CN204816279U - Mechanism is extracted in raw and other materials stirring with filter equipment - Google Patents

Abstract

The utility model aims at providing a mechanism is extracted in raw and other materials stirring with filter equipment. The utility model provides a closed mixing arrangement that this mechanism provided a stirring and collected for the chemical industry raw and other materials, including stirred tank, axis of rotation, support frame, drive arrangement, drive belt, motor, control box, branch sieve storage cabin and storage tank, the puddler adopts spiral line flabellum formula agitating unit, makes raw and other materials carry out intensive mixing and integration in reation kettle's inside. The helping hand rolling bearing who installs additional can rely on inertia to come the boosting puddler, and it is too big because of the resistance consumes to reduce the motor like this, when reducing the loss, has increased the life of motor. Divide sieve storage cabin to store up the cabin with its inside branch sieve cabin that divide into with the raw materials, make before filtering with the filtration after raw and other materials can separate, divide the branch sieve filter screen of sieve under -deck portion, break away from out impurity, and retrieve. Closed stirring mixed mode has reduced the negative side harm to operating personnel.

Description

A kind of raw material with filter stir extraction mechanism

Technical field

The utility model relates to the processing equipment manufacturing technology field of chemical raw material, particularly relates to a kind of raw material with filter and stirs extraction mechanism.

Background technology

During present chemical engineering industry is produced; to being generally all mixture operation in the follow-up work of chemical raw material processing, reaction and some row, the cooperation between each device is also particularly important, and the pattern of chemical industry mixing is in the past all more single; poor sealing performance, and lack the protection to operating personnel.And for processing and the mixing of raw material itself, also certain impact can be produced in quality, thus be unfavorable for carrying out of follow-up work, such as mixability not thoroughly, more etc. the quality problems of mixing rear impurity, greatly reduce product quality.

The closed mixing arrangement that this mechanism provides a stirring for chemical raw material and collects, and puddler adopts spiral lamination fan leaf type agitating device, and the wave that it produces stirs, and makes raw material fully to stir in the inside of reactor and to merge.In addition, a power-assisted rolling bearing has also been installed additional in one end of stirred tank, this device adopts ball bearing as rotating driveshaft, when puddler rotates to a certain degree, power-assisted rolling bearing can carry out boosting puddler by feat of inertia, motor can be reduced like this and consume excessive produced high-power output because of resistance, while Loss reducing, add the service life of motor.

In filtration docking, storing cabin charging aperture is equipped with a flexible feeder, this flexible feeder adopts plastic ripple telescoping tube, operating personnel can stretch voluntarily as required and shorten storing cabin charging aperture, come to carry out docking operation with the discharging opening on reactor, simultaneous retractable feeder also serves the drainage work of the chemical raw material after stirring, and sealing state is fine.In addition, its inside is divided into sub-sieve cabin and raw material storage cabin by this sub-sieve storing cabin, and the raw material before enabling filtration and after filtering are separated; And the sub-sieve screen pack that an employing double-layer nylon net is material is housed in the inside in sub-sieve cabin, this screen pack has certain angle of inclination, raw material are by after the sub-sieve of sub-sieve screen pack, by the large granular impurity in raw material, can along the landing of low-angle inclined-plane to the lower one side of sub-sieve screen pack, operating personnel can extract mouth and reclaim these raw material by opening raw material.Between each device of this mechanism, operating procedure association closely, and for stirring fluid chemical raw material for a long time and merging, and this mechanism adopts Hermetical stirring mixed mode, reduces the negative harm to operating personnel.

Utility model content

The purpose of this utility model is to provide a kind of raw material with filter and stirs extraction mechanism, makes chemical raw material in the closed state by collecting, stirring and be output in the system and device of one.

The technical solution of the utility model is: a kind of raw material with filter stir extraction mechanism, it is characterized in that: comprise stirred tank, turning cylinder, bracing frame, drive unit, driving-belt, motor, control cabinet, sub-sieve storing cabin and storage tank, described stirred tank is also provided with power-assisted rolling bearing, charging aperture, discharging opening and puddler, described power-assisted rolling bearing is positioned at the side of stirred tank, described power-assisted rolling bearing and stirred tank are for being fixedly connected with, described charging aperture is positioned at the side of stirred tank, described charging aperture and stirred tank are for being fixedly connected with, described discharging opening is positioned at the side of charging aperture, described discharging opening and stirred tank are for being fixedly connected with, described puddler is positioned at the inside of stirred tank, described puddler and stirred tank are for being fixedly connected with, described turning cylinder is positioned at the inside of stirred tank, one end of described turning cylinder with bracing frame for being fixedly connected with, the other end of described turning cylinder runs through stirred tank and puddler with drive unit for being fixedly connected with, support frame as described above is positioned at the side of stirred tank, support frame as described above and sub-sieve storing cabin are for being fixedly connected with, described drive unit is positioned at the opposite side of stirred tank, described drive unit and sub-sieve storing cabin are for being fixedly connected with, described driving-belt is positioned at the side of drive unit, described driving-belt and drive unit are for being fixedly connected with, described motor is positioned at the bottom of control cabinet, described motor and driving-belt are for being fixedly connected with, described control cabinet is positioned at the side of drive unit, described control cabinet and drive unit are for being fixedly connected with, described sub-sieve storing freight space is in the bottom of bracing frame and drive unit, described sub-sieve storing cabin and bracing frame with drive unit for being fixedly connected with, described sub-sieve storing cabin is also provided with storing cabin charging aperture, sub-sieve cabin and raw material storage cabin, described storing cabin charging aperture is positioned at the bottom of stirred tank, described storing cabin charging aperture and sub-sieve storing cabin are for being fixedly connected with, described storing cabin charging aperture is also provided with flexible feeder, described flexible feeder is positioned at the top of storing cabin charging aperture, described flexible feeder and storing cabin charging aperture are for being fixedly connected with, described sub-sieve freight space is in the inside in sub-sieve storing cabin, described sub-sieve cabin and sub-sieve storing cabin are for being fixedly connected with, described sub-sieve cabin is also provided with raw material and extracts mouth, sub-sieve screen pack and feed hopper, described raw material extracts the side that mouth is positioned at sub-sieve storing cabin, described raw material extracts mouth with sub-sieve storing cabin for being fixedly connected with, described sub-sieve screen pack is positioned at the inside in sub-sieve cabin, described sub-sieve screen pack and sub-sieve cabin are for being fixedly connected with, described feed hopper is positioned at the bottom of sub-sieve screen pack, described feed hopper is also provided with feed line, described feed line is positioned at the bottom of feed hopper, one end of described feed line with feed hopper for being fixedly connected with, the other end of described feed line stores up cabin for being fixedly connected with by sub-sieve cabin and raw material, described raw material storage freight space is in the side in sub-sieve cabin, described raw material stores up cabin with sub-sieve cabin for being fixedly connected with, described storage tank is positioned at the opposite side in sub-sieve storing cabin, described storage tank is also provided with and extracts pump and extraction tube, described extraction pump is positioned at the top of storage tank, described extraction pump and storage tank are for being fixedly connected with, described extraction tube is positioned at the side of storage tank, one end of described extraction tube and extraction pump are for being fixedly connected with, the other end of described extraction tube stores up cabin for being fixedly connected with by sub-sieve storing cabin and raw material.

Further, described power-assisted rolling bearing is ball-type rolling bearing.

Further, described puddler is spiral flabellum puddler.

Further, described flexible feeder is plastic ripple telescoping tube.

Further, described sub-sieve screen pack is double-layer nylon net, and the scope of sub-sieve screen pack and horizontal plane angle is 30 ° ~ 45 °.

Further, the shape of described feed hopper is taper.

The beneficial effects of the utility model are: the closed mixing arrangement that this mechanism provides a stirring for chemical raw material and collects, and puddler adopts spiral lamination fan leaf type agitating device, the wave that it produces stirs, and makes raw material fully to stir in the inside of reactor and to merge.In addition, a power-assisted rolling bearing has also been installed additional in one end of stirred tank, this device adopts ball bearing as rotating driveshaft, when puddler rotates to a certain degree, power-assisted rolling bearing can carry out boosting puddler by feat of inertia, motor can be reduced like this and consume excessive produced high-power output because of resistance, while Loss reducing, add the service life of motor.

In filtration docking, storing cabin charging aperture is equipped with a flexible feeder, this flexible feeder adopts plastic ripple telescoping tube, operating personnel can stretch voluntarily as required and shorten storing cabin charging aperture, come to carry out docking operation with the discharging opening on reactor, simultaneous retractable feeder also serves the drainage work of the chemical raw material after stirring, and sealing state is fine.In addition, its inside is divided into sub-sieve cabin and raw material storage cabin by this sub-sieve storing cabin, and the raw material before enabling filtration and after filtering are separated; And the sub-sieve screen pack that an employing double-layer nylon net is material is housed in the inside in sub-sieve cabin, this screen pack has certain angle of inclination, raw material are by after the sub-sieve of sub-sieve screen pack, by the large granular impurity in raw material, can along the landing of low-angle inclined-plane to the lower one side of sub-sieve screen pack, operating personnel can extract mouth and reclaim these raw material by opening raw material.Between each device of this mechanism, operating procedure association closely, and for stirring fluid chemical raw material for a long time and merging, and this mechanism adopts Hermetical stirring mixed mode, reduces the negative harm to operating personnel.

Accompanying drawing explanation

Fig. 1 is front view of the present utility model.

Wherein: 1, stirred tank 2, power-assisted rolling bearing 3, charging aperture

4, discharging opening 5, puddler 6, turning cylinder

7, bracing frame 8, drive unit 9, driving-belt

10, motor 11, control cabinet 12, sub-sieve storing cabin

13, storing cabin charging aperture 14, flexible feeder 15, raw material extract mouth

16, sub-sieve cabin 17, sub-sieve screen pack 18, feed hopper

19, feed line 20, raw material storage cabin 21, storage tank

22, pump 23, extraction tube is extracted

Detailed description of the invention

Below in conjunction with accompanying drawing, brief description is made to detailed description of the invention of the present utility model.

A kind of raw material with filter stir extraction mechanism as shown in Figure 1, it is characterized in that: comprise stirred tank 1, turning cylinder 6, bracing frame 7, drive unit 8, driving-belt 9, motor 10, control cabinet 11, sub-sieve storing cabin 12 and storage tank 21, described stirred tank 1 is also provided with power-assisted rolling bearing 2, charging aperture 3, discharging opening 4 and puddler 5, described power-assisted rolling bearing 2 is positioned at the side of stirred tank 1, described power-assisted rolling bearing 2 and stirred tank 1 are for being fixedly connected with, described charging aperture 3 is positioned at the side of stirred tank 1, described charging aperture 3 and stirred tank 1 are for being fixedly connected with, described discharging opening 4 is positioned at the side of charging aperture 3, described discharging opening 4 and stirred tank 1 are for being fixedly connected with, described puddler 5 is positioned at the inside of stirred tank 1, described puddler 5 and stirred tank 1 are for being fixedly connected with, described turning cylinder 6 is positioned at the inside of stirred tank 1, one end of described turning cylinder 6 with bracing frame 7 for being fixedly connected with, the other end of described turning cylinder 6 runs through stirred tank 1 and puddler 5 with drive unit 8 for being fixedly connected with, support frame as described above 7 is positioned at the side of stirred tank 1, support frame as described above 7 and sub-sieve storing cabin 12 are for being fixedly connected with, described drive unit 8 is positioned at the opposite side of stirred tank 1, described drive unit 8 and sub-sieve storing cabin 12 are for being fixedly connected with, described driving-belt 9 is positioned at the side of drive unit 8, described driving-belt 9 and drive unit 8 are for being fixedly connected with, described motor 10 is positioned at the bottom of control cabinet 11, described motor 10 and driving-belt 9 are for being fixedly connected with, described control cabinet 11 is positioned at the side of drive unit 8, described control cabinet 11 and drive unit 8 are for being fixedly connected with, described sub-sieve storing cabin 12 is positioned at the bottom of bracing frame 7 and drive unit 8, described sub-sieve storing cabin 12 and bracing frame 7 with drive unit 8 for being fixedly connected with, described sub-sieve storing cabin 12 is also provided with storing cabin charging aperture 13, sub-sieve cabin 16 and raw material storage cabin 20, described storing cabin charging aperture 13 is positioned at the bottom of stirred tank 1, described storing cabin charging aperture 13 and sub-sieve storing cabin 12 are for being fixedly connected with, described storing cabin charging aperture 13 is also provided with flexible feeder 14, described flexible feeder 14 is positioned at the top of storing cabin charging aperture 13, described flexible feeder 14 and storing cabin charging aperture 13 are for being fixedly connected with, described sub-sieve cabin 16 is positioned at the inside in sub-sieve storing cabin 12, described sub-sieve cabin 16 and sub-sieve storing cabin 12 are for being fixedly connected with, described sub-sieve cabin 16 is also provided with raw material and extracts mouth 15, sub-sieve screen pack 17 and feed hopper 18, described raw material extracts the side that mouth 15 is positioned at sub-sieve storing cabin 12, described raw material extracts mouth 15 with sub-sieve storing cabin 12 for being fixedly connected with, described sub-sieve screen pack 17 is positioned at the inside in sub-sieve cabin 16, described sub-sieve screen pack 17 and sub-sieve cabin 16 are for being fixedly connected with, described feed hopper 18 is positioned at the bottom of sub-sieve screen pack 17, described feed hopper 18 is also provided with feed line 19, described feed line 19 is positioned at the bottom of feed hopper 18, one end of described feed line 19 with feed hopper 18 for being fixedly connected with, the other end of described feed line 19 stores up cabin 20 for being fixedly connected with by sub-sieve cabin 16 and raw material, described raw material storage cabin 20 is positioned at the side in sub-sieve cabin 16, described raw material stores up cabin 20 with sub-sieve cabin 16 for being fixedly connected with, described storage tank 21 is positioned at the opposite side in sub-sieve storing cabin 12, described storage tank 21 is also provided with and extracts pump 22 and extraction tube 23, described extraction pump 22 is positioned at the top of storage tank 21, described extraction pump 22 and storage tank 21 are for being fixedly connected with, described extraction tube 23 is positioned at the side of storage tank 21, one end of described extraction tube 23 and extraction pump 22 are for being fixedly connected with, the other end of described extraction tube 23 stores up cabin 20 for being fixedly connected with by sub-sieve storing cabin 12 and raw material.Described power-assisted rolling bearing 2 is ball-type rolling bearing.Described puddler 5 is spiral flabellum puddler.Described flexible feeder 14 is plastic ripple telescoping tube.Described sub-sieve screen pack 17 is double-layer nylon net, and sub-sieve screen pack 17 is 30 ° ~ 45 ° with the scope of horizontal plane angle.The shape of described feed hopper 18 is taper.

Working method: the closed mixing arrangement that this mechanism provides a stirring for chemical raw material and collects, first raw material enter stirred tank 1 inside by charging aperture 3, open the operating switch on control cabinet 11, motor 10 can drive driving-belt 9 to operate, the other end of driving-belt 9 is connected with the turning cylinder 6 in drive unit 8, so under the drive of turning cylinder 6, puddler 5 in stirred tank 1 starts to rotate, because puddler 5 adopts spiral lamination fan leaf type agitating device, the wave that it produces stirs, raw material are made fully to stir in the inside of reactor 1 and to merge.In addition, a power-assisted rolling bearing 2 has also been installed additional in one end of stirred tank 1, this device adopts ball bearing as rotating driveshaft, when puddler 5 rotates to a certain degree, power-assisted rolling bearing 2 can carry out boosting puddler 5 by feat of inertia, motor 10 can be reduced like this and consume excessive produced high-power output because of resistance, while Loss reducing, add the service life of motor 10.

After to be mixed, discharging opening 4 on reactor 1 is docked with the storing cabin charging aperture 13 on sub-sieve storing cabin 12, owing to being equipped with a flexible feeder 14 on storing cabin charging aperture 13, this flexible feeder 14 adopts plastic ripple telescoping tube, operating personnel can stretch voluntarily as required and shorten storing cabin charging aperture 13, come to carry out docking operation with the discharging opening 4 on reactor 1, simultaneous retractable feeder 14 also serves the drainage work of the chemical raw material after stirring, and sealing state is fine.After end of operation, opened the valve of discharging opening 4 by control cabinet 11, allow the chemical raw material after stirring enter in sub-sieve storing cabin 12; In addition, its inside is divided into sub-sieve cabin 16 and raw material storage cabin 20 by this sub-sieve storing cabin 12, first, the sub-sieve cabin 16 that raw material are introduced into by storing cabin charging aperture 13, the sub-sieve screen pack 17 that an employing double-layer nylon net is material is housed in the inside in sub-sieve cabin 16, and this screen pack has certain angle of inclination, raw material are by after the sub-sieve of sub-sieve screen pack 17, by the large granular impurity in raw material, can along the landing of low-angle inclined-plane to the lower one side of sub-sieve screen pack 17, operating personnel can extract mouth 15 and reclaim these raw material by opening raw material.Divide the raw material after shining can fall in the feed hopper 18 of sub-sieve screen pack 17 bottom, then enter raw material storage cabin 20 by feed line 19, then pass through the extraction of extraction tube 23, mixed raw material can enter in storage tank 21.And operating procedure association closely between each device, this device is used for stirring fluid chemical raw material for a long time and merging, and this mechanism adopts Hermetical stirring mixed mode, reduces the negative harm to operating personnel.

Above an embodiment of the present utility model has been described in detail, but described content being only preferred embodiment of the present utility model, can not being considered to for limiting practical range of the present utility model.All equalizations done according to the utility model application range change and improve, and all should still belong within patent covering scope of the present utility model.

Claims (6)

1. the raw material with filter stir extraction mechanism, it is characterized in that: comprise stirred tank, turning cylinder, bracing frame, drive unit, driving-belt, motor, control cabinet, sub-sieve storing cabin and storage tank, described stirred tank is also provided with power-assisted rolling bearing, charging aperture, discharging opening and puddler, described power-assisted rolling bearing is positioned at the side of stirred tank, described power-assisted rolling bearing and stirred tank are for being fixedly connected with, described charging aperture is positioned at the side of stirred tank, described charging aperture and stirred tank are for being fixedly connected with, described discharging opening is positioned at the side of charging aperture, described discharging opening and stirred tank are for being fixedly connected with, described puddler is positioned at the inside of stirred tank, described puddler and stirred tank are for being fixedly connected with, described turning cylinder is positioned at the inside of stirred tank, one end of described turning cylinder with bracing frame for being fixedly connected with, the other end of described turning cylinder runs through stirred tank and puddler with drive unit for being fixedly connected with, support frame as described above is positioned at the side of stirred tank, support frame as described above and sub-sieve storing cabin are for being fixedly connected with, described drive unit is positioned at the opposite side of stirred tank, described drive unit and sub-sieve storing cabin are for being fixedly connected with, described driving-belt is positioned at the side of drive unit, described driving-belt and drive unit are for being fixedly connected with, described motor is positioned at the bottom of control cabinet, described motor and driving-belt are for being fixedly connected with, described control cabinet is positioned at the side of drive unit, described control cabinet and drive unit are for being fixedly connected with, described sub-sieve storing freight space is in the bottom of bracing frame and drive unit, described sub-sieve storing cabin and bracing frame with drive unit for being fixedly connected with, described sub-sieve storing cabin is also provided with storing cabin charging aperture, sub-sieve cabin and raw material storage cabin, described storing cabin charging aperture is positioned at the bottom of stirred tank, described storing cabin charging aperture and sub-sieve storing cabin are for being fixedly connected with, described storing cabin charging aperture is also provided with flexible feeder, described flexible feeder is positioned at the top of storing cabin charging aperture, described flexible feeder and storing cabin charging aperture are for being fixedly connected with, described sub-sieve freight space is in the inside in sub-sieve storing cabin, described sub-sieve cabin and sub-sieve storing cabin are for being fixedly connected with, described sub-sieve cabin is also provided with raw material and extracts mouth, sub-sieve screen pack and feed hopper, described raw material extracts the side that mouth is positioned at sub-sieve storing cabin, described raw material extracts mouth with sub-sieve storing cabin for being fixedly connected with, described sub-sieve screen pack is positioned at the inside in sub-sieve cabin, described sub-sieve screen pack and sub-sieve cabin are for being fixedly connected with, described feed hopper is positioned at the bottom of sub-sieve screen pack, described feed hopper is also provided with feed line, described feed line is positioned at the bottom of feed hopper, one end of described feed line with feed hopper for being fixedly connected with, the other end of described feed line stores up cabin for being fixedly connected with by sub-sieve cabin and raw material, described raw material storage freight space is in the side in sub-sieve cabin, described raw material stores up cabin with sub-sieve cabin for being fixedly connected with, described storage tank is positioned at the opposite side in sub-sieve storing cabin, described storage tank is also provided with and extracts pump and extraction tube, described extraction pump is positioned at the top of storage tank, described extraction pump and storage tank are for being fixedly connected with, described extraction tube is positioned at the side of storage tank, one end of described extraction tube and extraction pump are for being fixedly connected with, the other end of described extraction tube stores up cabin for being fixedly connected with by sub-sieve storing cabin and raw material.

2. a kind of raw material with filter stir extraction mechanism according to claim 1, it is characterized in that: described power-assisted rolling bearing is ball-type rolling bearing.

3. a kind of raw material with filter stir extraction mechanism according to claim 1, it is characterized in that: described puddler is spiral flabellum puddler.

4. a kind of raw material with filter stir extraction mechanism according to claim 1, it is characterized in that: described flexible feeder is plastic ripple telescoping tube.

5. a kind of raw material with filter stir extraction mechanism according to claim 1, it is characterized in that: described sub-sieve screen pack is double-layer nylon net, and the scope of sub-sieve screen pack and horizontal plane angle are 30 ° ~ 45 °.

6. a kind of raw material with filter stir extraction mechanism according to claim 1, it is characterized in that: the shape of described feed hopper is taper.