CN215571656U - Ceramic valve plate drying system - Google Patents

Abstract

The utility model discloses a ceramic valve plate drying system which comprises a ceramic valve plate drying machine body, a plurality of layers of ceramic valve plate arrangement devices, a ceramic valve plate drying device and an air drying device, wherein each layer of ceramic valve plate arrangement device comprises a metal wire net placing plate and a water absorption base plate I; each layer of ceramic valve plate drying equipment is positioned above each layer of metal wire mesh placing plate, and a plurality of water absorption cushion rods on each layer of water absorption cushion plate II can respectively penetrate through a plurality of through holes of the metal wire mesh placing plate below the water absorption cushion rods; and the air outlets of the air drying equipment are respectively positioned below the metal wire mesh placing plates. The structure of the utility model greatly enhances the speed and efficiency of the ventilation drying.

Description

Ceramic valve plate drying system

Technical Field

The utility model relates to the technical field of ceramic valve plate equipment, in particular to a ceramic valve plate drying system.

Background

After the ceramic product is sintered and ground, the ceramic product needs to be cleaned, dust and the like on the surface of the product are removed in a cleaning mode, and the cleaned ceramic product needs to be dried. At present, an oven is adopted to dry products, a plurality of layers of placing frames are arranged in the oven, the products are placed on the placing frames by utilizing containers, parameters such as drying time and temperature are set after the oven door is closed, and drying is waited; and after drying is finished, opening the box door and taking out.

The method of heating and drying by using the oven has the problem of high energy consumption, and the common method of ventilation drying has the problems of low drying speed and low drying efficiency.

SUMMERY OF THE UTILITY MODEL

In view of this, the present invention provides a ceramic valve plate drying system.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a ceramic valve blade drying system comprising:

the drying machine comprises a ceramic valve plate drying machine body, wherein a machine body cover is covered above the ceramic valve plate drying machine body, and the machine body cover is provided with a mounting opening and a moisture outlet which are communicated with the interior of the ceramic valve plate drying machine body;

the multilayer ceramic valve block arranging equipment comprises a metal wire mesh placing plate and a water absorption backing plate I, wherein a plurality of ceramic valve block grooves are formed in the metal wire mesh placing plate, the water absorption backing plate I is placed in each ceramic valve block groove, the ceramic valve blocks are placed on the water absorption backing plate I, hole sites are formed in the ceramic valve blocks, through holes with through upper ends and lower ends communicated with the hole sites are formed in the water absorption backing plate I and the metal wire mesh placing plate, the multilayer ceramic valve block arranging equipment is sequentially and downwards fixed on the inner wall of the ceramic valve block drying machine body through the metal wire mesh placing plate, the multilayer ceramic valve block arranging equipment is arranged on two sides of the inner wall of the ceramic valve block drying machine body, and an accommodating space is reserved between the multilayer ceramic valve block arranging equipment on the two sides;

the drying equipment for the ceramic valve plates comprises an air cylinder assembly, an upright rod and a plurality of layers of water absorption drying equipment, wherein each layer of water absorption drying equipment comprises a second water absorption base plate and a plurality of water absorption cushion rods, the air cylinder assembly is erected on the machine body cover through the upright rod, an air cylinder shaft of the air cylinder assembly is connected with the upright rod through a connecting rod, the connecting rod and the upright rod penetrate through a mounting hole and extend into a containing space in the ceramic valve plate drying machine body, a plurality of second water absorption base plates are sequentially arranged downwards on two sides of the upright rod, a plurality of water absorption cushion rods are arranged below each second water absorption base plate, each second water absorption base plate on two sides of the upright rod is positioned above each metal wire net placing plate on two sides, and a plurality of water absorption cushion rods on each second water absorption base plate can penetrate through a plurality of through holes of the metal wire net placing plates below the second water absorption base plate;

air drying equipment, air drying equipment is including ventilating entry, ventilation pipe, a plurality of air outlet nozzle, the ventilation entry is connected with the ventilation pipe, the ventilation pipe is worn to establish the inner wall both sides of ceramic valve block drying machine body and is stretched into inside it, and inside ventilation pipe top is equipped with a plurality of air outlet nozzle, and a plurality of air outlet nozzle is located the below that the board was placed to a plurality of wire mesh respectively.

Preferably, the water absorption backing plate I, the water absorption backing plate II and the water absorption backing rod are diatom ooze water absorption backing plates.

Preferably, the moisture outlet is connected to an outlet pipe.

Preferably, air pumps are arranged on the ventilation pipe and the air outlet pipe.

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

(1) compared with the conventional thermal drying method, the multi-layer ventilation drying method is adopted in the system, so that energy is saved;

(2) the system adopts the water absorption pad to absorb water and simultaneously carry out the ventilation drying, thereby greatly accelerating the speed and efficiency of the ventilation drying.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an enlarged view of portion A of FIG. 1;

FIG. 3 is a schematic view of the overall structure of the present invention;

FIG. 4 is an enlarged view of portion B of FIG. 3;

FIG. 5 is a schematic view of the overall structure of the present invention;

fig. 6 is an enlarged view of a portion C in fig. 5.

In the figure: 1. a ceramic valve plate dryer body; 2. a body cover; 3. a moisture outlet; 4. a wire mesh placement board; 5. a first water absorption base plate; 6. a ceramic valve disk slot; 7. a ceramic valve plate; 8. a cylinder assembly; 9. erecting a rod; 10. a second water absorption base plate; 11. a water absorbing pad bar; 12. erecting a frame; 13. a ventilation inlet; 14. a vent pipe; 15. and an air outlet nozzle.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the utility model. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

referring to fig. 1 to 6, a ceramic valve sheet drying system includes a ceramic valve sheet drying machine body 1, a multilayer ceramic valve sheet setting apparatus, a ceramic valve sheet drying apparatus, and a wind drying apparatus.

This 1 top of pottery valve block desiccator body covers and is equipped with organism lid 2, offers on organism lid 2 with inside communicating installing port, the moisture export 3 of pottery valve block desiccator body, the moisture export 3 is connected with the outlet duct. (ii) a

Every layer of ceramic valve block settling equipment includes that wire mesh places board 4, water absorption backing plate 5, wire mesh places and has seted up a plurality of ceramic valve block groove 6 on the board 4 (wire mesh places the width that board 4 is less than the inside width of ceramic valve block drying machine body 1, in order to leave the space be convenient for place ceramic valve block material), water absorption backing plate 5 has all been placed in a plurality of ceramic valve block groove 6, ceramic valve block 7 has been placed on water absorption backing plate 5, ceramic valve block 7 is last to have the hole site certainly, water absorption backing plate 5 and wire mesh place and set up through-hole and the hole site that the lower extreme link up on the board 4 and be linked together, this ceramic valve block drying system is adapted to the ceramic valve block of foraminiferous position (the position of hole site on ceramic valve block is undefined, can see the middle part also not at the middle part, the hole site is at the middle part in this embodiment).

Multilayer ceramic valve block settling equipment places board 4 through wire mesh and fixes downwards in proper order on ceramic valve block drying machine body 1 inner wall, and the inner wall both sides of ceramic valve block drying machine body 1 all are equipped with multilayer ceramic valve block settling equipment, and the multilayer ceramic valve block of both sides is settled and is left the accommodation space between the equipment.

Multilayer ceramic valve block drying equipment includes cylinder assembly 8, pole setting 9, multilayer drying equipment that absorbs water, and each layer of drying equipment that absorbs water includes two 10, the backing rod 11 that absorbs water of a plurality of backing plate, and cylinder assembly 8 is located on organism lid 2 through grudging post 12, and the cylinder axle of cylinder assembly 8 passes through the connecting rod to be connected with pole setting 9, and connecting rod, pole setting 9 are worn to establish the installing port and are stretched into to the accommodation space of 1 in the ceramic valve block drying machine body.

The both sides of pole setting 9 are equipped with the multilayer drying equipment that absorbs water downwards in proper order, specifically: two sides of pole setting 9 are equipped with a plurality of backing plates 10 that absorb water downwards in proper order, and the below of each backing plate 10 that absorbs water is equipped with a plurality of backing rod 11 that absorbs water, and every layer of backing plate 10 that absorbs water in both sides of pole setting 9 all is located the top that board 4 was placed to every layer of wire mesh in both sides, and a plurality of backing rod 11 that absorbs water on every layer of backing plate 10 that absorbs water can wear to establish a plurality of through-hole that board 4 was placed to its below wire mesh respectively.

The water absorption backing plate I5, the water absorption backing plate II 10 and the water absorption backing rod 11 are all diatom ooze water absorption backing plates and can absorb water well.

Air drying equipment includes ventilation inlet 13, ventilation pipe 14, a plurality of air outlet 15, and ventilation inlet 13 is connected with ventilation pipe 14, and inside the ventilation pipe 14 wears to establish the inner wall both sides of ceramic valve block drying machine body 1 and stretches into it, and inside ventilation pipe 14 top intercommunication is equipped with a plurality of air outlet 15, and a plurality of air outlet 15 is located the below that board 4 was placed to a plurality of wire mesh respectively. Air pumps (not shown in the figures, the structure and installation of the air pump are conventional) can be arranged on the ventilation pipe 15 and the air outlet pipe for facilitating ventilation and moisture discharge.

The working principle of the utility model is as follows:

as shown in fig. 1-2, in an initial state of the system, two water absorbing base plates 10 on two sides of the vertical rod 9 are both located above the two wire mesh placing plates 4 on two sides, the machine body cover 2 (and the cylinder assembly 8 and the vertical rod 9 thereon) is then uncovered, and ceramic valve plate materials are placed in the ceramic valve plate grooves 6 of the wire mesh placing plates 4 on each layer;

as shown in fig. 3-6, the cylinder assembly 8 starts to work (the cylinder assembly 8 can work normally because of the conventional air cylinder in the market), the cylinder shaft of the cylinder assembly 8 drives the vertical rod 9 to move downwards, a plurality of water absorption backing plates 11 on each layer of water absorption backing plate two 10 can respectively penetrate through a plurality of through holes of the metal wire mesh placing plate 4 below the water absorption backing plate two until each layer of water absorption backing plate two 10 is pressed on the ceramic valve plate 7 (in the metal wire mesh placing plate 4) below the water absorption backing plate two, the cylinder assembly 8 stops working, the water absorption backing plates one 5, the water absorption backing plates 11 and the water absorption backing plates two 10 respectively adsorb water on the lower surface, the inner peripheral side surface and the upper surface of the ceramic valve plate 7, the adsorption time lasts for 5s, the cylinder assembly 8 starts to work again to drive the vertical rod 9 to move upwards, each layer of water absorption backing plate 10 is separated from the ceramic valve plate 7 (in the metal wire mesh placing plate 4) below the water absorption backing plate two, until a plurality of water absorption backing plate 11 on every layer of water absorption backing plate two 10 remove and do not wear out the hole site in to the through-hole, cylinder assembly 8 stop work, at this in-process, upwards ventilate always by air outlet nozzle 15, place ceramic valve block 7 in the board 4 and carry out the through-air drying to the wire mesh, even ceramic valve block 7 is upwards blown, because the spacing of water absorption backing plate 11, ceramic valve block 7 also can not blow the phenomenon of turning over or shifting, the water absorption pad absorbs water and the through-air drying goes on simultaneously, through-air drying's speed and efficiency has been accelerated greatly, adopt multilayer through-air drying to compare in hot drying, the energy has been practiced thrift.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (4)

1. A ceramic valve panel drying system, comprising:

the drying machine comprises a ceramic valve plate drying machine body, wherein a machine body cover is covered above the ceramic valve plate drying machine body, and the machine body cover is provided with a mounting opening and a moisture outlet which are communicated with the interior of the ceramic valve plate drying machine body;

the multilayer ceramic valve block arranging equipment comprises a metal wire mesh placing plate and a water absorption backing plate I, wherein a plurality of ceramic valve block grooves are formed in the metal wire mesh placing plate, the water absorption backing plate I is placed in each ceramic valve block groove, the ceramic valve blocks are placed on the water absorption backing plate I, hole sites are formed in the ceramic valve blocks, through holes with through upper ends and lower ends communicated with the hole sites are formed in the water absorption backing plate I and the metal wire mesh placing plate, the multilayer ceramic valve block arranging equipment is sequentially and downwards fixed on the inner wall of the ceramic valve block drying machine body through the metal wire mesh placing plate, the multilayer ceramic valve block arranging equipment is arranged on two sides of the inner wall of the ceramic valve block drying machine body, and an accommodating space is reserved between the multilayer ceramic valve block arranging equipment on the two sides;

the drying equipment for the ceramic valve plates comprises an air cylinder assembly, an upright rod and a plurality of layers of water absorption drying equipment, wherein each layer of water absorption drying equipment comprises a second water absorption base plate and a plurality of water absorption cushion rods, the air cylinder assembly is erected on the machine body cover through the upright rod, an air cylinder shaft of the air cylinder assembly is connected with the upright rod through a connecting rod, the connecting rod and the upright rod penetrate through a mounting hole and extend into a containing space in the ceramic valve plate drying machine body, a plurality of second water absorption base plates are sequentially arranged downwards on two sides of the upright rod, a plurality of water absorption cushion rods are arranged below each second water absorption base plate, each second water absorption base plate on two sides of the upright rod is positioned above each metal wire net placing plate on two sides, and a plurality of water absorption cushion rods on each second water absorption base plate can penetrate through a plurality of through holes of the metal wire net placing plates below the second water absorption base plate;

air drying equipment, air drying equipment is including ventilating entry, ventilation pipe, a plurality of air outlet nozzle, the ventilation entry is connected with the ventilation pipe, the ventilation pipe is worn to establish the inner wall both sides of ceramic valve block drying machine body and is stretched into inside it, and inside ventilation pipe top is equipped with a plurality of air outlet nozzle, and a plurality of air outlet nozzle is located the below that the board was placed to a plurality of wire mesh respectively.

2. The ceramic valve plate drying system of claim 1, wherein the first water absorbing base plate, the second water absorbing base plate and the water absorbing base rod are diatom ooze water absorbing base plates.

3. The ceramic valve blade drying system of claim 1, wherein the moisture outlet is connected to an outlet pipe.

4. The ceramic valve plate drying system of claim 3, wherein the ventilation pipe and the air outlet pipe are provided with air pumps.

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