CN209726801U - Energy saving kiln is used in a kind of production of ceramic tile - Google Patents
Energy saving kiln is used in a kind of production of ceramic tile Download PDFInfo
- Publication number
- CN209726801U CN209726801U CN201822194133.3U CN201822194133U CN209726801U CN 209726801 U CN209726801 U CN 209726801U CN 201822194133 U CN201822194133 U CN 201822194133U CN 209726801 U CN209726801 U CN 209726801U
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- China
- Prior art keywords
- ceramic tile
- connect
- sliding rail
- cover board
- tile placement
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- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
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Abstract
The utility model relates to kiln technical fields, and disclose a kind of ceramic tile production energy saving kiln, including kiln body, the kiln body is made of ceramic tile placement mechanism and temperature control device, the ceramic tile placement mechanism is by ceramic tile placement rack, planker, sliding rail and pulley composition, the outer surface of the sliding rail is connect with the inner wall of ceramic tile placement mechanism, the inside of the sliding rail and the outer surface of pulley connect, the pulley is connect in one end far from sliding rail with the surface of ceramic tile placement rack, the front of the ceramic tile placement rack is connect with the back side of planker, the temperature control device is by cover board, thermal conductive cavity, heater, thermally conductive case, defeated heat pipe, heat exhausting pipe, aspiration pump, supporting block, screw thread handwheel, link block, Temperature probe and temperature indicator composition, the bottom of the cover board and the top movable of thermal conductive cavity connect.The utility model solves complicated for operation to ceramic tile sintering procedure, does not have the problem of energy-conserving action.
Description
Technical field
The utility model relates to kiln technical field, energy saving kiln is used in specially a kind of ceramic tile production.
Background technique
Kiln is the equipment to burnt product being built into refractory material, is the indispensable facility in pottery art molding.The mankind
Up to ten thousand years ceramic tile burnings make history, have accumulated and abundant make kiln pattern and experience.From the ground of primitive society it is outdoor it is burnt in a heap, dig pit
It builds and burns steamed bun shape liter flame circular kiln, half downdraf horse shoe flame furnace, half way up the mountain dragon kiln, oval kiln, then arrive Indoor Air kiln, electricity now
Kiln, kiln science and technology is in continuous improvement.
Although being all the old-fashioned kiln being built into traditional refractory material when being that typically in firing currently, technology is developing
Furnace is fired by firewood, it is ensured that the effect of firing reaches most preferably, but this old-fashioned furnace construction is simple, does not have
Energy-conserving action.
Utility model content
The purpose of this utility model is to provide a kind of ceramic tile production energy saving kiln, it is convenient to reach operation, more standby
Energy-saving and environment-friendly purpose.
To achieve the above object, the utility model provides the following technical solutions: a kind of ceramic tile production energy saving kiln, including
Kiln body, the kiln body are made of ceramic tile placement mechanism and temperature control device, and the ceramic tile placement mechanism is by ceramic tile
Placement rack, planker, sliding rail and pulley composition, the outer surface of the sliding rail are connect with the inner wall of ceramic tile placement mechanism, the sliding rail
Inside and the outer surface of pulley connect, the pulley is connect far from one end of sliding rail with the surface of ceramic tile placement rack, described
The front of ceramic tile placement rack is connect with the back side of planker.
The temperature control device is by cover board, thermal conductive cavity, heater, thermally conductive case, defeated heat pipe, heat exhausting pipe, aspiration pump, support
Block, screw thread handwheel, link block, Temperature probe and temperature indicator composition, the bottom of the cover board and the top of thermal conductive cavity are living
Dynamic connection, the inside bottom of the cover board and the top of supporting block connect, the inside of the supporting block and the appearance of screw thread handwheel
Face is threadedly coupled, and the screw thread handwheel is connected in the inside of one end and link block far from supporting block, the bottom of the link block
It is connect with the top of thermally conductive case, the inside top of the thermally conductive case and the top of heater connect, the exhaust outlet of the thermally conductive case
It is connect with the air inlet of defeated heat pipe, the gas outlet of the defeated heat pipe and the air inlet of aspiration pump connect, the outlet of the aspiration pump
Mouth is connect with the air inlet of heat exhausting pipe, and the inner wall of the thermal conductive cavity and the front of Temperature probe connect, and the thermal conductive cavity is just
Face and the back side of temperature indicator connect.
Preferably, be provided with thermal on the inside of the ceramic tile placement mechanism, the gas outlet of heat exhausting pipe and thermal into
Port connects, and is provided with thermovent on the inside of thermal.
Preferably, the bottom of the cover board connects fixture block, is provided with seal groove at the top of thermal conductive cavity, the position of fixture block with it is close
The position of sealing groove is adapted.
Preferably, the two sides of the cover board are connected with bolt, and the two sides of thermal conductive cavity are connected with fork, the position of bolt
It sets and is adapted with the position of fork.
Preferably, wind-driven generator is connected at the top of the cover board.
Preferably, the thermal conductive cavity is positively connected with solar energy photovoltaic panel, and solar energy photovoltaic panel is located at temperature indicator
Top.
The utility model provides a kind of ceramic tile production energy saving kiln.Have it is following the utility model has the advantages that
(1), the utility model passes through the setting of ceramic tile placement rack, planker, sliding rail and pulley, and staff will be by manually will
Ceramic tile is placed on ceramic tile placement rack, then by pushing planker manually, by sliding of the pulley in sliding rail, so that ceramic tile placement rack
It enters inside kiln body, after ceramic tile fires completion, by pulling planker manually, passes through cunning of the pulley in sliding rail
It is dynamic, so that ceramic tile placement rack leaves inside kiln body, it is convenient for take out the ceramic tile fired and completed by above operation
Ceramic tile is fetched.
(2), the utility model passes through cover board, thermal conductive cavity, heater, thermally conductive case, defeated heat pipe, heat exhausting pipe, aspiration pump, support
The setting of block, screw thread handwheel, link block, Temperature probe and temperature indicator, by the way that the fixture block of cover board is placed on thermal conductive cavity
Seal groove in, then by the way that bolt is inserted into fork manually, be tightly connected cover board and thermal conductive cavity, pass through starting heating
Device and aspiration pump enter hot gas in thermal by the cooperation of thermally conductive case, defeated heat pipe and heat exhausting pipe, eventually by thermovent
It enters on ceramic tile, by the setting of Temperature probe and temperature indicator, enables staff to the ceramic tile temperature in kiln
It is controlled, avoids temperature is excessively high ceramic tile is caused to hardening crack, aspiration pump is set as by solar energy photovoltaic panel and wind-driven generator
Power supply is provided with heater, by above-mentioned operation, ceramic tile is made to obtain suitable temperature when firing, has more energy-saving ring
Guarantor property.
Detailed description of the invention
Fig. 1 is the utility model front view;
Fig. 2 is the utility model internal view;
Fig. 3 is the enlarged drawing in Fig. 2 at A.
In figure: 1 kiln body, 2 ceramic tile placement mechanisms, 3 temperature control devices, 201 ceramic tile placement racks, 202 plankers, 203
Sliding rail, 204 pulleys, 301 cover boards, 302 thermal conductive cavities, 303 heaters, 304 thermally conductive casees, 305 defeated heat pipes, 306 heat exhausting pipes, 307 are taken out
Air pump, 308 supporting blocks, 309 screw thread handwheels, 310 link blocks, 311 Temperature probes, 312 temperature indicators, 4 photovoltaics
Plate, 5 bolts, 6 wind-driven generators, 7 forks.
Specific embodiment
As shown in Figure 1-3, the utility model provides a kind of technical solution: a kind of ceramic tile production energy saving kiln, including kiln
Furnace body 1, kiln body 1 are made of ceramic tile placement mechanism 2 and temperature control device 3, and ceramic tile placement mechanism 2 is by ceramic tile placement rack
201, planker 202, sliding rail 203 and pulley 204 form, the outer surface of sliding rail 203 and the fixed company of the inner wall of ceramic tile placement mechanism 2
It connects, the inside of sliding rail 203 and the outer surface of pulley 204 are slidably connected, and pulley 204 is put in one end far from sliding rail 203 with ceramic tile
The surface for setting seat 201 is fixedly connected, and the front of ceramic tile placement rack 201 is fixedly connected with the back side of planker 202.
Temperature control device 3 is by cover board 301, thermal conductive cavity 302, heater 303, thermally conductive case 304, defeated heat pipe 305, heat exhausting pipe
306, aspiration pump 307, supporting block 308, screw thread handwheel 309, link block 310, Temperature probe 311 and 312 groups of temperature indicator
At the bottom of cover board 301 is connect with the top movable of thermal conductive cavity 302, the inside bottom of cover board 301 and the top of supporting block 308
It is fixedly connected, the inside of supporting block 308 is connect with the outer surface thread of screw thread handwheel 309, and screw thread handwheel 309 is far from support
One end of block 308 is connect with the inside thread of link block 310, and the top of the bottom of link block 310 and thermally conductive case 304 is fixed to be connected
It connects, the inside top of thermally conductive case 304 is fixedly connected with the top of heater 303, the exhaust outlet of thermally conductive case 304 and defeated heat pipe 305
Air inlet be fixedly connected, the gas outlet of defeated heat pipe 305 is fixedly connected with the air inlet of aspiration pump 307, aspiration pump 307 go out
Port is fixedly connected with the air inlet of heat exhausting pipe 306, and the inner wall of thermal conductive cavity 302 is fixedly connected with the front of Temperature probe 311,
The front of thermal conductive cavity 302 is fixedly connected with the back side of temperature indicator 312, and the inside of ceramic tile placement mechanism 2 offers thermal,
The gas outlet of heat exhausting pipe 306 is fixedly connected with the air inlet of thermal, and thermovent is offered on the inside of thermal, cover board 301
Bottom is fixedly connected with fixture block, and the top of thermal conductive cavity 302 offers seal groove, and the position of fixture block is adapted with the position of seal groove,
The two sides of cover board 301 are connected with bolt 5, and the two sides of thermal conductive cavity 302 are fixedly connected with fork 7, the position of bolt 5 and insert
The position of plunger 7 is adapted, and the top of cover board 301 is fixedly connected with wind-driven generator 6, and the front of thermal conductive cavity 302 is fixedly connected
There is solar energy photovoltaic panel 4, solar energy photovoltaic panel 4 is located at the top of temperature indicator 312.
When in use, staff is by being placed on ceramic tile placement rack 201 for ceramic tile manually, then by pushing planker manually
202, by sliding of the pulley 204 in sliding rail 203 so that ceramic tile placement rack 201 enters inside kiln body 1, pass through by
The fixture block of cover board 301 is placed in the seal groove of thermal conductive cavity 302, then by the way that bolt 5 is inserted into fork 7 manually, makes to cover
Plate 301 and thermal conductive cavity 302 are tightly connected, and by starting heater 303 and aspiration pump 307, pass through thermally conductive case 304, defeated heat pipe 305
With the cooperation of heat exhausting pipe 306, enter hot gas in thermal, entered on ceramic tile eventually by thermovent, passes through temperature sensing
First 311 and temperature indicator 312 setting, so that staff is controlled the ceramic tile temperature in kiln, avoid temperature mistake
Height causes ceramic tile to hardening crack, by solar energy photovoltaic panel 4 and wind-driven generator 6 be set as aspiration pump 307 and heater 303 provides
Power supply, then ceramic tile are fired after completing, by pulling planker 202 manually, by sliding of the pulley 204 in sliding rail 203, so that
Ceramic tile placement rack 201 leaves inside kiln body 1, to take out the ceramic tile fired and completed.
It can to sum up obtain, the utility model passes through the setting of ceramic tile placement rack 201, planker 202, sliding rail 203 and pulley 204,
Staff is by being placed on ceramic tile placement rack 201 for ceramic tile manually, then by pushing planker 202 manually, is existed by pulley 204
Sliding in sliding rail 203 after ceramic tile fires completion, passes through so that ceramic tile placement rack 201 enters inside kiln body 1
Planker 202 is pulled manually, by sliding of the pulley 204 in sliding rail 203, so that ceramic tile placement rack 201 leaves kiln body 1
Inside, to take out the ceramic tile fired and completed, by above operation, convenient for fetching to ceramic tile, the utility model passes through
Cover board 301, thermal conductive cavity 302, heater 303, thermally conductive case 304, defeated heat pipe 305, heat exhausting pipe 306, aspiration pump 307, supporting block
308, the setting of screw thread handwheel 309, link block 310, Temperature probe 311 and temperature indicator 312, by by cover board 301
Fixture block is placed in the seal groove of thermal conductive cavity 302, then by the way that bolt 5 is inserted into fork 7 manually, is made cover board 301 and led
Hot chamber 302 is tightly connected, and by starting heater 303 and aspiration pump 307, passes through thermally conductive case 304, defeated heat pipe 305 and heat exhausting pipe
306 cooperation, enters hot gas in thermal, enters on ceramic tile eventually by thermovent, passes through 311 He of Temperature probe
The setting of temperature indicator 312 enables staff to control the ceramic tile temperature in kiln, avoids temperature is excessively high from causing porcelain
Brick hardening cracks, by solar energy photovoltaic panel 4 and wind-driven generator 6 be set as aspiration pump 307 and heater 303 provides power supply, lead to
Above-mentioned operation is crossed, ceramic tile is made to obtain suitable temperature when firing, has more environmental protection and energy saving.
Claims (6)
1. a kind of ceramic tile production energy saving kiln, including kiln body (1), the kiln body (1) is by ceramic tile placement mechanism (2)
It is formed with temperature control device (3), it is characterised in that: the ceramic tile placement mechanism (2) is by ceramic tile placement rack (201), planker
(202), sliding rail (203) and pulley (204) composition, the outer surface of the sliding rail (203) and the inner wall of ceramic tile placement mechanism (2) connect
It connects, the inside of the sliding rail (203) is connect with the outer surface of pulley (204), and the pulley (204) is in separate sliding rail (203)
One end is connect with the surface of ceramic tile placement rack (201), and the front of the ceramic tile placement rack (201) connects with the back side of planker (202)
It connects;
The temperature control device (3) is by cover board (301), thermal conductive cavity (302), heater (303), thermally conductive case (304), defeated heat pipe
(305), heat exhausting pipe (306), aspiration pump (307), supporting block (308), screw thread handwheel (309), link block (310), temperature sensing
Head (311) and temperature indicator (312) composition, the bottom of the cover board (301) are connect with the top movable of thermal conductive cavity (302),
The inside bottom of the cover board (301) is connect with the top of supporting block (308), the inside of the supporting block (308) and screw thread hand
The outer surface thread connection of (309) is taken turns, the screw thread handwheel (309) is in one end and link block (310) far from supporting block (308)
Inside connection, the bottom of the link block (310) connect with the top of thermally conductive case (304), the inside of the thermally conductive case (304)
Top is connect with the top of heater (303), and the exhaust outlet of the thermally conductive case (304) is connect with the air inlet of defeated heat pipe (305),
The gas outlet of the defeated heat pipe (305) is connect with the air inlet of aspiration pump (307), the gas outlet of the aspiration pump (307) and row
The air inlet of heat pipe (306) connects, and the inner wall of the thermal conductive cavity (302) is connect with the front of Temperature probe (311), described to lead
The front of hot chamber (302) is connect with the back side of temperature indicator (312).
2. a kind of ceramic tile production energy saving kiln according to claim 1, it is characterised in that: the ceramic tile placement mechanism
(2) thermal is provided on the inside of, the gas outlet of heat exhausting pipe (306) and the air inlet of thermal are connected, set on the inside of thermal
It is equipped with thermovent.
3. a kind of ceramic tile production energy saving kiln according to claim 1, it is characterised in that: the bottom of the cover board (301)
Portion connects fixture block, is provided with seal groove at the top of thermal conductive cavity (302), the position of fixture block is adapted with the position of seal groove.
4. a kind of ceramic tile production energy saving kiln according to claim 1, it is characterised in that: the two of the cover board (301)
Side is connected with bolt (5), and the two sides of thermal conductive cavity (302) are connected with fork (7), the position and fork (7) of bolt (5)
Position be adapted.
5. a kind of ceramic tile production energy saving kiln according to claim 1, it is characterised in that: the top of the cover board (301)
Portion is connected with wind-driven generator (6).
6. a kind of ceramic tile production energy saving kiln according to claim 1, it is characterised in that: the thermal conductive cavity (302)
It is positively connected with solar energy photovoltaic panel (4), solar energy photovoltaic panel (4) is located at the top of temperature indicator (312).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201822194133.3U CN209726801U (en) | 2018-12-26 | 2018-12-26 | Energy saving kiln is used in a kind of production of ceramic tile |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201822194133.3U CN209726801U (en) | 2018-12-26 | 2018-12-26 | Energy saving kiln is used in a kind of production of ceramic tile |
Publications (1)
Publication Number | Publication Date |
---|---|
CN209726801U true CN209726801U (en) | 2019-12-03 |
Family
ID=68677817
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201822194133.3U Expired - Fee Related CN209726801U (en) | 2018-12-26 | 2018-12-26 | Energy saving kiln is used in a kind of production of ceramic tile |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN209726801U (en) |
-
2018
- 2018-12-26 CN CN201822194133.3U patent/CN209726801U/en not_active Expired - Fee Related
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Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20191203 Termination date: 20201226 |
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CF01 | Termination of patent right due to non-payment of annual fee |