CN207874525U - A kind of drying device for the big plate glazing production line of ceramics - Google Patents

Abstract

The utility model discloses a kind of drying devices for the big plate glazing production line of ceramics, the first frame body including the pipeline for connecting big plate, first frame body is provided with the first heating component, first heating component is set to the top of pipeline, first heating component includes several first heating tubes set gradually along the conveying direction of big plate, the length direction of several first heating tubes is vertical with the conveying direction of big plate, has the first insulating layer at the top of several first heating tubes.A kind of drying device for the big plate glazing production line of ceramics of the utility model, is in time dried big plate, the moisture in glaze slip is avoided to penetrate into big intralamellar part and big plate is caused to be easily broken.

Description

A kind of drying device for the big plate glazing production line of ceramics

Technical field

The utility model is related to the production equipments of the big plate of architectural pottery, more particularly to one kind is for the big plate glazing production of ceramics The drying device of line.

Background technology

In the prior art, the big plate of ceramics is a kind of novel product in architectural pottery, and length and width specification is more than 800mm.Right When big plate carries out glazing, the moisture in glaze slip can penetrate into big plate, to reduce the intensity of big plate, big plate be made to be easily broken.Cause And it needs that the big plate of glazing is dried.Existing drying mode is plus builds small-sized dry kiln, is uniformly dried.

However, kiln occupied space is big, moreover, must concentrate a certain number of big plates that can just be dried, the water of glaze slip Divide and penetrate into big intralamellar part, is easily broken when dry.

Utility model content

The utility model aims to solve the problem that above-mentioned mentioned technical problem, provides a kind of for the big plate glazing production line of ceramics Drying device, big plate is dried in time, moisture in glaze slip is avoided to penetrate into big intralamellar part and big plate is caused to be easily broken.

The utility model is realized through the following technical scheme：

A kind of drying device for the big plate glazing production line of ceramics includes the first frame body of the pipeline of the big plate of connection, First frame body is provided with the first heating component, and the first heating component is set to the top of pipeline, and the first heating component includes edge Several first heating tubes that the conveying direction of big plate is set gradually, the conveying side of the length direction and big plate of several first heating tubes To vertical, there is the first insulating layer at the top of several first heating tubes.

Preferably, the first insulating layer is provided with several first through hole distributed convenient for moisture.

Preferably, the first insulating layer is aluminium sheet.

Preferably, first thermal insulation layer is provided at the top of the first insulating layer, first thermal insulation layer includes first shell and setting In the asbestos in first shell.

Further, the bottom of first shell is provided with the first opening, and the asbestos are abutted with the first metallic plate.

Further, it is provided with rock cotton board at the top of first thermal insulation layer.

Preferably, the bottom of the first heating component is provided with the second heating component, and the second heating component is set to pipeline Side, the second heating component includes at least one second heating tube, the conveying of the length direction of the second heating tube along pipeline Direction is arranged.

Further, the second heating component includes connecting the second frame body of the second heating tube, and the second frame body includes being capable of phase To the first support and second support of adjusting.

Further, the second frame body further includes the first bolt and the first nut for connecting first support with second support, Second support is provided with the first rail groove of accommodating first bolt, and second support is provided with the second guide rail of accommodating first bolt The length direction biasing setting of slot, the length direction of first rail groove and the second guide-track groove.

Further, the threaded shank of the first bolt is provided with the first clamping portion being slidably connected with first rail groove, with the The second clamping portion that two guide-track grooves are slidably connected.

Advantageous effect is：Compared with prior art, the utility model is a kind of for the dry of the big plate glazing production line of ceramics Dry device connects the first frame body of the pipeline of big plate by setting, and the first frame body is provided with the first heating component, makes first Heating component is set to the top of pipeline so that big plate is withouting waiting for after glazing, you can directly it is dried, into And the moisture in big plate glazing layer is removed, avoid the moisture of glaze layer from avoiding big plate strength reduction and production to the internal penetration of big plate Raw rupture；Also by making the first heating component include several first heating tubes set gradually along the conveying direction of big plate, if making The length direction of dry first heating tube is vertical with the conveying direction of big plate, so that the first heating tube is covered big plate and is transversely to the conveying direction Size, so that big plate is heated evenly along being transversely to the conveying direction；Also by having the first guarantor at the top of several first heating tubes Warm layer reduces heat loss, meanwhile, so that big plate is heated evenly along conveying direction.

Description of the drawings

It is required in being described below to embodiment in order to illustrate more clearly of the technical scheme in the embodiment of the utility model Attached drawing to be used briefly describes.

Obviously, described attached drawing is a part of the embodiment of the utility model, rather than whole embodiments, this field Technical staff without creative efforts, can also be obtained according to these attached drawings other design schemes and attached Figure.

Fig. 1 is a kind of structural schematic diagram of drying device for the big plate glazing production line of ceramics of the utility model；

Fig. 2 is the structural schematic diagram of the second frame body in Fig. 1；

Fig. 3 is the structural schematic diagram of the first bolt in Fig. 2.

Specific implementation mode

The technique effect of the design of the utility model, concrete structure and generation is carried out below with reference to embodiment and attached drawing It clearly and completely describes, to be completely understood by the purpose of this utility model, feature and effect.

Obviously, described embodiment is a part of the embodiment of the utility model, rather than whole embodiments, is based on The embodiments of the present invention, other implementations that those skilled in the art is obtained without creative efforts Example, belongs to the scope of protection of the utility model.

In addition, all connection relations being previously mentioned in text, not singly refer to component and directly connect, and referring to can be according to specific reality Situation is applied, by adding or reducing connection auxiliary, to form more preferably connection structure.Each technology in the utility model is special Sign, can be with combination of interactions under the premise of not conflicting conflict.

As shown in Figure 1, a kind of drying device for the big plate glazing production line of ceramics, including the pipeline of the big plate of connection First frame body 1, the first frame body 1 are provided with the first heating component 2, and the first heating component 2 is set to the top of pipeline.

The drying device of the present embodiment connects the first frame body 1 of the pipeline of big plate by setting, is arranged in the first frame body 1 There is the first heating component 2, the first heating component 2 is made to be set to the top of pipeline so that big plate is not needing after glazing It waits for, you can be directly dried, and then remove the moisture in big plate glazing layer, the moisture of glaze layer is avoided to be oozed to the inside of big plate Thoroughly, it avoids big plate strength reduction and generates rupture.

For the first heating component 2, the first heating component 2 include along big plate conveying direction set gradually several first The length direction of heating tube 21, several first heating tubes 21 is vertical with the conveying direction of big plate, the top of several first heating tubes 21 There is the first insulating layer 22 in portion.

The present embodiment is by making the first heating component 2 include several first heating set gradually along the conveying direction of big plate Pipe 21 keeps the length direction of several first heating tubes 21 vertical with the conveying direction of big plate, and the first heating tube 21 is made to cover big plate The size being transversely to the conveying direction, and then so that big plate edge is transversely to the conveying direction and be heated evenly, avoid heating tube interval from being drawn The uneven heating risen is even.

In addition, the present embodiment reduces heat and dissipates also by having the first insulating layer 22 at the top of several first heating tubes 21 It loses, so that 21 temperature differences of adjacent first heating tube is reduced, and then big plate is made to be heated evenly along conveying direction.

Along with the movement of big plate so that various pieces of the big plate on conveying direction are added by the first heating tube 21 Heat so that big plate is integrally heated evenly.

First insulating layer 22 can be conventional thermal insulation material, can also be metallic plate, heat conduction is fast, makes the first heating component 2 bottom temp is evenly distributed.

First insulating layer 22 is preferably aluminium sheet, and specific heat capacity is high compared with the metallic plate of other materials, and temperature change is slow, avoids to big The local temperature of the first insulating layer 22 drastically reduces after plate heating.

Compared with closed kiln, add thermogenetic vapor that can in time be distributed from the side of the first heating component 2.

To avoid vapor from gathering at the first insulating layer 22, first insulating layer 22 is provided with several to be distributed convenient for moisture First through hole.

When the first insulating layer 22 is metallic plate, the ability that the first insulating layer 22 outwardly distributes heat also becomes larger.

To reduce thermal loss, the top of the first insulating layer 22 is provided with first thermal insulation layer 23, and first thermal insulation layer 23 includes First shell 24 and the asbestos 25 being set in first shell 24.

Asbestos 25 have good heat-resisting ability, it is possible to reduce heat loss.First shell 24 is preferably that steel plate is made, Higher temperature can be born, meanwhile, it prevents asbestos 25 from being pressed to surrounding and distributes fiber.

For convenience of manufacturing and reducing the heat distributed via first shell 24, the bottom of first shell 24 is provided with first and opens Mouthful, the asbestos 25 are abutted with the first metallic plate.The contact area of first shell 24 and the first insulating layer 22 can be reduced in this way, Heat is reduced to pass to.

To make vapor smoothly be dispersed into the external world, the top of first thermal insulation layer 23 is provided with rock cotton board 26.Rock cotton board 26 With higher heat resistance, meanwhile, there is certain gas permeability, can prevent vapor from condensing.

First heating component 2 can be to carrying out good heating, however, for the side of big plate, especially at the top of big plate The side being transversely to the conveying direction, the heat that the first heating component 2 provides can be distributed very easily to the external world, it cannot be guaranteed that dry Dry required problem.

To solve the problems, such as that 21 both ends shortage of heat of the first heating tube, the bottom of the first heating component 2 are provided with second and add Hot component 3, the second heating component 3 are set to the side of pipeline, and the second heating component 3 includes at least one second heating tube 31, the length direction of the second heating tube 31 is arranged along the conveying direction of pipeline.

Second heating component 3 is preferably two groups, is symmetrically arranged in the both sides of pipeline.

As shown in Figure 1 and Figure 2, to adapt to the big plate of different size, the second heating component 3 includes the second heating tube 31 of connection The second frame body, the second frame body includes the first support 32 and second support 33 for capableing of relative adjustment.

That is, can be realized to the second heating tube by adjusting the relative position of first support 32 and second support 33 31 position adjustment.

Specifically, the second frame body further includes the first bolt 36 and the first spiral shell for connecting first support 32 and second support 33 Mother, second support 33 are provided with the first rail groove 34 of accommodating first bolt 36, and second support 33 is provided with accommodating first bolt The length direction biasing setting of 36 the second guide-track groove 35, the length direction of first rail groove 34 and the second guide-track groove 35.

The biasing setting of the length direction of the length direction of first rail groove 34 and the second guide-track groove 35, can be the first guide rail The length direction of slot 34 is horizontally disposed, and the length direction of the second guide-track groove 35 is arranged along the vertical direction, in turn, first Frame 32 and second support 33 can be adjusted with upper and lower directions in the horizontal direction.

As shown in figure 3, to avoid first support 32 during adjustment from increasing adjustment hardly possible with the relative rotation of second support 33 Degree, the threaded shank of the first bolt 36 are provided with the first clamping portion 37 being slidably connected with first rail groove 34 and the second guide-track groove 35 the second clamping portions 38 being slidably connected.

First clamping portion 37 should have the set of planes being slidably matched with first rail groove 34, and the second clamping portion 38 should also have The set of planes being slidably matched with first rail groove 34, and then limit the relative rotation of first support 32 and second support 33.

Above example is not limited to the embodiment technical solution of itself, can be incorporated between embodiment new Embodiment.Above example is only to illustrate the technical solution of the utility model and is not intended to limit it, all without departing from this Any modification of utility model spirit and scope or equivalent replacement should all cover the range in technical solutions of the utility model It is interior.

Claims (10)

1. a kind of drying device for the big plate glazing production line of ceramics includes the first frame body (1) of the pipeline of the big plate of connection, It is characterized in that, the first frame body (1) is provided with the first heating component (2), the first heating component (2) is set to the top of pipeline Portion, the first heating component (2) include several first heating tubes (21) set gradually along the conveying direction of big plate, and several first add The length direction of heat pipe (21) is vertical with the conveying direction of big plate, has the first insulating layer at the top of several first heating tubes (21) (22)。

2. a kind of drying device for the big plate glazing production line of ceramics according to claim 1, which is characterized in that described First insulating layer (22) is provided with several first through hole distributed convenient for moisture.

3. a kind of drying device for the big plate glazing production line of ceramics according to claim 1, which is characterized in that described First insulating layer (22) is aluminium sheet.

4. a kind of drying device for the big plate glazing production line of ceramics according to claim 1, which is characterized in that described First thermal insulation layer (23) is provided at the top of first insulating layer (22), first thermal insulation layer (23) includes first shell (24) and setting In the asbestos (25) in first shell (24).

5. a kind of drying device for the big plate glazing production line of ceramics according to claim 4, which is characterized in that described The bottom of first shell (24) is provided with the first opening, and the asbestos (25) abut with the first metallic plate.

6. a kind of drying device for the big plate glazing production line of ceramics according to claim 4, which is characterized in that described Rock cotton board (26) is provided at the top of first thermal insulation layer (23).

7. a kind of drying device for the big plate glazing production line of ceramics according to claim 1, which is characterized in that described The bottom of first heating component (2) is provided with the second heating component (3), and the second heating component (3) is set to the side of pipeline, Second heating component (3) includes at least one second heating tube (31), and the length direction of the second heating tube (31) is along pipeline Conveying direction is arranged.

8. a kind of drying device for the big plate glazing production line of ceramics according to claim 7, which is characterized in that described Second heating component (3) includes the second frame body of the second heating tube of connection (31), and the second frame body includes be capable of relative adjustment the One holder (32) and second support (33).

9. a kind of drying device for the big plate glazing production line of ceramics according to claim 8, which is characterized in that described Second frame body further includes the first bolt (36) and the first nut for connecting first support (32) and second support (33), second Frame (33) is provided with the first rail groove (34) of accommodating first bolt (36), and second support (33) is provided with accommodating first bolt (36) the second guide-track groove (35), the length direction of first rail groove (34) are set with the length direction biasing of the second guide-track groove (35) It sets.

10. a kind of drying device for the big plate glazing production line of ceramics according to claim 9, which is characterized in that institute The threaded shank for stating the first bolt (36) is provided with the first clamping portion (37) being slidably connected with first rail groove (34), is led with second The second clamping portion (38) that track slot (35) is slidably connected.