CN212109566U - Cooling device for hot-melt crystal glass - Google Patents

Abstract

The utility model discloses a quartzy glass's cooling device is melted to heat, including the cooling chamber, conveyer, first air-blower and second air-blower, the cooling chamber includes input port and delivery outlet, conveyer is fixed to be placed in the cooling chamber, conveyer includes the aircraft nose, tail and conveyer belt, first air-blower sets up at the cooling chamber upside, be provided with the upside air intake at the cooling chamber upside, upside air intake and first air-blower connection, the second air-blower sets up at the cooling chamber downside, be provided with the downside air intake at the cooling chamber downside, downside air intake and second air-blower connection, upside air intake and downside air intake axisymmetric setting. The utility model discloses a cooling device of crystal glass is melted to heat, through placing the cooling chamber interior cooling of semi-closed with crystal glass, the axis symmetry sets up the upside air intake and the downside air intake of cooling chamber simultaneously, makes the utility model discloses a device can carry out even cooling to crystal glass to avoid crystal glass to appear the flaw or even defect because of the cooling.

Description

Cooling device for hot-melt crystal glass

Technical Field

The utility model relates to a crystal glass technical field specifically is a cooling device of hot melt crystal glass.

Background

The hot melt crystal glass is placed on a high temperature resistant non-deforming ceramic backing plate scattered with silicic acid pickaxe materials through a production line, the heat melt is sintered and the glass is sintered into a specific specification and a specific shape before the balance and the mixing of a kiln, and the crystal glass is cooled and selected and classified after being taken out of the kiln.

The existing cooling mode is generally to place the crystal glass on the goods shelves to cool, there are problems that, firstly, because the existing cooling mode is open cooling, the cooling is easy to be uniform, because the cooling process can not be uniform enough, the crystal glass is easy to be cooled locally in the cooling process, causing flaws or even defects; secondly, the existing cooling mode is slow on the one hand, because the requirement of uniform cooling can not be solved, the existing device generally adopts a method for reducing the cooling speed to carry out cooling, the cooling efficiency is influenced, and thirdly, the heat generated by the existing device for cooling the crystal glass is generally also discharged at a working place, and the continuous production is influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a cooling device of hot melt crystal glass to solve the problem among the prior art.

In order to achieve the above object, the utility model provides a following technical scheme:

the utility model provides a cooling device of hot melt crystal glass, includes cooling chamber, conveyer, first air-blower and second air-blower, the cooling chamber includes input port and delivery outlet, conveyer is fixed to be placed in the cooling chamber, conveyer includes aircraft nose, tail and conveyer belt, a serial communication port, first air-blower sets up the cooling chamber upside is provided with the upside air intake, the upside air intake with first air-blower is connected, the second air-blower sets up the cooling chamber downside is provided with the downside air intake, the downside air intake with the second air-blower is connected, the upside air intake with downside air intake axisymmetric sets up.

Preferably, the upper side of the cooling chamber is provided with at least two upper side air inlets, the lower side of the cooling chamber is provided with at least two lower side air inlets, and the upper side air inlets and the lower side air inlets are arranged in a one-to-one axial symmetry manner.

Preferably, an exhaust port is arranged on the upper side of the cooling chamber, and the exhaust port is connected with the first exhaust channel.

Furthermore, a first exhaust valve is arranged on the first exhaust channel, and the first exhaust channel is controlled to exhaust air through the first exhaust valve.

Preferably, at least two of the conveyors are disposed in parallel in the cooling chamber.

Preferably, the conveyor is placed at the axis of the cooling chamber.

Preferably, at least two upper side wind shields are arranged between the upper side air inlet and the conveying device, at least two lower side wind shields are arranged between the lower side air inlet and the conveying device, and the upper side wind shields and the lower side wind shields are connected to the inner side wall of the cooling chamber.

Preferably, the cooling device further includes a circulation fan, the exhaust port is connected to the circulation fan through a first exhaust passage, and the circulation fan is connected to the first blower and/or the second blower through a pipe.

Furthermore, a second exhaust channel is connected between the circulating fan and the first air blower or the second air blower, and a second exhaust valve is arranged on the second exhaust channel.

The utility model discloses there is following beneficial effect:

the cooling device for hot melt crystal glass of the utility model can cool the crystal glass in the semi-closed cooling chamber by placing the crystal glass in the semi-closed cooling chamber, and the upper air inlet and the lower air inlet of the cooling chamber are arranged in axial symmetry, so that the device of the utility model can uniformly cool the crystal glass, thereby avoiding the crystal glass from generating defects or even defects due to cooling, because the cooling chamber, the first air blower and the second air blower of the cooling device for hot melt crystal glass of the utility model are separately arranged, the air blower and the second air blower can be arranged outside a workplace, the cooling device for hot melt crystal glass is prevented from occupying the space of the workplace, furthermore, the first exhaust passage connected with the cooling device for hot melt crystal glass of the utility model is further,

so that the air flowing through the cooling chamber can discharge the heat of the crystal glass out of the cellar to the outside of a working place, thereby improving the working environment.

Drawings

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

in the figure: 1-a cooling chamber, 2-a first air blower, 3-a second air blower, 4-a conveying device, 5-an upper side air inlet, 6-a lower side air inlet, 7-an input port, 8-an output port, 9-a tail, 10-a head, 11-a conveying belt, 12-an exhaust port and 13-a first exhaust channel.

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, in an embodiment of the present invention, a cooling device for hot melting crystal glass includes a cooling chamber 1, a conveyor 4, a first blower 2 and a second blower 3, the cooling chamber 1 comprises an input port 7 and an output port 8, the conveying device is fixedly arranged in the cooling chamber 1 and comprises a machine head 10, a machine tail 9 and a conveying belt 11, it is characterized in that the first blower 2 is arranged on the upper side of the cooling chamber 1, an upper air inlet 5 is arranged on the upper side of the cooling chamber 1, the upper air inlet 5 is connected with the first air blower 2, the second air blower 3 is arranged at the lower side of the cooling chamber 1, a lower air inlet 6 is formed in the lower side of the cooling chamber 1, the lower air inlet 6 is connected with the second air blower 3, and the upper air inlet 5 and the lower air inlet 6 are arranged in an axisymmetric mode.

The utility model can evenly cool the crystal glass by placing the crystal glass in the semi-closed cooling chamber 1 for internal cooling and arranging the upper air inlet and the lower air inlet of the cooling chamber in an axisymmetric way, thereby avoiding the crystal glass from generating flaws or even defects due to cooling; the utility model discloses a conveyer is prior art's band conveyer, including aircraft nose 10, tail 9 and conveyer belt 11, because the utility model discloses do not make the improvement to conveyer the utility model discloses in do not do the elaboration to conveyer.

At least two upper air inlets are formed in the upper side of the cooling chamber 1, at least two lower air inlets are formed in the lower side of the cooling chamber 1, and the upper air inlets and the lower air inlets are arranged in one-to-one axial symmetry; on the one hand, through the quantity that increases upside air intake and downside air intake, improve the efficiency of cooling crystal glass, on the other hand, upside air intake sets up with downside air intake one-to-one axial symmetry, also can guarantee the utility model discloses a device can carry out even cooling to crystal glass.

An exhaust port 12 is arranged on the upper side of the cooling chamber 1 and is connected with a first exhaust channel 13; further, a first exhaust valve is arranged on the first exhaust passage 13, and the first exhaust passage 13 is controlled to exhaust air through the first exhaust valve; on one hand, the technical effect of cooling is achieved by partially or completely discharging the air flowing through the cooling chamber 1, and on the other hand, the cooling speed is controlled by controlling the speed of the air discharged from the first exhaust channel 13 through the first exhaust valve, so that the cooling process of the crystal glass can be controlled.

Preferably, at least two of said conveying means 4 are placed in parallel inside said cooling chamber 1; the cooling efficiency of the whole crystal glass process is improved by arranging at least two conveying devices 4 in the cooling chamber 1.

Preferably, said conveying means 4 are placed at the axis of said cooling chamber 1; aim at ensures the utility model discloses a device can carry out even cooling to crystal glass.

At least two upper wind shields are arranged between the upper wind inlet 5 and the conveying device 4, at least two lower wind shields are arranged between the lower wind inlet 6 and the conveying device 4, and the upper wind shields and the lower wind shields are connected to the inner side wall of the cooling chamber 1; upside deep bead can set up under upside air intake 5, also can set up in the side below, and the downside deep bead can set up directly over downside air intake 6, also can set up in the side top, and aim at avoids getting into cooling chamber 1 from upside air intake 5 and downside air intake and directly not blowing at crystal glass, avoids crystal glass to appear the flaw because of local cooling, improves crystal glass's yields.

Preferably, the cooling device further comprises a circulation fan, the exhaust port 12 is connected to the circulation fan through a first exhaust passage 13, and the circulation fan is connected to the first blower 2 and/or the second blower 3 through a pipe; further, a second exhaust passage is connected between the circulating fan and the first blower 3 or the second blower 3, and a second exhaust valve is arranged on the second exhaust passage; the second exhaust channel is controlled by a second exhaust valve to exhaust air, so that the air flowing through the cooling chamber (1) is partially or completely exhausted.

The utility model discloses a theory of operation is:

conveying the crystal glass discharged from the cellar from the tail 9 end to a cooling device for hot melting the crystal glass, entering a cooling chamber 1, placing the cooling chamber 1 on a conveyor belt 11, closing an input port 7 and an output port 8, opening a first air blower 2 and a second air blower 3, allowing air to enter the cooling chamber 1 from an upper air inlet 5 and a lower air inlet 6, flowing through the cooling chamber 1, cooling the crystal glass, heating the crystal glass, and discharging the air out of the cooling chamber 1 from an air outlet 12; because the utility model discloses a cooling chamber 1 of cooling device of hot melt crystal glass, first air-blower 2 and second air-blower 3 separately set up, place at the workplace generally cooling chamber 1, it is specific, it is indoor, make first air-blower 2 and second air-blower 3 can settle outside the workplace, it is specific, for outdoor, avoid first air-blower 2 and the crowded space that accounts for the workplace of second air-blower 3, furthermore, the first exhaust passage 16 that gas vent 12 is connected, make the air part of flowing through cooling chamber 1 or whole discharge out, thereby can be outside the workplace with the heat discharge of leaving cellar for storing things back crystal glass, avoid the heat to gather at the workplace, consequently, improve operational environment.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (9)

1. The utility model provides a cooling device for hot melt crystal glass, includes cooling chamber (1), conveyer (4), first air-blower (2) and second air-blower (3), cooling chamber (1) includes input port (7) and delivery outlet (8), conveyer is fixed to be placed in cooling chamber (1), conveyer includes aircraft nose (10), tail (9) and conveyer belt (11), its characterized in that, first air-blower (2) set up cooling chamber (1) upside be provided with upside air intake (5) cooling chamber (1) upside, upside air intake (5) with first air-blower (2) are connected, second air-blower (3) set up cooling chamber (1) downside is provided with downside air intake (6), downside air intake (6) with second air-blower (3) are connected, the upper side air inlet (5) and the lower side air inlet (6) are arranged in an axial symmetry mode.

2. The cooling device for hot-melt crystal glass according to claim 1, wherein the cooling chamber (1) has at least two upper air inlets at the upper side, and at least two lower air inlets at the lower side of the cooling chamber (1), and the upper air inlets and the lower air inlets are arranged in one-to-one axial symmetry.

3. A cooling device for hot-melt crystal glass according to claim 1, wherein an exhaust port (12) is provided at an upper side of the cooling chamber (1), and the exhaust port is connected to the first exhaust passage (13).

4. A cooling device for hot-melt crystal glass according to claim 3, wherein the first exhaust channel (13) is provided with a first exhaust valve.

5. A cooling device for hot-melt crystal glass according to claim 1, characterised in that at least two of said conveyors (4) are placed in parallel in said cooling chamber (1).

6. A cooling device for hot-melt crystal glass according to claim 1, characterized in that the conveyor (4) is placed at the axis of the cooling chamber (1).

7. The cooling device for hot-melt crystal glass according to claim 1, wherein at least two upper wind deflectors are arranged between the upper wind inlet (5) and the conveyor (4), at least two lower wind deflectors are arranged between the lower wind inlet (6) and the conveyor (4), and the upper wind deflectors and the lower wind deflectors are connected to the inner side wall of the cooling chamber (1).

8. A cooling device for hot-melt crystal glass according to claim 3, further comprising a circulation fan, wherein the exhaust port (12) is connected to the circulation fan through a first exhaust channel (13), and wherein the circulation fan is connected to the first blower (2) and/or the second blower (3) through a pipe.

9. The cooling device for hot-melt crystal glass according to claim 8, wherein a second exhaust passage is connected between the circulation fan and the first blower (2) or the second blower (3), and a second exhaust valve is provided in the second exhaust passage.

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