CN216203930U - Passageway cooling device for ceramic tile production area - Google Patents
Passageway cooling device for ceramic tile production area Download PDFInfo
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- CN216203930U CN216203930U CN202122393560.6U CN202122393560U CN216203930U CN 216203930 U CN216203930 U CN 216203930U CN 202122393560 U CN202122393560 U CN 202122393560U CN 216203930 U CN216203930 U CN 216203930U
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Abstract
The utility model relates to the field of ceramic tile production, in particular to a corridor cooling device for a ceramic tile production area. Comprises a firing furnace and an air curtain machine; the firing furnaces are provided with a plurality of firing furnaces, a pedestrian observation passageway is arranged between two adjacent firing furnaces, air curtain machines are arranged at the top of a workshop, close to the firing furnaces, on two sides of the pedestrian observation passageway along the length direction of the firing furnaces, and first ventilation ducts are arranged at corresponding positions below the air curtain machines; two first ventiduct inclines in opposite directions and is provided with atomizing device, two atomizing device inclines in opposite directions and is provided with the second ventiduct, second ventiduct one side is connected with the fan, and this device adopts the atomizer that blows the negative pressure simultaneously, and such effect lies in, can a large amount of use pneumatic means at the whole production line of ceramic tile factory, consequently the air feed is sufficient, does not need extra use electric power, and the atomizer price of blowing the negative pressure simultaneously is very cheap, and every preparation unit price is about 20 yuan, therefore reduction cost that can the at utmost.
Description
Technical Field
The utility model relates to the field of ceramic tile production, in particular to a corridor cooling device for a ceramic tile production area.
Background
The ceramic tile is made up by using refractory metal oxide and semimetal oxide through the processes of grinding, mixing, pressing, glazing and sintering, and is a kind of acid-and alkali-resistant porcelain or stone material for building or decorative material, so-called ceramic tile. The raw materials are mostly formed by mixing clay and quartz sand through high-temperature compression and the like, and have high hardness.
Most of the production lines of ceramic tiles in a ceramic tile factory are a plurality of production lines, in a firing area, a plurality of firing furnaces of 30-50 m factories run continuously for 24 hours, so that the long-term temperature of the middle road is about 50 ℃, workers need to frequently detect and observe in the areas, the process needs to be provided with a mask due to the fact that a large amount of dust and harsh chemical raw materials are volatilized in the ceramic tile factory, real-time data recording is carried out, so that the high temperature is seriously damaged to human bodies, hands of the ceramic tile factory are lacked for a long time, and the energy consumption of the firing furnaces is influenced by more or less cooling, so that the prior countermeasures made by the ceramic tile factory are on site as few as possible, and the problem cannot be fundamentally solved.
SUMMERY OF THE UTILITY MODEL
The utility model aims to overcome the defects of the prior art, adapt to the practical requirements and provide a corridor cooling device for a ceramic tile production area.
In order to realize the purpose of the utility model, the utility model adopts the technical scheme that: a kind of ceramic tile production area aisle cooling device, including firing the stove 1, air curtain machine 2; the firing furnaces 1 are provided with a plurality of pedestrian observation passageways 3, a wind curtain machine 2 is arranged at the top of a workshop, which is close to the firing furnaces 1, on two sides of each pedestrian observation passageway 3 along the length direction of each firing furnace, and a first ventilating duct 4 is arranged at a corresponding position below each wind curtain machine 2; two the first ventiduct 4 is provided with atomizing device to the side in opposite directions, two atomizing device is provided with second ventiduct 5 in opposite directions side underground, 5 one side in second ventiduct is connected with the fan, will walk the steam suction in observation passageway.
The atomizing device comprises a water tank 6 and an atomizing head 7, wherein the opposite sides of the first air channel are respectively provided with the water tank 6, a plurality of water tanks are uniformly arranged in the atomizing head 7, and water sucked into the water tanks 6 through the atomizing head is atomized.
The depth of the water tank 6 is 2-5 cm.
The atomizing head 8 comprises an upper atomizing head 801 and a lower atomizing head 802, the lower atomizing head 802 is a cylindrical cavity structure with an opening at the upper end, the cavity is a solution cavity 803, the outer edge of the opening of the lower atomizing head 802 is in threaded connection with the inner edge of the upper atomizing head 801, an atomizing inner core 804 integrally formed with the lower atomizing head 802 is vertically arranged in the solution cavity 803, a through air hole 805 is arranged in the atomizing inner core 804, the lower end of the atomizing inner core 804 is communicated with an air pipe, the outer side of the atomizing inner core 804 is sleeved with a detachable atomizing outer core 806, the inner wall of the atomizing outer core 806 has the same shape as the outer wall of the atomizing inner core 804 and the size is slightly larger than the outer wall of the atomizing inner core 804 so as to form a negative pressure liquid suction cavity 807, the bottom of the atomizing outer core 806 is provided with an outer core eave 808 attached to the bottom of the solution cavity 803, and the outer core eave 808 is provided with a water suction hole 809; a through atomizing hole 810 is formed in the atomizing outer core 806 corresponding to the air hole 805 in the top of the atomizing inner core 804, a stop block 9 is arranged above the atomizing hole 810, a gap exists between the stop block 9 and the atomizing hole 810, and the stop block 9 is fixed on the upper atomizing head 802; when the gas flows out from the top air hole 805, a negative pressure phenomenon is generated, so that the liquid is sucked from the negative pressure liquid suction cavity 807 to the top air hole 805, and is atomized under the action of the stop 9.
The side wall below the solution cavity 803 is provided with a plurality of liquid inlets 811, and water in the water tank flows into the solution cavity along the liquid inlets.
A plurality of ventilation slots are uniformly formed in the water tank, the lower portion of the atomization inner core 804 is in threaded connection with the atomization inner core, and the ventilation slots are communicated with the gas pipe.
The block 9 is a hemisphere, and the arc surface of the block 9 faces the atomizing hole 810.
The upper atomizing head 801 is in the shape of an annular threaded ring, and the stopper 9 is arranged at the center of the upper atomizing head 801 and is fixed with the upper atomizing head 801 through four ribs 10 in a circular array.
The utility model has the beneficial effects that:
this device is provided with the air curtain machine firing stove one side, produce the air curtain, make to fire stove partial heat and middle road separation, then atomize the heat absorption to the road through the atomizer, the air flue through the road middle below will absorb thermal steam and inhale away in order to reach the cooling effect, this device adopts the atomizer that blows the negative pressure simultaneously, such effect lies in, whole production line at the ceramic tile factory can a large amount of use pneumatic means, consequently, the air feed is sufficient, do not need extra use electric power, the atomizer price of blowing the negative pressure simultaneously is very cheap, every preparation unit price is about 20 yuan, consequently, reduction cost that can the at utmost.
Drawings
The utility model is further explained below with reference to the drawings and the embodiments.
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is a partial cross-sectional view of the present invention;
FIG. 3 is a schematic view of an atomizing head;
fig. 4 is a cross-sectional view of an angled atomizing head.
Detailed Description
The utility model is further illustrated with reference to the following figures and examples:
see fig. 1-4.
The utility model discloses a corridor cooling device for a ceramic tile production area, which comprises a firing furnace 1 and an air curtain machine 2; the firing furnaces 1 are provided with a plurality of pedestrian observation passageways 3, a wind curtain machine 2 is arranged at the top of a workshop, which is close to the firing furnaces 1, on two sides of each pedestrian observation passageway 3 along the length direction of each firing furnace, and a first ventilating duct 4 is arranged at a corresponding position below each wind curtain machine 2; two the first ventiduct 4 is provided with atomizing device to the side in opposite directions, two atomizing device is provided with second ventiduct 5 in opposite directions side underground, 5 one side in second ventiduct is connected with the fan, will walk the steam suction in observation passageway.
The atomizing device comprises a water tank 6 and an atomizing head 7, wherein the opposite sides of the first air channel are respectively provided with the water tank 6, a plurality of water tanks are uniformly arranged in the atomizing head 7, and water sucked into the water tanks 6 through the atomizing head is atomized.
The depth of the water tank 6 is 2-5 cm.
The atomizing head 8 comprises an upper atomizing head 801 and a lower atomizing head 802, the lower atomizing head 802 is a cylindrical cavity structure with an opening at the upper end, the cavity is a solution cavity 803, the outer edge of the opening of the lower atomizing head 802 is in threaded connection with the inner edge of the upper atomizing head 801, an atomizing inner core 804 integrally formed with the lower atomizing head 802 is vertically arranged in the solution cavity 803, a through air hole 805 is arranged in the atomizing inner core 804, the lower end of the atomizing inner core 804 is communicated with an air pipe, the outer side of the atomizing inner core 804 is sleeved with a detachable atomizing outer core 806, the inner wall of the atomizing outer core 806 has the same shape as the outer wall of the atomizing inner core 804 and the size is slightly larger than the outer wall of the atomizing inner core 804 so as to form a negative pressure liquid suction cavity 807, the bottom of the atomizing outer core 806 is provided with an outer core eave 808 attached to the bottom of the solution cavity 803, and the outer core eave 808 is provided with a water suction hole 809; a through atomizing hole 810 is formed in the atomizing outer core 806 corresponding to the air hole 805 in the top of the atomizing inner core 804, a stop block 9 is arranged above the atomizing hole 810, a gap exists between the stop block 9 and the atomizing hole 810, and the stop block 9 is fixed on the upper atomizing head 802; when the gas flows out from the top air hole 805, a negative pressure phenomenon is generated, so that the liquid is sucked from the negative pressure liquid suction cavity 807 to the top air hole 805, and is atomized under the action of the stop 9.
The side wall below the solution cavity 803 is provided with a plurality of liquid inlets 811, and water in the water tank flows into the solution cavity along the liquid inlets.
A plurality of ventilation slots are uniformly formed in the water tank, the lower portion of the atomization inner core 804 is in threaded connection with the atomization inner core, and the ventilation slots are communicated with the gas pipe.
The block 9 is a hemisphere, and the arc surface of the block 9 faces the atomizing hole 810.
The upper atomizing head 801 is in the shape of an annular threaded ring, and the stopper 9 is arranged at the center of the upper atomizing head 801 and is fixed with the upper atomizing head 801 through four ribs 10 in a circular array.
The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all equivalent modifications made by the present invention and the contents of the drawings or directly or indirectly applied to the related technical fields are included in the scope of the present invention.
Claims (8)
1. The utility model provides a ceramic tile production area passageway heat sink which characterized in that: comprises a firing furnace (1) and an air curtain machine (2); the firing furnaces (1) are provided with a plurality of pedestrian observation passageways (3), the top of a workshop, close to the firing furnaces (1), on two sides of each pedestrian observation passageway (3) is provided with an air curtain machine (2) along the length direction of the firing furnaces, and a first ventilating duct (4) is arranged at a corresponding position below the air curtain machine (2); two the first ventiduct (4) is provided with atomizing device to the side in opposite directions, two atomizing device is provided with second ventiduct (5) in opposite directions the side underground, second ventiduct (5) one side is connected with the fan, with the steam suction in people's observation passageway.
2. A tile production zone aisle cooling device of claim 1, wherein: the atomizing device comprises a water tank (6) and an atomizing head (7), wherein the two opposite sides of the first air channel are respectively provided with the water tank (6), a plurality of atomizing heads (7) are uniformly arranged in the atomizing heads, and water sucked into the water tank (6) through the atomizing heads is atomized.
3. A tile production zone aisle cooling apparatus as recited in claim 2, further comprising: the depth of the water tank (6) is 2-5 cm.
4. A tile production zone aisle cooling apparatus of claim 3, wherein: the atomizing head (7) comprises an upper atomizing head (801) and a lower atomizing head (802), the lower atomizing head (802) is of a cylindrical cavity structure with an opening arranged at the upper end, the cavity is a solution cavity (803), the outer edge of the opening of the lower atomizing head (802) is in threaded connection with the inner edge of the upper atomizing head (801), an atomizing inner core (804) which is integrally formed is vertically arranged in the solution cavity (803) of the lower atomizing head (802), a through air hole (805) is arranged in the atomizing inner core (804), the lower end of the atomizing inner core (804) is communicated with an air pipe, a detachable atomizing outer core (806) is sleeved outside the atomizing inner core (804), the inner wall of the atomizing outer core (806) is the same as the outer wall of the atomizing inner core (804) in shape and slightly larger than the outer wall of the atomizing inner core (804) in size so as to form a negative pressure liquid suction cavity (807), an outer core eave (808) which is attached to the bottom of the solution cavity (803) is arranged at the bottom of the atomizing outer core (806), the outer core eaves (808) are provided with water absorbing holes (809); the atomizing outer core (806) is provided with a through atomizing hole (810) at a position corresponding to the air hole (805) at the top of the atomizing inner core (804), a stop block (9) is arranged above the atomizing hole (810), a gap exists between the stop block (9) and the atomizing hole (810), and the stop block (9) is fixed on the upper atomizing head (801); when the gas flows out from the top air hole (805), a negative pressure phenomenon is generated, so that the liquid is sucked from the negative pressure liquid suction cavity (807) to the top air hole (805) and atomized under the action of the stop block (9).
5. A tile production zone aisle cooling device of claim 4, wherein: the side wall below the solution cavity (803) is provided with a plurality of liquid inlets (811), and water in the water tank flows into the solution cavity along the liquid inlets.
6. A tile production zone aisle cooling device of claim 4, wherein: a plurality of ventilation slots are uniformly arranged in the water tank, the lower part of the atomization inner core (804) is in threaded connection with the atomization inner core, and the ventilation slots are communicated with the gas pipe.
7. A tile production zone aisle cooling device of claim 4, wherein: the baffle block (9) is a hemisphere, and the arc-shaped surface of the baffle block (9) faces the atomizing hole (810).
8. A tile production zone aisle cooling device of claim 4, wherein: go up atomising head (801) and be annular thread circle form, dog (9) set up in last atomising head (801) center, are fixed with last atomising head (801) through four ribs (10) of circular array.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122393560.6U CN216203930U (en) | 2021-09-30 | 2021-09-30 | Passageway cooling device for ceramic tile production area |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202122393560.6U CN216203930U (en) | 2021-09-30 | 2021-09-30 | Passageway cooling device for ceramic tile production area |
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CN216203930U true CN216203930U (en) | 2022-04-05 |
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CN202122393560.6U Active CN216203930U (en) | 2021-09-30 | 2021-09-30 | Passageway cooling device for ceramic tile production area |
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CN (1) | CN216203930U (en) |
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2021
- 2021-09-30 CN CN202122393560.6U patent/CN216203930U/en active Active
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