CN219433689U - Ceramic tube film drying device - Google Patents

Abstract

The utility model discloses a ceramic tube film drying device which comprises a shell and a telescopic spring, wherein a handle is arranged on the outer surface of one side of the upper part of the shell, heat-insulating glass is arranged in the middle of the left side of the upper part of the shell, and a box body is arranged at the bottom of the lower part of the inner part of the shell. This ceramic tube membrane drying device compares with current ordinary ceramic tube membrane drying device, when fixing and rotating the material, when stirring the movable block that will place dish top installation to the right side, receive the elasticity influence of the telescopic spring that the slide bar surface cover was established when the movable block removed and carry out centre gripping and fixed to the material that places the dish top and stack, prevent that the material from taking place to drop when equipment heating operation, when the micromotor of restart box internally mounted, micromotor drives the bull stick of top installation and rotates the placing dish of top, thereby can rotate the material of placing the dish top and stacking, the equipment of being convenient for carries out even heating to the material when heating, improve heating efficiency.

Description

Ceramic tube film drying device

Technical Field

The utility model relates to the technical field of ceramic tube film drying, in particular to a ceramic tube film drying device.

Background

Ceramic membranes (also known as inorganic ceramic membranes) are asymmetric membranes formed from inorganic ceramic materials prepared by a particular process. The ceramic membranes are divided into two types of tubular ceramic membranes and planar ceramic membranes. Note that "CT film" is not an alias of a ceramic film, and that designation is an incorrect expression of ceramic film english abbreviation by non-professionals. Micropores are densely distributed on the wall of the tubular ceramic membrane, raw material liquid flows in the membrane tube or outside the membrane under the action of pressure, micromolecular substances (or liquid) permeate the membrane, and macromolecular substances (or solid) are intercepted by the membrane, so that the purposes of separation, concentration, purification, environmental protection and the like are achieved. The plate ceramic membrane has dense micropores, and the permeation rate is different according to different molecular diameters of permeated substances within a certain pore diameter range of the membrane, the pressure difference at two sides of the membrane is used as driving force, the membrane is used as a filter medium, and under the action of certain pressure, when feed liquid flows through the surface of the membrane, only water, inorganic salt and micromolecular substances are allowed to permeate the membrane, and the suspended matters, glue, microorganisms and other macromolecular substances in the water are prevented from passing through. The ceramic membrane has the advantages of high separation efficiency, stable effect, good chemical stability, acid and alkali resistance, organic solvent resistance, bacteria resistance, high temperature resistance, pollution resistance, high mechanical strength, good regeneration performance, simple separation process, low energy consumption, simple and convenient operation and maintenance, long service life and the like, has been successfully applied to various fields of food, beverage, plant (medicine) deep processing, biological medicine, fermentation, fine chemical engineering and the like, and can be used for separation, clarification, purification, concentration, sterilization, desalination and the like in the technical process.

However, when the existing ceramic tube film drying device starts to heat the equipment, the equipment is inconvenient to fix and rotate the material, so that the material is inconvenient to uniformly heat, the heating effect of the equipment on the material is affected, and the heat during heating is easy to run off.

In view of the above, an improvement of the conventional structure has been studied and proposed as a ceramic tube film drying device.

Disclosure of Invention

The utility model aims to provide a ceramic tube film drying device which is used for solving the problems in the background technology.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a pottery pipe membrane drying device, includes casing and extension spring, top one side surface mounting of casing has the handle, and the top left side mid-mounting of casing has insulating glass, the inside below bottom of casing is equipped with the box, and the internally mounted of box has micro-motor, the bull stick is installed to micro-motor's top output, and the top of bull stick is equipped with places the dish, the movable block is installed to the top left and right sides symmetry of placing the dish, and the below of movable block is equipped with the slider, the slide bar is worn to have in the inside of slider, and the surface cover of slide bar is equipped with extension spring.

Further, the sponge layer is installed to inside left and right sides internal surface laminating of casing, and the right side on sponge layer is equipped with light steel sheet.

Further, an air inlet is arranged at the top of the upper part of the shell, and a heating fan is arranged inside the lower part of the air inlet.

Further, the left and right sides symmetry of heating fan installs the bracing piece, and heating fan's below is equipped with the flabellum.

Furthermore, a shunt tube is arranged on one side below the fan blade, and the shunt tube is fixedly connected with the heating fan.

Further, a first heating pipe is installed at the rear Fang Nabi of the casing, and a second heating pipe is installed at one side of the first heating pipe.

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

1. according to the utility model, through the arrangement of the shell, the handle, the heat-insulating glass, the box body, the micro motor, the rotating rod, the placing disc, the moving block, the sliding rod and the telescopic spring, when the materials are fixed and rotated, the moving block arranged above the placing disc is shifted to the right side, the sliding block arranged below the moving block can horizontally move along the sliding rod penetrating through the inside, when the moving block moves, the materials stacked above the placing disc are clamped and fixed under the influence of the elasticity of the telescopic spring sleeved on the outer surface of the sliding rod, the materials are prevented from falling when the equipment is heated and operated, and when the micro motor arranged in the box body is started, the micro motor drives the rotating rod arranged above the placing disc to rotate, so that the materials stacked above the placing disc can be rotated, the equipment can be heated uniformly during heating, and the heating efficiency is improved;

2. according to the utility model, through the arrangement of the sponge layer, the light steel plate, the air inlet, the heating fan, the supporting rod, the fan blade, the shunt pipe, the heating pipe I and the heating pipe II, when materials are heated, after the heating fan arranged at the upper end inside the shell is started, the fan blade arranged below the heating fan can uniformly heat the materials below the heating fan through the shunt pipe, then the sponge layer and the light steel plate which are mounted on the inner surfaces of the left side and the right side of the shell in a bonding way can reduce the loss of heat of the equipment during heating, the heat preservation during heating of the equipment is enhanced, and the heating pipe I and the heating pipe II which are mounted on the inner wall behind the shell can circulate the heat generated during heating of the equipment, so that the heating efficiency of the equipment can be improved, and the heat conversion is improved.

Drawings

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

FIG. 2 is a schematic diagram of a heating, fixing and clamping front-view full-section structure of the utility model;

FIG. 3 is a schematic drawing of a uniform heating front elevational view in full section;

FIG. 4 is a schematic top view of the heating tube of the present utility model.

In the figure: 1. a housing; 2. a handle; 3. a heat insulating glass; 4. a case; 5. a micro motor; 6. a rotating rod; 7. placing a tray; 8. a moving block; 9. a slide block; 10. a slide bar; 11. a telescopic spring; 12. a sponge layer; 13. a lightweight steel plate; 14. an air inlet; 15. a heating fan; 16. a support rod; 17. a fan blade; 18. a shunt; 19. heating pipe I; 20. and heating the pipe II.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1-2, a ceramic tube membrane drying device, including casing 1 and extension spring 11, top one side surface mounting of casing 1 has handle 2, and the top left side mid-mounting of casing 1 has insulating glass 3, the inside below bottom of casing 1 is equipped with box 4, and the internally mounted of box 4 has micro motor 5, bull stick 6 is installed to the top output of micro motor 5, and the top of bull stick 6 is equipped with places dish 7, place the top left and right sides symmetry of dish 7 and install movable block 8, and the below of movable block 8 is equipped with slider 9, slide bar 10 is worn to the inside of slider 9, and slide bar 10's surface cover is equipped with extension spring 11, when will placing the movable block 8 of dish 7 top and carry out the stirring to the right side, receive the slider 9 of movable block 8 below installation can carry out the horizontal migration on the right side along 10 that wear to establish when movable block 8 moves, receive the elasticity of extension spring 11 that the cover was established and stack the material of placing dish 7 top and put the motor, prevent that the fixed motor from taking place the material from holding and holding down when the fixed motor is installed at the top of the micro motor 5, when the material is placed in order to take place the top of the heating box 5, can take place the inside when the heating device is heated to take place, the top when the material is evenly is heated to the top of the installation 5, and when the material is placed in the top is convenient for place, and the top is rotated when the top is placed in the top is heated to take place, and can be heated when the top 5.

As shown in fig. 3-4, the sponge layer 12 is mounted on the inner surfaces of the left and right sides of the interior of the casing 1, the light steel plate 13 is disposed on the right side of the sponge layer 12, the air inlet 14 is mounted on the top of the upper side of the casing 1, the heating fan 15 is disposed in the lower portion of the air inlet 14, the support rods 16 are symmetrically mounted on the left and right sides of the heating fan 15, the fan blades 17 are disposed below the heating fan 15, the shunt tubes 18 are mounted on one side of the lower portion of the fan blades 17, the heating tube 19 is fixedly connected with the heating fan 15, the heating tube 19 is mounted on the rear inner wall of the casing 1, the heating tube 20 is mounted on one side of the heating tube 19, when the heating fan 15 mounted on the upper end of the interior of the casing 1 is started, the fan blades 17 mounted below the heating fan 15 uniformly heat the lower material through the shunt tubes 18, heat loss of the equipment during heating can be reduced by the sponge layer 12 mounted on the inner surfaces of the left and right sides of the casing 1, heat loss of the equipment can be enhanced, the heat loss of the equipment during heating can be improved, and the heat can be converted into heat by the heating tube 19 when the heating tube 20 is mounted on the rear inner wall of the casing 1, and the heating efficiency can be improved.

Working principle: when the ceramic tube film drying device is used, firstly, when materials are fixed and rotated, when a moving block 8 arranged above a placing tray 7 is shifted to the right side, a sliding block 9 arranged below the moving block 8 can horizontally move along a sliding rod 10 penetrating through the inside, when the moving block 8 moves, the materials stacked above the placing tray 7 are clamped and fixed under the influence of the elastic force of a telescopic spring 11 sleeved on the outer surface of the sliding rod 10, the materials are prevented from falling when the equipment is heated and operated, when a miniature motor 5 arranged in a box body 4 is restarted, the miniature motor 5 drives a rotating rod 6 arranged above to rotate the placing tray 7 above, so that the materials stacked above the placing tray 7 can be rotated, the equipment of being convenient for carries out even heating to the material when heating, improves heating efficiency, when heating the material, start the heating fan 15 of casing 1 inside upper end installation after, the flabellum 17 of heating fan 15 below installation can be with the wind after heating through shunt tubes 18 department to the even heating of below material, sponge layer 12 and the light steel sheet 13 of the installation of the laminating of casing 1 left and right sides internal surface can reduce the equipment heat loss when heating again, the heat preservation when strengthening the inside heating of equipment, heating pipe one 19 and heating pipe two 20 of the installation of casing 1 rear inner wall can circulate the heat that the equipment produced when heating again, thereby can improve the heating efficiency of equipment, improve the conversion of heat, this is the theory of operation of this ceramic tube membrane drying device.

The embodiments of the utility model have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (6)

1. The utility model provides a ceramic tube membrane drying device, includes casing (1) and extension spring (11), its characterized in that, top one side surface mounting of casing (1) has handle (2), and the top left side mid-mounting of casing (1) has insulating glass (3), the inside below bottom of casing (1) is equipped with box (4), and the internally mounted of box (4) has micromotor (5), bull stick (6) are installed to the top output of micromotor (5), and the top of bull stick (6) is equipped with places dish (7), movable block (8) are installed to the top left and right sides symmetry of placing dish (7), and the below of movable block (8) is equipped with slider (9), slide bar (10) are worn to be equipped with in the inside of slider (9), and the surface cover of slide bar (10) is equipped with extension spring (11).

2. The ceramic tube film drying device according to claim 1, wherein a sponge layer (12) is attached to the inner surfaces of the left and right sides of the interior of the casing (1), and a lightweight steel plate (13) is arranged on the right side of the sponge layer (12).

3. A ceramic tube film drying device according to claim 2, wherein the upper top of the casing (1) is provided with an air inlet (14), and a heating fan (15) is arranged inside the lower part of the air inlet (14).

4. A ceramic tube film drying device according to claim 3, wherein the supporting rods (16) are symmetrically arranged on the left side and the right side of the heating fan (15), and fan blades (17) are arranged below the heating fan (15).

5. The ceramic tube film drying device according to claim 4, wherein a shunt tube (18) is installed on one side below the fan blade (17), and the shunt tube (18) is fixedly connected with the heating fan (15).

6. A ceramic tube film drying apparatus according to claim 1, wherein a first heating tube (19) is mounted to a rear Fang Nabi of the casing (1), and a second heating tube (20) is mounted to one side of the first heating tube (19).