CN211255687U - High-thermal-efficiency electromagnetic heating type glass tempering furnace - Google Patents

Abstract

The utility model discloses a high thermal efficiency electromagnetic heating formula glass tempering furnace relates to glass tempering furnace technical field, including the mount, the middle part outside cover of mount is equipped with the box, and inner wall one side of box is connected with the baffle, spacing frame is installed to the one end of baffle, and installs the bearing frame in the below of spacing frame, be fixed connection between bearing frame and the box, and the both sides of bearing frame all are connected with the loading board, first heating mechanism is installed on the inboard top of box, second heating mechanism is installed to the inboard of bearing frame. The utility model discloses in, through the setting to first heating mechanism and second heating mechanism for its both can carry out middle part, edge to the glass that removes to box inside respectively and carry out independent type heating operation, improve the thermal efficiency that glass heated the during operation, and through the operation of holding up of bearing frame to glass, make the invasion of high temperature effectively be avoided to the conveying subassembly, prolong the life of conveying subassembly.

Description

High-thermal-efficiency electromagnetic heating type glass tempering furnace

Technical Field

The utility model relates to a glass tempering furnace technical field especially relates to a high thermal efficiency electromagnetic heating formula glass tempering furnace.

Background

The glass toughening furnace is also called glass toughening equipment, a glass toughening unit, a toughening furnace, toughening equipment, a toughening unit and the like. The glass tempering furnace is characterized in that a compression stress layer is formed on the surface of glass and a tension stress layer is formed inside the glass by a physical or chemical method; when the glass is acted by external force, the compressive stress layer can offset part of tensile stress, so that the glass is prevented from being broken, and the aim of improving the strength of the glass is fulfilled.

When the existing glass tempering furnace is used, glass is generally heated integrally, so that the heat efficiency of the glass during heating is not high, energy is wasted, and the conveying mechanism on the inner side of the device cannot be effectively protected, so that the service life of the device is shortened.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving current glass tempering furnace and when using, generally all carry out the wholeization heating to glass for glass causes the extravagant energy when the thermal efficiency of carrying out the heating during operation is not high, and can not effectual protection device inboard transport mechanism, leads to the shortcoming that the life of device shortens, and the high thermal efficiency electromagnetic heating formula glass tempering furnace that provides.

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

the utility model provides a high thermal efficiency electromagnetic heating formula glass tempering furnace, includes the mount, the middle part outside cover of mount is equipped with the box, and inner wall one side of box is connected with the baffle, spacing frame is installed to the one end of baffle, and installs the carriage below of spacing frame, be fixed connection between carriage and the box, and the both sides of carriage all are connected with the loading board, first heating mechanism is installed on the inboard top of box, second heating mechanism is installed to the inboard of carriage, the loose axle has been run through to the inside of spacing frame, and the middle part outside of loose axle installs the gyro wheel, the inboard winding of mount is connected with the conveyer belt.

Preferably, the shape of the baffle is matched with that of the bearing plate, and the bearing plate is symmetrical about the central axis of the bearing frame.

Preferably, the inner side of the first heating mechanism comprises a bearing frame, a first electromagnetic heating coil is arranged in the bearing frame, and the bearing frame is connected with the top end of the inner side of the box body through an electric push rod.

Preferably, the electric push rod and the bearing frame are vertically distributed, and first electromagnetic heating coils are uniformly distributed on the inner side of the bearing frame at equal intervals.

Preferably, the inner side of the second heating mechanism comprises a belt, the inner wall of the belt is connected with a rotating shaft in a sliding mode, the rotating shaft is connected with the bearing frame in a penetrating mode, and a second electromagnetic heating coil is installed on the outer side of one end, close to the transverse axis of the bearing frame, of the rotating shaft.

Preferably, the belt is distributed in the outer side of the box body in a triangular shape, and the box body and the bearing frame form a detachable structure through bolts.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that:

1. the utility model discloses in, through the setting to first heating mechanism and second heating mechanism for its both can carry out middle part, edge to the glass that removes to box inside respectively and carry out independent type heating operation, improve the thermal efficiency that glass heated the during operation, and through the operation of holding up of bearing frame to glass, make the invasion of high temperature effectively be avoided to the conveying subassembly, prolong the life of conveying subassembly.

2. The utility model discloses in, there is first electromagnetic heating coil's effect through the inboard equidistance evenly distributed who bears the frame, after starting electric putter, it promotes to bear the frame for bear the inboard equidistance distribute and be in the first electromagnetic heating coil in the operating condition and carry out the heating operation to glass's middle part, and under the effect of the different distances that electric putter promotes to bear the frame, can directly influence this heating mechanism the degree of being heated and the heated area when heating glass, the flexibility of reinforcing the device during operation.

3. The utility model discloses in, under the effect that is the belt of triangle-shaped distribution in the outside of box for the output of conveyer belt drives the belt that the triangle-shaped distributes in step and conveys, then when the conveyer belt is rotatory, the belt is together rotated, so pivot and second electromagnetic heating coil of being connected with the belt are also rotatory, then can carry out the even heating operation to the edge department that is in the glass of pressing the state when advancing through the gyro wheel.

Drawings

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

FIG. 2 is a schematic view of the middle part of the inner side of the middle box body of the utility model;

fig. 3 is a schematic diagram of the top view structure of the present invention;

fig. 4 is an enlarged schematic view of the position a of the present invention.

Illustration of the drawings:

1. a fixed mount; 2. a box body; 3. a baffle plate; 4. a limiting frame; 5. a bearing frame; 6. a carrier plate; 7. a first heating mechanism; 701. a carrier; 702. a first electromagnetic heating coil; 703. an electric push rod; 8. a conveyor belt; 9. a second heating mechanism; 901. a belt; 902. a rotating shaft; 903. a second electromagnetic heating coil; 10. a movable shaft; 11. and a roller.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1-4, a high thermal efficiency electromagnetic heating type glass tempering furnace comprises a fixed frame 1, a box body 2, a baffle 3, a limit frame 4, a bearing frame 5, a bearing plate 6, a first heating mechanism 7, a bearing frame 701, a first electromagnetic heating coil 702, an electric push rod 703, a conveyor belt 8, a second heating mechanism 9, a belt 901, a rotating shaft 902, a second electromagnetic heating coil 903, a movable shaft 10 and rollers 11, wherein the box body 2 is sleeved outside the middle part of the fixed frame 1, the baffle 3 is connected to one side of the inner wall of the box body 2, the limit frame 4 is installed at one end of the baffle 3, the bearing frame 5 is installed below the limit frame 4, the conveying assembly can effectively avoid high temperature invasion through the supporting operation of the bearing frame 5 on glass, the service life of the conveying assembly is prolonged, the bearing frame 5 is fixedly connected with the box body 2, and the bearing plates 6 are connected to both sides of, first heating mechanism 7 is installed on the inboard top of box 2, second heating mechanism 9 is installed to the inboard of bearing frame 5, through the setting to first heating mechanism 7 and second heating mechanism 9, make it both can carry out the middle part to the glass that removes to box 2 inside respectively, the edge carries out independent type heating operation, improve the thermal efficiency that glass carries out the heating during operation, spacing frame 4's inside has run through loose axle 10, and the middle part outside of loose axle 10 installs gyro wheel 11, the inboard winding of mount 1 is connected with conveyer belt 8.

Further, the shape of baffle 3 is identical with the shape of loading board 6, and loading board 6 is symmetrical about the axis of bearing frame 5, through the effect of baffle 3, can carry out the guide operation to the glass when moving down to under the effect of loading board 6, can effectual compensation bearing frame 5 and the difference in height between the conveyer belt 8, when avoiding glass to promote the operation, appear the card pause phenomenon.

Further, the inboard of first heating mechanism 7 is including bearing frame 701, and bears the internally mounted of frame 701 and have first electromagnetic heating coil 702, bears frame 701 and is connected with the inboard top of box 2 through electric putter 703, bears frame 701 and can bear the weight of processing to first electromagnetic heating coil 702 for electric putter 703 promotes and bears frame 701 and move down the back, and the heat that first electromagnetic heating coil 702 gived off can be quick be full of box 2, accelerates the device to the heating process of glass.

Further, electric putter 703 and bear and be vertical form distribution between the frame 701, and bear the inboard equidistance evenly distributed of frame 701 and have first electromagnetic heating coil 702, under the effect of the different distances that electric putter 703 promoted to bear frame 701, can directly influence the degree of being heated and the area of being heated when this heating mechanism heats glass, the flexibility of reinforcing the device during operation.

Further, the inner side of the second heating mechanism 9 includes a belt 901, the inner wall of the belt 901 is slidably connected with a rotating shaft 902, the rotating shaft 902 is connected with the carrying frame 5 in a penetrating manner, and a second electromagnetic heating coil 903 is installed at the outer side of one end of the rotating shaft 902 close to the transverse axis of the carrying frame 5.

Further, the belt 901 is distributed in the outer side of the box body 2 in a triangular shape, the box body 2 and the bearing frame 5 form a detachable structure through bolts, the belt 901 distributed in a triangular shape is synchronously driven to be conveyed through the output end of the conveyor belt 8, and when the conveyor belt 8 rotates, the belt 901 rotates together, so that the rotating shaft 902 connected with the belt 901 and the second electromagnetic heating coil 903 also rotate, and the edge of the glass in a pressing state when the glass travels through the roller 11 can be uniformly heated.

The working principle is as follows: when the glass cleaning device is used, firstly, the blocky materials are screwed and installed on the central axis of the conveyor belt 8 through bolts by workers, then, the conveyor belt 8 is in a rotating state by the starting device, the conveyor belt 901 which is distributed in a triangular shape is synchronously driven to convey through the output end of the conveyor belt 8, when the conveyor belt 8 rotates, the belt 901 rotates together, so that the rotating shaft 902 and the second electromagnetic heating coil 903 which are connected with the belt 901 also rotate, then, the glass to be treated is manually arranged on the conveyor belt 8 until the glass is conveyed to the position of the bearing plate 6 and continues to move upwards along the inclined surface of the bearing plate 6, meanwhile, under the action of the pre-installed blocky materials, the glass which moves obliquely can be blocked to avoid the phenomenon of sliding down, and can be pushed to work in the horizontal direction when the glass moves through the rotating shaft 902, and the edge of the glass is heated by the second electromagnetic heating coil 903 in the working state, meanwhile, after the electric push rod 703 (type: NKLA4) is started, the electric push rod pushes the bearing frame 701, so that the heating mechanism heats the middle part of the glass, the efficiency of the device for performing specific heating work on the glass is effectively enhanced, finally, the glass is transmitted to the baffle 3, one end of the glass is blocked and limited by the baffle 3 until the glass is transmitted to the outer side of the box body 2 through the conveyor belt 8, and then enters the next processing area.

The above, only be the concrete implementation of the preferred embodiment of the present invention, but the protection scope of the present invention is not limited thereto, and any person skilled in the art is in the technical scope of the present invention, according to the technical solution of the present invention and the utility model, the concept of which is equivalent to replace or change, should be covered within the protection scope of the present invention.

Claims (6)

1. An electromagnetic heating type glass tempering furnace with high thermal efficiency comprises a fixed frame (1) and is characterized in that a box body (2) is sleeved outside the middle part of the fixed frame (1), and one side of the inner wall of the box body (2) is connected with a baffle (3), one end of the baffle (3) is provided with a limit frame (4), a bearing frame (5) is arranged below the limit frame (4), the bearing frame (5) is fixedly connected with the box body (2), both sides of the bearing frame (5) are connected with bearing plates (6), the top end of the inner side of the box body (2) is provided with a first heating mechanism (7), a second heating mechanism (9) is arranged on the inner side of the bearing frame (5), a movable shaft (10) penetrates through the limiting frame (4), and the middle part of the movable shaft (10) is provided with a roller (11), and the inner side of the fixed frame (1) is wound and connected with a conveyor belt (8).

2. A high thermal efficiency electromagnetic heating type glass tempering furnace according to claim 1, wherein said baffle plate (3) is shaped to match the shape of the carrying plate (6), and the carrying plate (6) is symmetrical about the central axis of the carrying frame (5).

3. A high thermal efficiency electromagnetic heating type glass tempering furnace according to claim 1, wherein said first heating means (7) comprises a carriage (701) inside, and a first electromagnetic heating coil (702) is installed inside said carriage (701), said carriage (701) is connected to the top end of the inside of said box (2) by an electric push rod (703).

4. A highly efficient electromagnetic heating type glass tempering furnace according to claim 3, wherein said electric push rod (703) and said bearing frame (701) are vertically distributed, and the inner side of said bearing frame (701) is equally distributed with first electromagnetic heating coils (702).

5. A high thermal efficiency electromagnetic heating type glass tempering furnace according to claim 1, wherein said second heating mechanism (9) comprises a belt (901) inside, and the inner wall of said belt (901) is connected with a rotating shaft (902) in a sliding manner, said rotating shaft (902) is connected with said bearing frame (5) in a penetrating manner, and a second electromagnetic heating coil (903) is installed outside one end of said rotating shaft (902) close to the transverse axis of said bearing frame (5).

6. A high thermal efficiency electromagnetic heating type glass tempering furnace according to claim 5, characterized in that said belt (901) is distributed in triangle shape outside of box body (2), and box body (2) and bearing frame (5) form detachable structure through bolt.

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