CN217953045U - Water vapor discharging device for slurry dehydration and powder making - Google Patents

Abstract

The utility model relates to a thick liquids dehydration technique field just discloses thick liquids dehydration powder process aqueous vapor eduction gear, including air inlet machine, intake pipe, heater, centrifugal spray drying tower, exhaust fan, blast pipe, exhaust mechanism and control mechanism, exhaust mechanism includes the bracing piece, the box that changes heat has been cup jointed in the outside of bracing piece, control mechanism includes the support, the internally mounted PLC control mainboard of support. This thick liquids dehydration powder process aqueous vapor eduction gear, through the cooling tube with the aqueous vapor leading-in cooling water cavity in, the cooling water cavity cools off the aqueous vapor, water in the cooling water cavity is with the leading-in intake pipe of heat, to the air heating, thereby save the energy consumption of heater, crank wheel rotates simultaneously and drives the regulating block and rotate, the regulating block drives the swing of crank lever, the crank lever drives the box that changes heat and slides from top to bottom, the heat transfer box slides from top to bottom along the intake pipe, the heat exchange efficiency is improved, thereby reached and effectively utilized the aqueous vapor in the heat that contains, energy-concerving and environment-protective effect.

Description

Water vapor discharge device for slurry dehydration and powder making

Technical Field

The utility model relates to a zirconia thick liquids dehydration technique field specifically is thick liquids dehydration powder process aqueous vapor eduction gear.

Background

Zirconia generally refers to zirconia, which is chemically inert but has the properties of high melting point, high resistivity, high refractive index and low thermal expansion coefficient, so that it becomes a main raw material for refractory materials, ceramic insulating materials, ceramic opacifiers and artificial drills, and a centrifugal spray dryer is required for drying and dewatering during processing.

The water vapor generated by the existing centrifugal spray dryer is directly discharged after being filtered, so that the heat loss is caused, and the energy conservation and the environmental protection cannot be realized.

SUMMERY OF THE UTILITY MODEL

For the heat that contains in the ability effective utilization aqueous vapor more than realizing, energy-concerving and environment-protective, can be according to heat automatically regulated heat transfer distance, the purpose that heat exchange efficiency is high, the utility model discloses a following technical scheme realizes: slurry dehydration powder process aqueous vapor eduction gear, including air inlet machine, intake pipe, heater, centrifugal spray drying tower, exhaust fan, blast pipe, exhaust mechanism and control mechanism, exhaust mechanism includes the bracing piece, the box that changes heat has been cup jointed in the outside of bracing piece, the hole that changes heat has been seted up to the inside of the box that changes heat, the cooling water cavity has been seted up to the inside of the box that changes heat, temperature sensor is installed to the inner wall in cooling water cavity, the inside of the box that changes heat is pegged graft and is had the cooling tube, the top of the box that changes heat is pegged graft and is had the pipe, control mechanism includes the support, the internally mounted PLC control mainboard of support, the crank wheel is installed at the top of support, the internally mounted of crank wheel has adjusting screw, adjusting screw's outside threaded connection has the regulating block, the front of regulating block articulates there is the crank rod.

Furthermore, the support rod and the support are both installed on the ground and are stably supported.

Furthermore, a supporting spring is arranged between the supporting rod and the heat exchange box.

Furthermore, the air inlet pipe penetrates through the heat exchange hole, and the exhaust pipe is connected with the cooling pipe through the corrugated expansion pipe, so that the exhaust pipe does not influence the up-and-down sliding of the heat exchange box.

Furthermore, the motor and the temperature sensor at the bottom of the adjusting screw rod are connected with the PLC control mainboard through wires, and the control is stable.

Furthermore, the adjusting screw rods are distributed along the diameter of the crank wheel, and meanwhile, the adjusting blocks are connected inside the crank wheel in a sliding mode, so that the crank radius of the crank rods can be adjusted conveniently.

Furthermore, one end of the crank rod, which is far away from the adjusting block, is hinged to the bottom of the heat exchange box, so that the transmission is stable.

Compared with the prior art, the utility model discloses following beneficial effect has:

1. this thick liquids dehydration powder process aqueous vapor eduction gear, in leading-in cooling water cavity with the aqueous vapor through the cooling tube, the cooling water cavity cools off the aqueous vapor, water in the cooling water cavity is with in the leading-in intake pipe of heat, to the air heating, thereby save the energy consumption of heater, the crank wheel rotates simultaneously and drives the regulating block rotation, the regulating block drives the swing of crank lever, the crank lever drives the box that changes heat and slides from top to bottom, the heat transfer box slides from top to bottom along the intake pipe, the heat exchange efficiency is improved, thereby reached and effectively utilized the heat that contains in the aqueous vapor, energy-concerving and environment-protective effect.

2. This thick liquids dehydration powder process aqueous vapor eduction gear, detect the temperature in the cooling water cavity through temperature sensor, and with signal of telecommunication transmission to PLC control mainboard on, PLC control mainboard passes through motor control adjusting screw and rotates, adjusting screw drives the regulating block and slides, the regulating block changes crank lever crank radius, the temperature is higher in the cooling water cavity, crank lever's crank radius is big more, the upper and lower sliding distance of heat transfer box is big more, heat exchange efficiency is high more, thereby reached and to have adjusted the heat transfer distance according to heat automatically, the effect that heat exchange efficiency is high.

Drawings

FIG. 1 is a schematic view of the whole structure of the present invention;

FIG. 2 is a schematic view of the structure of the exhaust mechanism of the present invention;

fig. 3 is a schematic view of the structure control mechanism of the present invention.

In the figure: 1. an air inlet machine; 2. an air inlet pipe; 3. a heater; 4. a centrifugal spray drying tower; 5. an exhaust fan; 6. an exhaust pipe; 7. an exhaust mechanism; 71. a support bar; 72. a heat exchange box; 73. a support spring; 74. heat exchange holes; 75. a cooling water cavity; 76. a temperature sensor; 77. a cooling tube; 78. a conduit; 8. a control mechanism; 81. a support; 82. the PLC controls the main board; 83. a crank wheel; 84. adjusting the screw rod; 85. an adjusting block; 86. a crank rod.

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.

The embodiment of the water vapor discharge device for dehydrating and pulverizing the slurry is as follows:

referring to fig. 1-3, the slurry dewatering and pulverizing steam discharging device includes an air inlet machine 1, an air inlet pipe 2, a heater 3, a centrifugal spray drying tower 4, an exhaust fan 5, an exhaust pipe 6, an exhaust mechanism 7 and a control mechanism 8, wherein the exhaust mechanism 7 includes a support rod 71, the support rod 71 and a support 81 are both installed on the ground and stably supported, a support spring 73 is disposed between the support rod 71 and the heat exchange box 72, the heat exchange box 72 is sleeved outside the support rod 71, a heat exchange hole 74 is disposed inside the heat exchange box 72, the air inlet pipe 2 passes through the heat exchange hole 74, the exhaust pipe 6 is connected with a cooling pipe 77 through a corrugated expansion pipe, so that the exhaust pipe 6 does not affect the up-and-down sliding of the heat exchange box 72, a cooling water cavity 75 is disposed inside the heat exchange box 72, a temperature sensor 76 is installed on the inner wall of the cooling water cavity 75, a cooling pipe 77 is inserted inside the heat exchange box 72, and a guide pipe 78 is inserted on the top of the heat exchange box 72.

Blast pipe 6 is in leading-in cooling tube 77 with the aqueous vapor, cooling tube 77 is in leading-in cooling water cavity 75 with the aqueous vapor, cooling water cavity 75 cools off the aqueous vapor, water in cooling water cavity 75 is with in the leading-in intake pipe 2 of heat, heat the air, thereby save heater 3's energy consumption, crank wheel 83 circular telegram simultaneously rotates and drives regulating block 85 and rotate, regulating block 85 drives the swing of crank lever 86, crank lever 86 drives heat transfer box 72 and slides from top to bottom, heat transfer box 72 slides from top to bottom along intake pipe 2, and heat exchange efficiency is improved.

Control mechanism 8 includes support 81, the internally mounted PLC control mainboard 82 of support 81, crank wheel 83 is installed at the top of support 81, the internally mounted of crank wheel 83 has adjusting screw 84, the motor and the temperature sensor 76 of adjusting screw 84 bottom all are connected with PLC control mainboard 82 through the wire, control is stable, adjusting screw 84 distributes along the diameter of crank wheel 83, adjusting block 85 sliding connection is in the inside of crank wheel 83 simultaneously, be convenient for adjust crank lever 86 crank radius, adjusting screw 84's outside threaded connection has adjusting block 85, adjusting block 85's front articulates there is crank lever 86, the one end that adjusting block 85 was kept away from to crank lever 86 articulates the bottom at heat exchange box 72, the transmission is stable.

When the temperature in cooling water cavity 75 is too high, temperature sensor 76 detects the temperature in cooling water cavity 75 to on transmitting electrical signal to PLC control mainboard 82, PLC control mainboard 82 rotates through motor control adjusting screw 84, and adjusting screw 84 drives regulating block 85 and slides, and regulating block 85 makes crank lever 86 crank radius grow, and the upper and lower sliding distance of heat transfer box 72 increases, and then guarantees the heat exchange efficiency temperature.

The working principle is as follows: the blast pipe 6 is with during the leading-in cooling tube 77 of aqueous vapor, cooling tube 77 is with during the leading-in cooling water cavity 75 of aqueous vapor, cooling water cavity 75 cools off the aqueous vapor, water in the cooling water cavity 75 is with in the leading-in intake pipe 2 of heat, the air heating, thereby save the energy consumption of heater 3, crank wheel 83 circular telegram rotates and drives regulating block 85 and rotate simultaneously, regulating block 85 drives the swing of crank lever 86, crank lever 86 drives heat transfer box 72 and slides from top to bottom, heat transfer box 72 slides from top to bottom along intake pipe 2, heat exchange efficiency is improved.

When the temperature in cooling water cavity 75 is too high, temperature sensor 76 detects the temperature in cooling water cavity 75 to on transmitting electrical signal to PLC control mainboard 82, PLC control mainboard 82 rotates through motor control adjusting screw 84, and adjusting screw 84 drives regulating block 85 and slides, and regulating block 85 makes crank lever 86 crank radius grow, and the upper and lower sliding distance of heat transfer box 72 increases, and then guarantees the heat exchange efficiency temperature.

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 (7)

1. Thick liquids dehydration powder process aqueous vapor eduction gear, including air inlet machine (1), intake pipe (2), heater (3), centrifugal spray drying tower (4), exhaust fan (5), blast pipe (6), exhaust mechanism (7) and control mechanism (8), its characterized in that: exhaust mechanism (7) include bracing piece (71), heat exchange box (72) have been cup jointed in the outside of bracing piece (71), heat exchange hole (74) have been seted up to the inside of heat exchange box (72), cooling water cavity (75) have been seted up to the inside of heat exchange box (72), temperature sensor (76) are installed to the inner wall in cooling water cavity (75), the inside grafting of heat exchange box (72) has cooling tube (77), the top grafting of heat exchange box (72) has pipe (78), control mechanism (8) are including support (81), internally mounted PLC control mainboard (82) of support (81), crank wheel (83) is installed at the top of support (81), internally mounted of crank wheel (83) has adjusting screw (84), the outside threaded connection of adjusting screw (84) has regulating block (85), the front of regulating block (85) articulates there is crank rod (86).

2. The steam discharge device for the powder process by dehydrating the slurry according to claim 1, wherein: the supporting rod (71) and the support (81) are both arranged on the ground.

3. The steam discharge device for the powder process by dehydrating the slurry according to claim 1, wherein: and a supporting spring (73) is arranged between the supporting rod (71) and the heat exchange box (72).

4. The steam discharge device for the powder process by dehydrating the slurry according to claim 1, wherein: the air inlet pipe (2) penetrates through the heat exchange hole (74), and the air outlet pipe (6) is connected with the cooling pipe (77) through a corrugated telescopic pipe.

5. The apparatus of claim 1, wherein the slurry dewatering mill is further characterized by: and the motor at the bottom of the adjusting screw rod (84) and the temperature sensor (76) are connected with the PLC control main board (82) through wires.

6. The steam discharge device for the powder process by dehydrating the slurry according to claim 1, wherein: the adjusting screw rods (84) are distributed along the diameter of the crank wheel (83), and the adjusting blocks (85) are connected inside the crank wheel (83) in a sliding mode.

7. The apparatus of claim 1, wherein the slurry dewatering mill is further characterized by: one end of the crank rod (86) far away from the adjusting block (85) is hinged at the bottom of the heat exchange box (72).

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