CN219083783U - Preheating furnace for production of heat preservation cotton - Google Patents

Abstract

The utility model discloses a preheating furnace for producing heat preservation cotton, which comprises a preheating furnace, wherein a furnace door is arranged on one side wall of the preheating furnace, electric sliding rails are symmetrically fixed at the inner bottom end of the preheating furnace, sliding blocks are arranged in the electric sliding rails, bearing plates are arranged at the upper ends of the sliding blocks, electric push rods are symmetrically fixed at the upper ends of the bearing plates, five groups of electric push rods are arranged at the upper ends of the bearing plates, supporting seats are fixed at the output ends of the electric push rods, supporting rods are arranged between the supporting seats, and shells are symmetrically arranged on the two side walls of the preheating furnace. The beneficial effects are that: according to the utility model, the electric push rod and the support rod are arranged, so that the support rod can enable ceramic fibers to be lapped on the support rod in the preheating process, and meanwhile, the support height of the electric push rod is adjusted according to the length of the ceramic fibers, so that the ceramic fibers can be effectively prevented from being piled up, the preheating efficiency and the preheating effect of the device are further ensured, and the practicability of the device is improved.

Description

Preheating furnace for production of heat preservation cotton

Technical Field

The utility model relates to the technical field of preheating furnaces, in particular to a preheating furnace for producing heat preservation cotton.

Background

The heat-insulating cotton can be further processed into fiber blankets, boards, papers, cloths, ropes and the like, and the ceramic fiber is an efficient heat-insulating material, has the characteristics of light weight, high strength, oxidation resistance, low heat conductivity, good flexibility, corrosion resistance, small heat capacity, sound insulation and the like, and needs to be preheated by a preheating furnace in the production process of the heat-insulating cotton.

The prior preheating furnace for producing heat preservation cotton is characterized in that ceramic fibers are placed in the preheating furnace and are preheated by blowing hot air into the ceramic fibers, so that the preheating effect on the ceramic fibers can be achieved, but in the using process, the ceramic fibers are stacked together, so that the heating area of the ceramic fibers is limited, the preheating efficiency of the ceramic fibers is affected, and the practicability of the device is reduced.

Disclosure of Invention

First, the technical problem to be solved

Aiming at the current state of the art, the utility model provides the preheating furnace for producing the heat preservation cotton, which has high preheating efficiency and good preheating effect.

(II) technical scheme

The utility model is realized by the following technical scheme: the utility model provides a preheating furnace for producing heat preservation cotton, which comprises a preheating furnace, wherein a furnace door is arranged on one side wall of the preheating furnace, electric sliding rails are symmetrically fixed at the inner bottom end of the preheating furnace, sliding blocks are arranged in the electric sliding rails, bearing plates are arranged at the upper ends of the sliding blocks, electric push rods are symmetrically fixed at the upper ends of the bearing plates, five groups of electric push rods are arranged on the output ends of the electric push rods, supporting rods are arranged between the supporting rods, shells are symmetrically arranged on two side walls of the preheating furnace, fans are arranged in the shells, a dustproof net is fixed on one side wall of each shell, a heating silk net is arranged on one side of each fan, a guide cover is connected to one side of each shell, and one end of each guide cover is connected with a ventilation plate.

Further, the furnace door is connected with the preheating furnace through a hinge, the electric sliding rail is connected with the preheating furnace through a screw, and the sliding block is in sliding connection with the electric sliding rail.

By adopting the technical scheme, the furnace door is opened, and the electric sliding rail automatically moves out of the bearing plate through the sliding block.

Further, the bearing plate is connected with the sliding block through a screw, and the electric push rod is connected with the bearing plate through a screw.

Through adopting above-mentioned technical scheme, electric putter can be right the height-adjusting of bracing piece.

Further, the support is connected with the output end of the electric push rod through a screw, and the support rod is connected with the support through a screw.

Through adopting above-mentioned technical scheme, the bracing piece can make ceramic fiber take on it, makes simultaneously according to ceramic fiber's length electronic push rod is right the supporting height of bracing piece is adjusted, can effectively avoid ceramic fiber to pile up, and then guarantees preheating efficiency and the preheating effect of device, improves the device practicality.

Further, the shell is connected with the preheating furnace through screws, the fan is connected with the shell through screws, and the dust screen is connected with the shell through screws.

By adopting the technical scheme, the fan blows air into the preheating furnace, and the dust screen filters gas.

Further, the heating silk screen is connected with the shell through screws, and the guide cover is connected with the inner wall of the preheating furnace through screws.

By adopting the technical scheme, wind forms hot air through the heating silk screen and guides the air guide cover.

Further, the ventilation plate is connected with the preheating furnace through screws.

By adopting the technical scheme, the guided hot air acts on the ceramic fibers in the preheating furnace through the ventilation plate, so that the ceramic fibers are preheated.

(III) beneficial effects

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

in order to solve the problems that the prior preheating furnace for producing heat preservation cotton is used for placing ceramic fibers in the preheating furnace and blowing hot air to the ceramic fibers for preheating, the mode can play a role in preheating the ceramic fibers, but in the using process, the ceramic fibers are stacked together, so that the heating area is limited, the preheating efficiency is affected, and the practicability of the device is reduced.

Drawings

FIG. 1 is a schematic diagram of a preheating furnace for producing insulation cotton according to the present utility model;

FIG. 2 is a front cross-sectional view of a preheating furnace in a preheating furnace for producing insulation cotton according to the present utility model;

fig. 3 is a schematic structural view of a bearing plate, an electric push rod and a support rod in a preheating furnace for producing heat insulation cotton.

The reference numerals are explained as follows:

1. a preheating furnace; 2. a housing; 3. a dust screen; 4. a furnace door; 5. a fan; 6. heating the silk screen; 7. a guide cover; 8. a support; 9. a ventilation plate; 10. an electric push rod; 11. a slide block; 12. a carrying plate; 13. an electric slide rail; 14. and (5) supporting the rod.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

As shown in fig. 1-3, a preheating furnace for producing heat insulation cotton in this embodiment includes a preheating furnace 1, a furnace door 4 is installed on one side wall of the preheating furnace 1, electric sliding rails 13 are symmetrically fixed at the inner bottom of the preheating furnace 1, sliding blocks 11 are arranged in the electric sliding rails 13, the furnace door 4 is opened, the electric sliding rails 13 automatically move out a bearing plate 12 through the sliding blocks 11, a bearing plate 12 is arranged at the upper end of the sliding blocks 11, electric push rods 10 are symmetrically fixed at the upper end of the bearing plate 12, five groups of electric push rods 10 are arranged, the electric push rods 10 can adjust the height of supporting rods 14, a support 8 is fixed at the output end of the electric push rods 10, supporting rods 14 are arranged between the supports 8, the supporting rods 14 can enable ceramic fibers to be lapped on the supporting rods, meanwhile, the electric push rods 10 can adjust the supporting height of the supporting rods 14 according to the length of the ceramic fibers, further guaranteeing the preheating efficiency and the preheating effect of the device, a shell 2 is symmetrically installed on two side walls of the preheating furnace 1, a fan 5 is installed in the shell 2, a side wall of the shell 2 is fixedly provided with a dust screen 3, the fan 5 in the shell 2, the fan 5 faces the inside the preheating furnace 1, the air screen 3 is fixed at one side of the shell, a filter screen 6 is connected with the dust screen, the dust screen 6 is ventilated, and is connected with the air guide 6, and then the air guide 6 is ventilated to one side of the filter screen 6, and is connected with the air guide 6, and the air guide 6 is ventilated through the air guide 6, and the air guide 6 is ventilated, and is further ventilated, and is heated by the air guide 6, and is heated.

As shown in fig. 1-3, in this embodiment, the furnace door 4 is connected with the preheating furnace 1 through a hinge, the electric sliding rail 13 is connected with the preheating furnace 1 through a screw, the sliding block 11 is slidably connected with the electric sliding rail 13, the bearing plate 12 is connected with the sliding block 11 through a screw, the electric push rod 10 is connected with the bearing plate 12 through a screw, the support 8 is connected with the output end of the electric push rod 10 through a screw, and the supporting rod 14 is connected with the support 8 through a screw.

As shown in fig. 1 to 3, in this embodiment, the housing 2 is connected to the preheating furnace 1 by a screw, the fan 5 is connected to the housing 2 by a screw, the dust screen 3 is connected to the housing 2 by a screw, the heating screen 6 is connected to the housing 2 by a screw, the air guide cover 7 is connected to the inner wall of the preheating furnace 1 by a screw, and the ventilation plate 9 is connected to the preheating furnace 1 by a screw.

The specific implementation process of this embodiment is as follows: when the preheating furnace is used, the furnace door 4 is opened, the electric sliding rail 13 automatically moves out the bearing plate 12 through the sliding block 11, then the ceramic fibers are lapped on the supporting rods 14, meanwhile, the supporting height of the supporting rods 14 is adjusted by the electric push rods 10 according to the length of the ceramic fibers, the ceramic fibers can be effectively prevented from being piled up, the preheating efficiency and the preheating effect of the preheating furnace are further guaranteed, then the electric sliding rail 13 moves the bearing plate 12 into the preheating furnace 1 through the sliding block 11, the furnace door 4 is closed, then the fan 5 blows air into the preheating furnace 1, the dust screen 3 filters air, the air forms hot air through the heating wire mesh 6, the air guide cover 7 is guided, and the guided hot air acts on the ceramic fibers in the preheating furnace 1 through the ventilation plate 9, so that the air guide is preheated.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present utility model. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the utility model. Thus, the present utility model is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (7)

1. A preheating furnace for production of heat preservation cotton, its characterized in that: including preheating furnace (1), install furnace gate (4) on a side wall of preheating furnace (1), interior bottom symmetry of preheating furnace (1) is fixed with electronic slide rail (13), be provided with slider (11) in electronic slide rail (13), slider (11) upper end is provided with loading board (12), loading board (12) upper end symmetry is fixed with electric putter (10), electric putter (10) have five groups, be fixed with support (8) on the output of electric putter (10), be provided with bracing piece (14) between support (8), symmetrical install casing (2) on the both sides wall of preheating furnace (1), install fan (5) in casing (2), be fixed with dust screen (3) on a casing (2) lateral wall, fan (5) one side is provided with heating silk screen (6), casing (2) one side is connected with kuppe (7), kuppe (7) one end is connected with ventilative board (9).

2. A preheating furnace for the production of insulation cotton according to claim 1, characterized in that: the furnace door (4) is connected with the preheating furnace (1) through a hinge, the electric sliding rail (13) is connected with the preheating furnace (1) through a screw, and the sliding block (11) is in sliding connection with the electric sliding rail (13).

3. A preheating furnace for the production of insulation cotton according to claim 1, characterized in that: the bearing plate (12) is connected with the sliding block (11) through a screw, and the electric push rod (10) is connected with the bearing plate (12) through a screw.

4. A preheating furnace for the production of insulation cotton according to claim 1, characterized in that: the support (8) is connected with the output end of the electric push rod (10) through a screw, and the support rod (14) is connected with the support (8) through a screw.

5. A preheating furnace for the production of insulation cotton according to claim 1, characterized in that: the shell (2) is connected with the preheating furnace (1) through screws, the fan (5) is connected with the shell (2) through screws, and the dust screen (3) is connected with the shell (2) through screws.

6. A preheating furnace for the production of insulation cotton according to claim 1, characterized in that: the heating silk screen (6) is connected with the shell (2) through screws, and the guide cover (7) is connected with the inner wall of the preheating furnace (1) through screws.

7. A preheating furnace for the production of insulation cotton according to claim 1, characterized in that: the ventilation plate (9) is connected with the preheating furnace (1) through screws.

Images