CN212142595U - Glass lining reaction kettle - Google Patents

Abstract

The utility model discloses a ward off glass reation kettle relates to reation kettle's technical field, and it includes the auxiliary mixing subassembly, the auxiliary mixing subassembly includes the auxiliary rod, the vertical setting of auxiliary rod just rotates on the internal wall of cauldron, vertical sliding has the stirring piece on the auxiliary rod, the stirring piece rotates with the auxiliary rod to be connected, be provided with second stirring leaf on the stirring piece, the lower extreme coaxial fixation of auxiliary rod has first stirring leaf, be provided with on the auxiliary rod and be used for driving the auxiliary rod and rotate to make the stirring piece slide pivoted driving piece. After the material got into reation kettle, start the driving piece, the rotation of driving piece auxiliary rod for first stirring leaf stirs the material once, and in first stirring leaf pivoted, the stirring piece slides under the driving piece drive on the auxiliary rod and rotates, makes second stirring leaf carry out the secondary stirring to the material, the utility model discloses have the effect that improves material misce bene efficiency.

Description

Glass lining reaction kettle

Technical Field

The utility model belongs to the technical field of reation kettle's technique and specifically relates to a ward off glass reation kettle is related to.

Background

At present, a glass lining reactor is a composite material product formed by lining glass containing more silicon dioxide on the inner surface of a steel container and burning the glass at high temperature to firmly adhere the glass to the metal surface. Therefore, it has the dual advantages of glass stability and high strength of metal, and is an excellent corrosion-resistant device. The glass lining reaction kettle as a reaction vessel has excellent chemical stability and high structural strength, and is widely applied to the production of medicines, chemical engineering, foods, silica gel, coatings, paints and the like.

Notice No. is CN204485835U, discloses that chinese utility model who is 20150722 discloses a ward off glass reation kettle, including the cauldron body, cauldron body upper end is provided with the kettle cover, be provided with the feed inlet on the kettle cover, the lower extreme of the cauldron body is provided with the discharge gate, be provided with discharge gate line and baiting valve in the discharge gate, the cauldron body include the metallic tank body and line in the glass layer of the internal surface of the metallic tank body, the lower extreme of the cauldron body still be provided with discharge gate line mutually independent's inlet line, inlet line's top stretches into the cauldron is internal, inlet line's upper portion is provided with prevents the putty component, the center of kettle cover is rotated through sealing mechanism and is installed the lower extreme and stretch into the internal stirring rake of cauldron, the stirring rake upper end is connected with the motor through reduction gears. The material enters into to reation kettle from the feed inlet in, then starter motor, the motor passes through the rotation that reduction gears drove the stirring rake to stir the material in the reation kettle, after the material misce bene, open the discharge gate, make the material after the mixture discharge from the discharge gate. Because the feeding pipeline and the discharge opening line are independently arranged, and the anti-blocking component is arranged on the feeding pipeline, the feeding pipeline is prevented from being blocked by materials when the discharge opening line is cleaned, so that the feeding of the materials is influenced.

In the process of stirring the materials by the stirring paddle, although the materials at the lower part of the reaction kettle can be fully stirred by the stirring paddle, the overall stirring effect of the stirring paddle on the materials is gradually reduced towards the side far away from the stirring blades because the stirring paddle is fixed in height, so that the stirring paddle generally needs to spend longer stirring time in order to fully stir the materials.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an improve warding off glass reation kettle of material misce bene efficiency to the not enough of prior art existence.

The above object of the present invention can be achieved by the following technical solutions:

the utility model provides a ward off glass reation kettle, includes the auxiliary mixing subassembly, the auxiliary mixing subassembly includes the auxiliary rod, the vertical setting of auxiliary rod just rotates on cauldron body roof, the vertical stirring piece that has slided on the auxiliary rod, the stirring piece rotates with the auxiliary rod to be connected, be provided with second stirring leaf on the stirring piece, the lower extreme coaxial of auxiliary rod is fixed with first stirring leaf, be provided with on the auxiliary rod and be used for driving the auxiliary rod and rotate to make the stirring piece slide pivoted driving piece.

Through adopting above-mentioned technical scheme, after the material gets into reation kettle, start the driving piece, the rotation of driving piece auxiliary rod, make first stirring leaf carry out the stirring once to the material, and in first stirring leaf pivoted, the stirring piece slides under the driving piece drive on the auxiliary rod and rotates, make second stirring leaf carry out the secondary stirring to the material, because second stirring leaf is when the stirring, slide on the auxiliary rod, consequently, the stirring scope grow of second stirring leaf, thereby the time of stirring material misce bene has been shortened, thereby material misce bene's efficiency has been improved.

Further: the driving piece comprises a reciprocating lead screw, a vertical reciprocating lead screw is coaxially fixed on an output shaft of the motor, the reciprocating lead screw rotates in the auxiliary rod, a sliding hole along the axis of the auxiliary rod is formed in the surface of the auxiliary rod, and the stirring block penetrates through the sliding hole and is in threaded connection with the reciprocating lead screw.

Through adopting above-mentioned technical scheme, behind the starter motor, the motor passes through reduction gears and drives the rotation of reciprocal lead screw, and the rotation gliding of reciprocal lead screw drive stirring piece, when the auxiliary rod produced the rotational speed difference with reciprocal lead screw, the auxiliary rod rotated, and the auxiliary rod plays the effect of supplementary gliding to the stirring piece to when making the second stirring leaf stir the material, can increase the stirring scope of second stirring leaf again.

Further: and a damping block is fixed on the top wall of the kettle body, and one end of the damping block, which is close to the auxiliary rod, is abutted against the auxiliary rod.

Through adopting above-mentioned technical scheme, the purpose that sets up the damping piece is that the damping piece plays the effect of blockking to the rotation of auxiliary rod, increases auxiliary rod pivoted resistance to make and produce great rotational speed difference between auxiliary rod and the reciprocal lead screw rotation, thereby make the stirring piece can rotate the gliding.

Further: the second stirring blade is detachably connected with the stirring block.

Through adopting above-mentioned technical scheme, the second stirring leaf can be dismantled with the stirring piece and be connected the purpose, and when the second stirring leaf because the live time just and after the damage, can change the second stirring leaf.

Further: it has two vertical puddlers, two to rotate on the cauldron body roof the puddler rotates opposite direction, two with reciprocal lead screw the puddler sets up about the axis symmetry of auxiliary rod, two all coaxial fixedly has a plurality of third stirring leaves that distribute along its axis on the puddler, be provided with on the reciprocal lead screw and be used for driving two puddler pivoted drive subs.

Through adopting above-mentioned technical scheme, when reciprocal lead screw rotated, two puddler reversals of drive son drive on the reciprocal lead screw to make the third stirring leaf stir the material, at this moment, first stirring leaf, second stirring leaf and third stirring leaf all stir the material, have further shortened the time that the material mixes the stirring.

Further: the driving sub-part comprises a first gear and two second gears, the first gear is coaxially and fixedly connected to the reciprocating screw rod, the number of the second gears is two, the two second gears are coaxially fixed to the two stirring rods respectively, and the two second gears are meshed with the first gears.

Through adopting above-mentioned technical scheme, when reciprocal lead screw rotated, first gear rotated, and first gear drove the rotation of two second gears to drive the rotation of two puddlers, thereby make the third stirring leaf stir the material.

Further: a filter screen is clamped in the discharge port.

Through adopting above-mentioned technical scheme, the purpose that sets up the filter screen is, after the material misce bene, opens the discharge gate for moisture is filtered the discharge, and the granule that the crystallization obtained is stayed on the filter screen, thereby does not need the granule to discharge the discharge gate along with the moisture after, and the manual work is filtering, thereby has reduced staff's the amount of labour.

Further: clamping blocks are fixed at two ends of the filter screen, and supporting blocks are fixed on two side walls of the discharge port.

Through adopting above-mentioned technical scheme, during the installation filter screen, wear to arrange the filter screen in the discharge gate, then rotate the filter screen for the joint piece is supported by the supporting shoe.

To sum up, the utility model discloses a beneficial technological effect does:

1. the purpose of arranging the stirring block to slide and rotate on the auxiliary rod is that after materials enter the reaction kettle, the driving piece is started, the auxiliary rod of the driving piece rotates to enable the first stirring blade to stir the materials for the first time, and the stirring block slides and rotates on the auxiliary rod under the driving of the driving piece while the first stirring blade rotates to enable the second stirring blade to stir the materials for the second time;

2. the purpose of arranging the damping block is that the damping block has a blocking effect on the rotation of the auxiliary rod and increases the resistance of the rotation of the auxiliary rod, so that a larger rotation speed difference is generated between the auxiliary rod and the reciprocating screw rod, and the stirring block can rotate and slide downwards;

3. the purpose that sets up the third stirring leaf is, when reciprocal lead screw rotated, two puddler reversals of drive sub-drive on the reciprocal lead screw to make the third stirring leaf stir the material, at this moment, first stirring leaf, second stirring leaf and third stirring leaf all stir the material, have further shortened the time that the material mixes the stirring.

Drawings

FIG. 1 is a schematic sectional view of the present embodiment showing the internal structure after a part of the autoclave body is cut away;

FIG. 2 is a schematic view of the overall structure of the auxiliary stirring assembly of FIG. 1;

fig. 3 is an exploded view showing the filter screen in the discharge port.

Reference numerals: 100. a kettle body; 110. a motor; 120. a speed reduction mechanism; 130. a discharge port; 131. a filter screen; 132. a clamping block; 133. a support block; 200. an auxiliary stirring component; 210. an auxiliary lever; 211. stirring blocks; 212. a second stirring blade; 213. a first stirring blade; 220. a drive member; 221. a reciprocating screw; 222. a sliding hole; 230. a damping block; 240. a stirring rod; 241. a third stirring blade; 250. a drive subassembly; 251. a first gear; 252. a second gear.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, for the utility model discloses a ward off glass reation kettle, including supplementary stirring subassembly 200, supplementary stirring subassembly 200 includes auxiliary rod 210, auxiliary rod 210 is vertical to be set up and rotates on the internal wall of cauldron 100 through end face bearing, coaxial the sliding has annular stirring piece 211 on the auxiliary rod 210, stirring piece 211 rotates with auxiliary rod 210 to be connected, there is second stirring leaf 212 through bolted connection on the stirring piece 211, the coaxial first stirring leaf 213 that is fixed with of lower extreme of auxiliary rod 210, be provided with on the auxiliary rod 210 and be used for driving auxiliary rod 210 to rotate, and make stirring piece 211 slide pivoted driving piece 220. After the material gets into in the reation kettle, start driving piece 220, the rotation of driving piece 220 auxiliary rod 210 for first stirring leaf 213 stirs the material once, and in first stirring leaf 213 pivoted the while, stirring piece 211 slides on auxiliary rod 210 under the drive of driving piece 220 and rotates, makes second stirring leaf 212 stir the material twice. If the second stirring blade is damaged after long service life, the second stirring blade can be detached and replaced.

As shown in fig. 2, the driving member 220 includes a reciprocating screw 221, a vertical reciprocating screw 221 is coaxially fixed to an output shaft of the motor 110 (see fig. 1), the reciprocating screw 221 rotates in the auxiliary rod 210, the auxiliary rod 210 is provided with a sliding hole 222 which is symmetrical about an axis thereof and is arranged along the axis thereof, and the stirring block 211 is in threaded connection with the reciprocating screw 221 through a connecting block. After the motor 110 is started, the motor 110 drives the reciprocating screw 221 to rotate through the speed reducing mechanism 120, the reciprocating screw 221 drives the stirring block 211 to slide downwards in a rotating mode, when the auxiliary rod 210 and the reciprocating screw 221 generate a rotating speed difference, the auxiliary rod 210 rotates, and the auxiliary rod 210 plays a role in assisting the stirring block 211 to slide downwards, so that the stirring range of the second stirring blade 212 can be enlarged while the second stirring blade 212 stirs materials.

In order to avoid the phenomenon of stacking after the mixed materials enter the auxiliary rod 210 from the sliding hole 222, a plurality of through holes are formed in the bottom of the auxiliary rod 210, so that the materials can fall into the reaction kettle from the through holes.

In order to generate a large difference between the rotational speeds of the reciprocating screw 221 and the auxiliary rod 210 when the reciprocating screw rotates, a damping block 230 (see fig. 1) is fixed on the inner wall of the kettle 100, and one end of the damping block 230, which is close to the auxiliary rod 210, abuts against the auxiliary rod 210.

As shown in fig. 1, in order to further shorten the time for uniformly mixing and stirring the materials, two vertical stirring rods 240 are rotated on the inner wall of the kettle body 100, the rotation directions of the two stirring rods 240 and the reciprocating screw 221 are opposite, the two stirring rods 240 are symmetrically arranged about the axis of the auxiliary rod 210, and a plurality of third stirring blades 241 distributed along the axis are coaxially fixed on the two stirring rods 240.

In order to drive the two stirring rods 240 to reversely rotate, a driving sub-part 250 is arranged on the reciprocating screw rod 221, the driving sub-part 250 comprises a first gear 251 and two second gears 252, the first gear 251 is coaxially and fixedly connected to the reciprocating screw rod 221, the number of the second gears 252 is two, the two second gears 252 are respectively and coaxially fixed on the two stirring rods 240, and the two second gears 252 are both meshed with the first gear 251.

As shown in fig. 3, after the materials are uniformly mixed, the discharge port 130 needs to be opened, so that the required particles are discharged out of the discharge port 130 along with the moisture, and then the particles are manually filtered, thereby increasing the labor capacity of the workers, in order to reduce the labor capacity of the workers, supporting blocks 133 are fixed on both sides in the discharge port 130, and clamping blocks 132 are welded on both ends of the filter screen 131. Put filter screen 131 in discharge gate 130 in, then rotate filter screen 131 for joint piece 132 is supported by supporting shoe 133, waits until moisture discharges after, and the granule is stayed on filter screen 131, then rotates filter screen 131, dismantles filter screen 131, then collects the granule.

The specific working process of this embodiment: after the materials are mixed in the reaction kettle, the motor 110 is started, the motor 110 drives the reciprocating screw rod 221 to rotate through the speed reducing mechanism 120, the reciprocating screw rod 221 drives the stirring block 211 to slide and rotate, meanwhile, the auxiliary rod 210 rotates, the auxiliary rod 210 drives the first stirring blade 213 to rotate, and the stirring block 211 drives the second stirring blade 212 to rotate. When the reciprocating screw 221 rotates, the first gear 251 drives the two second gears 252 to rotate, and the two second gears 252 drive the two stirring rods 240 to rotate, so that the third stirring blade 241 rotates, and the first stirring blade 213, the second stirring blade 212 and the third stirring blade 241 rotate simultaneously, so that the time for uniformly mixing materials is shortened. After the material mixes the completion, opens discharge gate 130 for moisture in it is discharged, and the crystallization granule remains on filter screen 131, then rotates filter screen 131, makes filter screen 131 dismantle, thereby collects discharged granule.

Claims (8)

1. A glass lining reaction kettle is characterized in that: including supplementary stirring subassembly (200), supplementary stirring subassembly (200) include auxiliary rod (210), auxiliary rod (210) vertical setting and rotate on the cauldron body (100) roof, vertical slip has stirring block (211) on auxiliary rod (210) to stirring block (211) rotate with auxiliary rod (210) and are connected, be provided with second stirring leaf (212) on stirring block (211), the lower extreme coaxial fixed of auxiliary rod (210) has first stirring leaf (213), be provided with on auxiliary rod (210) and be used for driving auxiliary rod (210) to rotate to make stirring block (211) slip pivoted driving piece (220).

2. A glass-lined reactor as defined in claim 1, wherein: the driving piece (220) comprises a reciprocating lead screw (221), a vertical reciprocating lead screw (221) is coaxially fixed on an output shaft of the motor (110), the reciprocating lead screw (221) rotates in the auxiliary rod (210), a sliding hole (222) along the axis of the auxiliary rod (210) is formed in the surface of the auxiliary rod, and the stirring block (211) penetrates through the sliding hole (222) to be in threaded connection with the reciprocating lead screw (221).

3. A glass-lined reactor as defined in claim 2, wherein: a damping block (230) is fixed on the top wall of the kettle body (100), and one end, close to the auxiliary rod (210), of the damping block (230) is abutted against the auxiliary rod (210).

4. A glass-lined reactor as defined in claim 3, wherein: the second stirring blade (212) is detachably connected with the stirring block (211).

5. A glass-lined reactor as defined in claim 4, wherein: it has two vertical puddlers (240), two to rotate on the cauldron body (100) roof puddler (240) and reciprocal lead screw (221) direction of rotation opposite, two puddler (240) set up about the axis symmetry of auxiliary rod (210), two all coaxial being fixed with a plurality of third stirring leaves (241) that distribute along its axis on puddler (240), be provided with on reciprocal lead screw (221) and be used for driving two puddler (240) pivoted drive subelements (250).

6. A glass-lined reactor as defined in claim 5, wherein: the driving sub-component (250) comprises a first gear (251) and two second gears (252), the first gear (251) is coaxially and fixedly connected to the reciprocating screw rod (221), the number of the second gears (252) is two, the two second gears are respectively and coaxially fixed to the two stirring rods (240), and the two second gears (252) are meshed with the first gear (251).

7. A glass-lined reactor as defined in claim 6, wherein: a filter screen (131) is clamped in the discharge port (130).

8. A glass-lined reactor as defined in claim 7, wherein: clamping blocks (132) are fixed to two ends of the filter screen (131), and supporting blocks (133) are fixed to two side walls of the discharge port (130).

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