CN211650854U - Air and water cooling composite energy-saving cooler - Google Patents

Abstract

The utility model discloses an air, compound energy-conserving cooler of water-cooling, including shell, first cooling tube, second cooling tube, air intake, air outlet, spiral feeder, cooling tube, discharge gate, water inlet and delivery port, the shell is that cavity is cylindric, is equipped with the certain distance between inside inner tube and shell and the inner tube of shell, and the both sides of shell are equipped with import lid and export lid, the spiral feeder sets up import department in the shell to rotate with the inner tube inside wall and be connected, the second cooling tube distributes between air intake and export lid, cloth is equallyd divide to first cooling tube and second cooling tube between shell and inner tube, the water inlet sets up export lid department on the shell, the delivery port sets up at the shell middle part, the discharge gate sets up on the export lid. The utility model discloses air, the compound energy-conserving cooler cooling area of water-cooling are big, and the cooling effect is good, and heat energy is recoverable, and easy operation practices thrift the cost.

Description

Air and water cooling composite energy-saving cooler

Technical Field

The utility model relates to a heat exchange equipment technical field mainly is applied to production fields such as metallurgy, chemical industry, oil, thermoelectricity, pitch, cement, in particular to compound energy-conserving cooler of air, water-cooling.

Background

In the metallurgical, chemical, petroleum, thermoelectric, bitumen, cement and other industries, the produced products or intermediate substances often need to be cooled, so that condensation is often required in production plants. The currently used coolers are mainly: stainless steel plate fin type, oil immersion type and shell and tube type. However, the stainless steel plate fin cooler has high welding cost and complex manufacturing process conditions, so that the production cost is high; the shell-and-tube heat transfer efficiency is poor, the cooling medium is single, the cooling area is small, the sealing is poor, and water leakage is easy to occur. There is a need to find a cooler that can solve the above problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a cooling area is big, and the cooling effect is good, and the water consumption is few, and heat energy is recoverable, airtight operation, the simple air of process, the compound energy-conserving cooler of water-cooling.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides an air, compound energy-conserving cooler of water-cooling, includes shell, first cooling tube, second cooling tube, air intake, air outlet, spiral feeder, cooling tube, discharge gate, water inlet and delivery port, the shell is the cavity cylindricly, and the shell is inside to be equipped with the certain distance between inner tube and shell and the inner tube, and the both sides of shell are equipped with import lid and export lid, spiral feeder sets up import department in the shell to rotate with the inner tube inside wall and be connected, the air intake sets up the middle part at the shell, the air outlet sets up the export lid department at the shell, first cooling tube distributes between air intake and import lid, the second cooling tube distributes between air intake and export lid, cloth is equallyd divide between shell and inner tube to first cooling tube and second cooling tube, the water inlet sets up export lid department on the shell, the delivery port sets up at the shell middle part, the discharge hole is arranged on the outlet cover.

Further, the first radiating pipe and the second radiating pipe are respectively distributed between the outer shell and the inner barrel side by side and arranged into a multilayer circular ring.

Further, the air intake has two, sets up the position that corresponds from top to bottom at the shell middle part, the air outlet has two, sets up respectively in the position with the same straight line of air intake, the space of delivery port setting between first cooling tube and second cooling tube.

Furthermore, the spiral feeder comprises a pushing rod and a pushing plug, the pushing rod is fixedly connected with the pushing plug, the pushing plug is located at the inlet of the inner cylinder and is arranged at the outlet, and the pushing rod is connected with the pushing plug and penetrates through the inlet cover to extend outwards.

Furthermore, the diameter of the pushing plug is consistent with that of the inner cylinder and can just slide in the inner cylinder, and the pushing rod is rotatably connected with the inlet cover in a spiral mode.

Further, the discharge port penetrates through the outlet cover to be communicated with the inside of the inner barrel, and a valve is arranged on the discharge port.

Furthermore, the air outlet and the air inlet, and the water outlet and the water inlet are respectively connected through a refrigerator, so that air in the outlet air or water in the water outlet is communicated into the refrigerator for cooling and then respectively enters the air inlet or the water inlet for recycling.

Further, a base is arranged below the shell, and the base is fixed by arranging two fixed supporting points on two sides of the cylindrical shell.

The utility model has the advantages that:

1. the air-water cooling composite energy-saving cooler adopts the air-water cooling composite cooling mode, not only reduces the water consumption, but also greatly enhances the cooling effect, and simultaneously can recycle the high-temperature hot gas generated after the cold air exchanges heat with the high-temperature material for other processes needing heat energy utilization in factories;

2. the high-temperature materials are in full contact with air and cooling water by generating convection under the propelling action of the screw feeder, so that the cooling time is short, the cooling area is large, and the heat exchange is uniform. (ii) a

3. According to the characteristic that the exhaust fan continuously works, air can be continuously pumped into the cooling system, the characteristic of continuous heat exchange between the air and hot materials is realized, and the cooling effect is improved;

more than synthesizing, the utility model discloses air, the compound energy-conserving cooler cooling area of water-cooling is big, and the cooling effect is good, and heat energy is recoverable, easy operation practices thrift the cost.

Drawings

FIG. 1 is a schematic structural view of an air-water cooling composite energy-saving cooler of the present invention;

FIG. 2 is a schematic structural diagram of the base of the present invention;

fig. 3 is a schematic cross-sectional structure diagram of the first radiating pipe distribution in the present invention;

in the specific embodiment, the casing 1, the first radiating pipe 2, the second radiating pipe 3, the air inlet 4, the air outlet 5, the screw feeder 6, the material pushing rod 61, the material pushing plug 62, the material outlet 8, the water inlet 9, the water outlet 10, the inner barrel 11, the inlet cover 12, the outlet cover 13 and the base 14.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is described in further detail. It should be understood, however, that these embodiments are provided so that this disclosure will be thorough and complete, and that many of the details set forth in this specification will be sufficient to provide a thorough understanding of one or more aspects of the present invention, even though these aspects of the invention may be practiced without these specific details.

Example 1

As shown in fig. 1, 2 and 3, an air-water cooling composite energy-saving cooler comprises a housing 1, a first radiating pipe 2, a second radiating pipe 3, an air inlet 4, an air outlet 5, a spiral feeder 6, a discharge port 8, a water inlet 9 and a water outlet 10, wherein the housing 1 is hollow and cylindrical, an inner cylinder 11 is arranged inside the housing 1, a certain distance is arranged between the housing 1 and the inner cylinder 11, a gap is reserved to form an annular space for placing the first radiating pipe 2 and the second radiating pipe 3, an inlet cover 12 and an outlet cover 13 are arranged on two sides of the housing 1, the spiral feeder 6 is arranged at an inlet in the housing 1 and is rotatably connected with the inner side wall of the inner cylinder 11, the air inlet 4 is arranged in the middle of the housing 1, the air outlet 5 is arranged at an outlet cover of the housing 1, the first radiating pipe 2 is distributed between the air inlet 4 and the inlet cover 12, the second radiating pipe 3 is distributed between the air inlet 4 and the, first cooling tube 2 and second cooling tube 3 evenly distributed between shell 1 and inner tube 11, water inlet 9 sets up export lid department on shell 1, delivery port 9 sets up at the shell middle part, discharge gate 8 sets up on export lid 13.

The first radiating pipe 2 and the second radiating pipe 3 are respectively distributed between the shell 1 and the inner cylinder 11 side by side and arranged into a multilayer circular ring; cold air enters the first radiating pipe 2 from the air inlet 4, the materials in the inner barrel 11 are pushed forward by the spiral feeder 6 to realize convection heat dissipation, cold water enters the second radiating pipe from the water inlet 9 and flows out from the water outlet 10 to realize convection with the opposite advancing direction of the materials, the number of the air inlets 4 is two, the two air outlets are arranged at the corresponding positions up and down in the middle of the shell 1, the number of the air outlets 5 is two and are respectively arranged at the positions on the same straight line with the air inlets 4, the water outlet 10 is arranged at the gap between the first radiating pipe 2 and the second radiating pipe 3,

the screw feeder 6 comprises a pushing rod 61 and a pushing plug 62, the pushing rod 61 is fixedly connected with the pushing plug 62, the pushing plug 62 is positioned at the inlet of the inner cylinder 11, the pushing rod 61 is connected with the pushing plug 62, and the middle of the pushing rod 61 penetrates through the inlet cover 12 to extend outwards; the diameter of the pushing plug 62 is consistent with that of the inner barrel 11 and can just slide in the inner barrel, and the pushing rod 61 and the inlet cover 12 are spirally and rotatably connected.

The discharge port 8 penetrates through the outlet cover 13 to be communicated with the interior of the inner barrel 11, and a valve is arranged on the discharge port 8; the air outlet 5 and the air inlet 4 and the water outlet 10 and the water inlet 9 are respectively connected through a refrigerator, air in the outlet air 5 or water in the water outlet 10 is communicated into the refrigerator to be cooled and then respectively enters the refrigerator to be recycled through the air inlet or the water inlet, an exhaust fan is further connected into the air outlet, air in the first radiating pipe is extracted to quickly replace cold air, a water pump is further arranged in the water outlet, and water in the second radiating pipe is extracted to be replaced by cold water to keep the radiating effect.

A base is provided below the housing 1, and the base 14 is fixed by providing two fixing points on both sides of the cylindrical housing.

The utility model discloses air, water-cooling compound energy-saving cooler theory of operation: when high-temperature materials enter an inner barrel of the cooler, the high-temperature materials are pushed forwards in the inner barrel by the spiral feeder, cold air is sucked into the air cooling pipe from the air inlet by the exhaust fan, heat exchange is carried out while convection is formed between the cold air and the high-temperature materials, and the materials cannot meet the cooling requirement after primary air cooling. But then the material continues to advance into the secondary water cooling system, at which time the material exchanges heat with the cold water in the cooling water pipes. Air and water are integrated to achieve the cooling purpose, the cooling requirement is met, and the material temperature can be controlled below 30 ℃. The cooling device has the advantages of large contact area, long contact time, good cooling effect and uniform material cooling, and can recycle high-temperature hot gas generated after the cold air and the high-temperature material are subjected to heat exchange, thereby being used for other processes needing heat energy utilization in factories.

The utility model discloses air, the compound energy-conserving cooler of water-cooling adopt air, the compound cooling method of water-cooling, have both reduced the quantity of water, have strengthened the cooling effect again greatly, can be simultaneously again with the high temperature steam that generates behind cold air and the high temperature material heat exchange, recycle for other processes that need heat utilization of mill.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (8)

1. The utility model provides an air, compound energy-conserving cooler of water-cooling which characterized in that: comprises a shell, a first radiating pipe, a second radiating pipe, an air inlet, an air outlet, a spiral feeder, a radiating pipe, a discharge hole, a water inlet and a water outlet, the shell is in a hollow cylindrical shape, an inner barrel is arranged in the shell, a certain distance is arranged between the shell and the inner barrel, an inlet cover and an outlet cover are arranged on two sides of the shell, the spiral feeder is arranged at an inlet in the shell, and is rotationally connected with the inner side wall of the inner cylinder, the air inlet is arranged in the middle of the shell, the air outlet is arranged at the outlet cover of the shell, the first radiating pipes are distributed between the air inlet and the inlet cover, the second radiating pipes are distributed between the air inlet and the outlet cover, first cooling tube and second cooling tube are equallyd divide and are distributed between shell and inner tube, the water inlet sets up export lid department on the shell, the delivery port sets up at the shell middle part, the discharge gate sets up on the export lid.

2. An air-water cooling composite energy-saving cooler according to claim 1, characterized in that: the first radiating pipe and the second radiating pipe are respectively distributed between the outer shell and the inner barrel in parallel and are arranged into a multilayer circular ring.

3. An air-water cooling composite energy-saving cooler according to claim 2, characterized in that: the air intake has two, sets up the position that corresponds from top to bottom at the shell middle part, the air outlet has two, sets up respectively in the position on the same straight line with the air intake, the space of delivery port setting between first cooling tube and second cooling tube.

4. An air-water cooling composite energy-saving cooler according to claim 1, characterized in that: the spiral feeder comprises a pushing rod and a pushing plug, the pushing rod is fixedly connected with the pushing plug, the pushing plug is located at the inlet of the inner cylinder and is arranged at the outlet, and the pushing rod is connected with the pushing plug and penetrates through the inlet cover to extend outwards.

5. An air-water cooling composite energy-saving cooler according to claim 4, characterized in that: the diameter of the pushing plug is consistent with that of the inner cylinder and can just slide in the inner cylinder, and the pushing rod is rotatably connected with the inlet cover in a spiral mode.

6. An air-water cooling composite energy-saving cooler according to claim 1, characterized in that: the discharge port penetrates through the outlet cover to be communicated with the interior of the inner barrel, and a valve is arranged on the discharge port.

7. An air-water cooling composite energy-saving cooler according to claim 1, characterized in that: the air outlet and the air inlet and the water outlet and the water inlet are respectively connected through a refrigerator, and air in the outlet air or water in the water outlet is communicated into the refrigerator to be cooled and then respectively enters the air inlet or the water inlet for recycling.

8. An air-water cooling composite energy-saving cooler according to claim 1, characterized in that: the base is arranged below the shell and fixed by arranging two fixed supporting points on two sides of the cylindrical shell.

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