CN212194609U - Glass doubling stove - Google Patents

Abstract

The utility model discloses a glass doubling stove relates to a glass doubling stove technical field. This glass doubling stove, the on-line screen storage device comprises a base, the bottom welded mounting of base has the supporting leg, the quantity of supporting leg is four groups and is the bottom that the rectangle array arranged installation and base, the top welded mounting of base has the box, the spout has all been seted up to the both sides inner wall of box, the quantity of spout is eight groups and is the parallel corresponding setting, the built-in slider of spout, slider and spout sliding connection set up, the inboard bottom welded mounting of spout has reset spring, reset spring's free end sets up with the bottom welded connection of slider, the slider is located the outside lateral wall welded mounting of spout and has the stripper plate. Adopt a plurality of heating element to heat up to the box inside simultaneously in this device, and the two sides of single glass doubling process in this device all can receive the heating to improve the heating efficiency of device to a certain extent, the production efficiency of device is also improved to a certain extent to two-sided heating simultaneously.

Description

Glass doubling stove

Technical Field

The utility model relates to a glass doubling stove technical field specifically is a glass doubling stove.

Background

A glass-sandwiched glass is a composite glass product made up of two or more glass sheets and one or more organic polymer intermediate films between them through special high-temp prepressing and high-temp high-pressure treating to permanently bond the glass sheets and intermediate films together.

However, most of the existing glass heat sealing furnaces use a single heating element, so that the heating speed is low in the using process, the production efficiency of laminated glass is low, and meanwhile, a pressing structure does not exist in most of the existing devices, so that the glass is heated unevenly, the transparency of the laminated glass is seriously affected, and the laminated glass is poor in quality and even scrapped.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a glass doubling stove to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a glass doubling furnace comprises a base, wherein supporting legs are welded and installed at the bottom of the base, the number of the supporting legs is four groups and is arranged at the bottom of the base in a rectangular array mode, a box body is welded and installed at the top of the base, sliding grooves are formed in the inner walls of the two sides of the box body, the sliding grooves are arranged in parallel and correspondingly, sliding blocks are arranged in the sliding grooves and are arranged in a sliding mode, reset springs are welded and installed at the bottoms of the inner sides of the sliding grooves, the free ends of the reset springs are arranged in a welding mode with the bottoms of the sliding blocks, a side wall, located outside the sliding grooves, of each sliding block is welded and installed with an extrusion plate, placing plates are welded and installed on the inner walls of the two sides of the box body, the tops of the placing plates are provided with placing grooves, cams are rotatably installed on the inner walls of the two sides of the box, a cooling bin is installed in a side wall welding of box, the axis of rotation of cam transversely runs through the inside wall of box and the outer wall in cooling bin and extension value cooling bin in, the one end welding that the axis of rotation of cam is located the cooling bin installs the gear, the quantity of gear is four groups and the gear cover is established and is installed the chain, a side wall welding in cooling bin installs the motor, the output of motor transversely runs through the cooling bin through the shaft coupling and in one of them a set of axis of rotation welded connection setting of gear, the articulated bin gate of installing of preceding lateral wall of box, welded mounting has handle and temperature-sensing device on the bin gate, the bottom welded mounting of base has the force (forcing) pump, the output welded mounting of force (forcing) pump has the forcing pipe, the free end of forcing pipe and a side wall welding of.

Preferably, the cam is positioned right above the extrusion plate, and the bottommost surface of the cam can be attached to the extrusion plate.

Preferably, the cooling bin is internally provided with cooling liquid.

Preferably, a pressure release valve is welded to the top of the box body.

Preferably, a sealing ring is arranged at the joint of the bin door and the box body, an observation window is arranged on the bin door, and tempered high-temperature-resistant glass is arranged on the observation window.

Preferably, the handle is provided with a heat-proof sleeve, and the temperature sensing device is communicated with the interior of the box body.

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

(1) this glass doubling stove adopts a plurality of heating element to heat to the box inside simultaneously in this device, and the two sides of single glass doubling process all can receive the heating in this device to improve the heating efficiency of device to a certain extent, the production efficiency of device is also improved to a certain extent to the two-sided heating simultaneously.

(2) This glass doubling stove, this device adopt the structure of cam cooperation stripper plate for glass can obtain balanced pressure when putting into, thereby makes glass when being heated the bonding, and the heating that the inside cavity of avoiding appearing glass leads to is inhomogeneous, thereby has improved the production quality of device to a certain extent, has also improved the device practicality to a certain extent simultaneously.

(3) This glass doubling stove, this device lie in box one side and are provided with the storehouse of cooling for the device is heating the during operation, and the motor can not directly be used to the heat-conduction, thereby has reduced the unnecessary loss to a certain extent, improves the practicality of device greatly.

Drawings

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

fig. 2 is a front view schematically illustrating the present invention;

fig. 3 is an enlarged schematic view of part a of the present invention.

In the figure: the device comprises a box body 1, a pressure release valve 2, a cam 3, a temperature reduction bin 4, a gear 5, a chain 6, a pressure pipe 7, a pressure pump 8, a base 9, supporting legs 10, a motor 11, an observation window 12, a temperature sensing device 13, a bin door 14, a handle 15, a sliding block 16, a sliding groove 17, a return spring 18, a squeezing plate 19, a placing plate 20 and a heating assembly 21.

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 in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: a glass laminating furnace comprises a base 9, supporting legs 10 are welded and installed at the bottom of the base 9, the number of the supporting legs 10 is four groups and are arranged at the bottom of the base 9 in a rectangular array mode, a box body 1 is welded and installed at the top of the base 9, sliding grooves 17 are formed in the inner walls of the two sides of the box body 1, the number of the sliding grooves 17 is eight groups and are arranged in parallel and correspondingly, sliding blocks 16 are arranged in the sliding grooves 17, the sliding blocks 16 are arranged in sliding connection with the sliding grooves 17, return springs 18 are welded and installed at the bottoms of the inner sides of the sliding grooves 17, the free ends of the return springs 18 are arranged in welding connection with the bottoms of the sliding blocks 16, extrusion plates 19 are welded and installed on one side wall of the outer portions of the sliding grooves 16, placing plates 20 are welded and installed on the inner walls of the two sides of the box body 1 and are located under the extrusion plates 19, placing grooves are formed in the tops of the placing plates 20, cams 3 are rotatably installed on the, the device adopts the structure that the cam 3 is matched with the extrusion plate 19, so that glass can obtain balanced pressure when being put in, thereby avoiding uneven heating caused by the hollow inside of the glass when the glass is heated and bonded, improving the production quality of the device to a certain extent, and improving the practicability of the device to a certain extent at the same time, the inner walls at two sides of the box body 1 are positioned right above the cam 3 and are welded with the heating components 21, the heating components 21 are not connected with the cam 3, the device adopts a plurality of heating components 21 to heat up and heat the inside of the box body 1 at the same time, and both sides of a single glass laminating process in the device can be heated, thereby improving the heating efficiency of the device to a certain extent, simultaneously improving the production efficiency of the device to a certain extent by double-sided heating, a side wall of the box body 1 is welded with the cooling bin 4, and cooling liquid is arranged in the cooling bin 4, the device is provided with a cooling bin 4 at one side of the box body, so that heat conduction can not directly act on a driving device when the device is heated, thereby reducing unnecessary loss to a certain extent, greatly improving the practicability of the device, the rotating shaft of a cam 3 transversely penetrates through the inner side wall of the box body 1 and the outer wall of the cooling bin 4 and extends into the cooling bin 4, gears 5 are welded and installed at one end of the rotating shaft of the cam 3, the number of the gears 5 is four, chains 6 are sleeved and installed on the gears 5, a motor 11 is welded and installed on one side wall of the cooling bin 4, the output end of the motor 11 transversely penetrates through the cooling bin 4 through a shaft coupling and is welded and connected with one group of rotating shafts of the gears 5, a pressure release valve 2 is welded and installed at the top of the box body 1, a pressure release valve 14 is hinged and installed on the front side wall of the box body 1, the observation window 12 has been seted up on the door 14, be provided with the high temperature resistant glass of tempering on the observation window 12, welded mounting has handle 15 and temperature-sensing device 13 on the door 14, be provided with the heat-proof cover on the handle 15, temperature-sensing device 13 sets up with the inside intercommunication of box 1, the bottom welded mounting of base 9 has force (forcing) pump 8, force (forcing) pump 8's output welded mounting has the forcing pipe 7, the free end of forcing pipe 7 is connected with a lateral wall welded connection of box 1 and is set up.

The working principle is as follows: when the device begins to use, after being coated with the colloid, the glass is sequentially placed on the placing plate 20, the starting motor 11 drives the gear 5 to rotate, so that the cam 3 rotates to drive the extrusion plate 19 to move longitudinally, the glass is extruded and fixed, the bin door 14 is closed through the handle 15, the heating assembly 21 and the pressure pump 8 are started, the temperature sensing device 13 is observed to limit the temperature at a known height, and the device begins to cause the glass to be bonded.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a glass doubling stove, includes base (9), its characterized in that: the bottom of base (9) is welded and installed with supporting legs (10), the quantity of supporting legs (10) is four groups and is the bottom of rectangular array arrangement installation and base (9), the top welded installation of base (9) has box (1), spout (17) have all been seted up to the both sides inner wall of box (1), the quantity of spout (17) is eight groups and is parallel corresponding arrangement, spout (17) embeds slider (16), slider (16) and spout (17) sliding connection set up, reset spring (18) are installed to the inboard bottom welded connection of spout (17), reset spring (18)'s free end and the bottom welded connection setting of slider (16), the lateral wall welded installation of slider (16) outside spout (17) has stripper plate (19), the both sides inner wall of box (1) is located stripper plate (19) and is welded and is installed and is placed board (20), the top of the placing plate (20) is provided with a placing groove, the inner walls of two sides of the box body (1) are rotatably provided with the cams (3), the inner walls of two sides of the box body (1) are positioned right above the cams (3) and are welded with the heating components (21), the heating components (21) are not connected with the cams (3), one side wall of the box body (1) is welded with the cooling bin (4), the rotating shafts of the cams (3) transversely penetrate through the inner side wall of the box body (1) and the outer wall of the cooling bin (4) and extend into the cooling bin (4), one end of the rotating shaft of the cam (3) positioned in the cooling bin (4) is welded with the gears (5), the gears (5) are four groups in number, the gears (5) are sleeved with the chains (6), one side wall of the cooling bin (4) is welded with the motor (11), the output end of the motor (11) transversely penetrates through the cooling bin (4) through the coupler and is welded with, the articulated door (14) of installing of preceding lateral wall of box (1), welded mounting has handle (15) and temperature-sensing device (13) on door (14), and the bottom welded mounting of base (9) has force (forcing) pump (8), and the output welded mounting of force (forcing) pump (8) has forcing pipe (7), and the free end of forcing pipe (7) and a lateral wall welded connection of box (1) set up.

2. The glass laminating furnace of claim 1, wherein: the cam (3) is positioned right above the extrusion plate (19), and the bottommost surface of the cam (3) and the extrusion plate (19) can be arranged in a fit manner.

3. The glass laminating furnace of claim 1, wherein: and a cooling liquid is arranged in the cooling bin (4).

4. The glass laminating furnace of claim 1, wherein: and a pressure release valve (2) is welded and installed at the top of the box body (1).

5. The glass laminating furnace of claim 1, wherein: the sealing ring is arranged at the joint of the bin door (14) and the box body (1), the observation window (12) is arranged on the bin door (14), and the tempered high-temperature-resistant glass is arranged on the observation window (12).

6. The glass laminating furnace of claim 1, wherein: the handle (15) is provided with a heat-proof sleeve, and the temperature sensing device (13) is communicated with the interior of the box body (1).

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