CN211660482U - High-efficient cooling and screening all-in-one machine - Google Patents

Abstract

The utility model provides a pair of high-efficient cooling and screening all-in-one, including screening plant and cooling device, screening plant includes the screening barrel, screening barrel top is equipped with the feed inlet, the feed inlet is equipped with the shield, screening barrel bottom is equipped with first discharge gate, be equipped with first valve in the first discharge gate, multilayer shale shaker has been arranged by last under to in proper order in the screening barrel, the sieve mesh of shale shaker reduces by last under to in proper order, be equipped with multiunit drive assembly on the screening barrel, multiunit drive assembly and multilayer shale shaker one-to-one ground drive connection are with the shale shaker vibration of drive correspondence, the screening barrel all is equipped with the second discharge gate that supplies this shale shaker ejection of compact with every layer of shale shaker correspondence department, be equipped with the second valve in the second discharge gate, cooling device includes the air-cooled fan, air-cooled fan and screening barrel bottom one side intercommunication, screening barrel top. The utility model discloses can cool off and sieve the haydite simultaneously, effective save time improves work efficiency.

Description

High-efficient cooling and screening all-in-one machine

Technical Field

The utility model relates to a haydite production manufacture equipment technical field, concretely relates to high-efficient cooling screening all-in-one.

Background

After 60 years of research, production and application, the ultralight ceramsite is widely applied and can consume a large amount of solid wastes. In order to meet the requirements of different purposes and give full play to the performance of the product, the ultralight ceramsite must be screened and then used in a grading manner. At the present stage, the ultra-light ceramsite is measured by volume, usually manually, and the harvest dispute is often caused, so the ceramsite screening link is very important.

The existing ceramsite production process generally comprises the steps of feeding roasted ceramsite into a cooling machine for complete cooling and then screening, and the whole process is long in time and low in efficiency.

SUMMERY OF THE UTILITY MODEL

Based on the technical problem that the background art exists, the utility model provides a high-efficient cooling screening all-in-one.

The utility model provides a high-efficiency cooling and screening integrated machine, which comprises a screening device and a cooling device;

the screening device comprises a screening barrel, a feed inlet is formed in the top of the screening barrel, a dustproof cover is arranged on the feed inlet, a first discharge port is formed in the bottom of the screening barrel, and a first valve is arranged in the first discharge port;

a plurality of layers of vibrating screens are sequentially arranged in the screening cylinder from top to bottom, and the screen holes of the vibrating screens are sequentially reduced from top to bottom;

a plurality of groups of driving assemblies are arranged on the screening cylinder body, and the plurality of groups of driving assemblies are in one-to-one driving connection with the plurality of layers of vibrating screens so as to drive the corresponding vibrating screens to vibrate;

a second discharge port for discharging the vibrating screen is formed in the corresponding position of the screening cylinder body and each layer of vibrating screen, and a second valve is arranged in the second discharge port;

the cooling device comprises an air cooling fan, the air cooling fan is communicated with one side of the bottom of the screening cylinder, and an air outlet is formed in one side of the top of the screening cylinder.

Preferably, the multilayer vibrating screens are all obliquely arranged, the inclination angles of the vibrating screens are sequentially increased from top to bottom, and the second discharge port is formed in the screening barrel on the lower side of the vibrating screens.

Preferably, the position of the second discharge port corresponding to the vibrating screen at the top is slightly higher than the connection position of the vibrating screen and the screening cylinder.

Preferably, still include waste heat recovery device, the air outlet passes through the pipeline and waste heat recovery device intercommunication.

Preferably, the number of vibrating screens is 2-4 layers.

Preferably, the second discharge hole is provided with a discharge bin, and the discharge bin hole is in a chute shape.

Preferably, the cooling device further comprises a fan bracket, and the air cooling fan is mounted on the fan bracket.

Preferably, the driving assembly comprises a vibration motor, a damping spring, a connecting rod, a lower heavy hammer and a bracket;

the support mounting is on screening barrel lateral wall, and vibrating motor installs in the support bottom, and damping spring sets up between vibrating motor and support, and vibrating motor's bottom and lower part weight fixed connection, the connecting rod is connected in the vibrating motor drive, and the connecting rod other end runs through screening barrel lateral wall and is articulated with the shale shaker that corresponds. .

Compared with the prior art, the utility model discloses following beneficial effect has:

(1) the sieving device and the cooling device are communicated to simultaneously cool and sieve the ceramsite, so that the time can be effectively saved, and the working efficiency is improved.

(2) The multi-layer vibrating screen can divide the ceramsite into multiple stages, so that the screening efficiency is improved, the multi-group driving assemblies are in one-to-one driving connection with the multi-layer vibrating screen, the driving assemblies can set specific vibration frequency and vibration intensity according to the specific conditions of the ceramsite to be screened by the multi-layer vibrating screen, and the screening efficiency and the screening quality are improved.

Drawings

Fig. 1 is the utility model provides a structural schematic diagram of high-efficient cooling and screening all-in-one machine.

Detailed Description

Referring to fig. 1, the utility model provides a high-efficiency cooling and screening integrated machine, which comprises a screening device and a cooling device;

the screening device comprises a screening cylinder body 2, a feed inlet is formed in the top of the screening cylinder body 2, a dustproof cover is arranged on the feed inlet, a first discharge outlet is formed in the bottom of the screening cylinder body 2, and a first valve 11 is arranged in the first discharge outlet;

the screening cylinder 2 is internally provided with a plurality of layers of vibrating screens 1 from top to bottom in sequence, and the screen holes of the vibrating screens 1 are reduced from top to bottom in sequence;

a plurality of groups of driving assemblies are arranged on the screening cylinder 2, and the plurality of groups of driving assemblies are in one-to-one corresponding driving connection with the plurality of layers of vibrating screens 1 to drive the corresponding vibrating screens 1 to vibrate;

a second discharge port for discharging the vibrating screen 1 is formed in the corresponding position of the screening cylinder 2 and each layer of vibrating screen 1, and a second valve is arranged in the second discharge port;

the cooling device comprises an air cooling fan 9, the air cooling fan 9 is communicated with one side of the bottom of the screening cylinder body 2, and an air outlet is formed in one side of the top of the screening cylinder body 2.

The utility model discloses when specifically using, will close first valve 11, second valve, pour the haydite into screening barrel 2 from the feed inlet in, cover the shield, start air-cooled fan 9 and drive assembly, sieve in the refrigerated. In the operation process, cold air generated by the air cooling fan 9 enters the screening cylinder 2 from one side of the bottom of the screening cylinder 2, the cold air is changed into hot air through heat exchange in the process of contacting with the ceramsite and moves upwards to be discharged from the air outlet, and the ceramsite moves downwards under the action of gravity to finish cooling and screening. After cooling is completed, the second valve and the first valve 11 are opened, and the driving assembly continues to work so that the vibrating screen 1 can vibrate for discharging.

The utility model can cool and screen the ceramsite through the screening device and the cooling device simultaneously, thereby effectively saving time and improving working efficiency; the ceramsite can be divided into multiple stages through the multilayer vibrating screen 1, so that the screening efficiency is improved; and through the one-to-one driving connection of the multiple groups of driving assemblies and the multilayer vibrating screen 1, the driving assemblies can set specific vibration frequency and vibration intensity according to the specific conditions of the ceramsite to be screened by the multilayer vibrating screen 1, and the screening efficiency and the screening quality are improved.

Because the temperature of the vibrating screen 1 close to the air cooling fan 9 is lower, and the cooling efficiency of the vibrating screen 1 is sequentially increased from top to bottom, in order to improve the cooling efficiency of the ceramsite of different vibrating screens 1, in the specific implementation mode, the multiple layers of vibrating screens 1 are obliquely arranged, and the inclination angle of the vibrating screen 1 is sequentially increased from top to bottom. When the inclination angle is increased, the throwing strength of the materials on the vibrating screen 1 is increased, the contact time with cold air is increased, and the cooling efficiency is improved.

In actual use, the number of layers of the vibrating screen 1 is 3, a first layer of vibrating screen, a second layer of vibrating screen and a third layer of vibrating screen are arranged on one side from top to bottom, the first layer of vibrating screen is inclined at a small angle, the angle is about 3-4 degrees, the inclination angle of the second layer of vibrating screen is slightly larger than that of the first layer of screen, the inclination angle is about 4-5 degrees, and the inclination angle of the third layer of vibrating screen is 5-6 degrees.

When the vibrating screen is used, the inclination angle of the vibrating screen 1 at the top is smaller, the passing speed of the ceramsite is reduced by the screen surface with the small inclination angle, and then a material layer with a certain thickness is formed on the screen surface, the cooling efficiency of the vibrating screen 1 is lower, and in order to enable the ceramsite on the vibrating screen 1 to be sufficiently vibrated for cooling and screening, in a further specific embodiment, the position of the second discharge hole corresponding to the vibrating screen 1 at the top is slightly higher than the connecting part of the vibrating screen 1 and the screening cylinder 2. As the driving component drives the vibrating screen 1 to vibrate, the ceramsite has more than one time of passing through the vibrating screen 1.

In order to save energy, in a specific embodiment, the air conditioner further comprises a waste heat recovery device, and the air outlet is communicated with the waste heat recovery device through a pipeline.

When in actual use, a filter screen is arranged in the air outlet.

In order to guarantee both the sieving effect and the cooling effect, the number of vibrating sieves 1 is 2-4 layers in the specific embodiment. In actual use, the number of the vibrating screen 1 is 3 layers.

In order to facilitate discharging of the screened ceramsite, in a specific embodiment, the second discharging hole is provided with a discharging bin 3, and holes of the discharging bin 3 are in a chute shape.

In actual use, the cooling device further comprises a fan bracket 10, and the air cooling fan 9 is installed on the fan bracket 10.

In order to facilitate driving the vibrating screen 1 to vibrate, in a specific embodiment, the driving assembly comprises a vibrating motor 5, a damping spring 6, a connecting rod 8, a lower heavy hammer 7 and a bracket 4;

support 4 installs on 2 lateral walls of screening barrel, and vibrating motor 5 installs in support 4 bottoms, and damping spring 6 sets up between vibrating motor 5 and support 4, vibrating motor 5's bottom and lower part weight 7 fixed connection, and connecting rod 8 is connected in the drive of vibrating motor 5, and the connecting rod 8 other end runs through 2 lateral walls of screening barrel and is articulated with corresponding shale shaker 1.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (8)

1. An efficient cooling and screening integrated machine is characterized by comprising a screening device and a cooling device;

the screening device comprises a screening cylinder (2), a feed inlet is formed in the top of the screening cylinder (2), a dustproof cover is arranged at the feed inlet, a first discharge outlet is formed in the bottom of the screening cylinder (2), and a first valve (11) is arranged in the first discharge outlet;

a plurality of layers of vibrating screens (1) are sequentially arranged in the screening cylinder body (2) from top to bottom, and the screen holes of the vibrating screens (1) are sequentially reduced from top to bottom;

a plurality of groups of driving assemblies are arranged on the screening cylinder body (2), and the plurality of groups of driving assemblies are in one-to-one driving connection with the plurality of layers of vibrating screens (1) so as to drive the corresponding vibrating screens (1) to vibrate;

a second discharge port for discharging the vibrating screen (1) is formed in the corresponding position of the screening cylinder (2) and each layer of vibrating screen (1), and a second valve is arranged in the second discharge port;

the cooling device comprises an air cooling fan (9), the air cooling fan (9) is communicated with one side of the bottom of the screening cylinder body (2), and an air outlet is formed in one side of the top of the screening cylinder body (2).

2. The efficient cooling and screening all-in-one machine is characterized in that the multiple layers of vibrating screens (1) are arranged in an inclined mode, the inclined angles of the vibrating screens (1) are sequentially increased from top to bottom, and the second discharge port is formed in the screening cylinder (2) on the lower side of the vibrating screens (1).

3. An efficient cooling and screening all-in-one machine as claimed in claim 2, wherein the position of the second discharge port corresponding to the vibrating screen (1) at the top is slightly higher than the connection position of the vibrating screen (1) and the screening cylinder (2).

4. The integrated high-efficiency cooling and screening machine according to claim 1, further comprising a waste heat recovery device, wherein the air outlet is communicated with the waste heat recovery device through a pipeline.

5. An efficient cooling and screening all-in-one machine as claimed in claim 1, characterized in that the number of vibrating screens (1) is 2-4 layers.

6. The integrated machine for cooling and screening of the high-efficiency machines according to claim 1 is characterized in that the second discharge port is provided with a discharge bin (3), and holes of the discharge bin (3) are in a shape of a scraper-trough conveyer.

7. An efficient cooling and screening all-in-one machine as claimed in claim 1, wherein the cooling device further comprises a fan bracket (10), and the air cooling fan (9) is installed on the fan bracket (10).

8. The integrated machine as claimed in any one of claims 1 to 7, wherein the driving assembly comprises a vibration motor (5), a damping spring (6), a connecting rod (8), a lower weight (7) and a bracket (4);

support (4) are installed on screening barrel (2) lateral wall, and install in support (4) bottom vibrating motor (5), and damping spring (6) set up between vibrating motor (5) and support (4), the bottom and lower part weight (7) fixed connection of vibrating motor (5), and connecting rod (8) are connected in vibrating motor (5) drive, and connecting rod (8) other end runs through screening barrel (2) lateral wall and is articulated with corresponding shale shaker (1).

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