CN210481201U - Glass tempering furnace production line - Google Patents

Abstract

A glass tempering furnace production line is used for solving the technical problem that glass is heated unevenly in a tempering furnace due to the fact that a conveying belt is used for conveying the glass in the prior art. Including conveyer belt and tempering furnace, this conveyer belt is sent into glass and is seen off tempering furnace, tempering furnace all opens corresponding horizontal bar hole and vertical bar hole at glass's entering end, see-off end, and the vertical bar hole that is located horizontal bar hole upper portion and both link up with the end, so that the conveyer belt passes from horizontal bar hole, makes glass on this conveyer belt pass from vertical bar hole, and the conveyer belt both sides that are located outside the tempering furnace, tempering furnace both sides all are equipped with stop gear, and the stop gear who is located tempering furnace both sides stretches into in the tempering furnace to keep glass to erect the conveying on the conveyer belt, the utility model discloses overall structure is simple, in the aspect of the operation, and application scope is wide, and mainly used carries out the tempering to glass.

Description

Glass tempering furnace production line

Technical Field

The utility model relates to a glass processing technology field, concretely relates to glass tempering furnace production line that carries out tempering processing to hollow glass.

Background

With the development of science and technology, the technical field of glass processing has a step of covering the ground all over, people summarize a mature processing technology from the test exploration of glass components to the innovation of the production technology in the glass production process, and the performance of the produced glass is greatly improved, so that the current glass is very wide in application, and not only is the glass only applied to decoration, but also the glass is more and more applied to other aspects.

According to the requirements for glass performance, glass needs to be tempered in glass production and processing to improve the strength of the glass, a glass tempering furnace is generally adopted in a glass tempering processing process, a compression stress layer is formed on the surface of the glass by utilizing a physical or chemical method, a tension stress layer is formed inside the glass, and when the glass is acted by an external force, part of the tension stress can be offset by the compression stress layer, so that the strength of the glass is improved.

In the traditional method, a glass toughening furnace is adopted to carry out toughening processing on glass, most of the glass toughening furnace is applied to a conveyor belt to convey the glass, the conveyor belt conveys the glass into the toughening furnace and sends the glass out of the toughening furnace through the conveyor belt, the glass is toughened by the toughening furnace in the toughening furnace, the glass is generally toughened by adopting a heat radiation mode in the toughening furnace at present, the traditional processing method is that the glass is flatly placed on the conveyor belt, and then the conveyor belt conveys the glass into the toughening furnace.

The conventional conveying mode has a great defect that: because glass is kept flat on the conveyer belt, glass's lower surface is adjacent with the conveyer belt always, and after glass carried to the tempering furnace, the glass upper surface received the heat radiation and is heated comparatively fast, and the glass lower surface because formed adjacent position relation between with the conveyer belt, glass's lower surface receives the heat radiation and is heated comparatively slowly to cause glass upper surface, lower surface to be heated the inequality and lead to the monoblock glass board to be heated unevenly, thereby seriously influenced the tempering processing to glass. Particularly, when the tempering processing is carried out on the glass with a hollow structure, the traditional glass conveying mode more influences the tempering processing on the hollow glass structure.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the purpose is not enough to prior art, releases a glass tempering furnace production line for the conveyer belt that mentions in the solution background art leads to glass to be heated uneven technical problem in the tempering furnace to glass traditional transport mode.

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

the utility model provides a glass tempering furnace production line, is including conveyer belt and tempering furnace, and this conveyer belt is used for sending into glass and sees off the tempering furnace, the tempering furnace is in glass's entering end, the end of seeing off all opens corresponding horizontal bar hole and vertical bar hole, and the vertical bar hole of homonymy is located horizontal bar hole upper portion and both link up, so that the conveyer belt passes from horizontal bar hole, makes the glass on this conveyer belt pass from vertical bar hole, and the conveyer belt both sides that are located outside the tempering furnace, tempering furnace both sides all are equipped with stop gear, and the stop gear who is located tempering furnace both sides stretches into in the tempering furnace to keep glass to erect the conveying on the conveyer belt.

The working principle is as follows: the glass is vertically placed on a conveyor belt, the placing position of the glass can be guaranteed to correspond to the vertical strip-shaped holes in the toughening furnace, then the two sides of the placed glass are limited by limiting mechanisms located on the two sides of the conveyor belt outside the toughening furnace, the glass is guaranteed not to overturn in the conveying process, when the glass enters the toughening furnace, the conveyor belt correspondingly penetrates through the horizontal strip-shaped holes in the toughening furnace, the glass located in the toughening furnace is kept in a vertical state under the action of the limiting mechanisms, the glass is conveyed out of the toughening furnace through the vertical strip-shaped holes under the continuous conveying of the conveyor belt, the conveyed glass is still kept vertical under the limiting of the limiting mechanisms in the corresponding areas, and then the glass conveyed out of the toughening furnace is taken down.

The utility model has the advantages that:

the utility model discloses changed the transport mode to glass, the substitute is with vertical the placing on the conveyer belt of glass, and glass is getting into like this monoblock glass can thermally equivalent behind the tempering furnace to solved the tradition and leaded to glass to be heated uneven technical problem in the tempering furnace to glass's transport mode, be fit for popularizing and applying.

Drawings

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

fig. 2 is an enlarged schematic view of a cross-sectional view at a-a in fig. 1.

Description of reference numerals: glass, 1 conveyer belt, 2 tempering furnace, 3 horizontal bar holes, 4 vertical bar holes, 5 montants, the cavity pole of 5a, 5b wear to establish the pole, 6 horizontal poles, 7 connecting blocks, 8 first bolts, 9 second bolts, 10 slide rails, 11 gyro wheels.

Detailed Description

The technical solution of the present invention will be further explained with reference to the accompanying drawings and embodiments.

As shown in fig. 1 and 2, a glass tempering furnace production line comprises a conveyor belt 1 and a tempering furnace 2, wherein the conveyor belt 1 is used for feeding glass a into and sending out the tempering furnace 2, the tempering furnace 2 is provided with a transverse strip-shaped hole 3 and a vertical strip-shaped hole 4 corresponding to the inlet end and the outlet end of the glass a, the vertical strip-shaped hole 4 at the same end is positioned at the upper part of the transverse strip-shaped hole 3 and is communicated with the transverse strip-shaped hole 3, so that the conveyor belt 1 penetrates through the transverse strip-shaped hole 3, the glass a on the conveyor belt 1 penetrates through the vertical strip-shaped hole 4, both sides of the conveyor belt 1 and both sides of the tempering furnace 2 outside the tempering furnace 2 are provided with limiting mechanisms, and the limiting mechanisms at both sides of the tempering furnace 2 extend into the tempering furnace 2 to keep the glass a to be vertically conveyed on the conveyor belt 1.

Every stop gear all contains a montant 5 and locates a horizontal pole 6 on montant 5, and every this horizontal pole 6 all is located 1 top of conveyer belt to the butt is located the side of glass a on the conveyer belt 1. This kind of stop gear simple structure, processing cost of manufacture is lower, is favorable to reducing right the utility model discloses an improve the cost. Each butting end of the cross rod 6 is provided with a roller 11 to be in rolling butting with the side edge of the glass a on the conveyor belt 1. Rolling friction is formed between the cross rod 6 and the hollow glass a, so that the use efficiency of the conveyor belt 1 is improved, and the surface of the hollow glass a is not scratched and damaged in the conveying process. Every all fix a connecting block 7 on the montant 5, correspond horizontal pole 6 is worn to establish this connecting block 7 and can be followed and is worn to establish the direction and remove, a first bolt 8 of threaded connection on the connecting block 7, after this first bolt 8 precession can with 6 butts of horizontal pole are in order to realize locking horizontal pole 6. Through adjusting horizontal pole 6 can further adjust and be located along the shift position who wears to establish the direction interval between the horizontal pole 6 of 1 both sides of conveyer belt, this kind of mode can be to certain thickness within range cavity glass an's spacing, further improved the utility model discloses an application scope.

Every montant 5 all contains a vertical cavity pole 5a and one wears to establish in the cavity of this cavity pole 5a and stretches out the pole 5b of wearing to establish at cavity pole 5a top, should wear to establish pole 5b and can follow the cavity of cavity pole 5a and reciprocate, just threaded connection has second bolt 9 on the cavity pole 5a lateral wall, this second bolt 9 precession back can with wear to establish pole 5b butt. Will wear to establish pole 5b and follow cavity of cavity pole 5a reciprocates and adjusts, later precess once more the second bolt 9 and with wear to establish pole 5b butt in order to realize its locking, this kind of mode can be adjusted effectively cavity pole 5a, wear to establish pole 5b as a holistic whole height, consequently this kind of regulative mode can adapt to spacing at certain altitude range cavity glass an, has further improved the utility model discloses an application scope.

Be located outside tempering furnace 2 both sides of conveyer belt 1, 2 both sides of tempering furnace all are equipped with the slide rail 10 that is on a parallel with direction of transfer, correspond regional the equal slip of cavity pole 5a bottom is located corresponding region in the slide rail 10. Set up slide rail 10 is mainly in order to adjust stop gear is in the position of conveyer belt 1 side because can adjust the interval between two adjacent stop gear effectively, just so can carry on spacingly to different length size's cavity glass a, improved the utility model discloses an application scope.

The limiting mechanisms positioned at two sides of the conveyor belt 1 outside the toughening furnace 2 all use the conveyor belt 1 as the center to form one-to-one correspondence. The limiting mechanisms positioned on the two sides of the toughening furnace 2 are in one-to-one correspondence with the toughening furnace 2 as the center. The arrangement is to enable the limiting mechanisms positioned at the two sides of the conveyor belt 1 to be firmly abutted against the two sides of the hollow glass a, further ensure that the hollow glass a keeps a vertical state in the conveying process, and ensure that the hollow glass a is uniformly heated in the toughening furnace 2.

The working principle is as follows: firstly, stopping conveying of the conveyor belt 1, vertically placing hollow glass a on the conveyor belt 1, enabling the placed glass a to correspond to the vertical strip-shaped holes 4 on the toughening furnace 2, adjusting the position of the hollow rod 5a in the corresponding slide rail 10, adjusting the length of the penetrating rod 5b in the cavity of the hollow rod 5a and adjusting the position of the cross rod 6 in the penetrating direction according to the length, width and height of the glass a.

The method specifically comprises the following steps: directly with hollow pole 5a slides along the extending direction of slide rail 10, can change this moment stop gear is in corresponding slide rail 10 the position to this adapts to the cavity glass a of different length, guarantees that stop gear can carry out spacing butt to the side of cavity glass a, and when the cavity glass a that will process is different in vertical height, can suitably screw out second bolt 9, suitably will wear to establish pole 5b and move up or move down in the cavity of hollow pole 5a, later with the good regulation wear to establish pole 5b and lock through precession second bolt 9, can find a suitable limit point like this, make gyro wheel 11 can steadily butt in the side of cavity glass a. When the hollow glass a with different thicknesses needs to be processed, the cross rods 6 corresponding to the two sides of the conveying belt 1 can be adjusted, the second bolts 9 are screwed out, then the positions of the cross rods 6 are properly adjusted along the penetrating direction according to the thickness of the hollow glass a, the rollers 11 corresponding to the two sides of the conveying belt can be enabled to be abutted against the two side edges of the hollow glass a at the same time, and then the second bolts 9 are screwed in again to lock the cross rods 6.

After the installation is accomplished to cavity glass a on conveyer belt 1, start conveyer belt 1, this conveyer belt 1, cavity glass a are respectively through horizontal bar hole 3, vertical bar hole 4 on tempering furnace 2 and get into tempering furnace 2 in, cavity glass a is by tempering processing in tempering furnace 2 to be located the cavity glass a in tempering furnace 2 is corresponding regional gyro wheel 11 carries on spacingly, keeps cavity glass a to keep vertical in tempering furnace 2, and glass a after tempering processing is carried in vertical bar hole 4 on tempering furnace 2 again, and the cavity glass a that will carry out at last follows lift off on the conveyer belt 1 can, accomplish from this the utility model discloses a whole operation course of working.

Finally, although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the present invention can be modified or replaced by other means without departing from the spirit and scope of the present invention, which should be construed as limited only by the appended claims.

Claims (8)

1. A glass tempering furnace production line, comprising a conveyor belt (1) and a tempering furnace (2), wherein the conveyor belt (1) is used for feeding glass (a) into and discharging the tempering furnace (2), and is characterized in that: tempering furnace (2) are all opened corresponding horizontal bar hole (3) and vertical bar hole (4) at the entering end of glass (a), the delivery end, and vertical bar hole (4) with the end is located horizontal bar hole (3) upper portion and both link up, so that conveyer belt (1) passes from horizontal bar hole (3), makes glass (a) on this conveyer belt (1) pass from vertical bar hole (4), is located conveyer belt (1) both sides outside tempering furnace (2), tempering furnace (2) both sides all are equipped with stop gear, and the stop gear who is located tempering furnace (2) both sides stretches into tempering furnace (2) in to keep glass (a) erect the conveying on conveyer belt (1).

2. A glass tempering furnace production line as defined in claim 1, wherein: every stop gear all contains a montant (5) and locates a horizontal pole (6) on montant (5), and every this horizontal pole (6) all are located conveyer belt (1) top to the butt is located the side of glass (a) on conveyer belt (1).

3. A glass tempering furnace production line as defined in claim 2, wherein: every all fix a connecting block (7) on montant (5), correspond horizontal pole (6) are worn to establish this connecting block (7) and can be followed and are worn to establish the direction and remove, threaded connection first bolt (8) is gone up in connecting block (7), after this first bolt (8) precession can with horizontal pole (6) butt.

4. A glass tempering furnace production line as defined in claim 3, wherein: every montant (5) all contain a vertical cavity pole (5a) and one and wear to establish in the cavity of this cavity pole (5a) and stretch out the pole (5b) of wearing to establish at cavity pole (5a) top, should wear to establish pole (5b) and can follow the cavity of cavity pole (5a) and reciprocate, just threaded connection has second bolt (9) on cavity pole (5a) lateral wall, this second bolt (9) precession back can with wear to establish pole (5b) butt.

5. A glass tempering furnace production line according to claim 4, wherein: lie in tempering furnace (2) outside conveyer belt (1) both sides, tempering furnace (2) both sides all are equipped with slide rail (10) that are on a parallel with direction of transfer, correspond the region cavity pole (5a) bottom all slides and locate corresponding the region in slide rail (10).

6. A glass tempering furnace production line according to any of claims 2 to 4, characterized in that: each abutting end of the cross rod (6) is provided with a roller (11) to be in rolling abutting joint with the side edge of the glass (a) on the conveyor belt (1).

7. A glass tempering furnace production line according to any of claims 1 to 5, wherein: the limiting mechanisms positioned at two sides of the conveyor belt (1) outside the toughening furnace (2) form one-to-one correspondence by taking the conveyor belt (1) as the center.

8. A glass tempering furnace production line according to any of claims 1 to 5, wherein: the limiting mechanisms positioned on the two sides of the toughening furnace (2) are in one-to-one correspondence with the toughening furnace (2) as the center.

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