reinforcing strips, 121 copper mesh, 13 supports, 14 end sockets.

Specific embodiment

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without making creative work Every other embodiment obtained, fall within the protection scope of the utility model.

The utility model provides a kind of technical solution referring to FIG. 1-2: a kind of energy-saving heat exchange equipment, including bobbin carriage 1, 1 left and right ends of bobbin carriage are fixedly installed with the first vent board 5, and first vent board 5 has been bolted to connection Two vent boards 51 are equipped with airstrainer 6, the airstrainer 6 between first vent board 5 and the second vent board 51 For filtering solid particulate matter or suspended matter in gas, make the wing on the first finned tube 4 and the second finned tube 41 in bobbin carriage 1 Piece is not easy to accumulate dust, will not influence heat-transfer effect, end socket 14, the end socket are fixedly connected on the outside of second vent board 51 14 tail ends are fixedly connected with inflating port 7,14 tail end of end socket and 7 orifice of inflating port, and gas flows into use from inflating port 7 The heat exchange of gas or liquid in the first finned tube 4 and the second finned tube 41, the 1 left side upper and lower ends of bobbin carriage are fixed respectively It is connected with the first pipe nozzle 2 and the second pipe nozzle 3, the 1 right side upper and lower ends of bobbin carriage have been respectively fixedly connected with the second outlet spout 31 and first outlet spout 21, the gas or liquid of heat exchange and the gas or liquid that are exchanged heat need to enter pipe from different directions Case, 5 middle inside of the first vent board are fixedly connected with support tube 10, and 10 inner cavity of support tube is installed by bracket activity There is impeller 9, the impeller 9 can accelerate the flowing of the gas in bobbin carriage 1, enable gas air easily from the first finned tube 4 Depths between 41 liang of fins of the second finned tube passes through, and improves heat-transfer effect, 10 side wall of support tube has uniformly been opened logical Stomata 11, the support tube 10 is used to support the first finned tube 4 and the second finned tube 41, and makes its winding, increases finned tube Length saves space, can speed heat exchange efficiency, reaches energy-efficient effect, and the venthole 11 circulates for gas, Neng Gougeng It is adequately exchanged heat using gas, the 10 outer end uniform winding of support tube has the first finned tube 4, first finned tube 4 Outer end is evenly distributed with 6 reinforcing strips 12, and the reinforcing strip 12 facilitates the second finned tube 41 for fixing the first finned tube 4 Winding, prevents its sliding, and the first finned tube 4 and the second finned tube 41 are separated, while will not influence the circulation of recuperated gas, Heat exchange efficiency is improved, copper mesh 121 is fixedly connected between the reinforcing strip 12, the copper mesh 121 plays circulated gases, increases The effect of thermal conductivity is provided with hole on the copper mesh 121, the first finned tube 4 can be allowed to pass through, 12 outer end of reinforcing strip uniformly twines It is wound with the second finned tube 41, the 1 downside left and right ends of bobbin carriage are fixedly connected to support 13, first pipe nozzle 2 and Two pipe nozzles 3 are respectively positioned on 5 inside of the first vent board, and first outlet spout 21 and the second outlet spout 31 are respectively positioned on the first vent board 5 insides, the quantity of the impeller 9 are 3, and impeller 9 is evenly distributed on 10 inner cavity of support tube, 10 right end of support tube and the One vent board 5 is fixedly connected, and the 41 head and the tail both ends of the second finned tube extend through the first pipe nozzle 2 and the first outlet spout 21, First finned tube, the 4 head and the tail both ends extend through the second pipe nozzle 3 and the second outlet spout 31.

Working principle:

Firstly, recuperated gas is filled with end socket 14 from the inflating port 7 of right end, by the first vent board 5 and the second vent board Airstrainer 6 among 51 is filled in bobbin carriage 1, is rotated into the gas impeller 9 in bobbin carriage 1, to accelerate in bobbin carriage 1 Gas flowing.

Then, the gas converted or liquid will be needed to separately flow into pipe from the first pipe nozzle 2 of left end and the second pipe nozzle 3 The first outlet spout in the second finned tube 41 and the first finned tube 4 in case 1, into after the gas converting heat crossed in bobbin carriage 1, from the right 21 and second flow out in outlet spout 31.

Finally, continuing above-mentioned heat transfer process, exchange heat.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (5)

1. a kind of energy-saving heat exchange equipment, including bobbin carriage (1), it is characterised in that: bobbin carriage (1) left and right ends are fixedly mounted Have the first vent board (5), first vent board (5) has been bolted to connection the second vent board (51), and described first is logical It is equipped between gas plate (5) and the second vent board (51) airstrainer (6), is fixedly connected on the outside of second vent board (51) Have end socket (14), end socket (14) tail end is fixedly connected with inflating port (7), and upper and lower ends are solid respectively on the left of the bobbin carriage (1) Surely the first pipe nozzle (2) and the second pipe nozzle (3) are connected with, upper and lower ends have been respectively fixedly connected with the on the right side of the bobbin carriage (1) Two outlet spouts (31) and the first outlet spout (21), the first vent board (5) middle inside are fixedly connected with support tube (10), institute It states support tube (10) inner cavity to be movably installed with impeller (9) by bracket, support tube (10) side wall has uniformly opened venthole (11), support tube (10) outer end uniform winding has the first finned tube (4), and the first finned tube (4) outer end is uniformly distributed There are 6 reinforcing strips (12), be fixedly connected with copper mesh (121) between the reinforcing strip (12), reinforcing strip (12) outer end is uniform It is wound with the second finned tube (41), left and right ends are fixedly connected to support (13) on the downside of the bobbin carriage (1).

2. a kind of energy-saving heat exchange equipment according to claim 1, it is characterised in that: first pipe nozzle (2) and Two pipe nozzles (3) are respectively positioned on the inside of the first vent board (5), and first outlet spout (21) and the second outlet spout (31) are respectively positioned on the On the inside of one vent board (5).

3. a kind of energy-saving heat exchange equipment according to claim 1, it is characterised in that: the quantity of the impeller (9) is 3 It is a, and impeller (9) is evenly distributed on support tube (10) inner cavity.

4. a kind of energy-saving heat exchange equipment according to claim 1, it is characterised in that: support tube (10) right end and One vent board (5) is fixedly connected.

5. a kind of energy-saving heat exchange equipment according to claim 1, it is characterised in that: the second finned tube (41) head and the tail Both ends extend through the first pipe nozzle (2) and the first outlet spout (21), and the first finned tube (4) head and the tail both ends extend through Two pipe nozzles (3) and the second outlet spout (31).