CN217604505U - Hot air drying device and ceramic dehydrator - Google Patents
Hot air drying device and ceramic dehydrator Download PDFInfo
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- CN217604505U CN217604505U CN202220893736.6U CN202220893736U CN217604505U CN 217604505 U CN217604505 U CN 217604505U CN 202220893736 U CN202220893736 U CN 202220893736U CN 217604505 U CN217604505 U CN 217604505U
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Abstract
The utility model discloses a hot air drying device, including hot-blast main and stoving subassembly, still disclose a ceramic dehydrator, hot air drying device in frame, rotor and the aforesaid. The utility model discloses the beneficial effect who gains: can effectively reduce the mud moisture on the vacuum ceramic plate to can play the effect of control mud material moisture content. Reduce the mud material moisture content on the vacuum ceramic plate to can directly carry the material of ceramic filter output to next production processes, and need not carry out drying process to the mud material once more, effectively improve production efficiency, reach the lower advantage of mud material moisture content.
Description
Technical Field
The utility model relates to a drying system's technical field, concretely relates to hot air drying device and ceramic hydroextractor.
Background
The existing ceramic filter mainly comprises a rotor, a stirrer, a discharging assembly, a slurry tank, a distributor, a ceramic filter plate, a vacuum system, a cleaning system, an automatic control system and the like, and is used for producing pug. The ceramic filter operates for a circle to complete four working processes: the slurry (material) sucking area finishes the material sucking work, the drying area finishes the secondary dehydration work, the discharging area finishes the discharging work, the cleaning area finishes the back washing work of the microporous ceramic filter plate, and the operation is repeated in a circulating way. In the dehydration work of the ceramic plate, the dehydration effect can directly influence the water content of the pug dehydrated by the ceramic plate.
For example, chinese utility model that bulletin number is CN210057601U discloses a ceramic-medium filter belt cleaning device, which comprises a bracket, the inside fixedly connected with shell of support, the top fixed mounting of support has the driving machine, the top fixed mounting of driving machine has the control table, the right side fixedly connected with connecting axle of driving machine, the inside swing joint of shell has the cylinder, the interior diapire fixedly connected with outlet pipe of shell, the top fixed mounting of outlet pipe has quantity to be six shower nozzles, per two the equal fixed mounting in one side that the shower nozzle is relative has the fixed plate. The pug water content of the ceramic plate after the washing is often higher, if the pug water content is too high, the next procedure can not be produced continuously, and the mass production can be continued only after further dehydration and drying, so that the production efficiency is reduced. So the prior art has the problem of higher water content of the pug.
SUMMERY OF THE UTILITY MODEL
In order to solve the technical problem, an object of the utility model is to provide a hot air drying device, it includes hot-blast main and stoving subassembly, still provides a ceramic dehydrator, and it includes the hot air drying device in frame, rotor and the aforesaid, and this hot air drying device has reached the lower advantage of pug moisture content.
In order to realize the purpose of the utility model, the utility model adopts the following technical scheme:
the utility model provides a hot air drying device, includes hot-blast main and stoving subassembly, the hot-blast main is equipped with the kiln link, the stoving subassembly includes first connecting pipe, first tuber pipe, second connecting pipe and second tuber pipe, first connecting pipe is installed on the hot-blast main and is communicate with the hot-blast main, first tuber pipe is installed on first connecting pipe and communicates with first connecting pipe, first tuber pipe is equipped with first exhaust vent, the second connecting pipe is installed on the hot-blast main and communicates with the hot-blast main, the second tuber pipe is installed on the second connecting pipe and communicates with the second connecting pipe, the second tuber pipe is equipped with the second exhaust vent, first exhaust vent and second exhaust vent set up relatively. By such an arrangement: can effectively reduce the mud moisture on the vacuum ceramic plate to can play the effect of control mud material moisture content. Reduce the pug moisture content on the vacuum ceramic plate to can directly carry the material of ceramic filter output to next production procedure, and need not carry out drying process to the pug once more, effectively improve production efficiency, reach the lower advantage of pug moisture content.
Preferably, the pipe diameter of the first connecting pipe is smaller than that of the hot air pipe, the pipe diameter of the first air outlet pipe is smaller than that of the first connecting pipe, the pipe diameter of the second connecting pipe is smaller than that of the hot air pipe, and the pipe diameter of the second air outlet pipe is smaller than that of the second connecting pipe. By such an arrangement: play the effect of guaranteeing the stoving effect to the mud material, further reduce mud material moisture content, reach the lower advantage of mud material moisture content.
Preferably, one end of the first connecting pipe, which is close to the first air outlet pipe, is provided with a first connecting section, the first connecting section is integrally conical, and the width of the first connecting section is gradually reduced along the direction close to the first air outlet pipe. By such an arrangement: the effect of increasing the hot air flow of the first connecting pipe is achieved, hot air blown out through the first air outlet is enhanced, and the drying effect of mud is improved.
Preferably, the diameter of one end of the first connecting pipe close to the first air outlet pipe is equal to that of the first air outlet pipe. By such an arrangement: reduce the resistance that hot-air flows and receives, the reinforcing is through the hot-blast that first exhaust vent blew out, improves the stoving effect to the mud material.
Preferably, one end of the second connecting pipe, which is close to the second air outlet pipe, is provided with a second connecting section, the second connecting section is integrally conical, and the width of the second connecting section is gradually reduced along the direction close to the first air outlet pipe. By such an arrangement: the effect of increasing the hot air flow of the second connecting pipe is achieved, hot air blown out through the second air outlet is enhanced, and the drying effect on mud is improved.
Preferably, the diameter of one end of the second connecting pipe close to the second air outlet pipe is equal to that of the second air outlet pipe. By such an arrangement: the resistance that hot-air flows and receives is reduced, and the hot-blast that the reinforcing blew out through the second exhaust vent improves the stoving effect to the mud material.
Preferably, the first air outlet is provided with a plurality of air outlets, the first air outlets are uniformly distributed along the extending direction of the first air outlet pipe, the second air outlet is provided with a plurality of air outlets, and the second air outlets are uniformly distributed along the extending direction of the second air outlet pipe. By such an arrangement: the drying effect is improved, and the advantage of low water content of the pug is achieved.
Preferably, the drying assemblies are arranged in a plurality, and the plurality of drying assemblies are uniformly distributed along the extension direction of the hot air pipe. By such an arrangement: the drying treatment can be simultaneously carried out on the pug on the plurality of ceramic vacuum plates, and the effect of improving the production efficiency is achieved.
The utility model provides a ceramic dehydrator, includes frame, rotor, still includes hot air drying device among the above-mentioned, the rotor is installed in the frame. By such an arrangement: plays a role in reducing the water content of the pug and has the advantage of higher production efficiency.
Preferably, the hot air drying device further comprises a discharging conveying belt arranged on the rack, and the first air outlet pipe and the second air outlet pipe of the hot air drying device are located on one side, away from the discharging conveying belt, of the rotor. By such an arrangement: further reduce the moisture content of pug, reduce the influence that ceramic vacuum plate temperature rise caused the pug production.
Compared with the prior art, the utility model discloses profitable technological effect has been obtained:
1. install first tuber pipe and second tuber pipe and go out the position that the tuber pipe is close to the vacuum ceramic plate on ceramic filter to make the vacuum ceramic plate be located between first exhaust vent and the second exhaust vent, make first exhaust vent and second exhaust vent blow off hot-blastly respectively to the both sides of vacuum ceramic plate, thereby can effectively reduce the mud moisture on the vacuum ceramic plate, thereby can play the effect of control mud material moisture content. Reduce the mud material moisture content on the vacuum ceramic plate to can directly carry the material of ceramic filter output to next production processes, and need not carry out drying process to the mud material once more, effectively improve production efficiency, reach the lower advantage of mud material moisture content.
2. Through setting up the ceramic vacuum plate between relative first exhaust vent and the second exhaust vent that sets up to can carry out hot air drying to the both sides of ceramic vacuum plate, and then can effectively reduce the water content of mud material, reach the effect that further reduces mud material moisture content.
Drawings
Fig. 1 is a schematic structural view of a hot air drying device in embodiment 1 of the present invention;
fig. 2 is a schematic structural view of a drying assembly in embodiment 1 of the present invention;
FIG. 3 is a schematic front view of a ceramic dehydrator according to embodiment 2 of the present invention;
FIG. 4 is a schematic side view of a ceramic dehydrator according to embodiment 2 of the present invention;
fig. 5 is a schematic top view of a ceramic dehydrator according to embodiment 3 of the present invention.
Wherein, the technical characteristics that each reference numeral refers to are as follows:
11. a hot air pipe; 12. a kiln connecting end; 20. a drying assembly; 21. a first connecting pipe; 22. a first air outlet pipe; 23. a first air outlet; 24. a first connection section; 25. a second connection pipe; 26. a second air outlet pipe; 27. a second air outlet; 28. a second connection section; 31. a frame; 32. a rotor; 33. and (7) a discharging conveyer belt.
Detailed Description
In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments, but the scope of the present invention is not limited to the following specific embodiments.
Example 1:
referring to fig. 1 and 2, a hot air drying device includes a hot air duct 11 and a drying assembly 20, wherein the hot air duct 11 is provided with a kiln connecting end 12.
Drying assembly 20 includes first connecting pipe 21, first tuber pipe 22, second connecting pipe 25 and second play tuber pipe 26, first connecting pipe 21 is installed on hot-blast main 11 and is communicate with hot-blast main 11, first tuber pipe 22 is installed on first connecting pipe 21 and communicates with first connecting pipe 21, first tuber pipe 22 is equipped with first exhaust vent 23, second connecting pipe 25 is installed on hot-blast main 11 and communicates with hot-blast main 11, second play tuber pipe 26 is installed on second connecting pipe 25 and communicates with second connecting pipe 25, second tuber pipe 26 is equipped with second exhaust vent 27, first exhaust vent 23 and second exhaust vent 27 set up relatively. The first air outlet holes 23 are arranged in a plurality, the first air outlet holes 23 are evenly distributed along the extending direction of the first air outlet pipe 22, the second air outlet holes 27 are arranged in a plurality, and the second air outlet holes 27 are evenly distributed along the extending direction of the second air outlet pipe 26. The center distance of the adjacent first air outlet holes 23 is twice of the diameter of the first air outlet holes 23, and the center distance of the adjacent second sealing control holes is twice of the diameter of the second air outlet holes 27. The drying assemblies 20 are provided with a plurality of drying assemblies 20, and the plurality of drying assemblies 20 are uniformly arranged along the extending direction of the hot air pipe 11.
The pipe diameter of the first connecting pipe 21 is smaller than that of the hot air pipe 11, the pipe diameter of the first air outlet pipe 22 is smaller than that of the first connecting pipe 21, the pipe diameter of the second connecting pipe 25 is smaller than that of the hot air pipe 11, and the pipe diameter of the second air outlet pipe 26 is smaller than that of the second connecting pipe 25. One end of the first connecting pipe 21 close to the first air outlet pipe 22 is provided with a first connecting section 24, the first connecting section 24 is integrally tapered, and the width of the first connecting section 24 is gradually reduced along the direction close to the first air outlet pipe 22. The diameter of one end of the first connecting pipe 21 close to the first air outlet pipe 22 is equal to the diameter of the first air outlet pipe 22. One end of the second connecting pipe 25 close to the second air outlet pipe 26 is provided with a second connecting section 28, the second connecting section 28 is integrally conical, and the width of the second connecting section 28 is gradually reduced along the direction close to the first air outlet pipe 22. The diameter of the end of the second connecting pipe 25 close to the second air outlet pipe 26 is equal to the diameter of the second air outlet pipe 26.
The specific working process comprises the following steps:
the hot-blast main 11 communicates through kiln link 12 and the kiln heat transfer system that uses in the ceramic tile production process to can take out partly pollution-free fresh hot-air as the gas source of hot-blast main 11 from kiln heat transfer system, thereby can carry the hot-air for first connecting pipe 21 and second connecting pipe 25 through hot-blast main 11. The hot air in the first connecting pipe 21 is blown out through the first air outlet pipe 22 and the first air outlet 23 to form hot air, and the hot air in the second connecting pipe 25 is blown out through the second air outlet pipe 26 and the second air outlet 27 to form hot air. The ceramic vacuum plate is placed between the first air outlet hole 23 and the second air outlet hole 27, and hot air is blown out from the first air outlet hole 23 and the second air outlet hole 27 to dry two sides of the ceramic vacuum plate through the hot air, so that a hot air drying function is realized.
The embodiment has the following advantages:
install first tuber pipe 22 and second tuber pipe 26 on ceramic filter and be close to the position of vacuum ceramic plate to make the vacuum ceramic plate be located between first exhaust vent 23 and the second exhaust vent 27, make first exhaust vent 23 and second exhaust vent 27 blow off hot-blastly respectively to the both sides of vacuum ceramic plate, thereby can effectively reduce the mud moisture on the vacuum ceramic plate, thereby can play the effect of control mud material moisture content. Reduce the mud material moisture content on the vacuum ceramic plate to can directly carry the material of ceramic filter output to next production processes, and need not carry out drying process to the mud material once more, effectively improve production efficiency, reach the lower advantage of mud material moisture content.
Through setting up the ceramic vacuum plate between relative first exhaust vent 23 and the second exhaust vent 27 that sets up to can carry out hot air drying to the both sides of ceramic vacuum plate, and then can effectively reduce the water content of mud material, reach the effect that further reduces mud material moisture content.
The hot air in the first connecting pipe 21 flows to the first air outlet pipe 22 through the first connecting section 24, the hot air is guided to flow through the first connecting section 24 which gradually reduces along the direction width close to the first air outlet pipe 22, so that the hot air in the first connecting pipe 21 can flow to the first air outlet pipe 22 with the smaller pipe diameter, the resistance of the hot air flowing is reduced, the effect of increasing the hot air flow of the first connecting pipe 21 is achieved, the hot air blown out through the first air outlet hole 23 is enhanced, and the drying effect of mud is improved.
The diameter of one end of the first connecting pipe 21 close to the first air outlet pipe 22 is equal to that of the first air outlet pipe 22, so that the hot air flows to the first air outlet pipe 22 more smoothly through the first connecting pipe 21, the resistance of the hot air flowing is reduced, the hot air blown out through the first air outlet 23 is enhanced, and the drying effect on the pug is improved.
The hot air in the second connecting pipe 25 flows to the second air-out pipe 26 through the second connecting section 28, the hot air is guided to flow through the second connecting section 28, the width of the second connecting section is gradually reduced along the direction close to the second air-out pipe 26, so that the hot air in the second connecting pipe 25 can flow to the second air-out pipe 26 with the smaller pipe diameter, the resistance of the hot air flowing is reduced, the effect of increasing the hot air flow of the second connecting pipe 25 is achieved, the hot air blown out through the second air-out hole 27 is enhanced, and the drying effect on the pug is improved.
The one end that second connecting pipe 25 is close to second tuber pipe 26 equals with second tuber pipe 26 diameter, makes hot-blast in-process that flows to second tuber pipe 26 more smooth through second connecting pipe 25, reduces the resistance that hot-air flows and receives, and the reinforcing is through the hot-blast of second exhaust vent 27 blowout, improves the stoving effect to the mud material.
Through set up a plurality of first exhaust vents 23 and a plurality of second exhaust vents 27 respectively on first tuber pipe 22 and second tuber pipe 26 respectively to can dry the pug of different positions, play the effect that improves the stoving effect, reach the lower advantage of pug moisture content.
Through the setting of a plurality of stoving subassemblies 20 to can carry out drying process to the pug on a plurality of ceramic vacuum plates simultaneously, play the effect that improves production efficiency.
Example 2:
referring to fig. 3 and 4, a ceramic dehydrator comprises a frame 31, a rotor 32, a discharging conveyer belt 33 and a hot air drying device in embodiment 1, wherein the rotor 32 is installed on the frame 31.
The embodiment has the following advantages:
install hot air drying device on ceramic dehydrator to can carry out drying process to the pug in ceramic dehydrator's production process, play the effect that reduces pug moisture content, have the higher advantage of production efficiency.
Example 3:
referring to fig. 5, a ceramic dehydrator is different from embodiment 2 in that it further includes a discharging conveyor belt 33 installed on the frame 31, and the discharging conveyor belt 33 is located at one side of the rotor 32 in the horizontal direction. The first air outlet pipe 22 and the second air outlet pipe 26 of the hot air drying device are located on one side, away from the discharging conveyer belt 33, of the rotor 32, and the first air outlet pipe 22 and the second air outlet pipe 26 are vertically arranged.
The embodiment has the following advantages:
the first air outlet pipe 22 and the second air outlet pipe 26 are arranged on one side, far away from the discharging conveying belt 33, of the rotor 32, so that the time of the ceramic vacuum plate moving from the position close to the hot air drying device to the position close to the discharging conveying belt 33 is longer, and after the ceramic vacuum plate is subjected to hot air drying through the first air outlet pipe 22 and the second air outlet pipe 26, moisture on the ceramic vacuum plate has enough time to evaporate, and the moisture content of mud is further reduced. Meanwhile, the ceramic vacuum plate has enough time to cool, and the influence of the temperature rise of the ceramic vacuum plate on the production of the pug is reduced.
Variations and modifications to the above-described embodiments may occur to those skilled in the art, in light of the above teachings and teachings. Therefore, the present invention is not limited to the specific embodiments disclosed and described above, and some modifications and changes to the present invention should fall within the protection scope of the claims of the present invention. In addition, although specific terms are used in the specification, the terms are used for convenience of description and do not limit the utility model in any way.
Claims (10)
1. The utility model provides a hot-blast drying device, includes hot-blast main (11) and stoving subassembly (20), its characterized in that: hot-blast main (11) are equipped with kiln link (12), stoving subassembly (20) include first connecting pipe (21), first tuber pipe (22), second connecting pipe (25) and second tuber pipe (26), first connecting pipe (21) install on hot-blast main (11) and communicate with hot-blast main (11), first tuber pipe (22) install on first connecting pipe (21) and communicate with first connecting pipe (21), first tuber pipe (22) are equipped with first exhaust vent (23), second connecting pipe (25) are installed on hot-blast main (11) and are communicated with hot-blast main (11), second tuber pipe (26) are installed on second connecting pipe (25) and are communicated with second connecting pipe (25), second tuber pipe (26) are equipped with second exhaust vent (27), first exhaust vent (23) and second exhaust vent (27) set up relatively.
2. The hot air drying device according to claim 1, characterized in that: the pipe diameter of first connecting pipe (21) is less than the pipe diameter of hot-blast main (11), the pipe diameter of first tuber pipe (22) is less than the pipe diameter of first connecting pipe (21), and the pipe diameter of second connecting pipe (25) is less than the pipe diameter of hot-blast main (11), the pipe diameter of second tuber pipe (26) is less than the pipe diameter of second connecting pipe (25).
3. The hot air drying device according to claim 2, characterized in that: one end of the first connecting pipe (21) close to the first air outlet pipe (22) is provided with a first connecting section (24), the first connecting section (24) is integrally conical, and the width of the first connecting section (24) is gradually reduced along the direction close to the first air outlet pipe (22).
4. The hot air drying device according to claim 3, characterized in that: the diameter of one end of the first connecting pipe (21) close to the first air outlet pipe (22) is equal to that of the first air outlet pipe (22).
5. The hot air drying device according to claim 2, characterized in that: one end of the second connecting pipe (25) close to the second air outlet pipe (26) is provided with a second connecting section (28), the second connecting section (28) is integrally conical, and the width of the second connecting section (28) along the direction close to the first air outlet pipe (22) is gradually reduced.
6. The hot air drying device according to claim 5, wherein: the diameter of one end, close to the second air outlet pipe (26), of the second connecting pipe (25) is equal to that of the second air outlet pipe (26).
7. The hot air drying device according to claim 1, characterized in that: first exhaust vent (23) set up a plurality ofly altogether, it is a plurality of first exhaust vent (23) evenly arranges along the extending direction of first tuber pipe (22), second exhaust vent (27) set up a plurality ofly altogether, and is a plurality of second exhaust vent (27) evenly arranges along the extending direction of second tuber pipe (26).
8. The hot air drying device according to claim 1, characterized in that: the drying assemblies (20) are arranged in a plurality, and the drying assemblies (20) are uniformly distributed along the extending direction of the hot air pipe (11).
9. The utility model provides a ceramic dehydrator, includes frame (31), rotor (32), its characterized in that: further comprising a hot air drying device according to any of claims 1 to 8, said rotor (32) being mounted on a frame (31).
10. The ceramic dehydrator of claim 9, wherein: still including installing ejection of compact conveyer belt (33) on frame (31), hot-blast drying device's first tuber pipe (22) and second tuber pipe (26) are located rotor (32) and keep away from one side of ejection of compact conveyer belt (33).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202220893736.6U CN217604505U (en) | 2022-04-18 | 2022-04-18 | Hot air drying device and ceramic dehydrator |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202220893736.6U CN217604505U (en) | 2022-04-18 | 2022-04-18 | Hot air drying device and ceramic dehydrator |
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CN217604505U true CN217604505U (en) | 2022-10-18 |
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CN202220893736.6U Active CN217604505U (en) | 2022-04-18 | 2022-04-18 | Hot air drying device and ceramic dehydrator |
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CN (1) | CN217604505U (en) |
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2022
- 2022-04-18 CN CN202220893736.6U patent/CN217604505U/en active Active
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