CN219511178U - Quick drying device that wall body insulation material used - Google Patents

Abstract

The utility model discloses a rapid drying device for wall heat-insulating materials, which relates to the technical field of material drying and comprises a mounting table, wherein a drying cavity is arranged on the mounting table, a sliding inclined plate is obliquely arranged in the drying cavity, a feeding part communicated with the top of the sliding inclined plate is arranged on the mounting table, a net-shaped inclined plate is arranged at the bottom of the sliding inclined plate, the net-shaped inclined plate and the sliding inclined plate are positioned on the same plane, and a hot air part is connected to the mounting table; when the heat-insulating material drying box is used, the heat-insulating material moves onto the sliding inclined plate, the heat-insulating material slides onto the net-shaped inclined plate along the sliding inclined plate, the air inlet sleeve is driven by the hot air blowers to introduce hot air into the drying box, the hot air flow blows from the lower part of the net-shaped inclined plate to the net-shaped inclined plate, so that the heat-insulating material on the net-shaped inclined plate is blown, and the hot air can fully contact with the heat-insulating material through a net opening on the net-shaped inclined plate, so that the drying efficiency of the heat-insulating material is improved.

Description

Quick drying device that wall body insulation material used

Technical Field

The utility model relates to the technical field of material drying, in particular to a rapid drying device for a wall thermal insulation material.

Background

In the existing heat-insulating material drying device, as disclosed in patent application publication number CN112856999A, a first conveying belt, a second conveying belt, a third conveying belt, a baffle and a turning plate are arranged, so that in the drying process, the heat-insulating material is turned over along with the movement of the first conveying belt, the second conveying belt and the third conveying belt, and the contact time and the contact area of the heat-insulating material and the air in a box body are increased by the turning plate, thereby realizing the drying effect on the heat-insulating material and further improving the drying efficiency of the device; namely, the drying efficiency is improved by increasing the contact time between the heat insulation material and the air in the box body;

in the above application documents, although the drying effect of the heat insulation material can be improved, the drying efficiency is slower, and the heat insulation material is not suitable for the requirement of quick drying of the heat insulation material. Therefore, we provide a quick drying device for wall heat insulation materials.

Disclosure of Invention

The utility model aims to provide a quick drying device for a wall thermal insulation material.

The technical problems solved by the utility model are as follows: in the existing heat-insulating material drying device, although the drying effect of the heat-insulating material can be improved, the drying efficiency is low, and the heat-insulating material drying device is not applicable to the problem of the quick drying requirement of the heat-insulating material.

The utility model can be realized by the following technical scheme: the utility model provides a quick drying device that wall body insulation material used, includes the mount table, is equipped with the stoving chamber on the mount table, and stoving intracavity slope is provided with the slip swash plate, is equipped with the feeding piece with slip swash plate top intercommunication on the mount table, and the bottom of slip swash plate is equipped with netted swash plate to netted swash plate is in on the coplanar with the slip swash plate, is connected with hot-blast spare on the mount table, and hot-blast spare is located below one side of netted swash plate.

The utility model further technically improves that: the mounting table is provided with a rotating box, the rotating box is positioned on one side of the drying cavity away from the hot air piece, a rotating piece is arranged in the rotating box, and a discharging piece is arranged at the bottom of the rotating box.

The utility model further technically improves that: the rotating piece comprises a rotating shaft, the rotating shaft is rotationally connected to the rotating box, a plurality of rotating screen plates are arranged outside the rotating shaft, and a driving motor for driving the rotating screen plates to rotate is arranged on the mounting table.

The utility model further technically improves that: the discharging piece comprises a discharging box, a discharging channel is arranged on the mounting table and is communicated with the bottom of the rotating box, the discharging channel is arranged in a downward inclined mode along the initial end of the rotating box, the discharging box is mounted on the mounting table, and the discharging box is communicated with the discharging channel at one end far away from the rotating box.

The utility model further technically improves that: the charging member comprises a charging roller, a charging groove is arranged on the mounting table, the charging groove is arranged along the top of the sliding inclined plate, the charging roller is rotationally connected in the charging groove, a charging plate is arranged on the outer side of the charging roller, the charging plate and the charging groove are in interference fit, and a charging motor for driving the charging roller to rotate is arranged on the mounting table.

The utility model further technically improves that: one side of the feeding groove, which is far away from the sliding inclined plate, is provided with a guide plate.

The utility model further technically improves that: the hot air piece comprises an air inlet sleeve and a plurality of hot air blowers, the air inlet sleeve is arranged on one side of the installation table, the air inlet sleeve is communicated with the drying cavity, and the plurality of hot air blowers are arranged on the air inlet sleeve.

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

(1) When the device is used, the heat-insulating material moves to the sliding inclined plate, the heat-insulating material slides to the net-shaped inclined plate along the sliding inclined plate, the air inlet sleeve is driven by the hot air blowers to introduce hot air into the drying box, the hot air flow blows from the lower part of the net-shaped inclined plate to the net-shaped inclined plate, so that the heat-insulating material on the net-shaped inclined plate is blown, and the hot air can fully contact with the heat-insulating material through a net opening on the net-shaped inclined plate, so that the drying efficiency of the heat-insulating material is improved;

(2) The rotating shaft and a plurality of rotating screen plates outside the rotating shaft are driven by the driving motor to rotate, the rotating box is divided into a plurality of small spaces by the plurality of rotating screen plates, and hot air flows can pass through meshes on the rotating screen plates, so that heat insulation materials in each small space can be fully contacted with the hot air flows, and the drying effect and the drying efficiency of the heat insulation materials are further improved;

(3) The feeding motor drives the feeding roller and the feeding plate to rotate, so that the heat insulation material in the feeding groove is driven to move, the heat insulation material is driven to move to the sliding inclined plate, and the automatic feeding process is completed; when the heat preservation material reaches the discharging channel through the rotating box, the heat preservation material continuously slides along the discharging channel and finally slides into the discharging box, and the dried heat preservation material is automatically collected.

Drawings

The present utility model is further described below with reference to the accompanying drawings for the convenience of understanding by those skilled in the art.

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a perspective view showing a removed state of a sealing cover according to the present utility model;

FIG. 3 is a schematic view showing the connection state of the rotary box and the discharging channel of the present utility model;

FIG. 4 is a schematic side view of a rotary screen according to the present utility model.

In the figure: 1. a mounting table; 2. a sliding sloping plate; 3. a mesh-shaped sloping plate; 4. a rotating box; 5. a rotating shaft; 6. rotating the screen plate; 7. a discharging box; 8. a discharge channel; 9. a feeding roller; 10. feeding a trough; 11. a loading plate; 12. a feeding motor; 13. a material guide plate; 14. an air inlet sleeve; 15. an air heater; 16. sealing cover.

Detailed Description

In order to further describe the technical means and effects adopted by the utility model for achieving the preset aim, the following detailed description is given below of the specific implementation, structure, characteristics and effects according to the utility model with reference to the attached drawings and the preferred embodiment.

Referring to fig. 1-4, the utility model provides a quick drying device for wall insulation materials, which comprises a mounting table 1, wherein a drying cavity is arranged on the mounting table 1, a sliding inclined plate 2 is obliquely arranged in the drying cavity, a feeding part communicated with the top of the sliding inclined plate 2 is arranged on the mounting table 1, a net-shaped inclined plate 3 is arranged at the bottom of the sliding inclined plate 2, the net-shaped inclined plate 3 and the sliding inclined plate 2 are positioned on the same plane, a hot air part is connected to the mounting table 1, and the hot air part is positioned at one side below the net-shaped inclined plate 3; the feeding piece drives the heat insulation material to be fed onto the sliding inclined plate 2, the heat insulation material slides onto the net-shaped inclined plate 3 along the sliding inclined plate 2, and then the hot air piece drives the hot air flow to blow from the lower part of the net-shaped inclined plate 3 to the net-shaped inclined plate 3, so that the heat insulation material on the net-shaped inclined plate 3 is blown, and the hot air can fully contact with the heat insulation material through a net opening on the net-shaped inclined plate 3, so that the drying efficiency of the heat insulation material is improved;

the mounting table 1 is provided with a rotating box 4, the rotating box 4 is positioned on one side of the drying cavity away from the hot air piece, a rotating piece is arranged in the rotating box 4, and a discharging piece is arranged at the bottom of the rotating box 4. When the hot air piece drives the hot air flow to dry the heat insulation material on the mesh-shaped inclined plate 3, the hot air flow drives the heat insulation material to move together, so that the heat insulation material moves along the rotating box 4, and the discharging process of the heat insulation material is performed along the discharging piece.

Specifically, the rotating member comprises a rotating shaft 5, the rotating shaft 5 is rotationally connected to the rotating box 4, a plurality of rotating screen plates 6 are arranged outside the rotating shaft 5, and a driving motor for driving the rotating screen plates 6 to rotate is arranged on the mounting table 1. The rotating shaft 5 and a plurality of external rotating screen plates 6 are driven by the driving motor to rotate, the rotating screen plates 6 divide the rotating box 4 into a plurality of small spaces, and hot air flows can pass through meshes on the rotating screen plates 6, so that heat preservation materials in each small space can be fully contacted with the hot air flows, and the drying effect of the heat preservation materials is improved.

The discharging piece includes discharging case 7, is equipped with discharging channel 8 on the mount table 1 to discharging channel 8 communicates with the bottom of rotating case 4, and discharging channel 8 sets up along rotating case 4's initial end downward sloping, and discharging case 7 is installed on mount table 1, and discharging case 7 and discharging channel 8 keep away from the one end intercommunication of rotating case 4. When the heat preservation material reaches the discharging channel 8 through the rotating box 4, the heat preservation material slides to the discharging box 7 through the obliquely arranged discharging channel 8 and finally slides into the discharging box 7, and the collection of the heat preservation material is completed.

Specifically, the feeding piece includes loading roller 9, is equipped with material loading groove 10 on the mount table 1 to material loading groove 10 sets up along the top of slip swash plate 2, and in the material loading groove 10 was connected in the rotation of loading roller 9, the outside of loading roller 9 was equipped with loading plate 11, and loading plate 11 carries out interference fit with material loading groove 10, is equipped with on the mount table 1 and drives loading roller 9 and carry out pivoted material loading motor 12. Placing the heat-insulating material into a feeding groove 10, driving a feeding roller 9 and a feeding plate 11 to rotate through a feeding motor 12, so as to drive the heat-insulating material in the feeding groove 10 to move, and driving the heat-insulating material to move onto a sliding inclined plate 2, thereby completing the feeding process of the heat-insulating material; meanwhile, the feeding plate 11 only drives part of the heat insulation materials to be fed every time, so that the problems that excessive feeding of the heat insulation materials and influence on the drying effect of the heat insulation materials are avoided.

The side of the feeding groove 10 away from the sliding inclined plate 2 is provided with a guide plate 13. The thermal insulation material is added into the upper trough 10 through the material guide plate 13.

The hot air piece comprises an air inlet sleeve 14 and a plurality of air heaters 15, wherein the air inlet sleeve 14 is arranged on one side of the installation table 1, the air inlet sleeve 14 is communicated with the drying cavity, and the air heaters 15 are arranged on the air inlet sleeve 14. The air inlet sleeve 14 is driven by the air heaters 15 to introduce hot air into the drying box, so that the heat insulation material is dried.

The mounting table 1 is detachably provided with a sealing cover 16, and the sealing cover 16 is positioned at the top of the drying cavity. The top of the drying chamber is sealed by the sealing cover 16, so that the flow of hot air from the top of the drying chamber is reduced, and waste is caused.

When the heat insulation material feeding device is used, heat insulation materials are added into an upper trough 10 through a material guide plate 13, a material feeding roller 9 and a material feeding plate 11 are driven to rotate through a material feeding motor 12, so that the heat insulation materials in the material feeding trough 10 are driven to move, the heat insulation materials are driven to move onto a sliding inclined plate 2 and slide onto a net-shaped inclined plate 3 along the sliding inclined plate 2, an air inlet sleeve 14 is driven by a plurality of air heaters 15 to introduce hot air into a drying box, the hot air flow blows from the lower side of the net-shaped inclined plate 3 to the net-shaped inclined plate 3, so that the heat insulation materials on the net-shaped inclined plate 3 are blown, the hot air can fully contact with the heat insulation materials through a net opening on the net-shaped inclined plate 3, the drying efficiency of the heat insulation materials is improved, and the hot air flow drives the heat insulation materials to move together, so that the heat insulation materials move along a rotating box 4; the rotating shaft 5 and a plurality of rotating screen plates 6 outside the rotating shaft are driven by a driving motor to rotate, the rotating box 4 is divided into a plurality of small spaces by the plurality of rotating screen plates 6, and hot air flows can pass through meshes on the rotating screen plates 6, so that heat preservation materials in each small space can be fully contacted with the hot air flows, and the drying effect of the heat preservation materials is further improved; when the heat insulation material reaches the discharging channel 8 through the rotating box 4, the heat insulation material continues to slide along the discharging channel 8 and finally slides into the discharging box 7, and the dried heat insulation material is collected.

The present utility model is not limited to the above embodiments, but is capable of modification and variation in all aspects, including those of ordinary skill in the art, without departing from the spirit and scope of the present utility model.

Claims (7)

1. The utility model provides a quick drying device that wall body insulation material used, includes mount table (1), its characterized in that, be equipped with the stoving chamber on mount table (1), stoving intracavity slope is provided with slip swash plate (2), be equipped with on mount table (1) with the reinforced piece of slip swash plate (2) top intercommunication, the bottom of slip swash plate (2) is equipped with netted swash plate (3) to netted swash plate (3) are in on the coplanar with slip swash plate (2), be connected with hot-blast spare on mount table (1) to hot-blast spare is located below one side of netted swash plate (3).

2. The quick drying device for wall thermal insulation materials according to claim 1, wherein the mounting table (1) is provided with a rotating box (4), the rotating box (4) is located at one side of the drying cavity far away from the hot air piece, a rotating piece is arranged in the rotating box (4), and a discharging piece is arranged at the bottom of the rotating box (4).

3. The quick drying device for wall thermal insulation materials according to claim 2, wherein the rotating member comprises a rotating shaft (5), the rotating shaft (5) is rotatably connected to the rotating box (4), a plurality of rotating net plates (6) are arranged outside the rotating shaft (5), and a driving motor for driving the rotating net plates (6) to rotate is arranged on the mounting table (1).

4. The quick drying device for wall insulation materials according to claim 2, wherein the discharging part comprises a discharging box (7), a discharging channel (8) is arranged on the mounting table (1), the discharging channel (8) is communicated with the bottom of the rotating box (4), the discharging channel (8) is arranged obliquely downwards along the initial end of the rotating box (4), the discharging box (7) is mounted on the mounting table (1), and the discharging box (7) is communicated with one end, far away from the rotating box (4), of the discharging channel (8).

5. The quick drying device for wall thermal insulation materials according to claim 1, characterized in that the feeding part comprises a feeding roller (9), a feeding groove (10) is formed in the mounting table (1), the feeding groove (10) is arranged along the top of the sliding inclined plate (2), the feeding roller (9) is rotationally connected in the feeding groove (10), a feeding plate (11) is arranged on the outer side of the feeding roller (9), the feeding plate (11) is in interference fit with the feeding groove (10), and a feeding motor (12) for driving the feeding roller (9) to rotate is arranged on the mounting table (1).

6. The quick drying device for wall insulation materials according to claim 5, wherein a material guiding plate (13) is arranged on one side of the feeding groove (10) far away from the sliding inclined plate (2).

7. The quick drying device for wall thermal insulation materials according to claim 1, wherein the hot air piece comprises an air inlet sleeve (14) and a plurality of air heaters (15), the air inlet sleeve (14) is arranged on one side of the installation table (1), the air inlet sleeve (14) is communicated with the drying cavity, and the air heaters (15) are arranged on the air inlet sleeve (14).