CN215973552U - Water-cooling spiral discharging device - Google Patents

Abstract

The utility model provides a water-cooling spiral discharging device, which comprises a first cylinder, a second cylinder, a first spiral piece, a second spiral piece, a first driving piece and a second driving piece, the first cylinder body is provided with a feed inlet, the second cylinder body is provided with a discharge outlet, one end of the second cylinder body is rotatably connected with one end of the first cylinder body, the first screw part is rotatably arranged in the first cylinder body, the first driving part is connected with the first screw part to drive the first screw part to rotate and push materials to the second cylinder body, the second driving piece is connected with the second cylinder body to drive the second cylinder body to rotate, the second spiral piece is fixed in the second cylinder body and rotates along with the second cylinder body to push materials to move to the discharge hole, the first barrel is provided with a first cooling cavity, and the second barrel is provided with a second cooling cavity for respectively cooling the materials. The water-cooling spiral discharging device can well cool materials.

Description

Water-cooling spiral discharging device

Technical Field

The utility model relates to the field of processing, in particular to a water-cooling spiral discharging device.

Background

The cooling mode of the active carbon at present is roughly divided into two modes of air cooling and direct water cooling. The high-temperature active carbon is directly discharged and cooled in the air, so that the cooling time is long, and the hidden danger of safety accidents such as fire disasters is also caused; the high-temperature activated carbon is discharged into water and is directly cooled by water, so that the activated carbon is fished out of the water firstly, the subsequent drying problem needs to be considered, and the efficiency is low.

Disclosure of Invention

The embodiment of the utility model provides a water-cooling spiral discharging device, which at least solves the defects of air cooling and direct water cooling.

The embodiment of the utility model provides a water-cooling spiral discharging device, which comprises: first barrel, second barrel, first spiral, second spiral, first driving piece and second driving piece, first barrel is equipped with the feed inlet, the second barrel is equipped with the discharge gate, the one end of second barrel rotationally connect in first barrel one end, first spiral rotationally locates in the first barrel, first driving piece is connected first spiral is in order to drive first spiral rotates and propelling movement material extremely the second barrel, the second driving piece is connected the second barrel is in order to drive the second barrel rotates, the second spiral is fixed in the second barrel and follow the second barrel rotates and removes to the discharge gate with the propelling movement material, first barrel is equipped with first cooling chamber, the second barrel is equipped with the second cooling chamber in order to cool off respectively the material.

Furthermore, the water-cooling spiral discharging device also comprises a supporting piece, the supporting piece is used for supporting the second cylinder body, the supporting piece is provided with a water tank, and part of the second cylinder body extends into the water tank; a cooling pipe is arranged in the second cooling cavity, and two ends of the cooling pipe extend out of the second cylinder body; the cooling pipe is immersed into or removed from the water tank along with the rotation of the second cylinder, and when the cooling pipe is immersed into the water tank, cooling water in the water tank enters the cooling pipe; when the cooling pipe is moved out of the water tank, the cooling water in the cooling pipe flows out of the cooling pipe and falls into the water tank.

Further, the water-cooling spiral discharging device further comprises a water pipe, the water pipe is connected with the first cooling cavity and the water tank, the first cooling cavity is provided with a water inlet, and the water tank is provided with a water outlet, so that cooling water flows along the sequence of the water inlet, the first cooling cavity, the water pipe, the water tank and the water outlet.

Furthermore, the first barrel is provided with a first accommodating cavity, the first accommodating cavity is a cylinder and is axially arranged on the first barrel, the cross section of the first cooling cavity is a circular ring and is sleeved outside the first accommodating cavity, and the first cooling cavity is used for introducing cooling water to cool the material in the first accommodating cavity.

Furthermore, the second cylinder is provided with a second accommodating cavity which is a cylinder and is axially arranged in the second cylinder, the cross section of the second cooling cavity is a circular ring and is sleeved outside the second accommodating cavity, and a plurality of cooling pipes are arranged in the second cooling cavity and used for introducing cooling water to cool the material in the second accommodating cavity.

Advantageous effects

The water-cooling spiral discharging device is simple in structure and can effectively cool and push materials. According to the water-cooling spiral discharging device, the first cylinder, the second cylinder, the first spiral part and the second spiral part rotate separately, so that a fault point is avoided, and the equipment can run more reliably.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model and not to limit the utility model. In the drawings:

fig. 1 is a schematic perspective view of a water-cooled screw discharging device according to an embodiment of the present invention.

FIG. 2 is a schematic partial cross-sectional view of the water-cooled screw discharger of FIG. 1.

Fig. 3 is a sectional view of the water-cooled screw discharger of fig. 1.

The names of the parts represented by numbers or letters in the drawings are as follows:

100. a water-cooling spiral discharging device; 10. a first cylinder; 101. a feed inlet; 11. a first receiving cavity; 12. a first cooling chamber; 121. a water inlet; 20. a second cylinder; 201. a discharge port; 21. a second receiving cavity; 22. a second cooling chamber; 221. a cooling tube; 30. a first helical component; 40. a second helix; 50. a first driving member; 60. a second driving member; 70. a support member; 71. a water tank; 711. a water outlet; 80. a water pipe.

Detailed Description

The utility model will be described in detail hereinafter with reference to the accompanying drawings in conjunction with embodiments. It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

It should be noted that the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order.

Referring to fig. 1 to 3, an embodiment of the utility model provides a water-cooling spiral discharging device 100. The water-cooled screw discharging device 100 includes a first cylinder 10, a second cylinder 20, a first screw 30, a second screw 40, a first driving member 50, and a second driving member 60.

One end of the second cylinder 20 is rotatably connected to one end of the first cylinder 10. The first helical element 30 is rotatably disposed in the first barrel 10. The first driving member 50 is connected to the first screw 30 to drive the first screw 30 to rotate and push the material to the second cylinder 20. In this embodiment, the material is activated carbon, but is not limited thereto. The water-cooled spiral discharging device 100 is used for carbonizing and activating the activated carbon by cooling.

The first cylinder 10 is provided with a feed inlet 101 for feeding the material. The second cylinder 20 is provided with a discharge port 201 to discharge the material.

The second driving member 60 is connected to the second cylinder 20 to drive the second cylinder 20 to rotate. The second screw 40 is fixed in the second cylinder 20 and rotates with the second cylinder 20 to push the material.

In the illustrated embodiment, the first driving member 50 and the second driving member 60 are driven by a motor belt, but not limited thereto.

The first cylinder 10 is provided with a first accommodating cavity 11 and a first cooling cavity 12. The first receiving cavity 11 is a cylinder and is axially disposed at the center of the first cylinder 10. The cross section of the first cooling cavity 12 is a circular ring, and the first cooling cavity is sleeved outside the first accommodating cavity 11. The first cooling chamber 12 is used for introducing cooling water to cool the material in the first accommodating chamber 11. The cooling mode belongs to direct cooling.

The second cylinder 20 is provided with a second housing chamber 21 and a second cooling chamber 22. The second receiving cavity 21 is a cylinder and is axially disposed at the center of the second cylinder 20. The cross section of the second cooling cavity 22 is a circular ring, and the second cooling cavity is sleeved outside the second receiving cavity 21. A plurality of cooling pipes 221 are provided in the second cooling chamber 22. The cooling pipe 221 is used for introducing cooling water to cool the material in the second receiving cavity 21. This cooling mode belongs to indirect cooling.

The first accommodating cavity 11 is respectively communicated with the feed inlet 101 and the second accommodating cavity 21, and the second accommodating cavity 21 is also communicated with the discharge outlet 201. The material moves in the direction indicated by the hollow arrow in the figure, i.e. the direction of the feed inlet 101, the first accommodating cavity 11, the second accommodating cavity 21 and the discharge outlet 201.

Water-cooled screw discharge 100 also includes support 70. The support 70 is used to support the second cylinder 20. The support is provided with a water tank 71. The second cylinder 20 partially extends into the water tank 71. In this embodiment, volumes 1/3 through 1/2 of the second cylinder 20 are immersed in the water bath 71.

Both ends of the cooling pipe 221 are extended outside the second cylinder 20. As the second cylinder 20 rotates, the cooling pipe 221 is immersed in or removed from the water tank 71. When the cooling pipe 221 is immersed in the water tank 71, the cooling water in the water tank 71 enters the cooling pipe 221; when cooling pipe 221 moves out of water tank 71, the cooling water in cooling pipe 221 flows out of cooling pipe 221 and falls into water tank 71.

The water-cooled screw discharging device 100 further includes a water pipe 80. The water pipe 80 connects the first cooling chamber 12 and the water tank 71. The first cooling chamber 12 is provided with a water inlet 121. The water tank 71 is provided with a water outlet 711. So that the cooling water flows along the water inlet port 121, the first cooling chamber 12, the water pipe 80, the water tank 71, and the water outlet port 711 in this order (the solid arrows indicate the directions in the drawing).

The lengths of the first cylinder 10 and the second cylinder 20 are designed according to the raw material processing amount, so that the temperature of the discharged material reaches room temperature.

When the water-cooling spiral discharging device 100 is used: the material is placed in the feed port 101 and the first screw 30 pushes the material toward the second cylinder 20. The material is cooled in the first containing cavity 11 by the direct action of the cooling water in the first cooling cavity 12. After entering the second receiving cavity 21, the material is cooled by the indirect effect of the cooling water in the cooling pipe 221 in the second cooling cavity 22.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various 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 (5)

1. The utility model provides a water-cooling spiral discharging device which characterized in that includes: first barrel, second barrel, first spiral, second spiral, first driving piece and second driving piece, first barrel is equipped with the feed inlet, the second barrel is equipped with the discharge gate, the one end of second barrel rotationally connect in first barrel one end, first spiral rotationally locates in the first barrel, first driving piece is connected first spiral is in order to drive first spiral rotates and propelling movement material extremely the second barrel, the second driving piece is connected the second barrel is in order to drive the second barrel rotates, the second spiral is fixed in the second barrel and follow the second barrel rotates and removes to the discharge gate with the propelling movement material, first barrel is equipped with first cooling chamber, the second barrel is equipped with the second cooling chamber in order to cool off respectively the material.

2. The water-cooled screw discharge device according to claim 1, wherein: the water-cooling spiral discharging device also comprises a supporting piece, the supporting piece is used for supporting the second cylinder body, the supporting piece is provided with a water tank, and part of the second cylinder body extends into the water tank; a cooling pipe is arranged in the second cooling cavity, and two ends of the cooling pipe extend out of the second cylinder body; the cooling pipe is immersed into or removed from the water tank along with the rotation of the second cylinder, and when the cooling pipe is immersed into the water tank, cooling water in the water tank enters the cooling pipe; when the cooling pipe is moved out of the water tank, the cooling water in the cooling pipe flows out of the cooling pipe and falls into the water tank.

3. The water-cooled screw discharge device according to claim 2, wherein: the water-cooling spiral discharging device further comprises a water pipe, the water pipe is connected with the first cooling cavity and the water tank, the first cooling cavity is provided with a water inlet, and the water tank is provided with a water outlet, so that cooling water flows along the sequence of the water inlet, the first cooling cavity, the water pipe, the water tank and the water outlet.

4. The water-cooled screw discharge device according to claim 1, wherein: the first barrel is provided with a first accommodating cavity which is a cylinder and is axially arranged in the first barrel, the cross section of the first cooling cavity is a circular ring and sleeved outside the first accommodating cavity, and the first cooling cavity is used for introducing cooling water to cool materials in the first accommodating cavity.

5. The water-cooled screw discharge device according to claim 4, wherein: the second barrel is provided with a second accommodating cavity which is a cylinder and is axially arranged in the second barrel, the cross section of the second cooling cavity is a circular ring and sleeved outside the second accommodating cavity, a plurality of cooling pipes are arranged in the second cooling cavity, and the cooling pipes are used for introducing cooling water to cool materials in the second accommodating cavity.

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