CN214183113U - Vertical emulsification reation kettle of quick unloading - Google Patents

Abstract

The utility model belongs to the technical field of the emulsification technique and specifically relates to a vertical emulsion reation kettle of quick unloading is related to, and it includes the cauldron body, the vertical setting of the cauldron body, the cauldron body is provided with the unloading pipe, unloading pipe one end and cauldron body bottom fixed connection and intercommunication, and the other end is provided with unloading valve, its characterized in that: the discharging pipe is internally provided with a discharging auger which is rotatably connected with the discharging pipe, and the discharging auger is positioned between the bottom end of the kettle body and the discharging valve. In this application, utilize the rotation of unloading auger to directly send emulsion material to unloading valve department and carry out the unloading, reach the effect of the unloading speed of having accelerated emulsion material in the emulsion reaction cauldron.

Description

Vertical emulsification reation kettle of quick unloading

Technical Field

The application relates to the field of emulsification technology, in particular to a vertical emulsification reaction kettle capable of discharging quickly.

Background

Emulsification refers to a process of dispersing and mixing two liquids which are not mutually dissolved under strong stirring to form an emulsion, and the process is usually carried out in an emulsification reaction kettle.

Referring to fig. 1, general emulsion reaction cauldron includes the cauldron body 1, rabbling mechanism 3, inlet pipe 2 and discharging pipe, the vertical setting of the cauldron body 1, rabbling mechanism 3 is located the cauldron body 1, rabbling mechanism 3 rotates with the cauldron body 1 and is connected, rabbling mechanism 3 is connected with actuating mechanism 4, actuating mechanism 4 and the central fixed connection in 1 top of the cauldron body, inlet pipe 2 sets up on 1 top of the cauldron body, 2 one end of inlet pipe and the 1 top fixed connection and the intercommunication of the cauldron body, the other end is provided with feed valve 21, unloading pipe 5 sets up at the 1 bottom center of the cauldron body, 5 one end cauldron bodies of unloading pipe 1 bottom fixed connection and intercommunication, the other end is provided with unloading valve 51. Firstly, the raw materials to be emulsified are put into the kettle body 1 from the feeding pipe 2, then the feeding valve 21 is closed, the driving mechanism 4 is started, the driving mechanism 4 drives the stirring mechanism 3 to stir and emulsify the materials in the kettle body 1, and after the emulsification process is finished, the discharging valve 51 is opened to discharge.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: the emulsified materials have high viscosity and poor fluidity, so that the feeding speed of the emulsified materials in the emulsion reaction kettle is low.

SUMMERY OF THE UTILITY MODEL

In order to accelerate the unloading speed of emulsification material in the emulsification reaction cauldron, this application provides a vertical emulsification reaction cauldron of quick unloading.

The application provides a vertical emulsification reation kettle of quick unloading adopts following technical scheme:

the utility model provides a vertical emulsion reation kettle of quick unloading, includes the cauldron body, the vertical setting of the cauldron body, and the cauldron body is provided with unloading pipe, unloading pipe one end and cauldron body bottom fixed connection and intercommunication, and the other end is provided with unloading valve, its characterized in that: the discharging pipe is internally provided with a discharging auger which is rotatably connected with the discharging pipe, and the discharging auger is positioned between the bottom end of the kettle body and the discharging valve.

Through adopting above-mentioned technical scheme, when carrying out the unloading to the emulsified material in the cauldron body, open the unloading valve, then rotate the unloading auger, the rotating vane of unloading auger carries the emulsified material along the heliciform, directly sends the emulsified material to unloading valve department and carries out the unloading, reaches the effect of the unloading speed of emulsified material in having accelerated the emulsion reaction cauldron.

Optionally, the unloading auger is connected with and is used for driving the pivoted driving piece of unloading auger.

Through adopting above-mentioned technical scheme, utilize the driving piece to drive the unloading auger and rotate in the unloading pipe, the driving piece provides power for the unloading auger, has improved the convenience of rotating the unloading auger simultaneously.

Optionally, the driving piece is a first motor, the first motor is fixedly connected with the outer side wall of the blanking tube, and a bevel gear set used for transmission between the first motor and the blanking auger is arranged between the first motor and the blanking auger.

By adopting the technical scheme, the first motor is arranged outside the blanking pipe, so that the contact between the emulsified materials and the motor is reduced, and the first motor is protected; through the arrangement of the bevel gear set, transmission between the first motor and the blanking auger is realized, the connection direction between the first motor and the blanking auger is changed, and convenience in mounting the first motor is improved.

Optionally, the bottom end of the kettle body is provided with a rotating plate wheel, and the rotating plate wheel is rotatably connected with the bottom end of the kettle body.

Through adopting above-mentioned technical scheme, rotate the runner board, make the runner board promote the emulsified material of cauldron body bottom, further improve the flow velocity of cauldron body bottom department emulsified material, reduced the piling up of emulsified material in cauldron body bottom simultaneously.

Optionally, the cauldron external side is provided with the cooling tube, and the cooling tube winding is at the lateral wall of the cauldron body, and the cooling tube can be dismantled fixed connection with the cauldron body.

Through adopting above-mentioned technical scheme, when the internal emulsification reaction that carries out of cauldron, need stir the emulsification material, can produce the heat among the stirring process, the heat can influence going on of emulsification reaction, utilizes the cooling tube to cool down the processing to the cauldron body this moment, has further promoted the internal emulsification effect of cauldron.

Optionally, be provided with the installation pipe between the cooling tube and the cauldron body, the installation pipe is provided with a plurality ofly, installation pipe and cauldron external side wall fixed connection, and a plurality of installation pipes are passed in proper order to cooling tube one end, are provided with the dead piece of lock that is used for fixed cooling tube position between cooling tube and the installation pipe.

Through adopting above-mentioned technical scheme, when installing the cooling tube in the cauldron external side, remove cooling tube one end and pass a plurality of installation pipes in proper order, then utilize the locking piece with the fixed position of cooling tube in the installation pipe, and then realized the dismantled fixed connection between cooling tube and the cauldron external side wall, improved the convenience of installation cooling tube, it is convenient simultaneously to provide for the change after the cooling tube is impaired.

Optionally, the water inlet end of the cooling pipe is provided with a flow valve.

Through adopting above-mentioned technical scheme, come the flow velocity of control cooling water in the cooling tube through the flow valve, and then realized the controllability of cooling tube cooling effect, make the cauldron body maintain under the temperature of normal work, realized the real-time regulation and control to the internal temperature of cauldron.

Optionally, the top wall of the kettle body is fixedly connected with a temperature sensor, and the temperature sensor is connected with the flow valve through electric control.

Through adopting above-mentioned technical scheme, utilize temperature sensor to measure the internal temperature of cauldron to flow valve is adjusted according to the data of measuring department, has improved the precision of adjusting the velocity of water flow in the cooling tube, has further promoted the internal emulsification effect of cauldron.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the emulsified materials are directly conveyed to the blanking valve for blanking through the arrangement of the blanking auger, so that the effect of accelerating the blanking speed of the emulsified materials in the emulsion reaction kettle is achieved;

2. through the arrangement of the bevel gear set, the transmission between the motor and the blanking auger is realized, and the connection direction between the motor and the blanking auger is changed, so that the convenience of mounting the motor is improved;

3. through the setting of flow valve, realized the controllability of cooling tube cooling effect, make the cauldron body maintain under the temperature of normal work, realized the real-time regulation and control to the internal temperature of cauldron.

Drawings

FIG. 1 is a schematic cross-sectional view of the background of the present application;

FIG. 2 is a schematic structural diagram of the outer side of the kettle body in the embodiment of the application;

fig. 3 is a schematic cross-sectional view of a blanking pipe according to an embodiment of the present application.

Description of reference numerals: 1. a kettle body; 11. a temperature sensor; 12. supporting legs; 2. a feed pipe; 21. a feed valve; 3. a stirring mechanism; 4. a drive mechanism; 5. a discharging pipe; 51. a discharge valve; 6. a blanking accelerating device; 61. a blanking auger; 611. a connecting rod; 62. a bevel gear set; 621. a first wheel; 622. a second wheel; 63. a first motor; 7. a runner plate; 71. a rotating shaft; 72. rotating the plate; 73. a second motor; 8. a cooling tube; 81. a flow valve; 9. mounting the component; 91. installing a pipe; 92. the bolt is locked.

Detailed Description

The present application is described in further detail below with reference to figures 2-3.

The embodiment of the application discloses vertical emulsion reation kettle of quick unloading. Referring to fig. 2 and 3, a vertical emulsion reaction cauldron of quick unloading, including the cauldron body 1, the vertical setting of the cauldron body 1, the vertical unloading pipe 5 that is provided with in 1 bottom of the cauldron body, unloading pipe 5 top and 1 bottom fixed connection of the cauldron body and intercommunication, unloading pipe 5 bottom is provided with unloading valve 51, be provided with unloading acceleration device 6 between unloading valve 51 and the 1 bottom of the cauldron body, unloading acceleration device 6 is located unloading pipe 5, the winding in the 1 outside of the cauldron body has cooling tube 8, be provided with installation component 9 between cooling tube 8 and the 1 lateral wall of the cauldron body. When utilizing the cauldron body 1 to treat the raw materials of emulsification and carrying out emulsification, utilize installation component 9 to install the winding of cooling tube 8 in the cauldron body 1 outside earlier, then will treat that the raw materials of emulsification drops into and emulsify in the cauldron body 1, and after emulsification was accomplished, open unloading valve 51 to utilize unloading accelerating device 6 to accelerate the unloading speed of the emulsified material in the unloading pipe 5.

Referring to fig. 2, the bottom end of the kettle body 1 is an inverted cone, supporting legs 12 are arranged between the bottom end of the kettle body 1 and the ground, one ends of the supporting legs 12 are fixedly connected with the side wall of the kettle body 1, the other ends of the supporting legs are fixedly connected with the ground, and the kettle body 1 is suspended on the ground. The bottom end of the kettle body 1 is arranged to be inverted cone-shaped, and the emulsified materials slide along the inclined bottom wall of the kettle body 1 under the action of gravity, so that the accumulation of the emulsified materials at the bottom end of the kettle body 1 is reduced; the support legs support the kettle body 1, and space is reserved for blanking.

Referring to fig. 3, the blanking accelerating device 6 includes a blanking auger 61, a bevel gear set 62 and a first motor 63, the blanking auger 61 is vertically arranged in the blanking pipe 5, the first motor 63 is horizontally arranged outside the blanking pipe 5, the first motor 63 is fixedly connected with the outer side wall of the blanking pipe 5, the first motor 63 is close to the bottom end of the blanking auger 61, and the bevel gear set 62 is arranged between the blanking auger 61 and the first motor 63.

When emulsified materials are discharged, the first motor 63 is started, the first motor 63 drives the discharging auger 61 to rotate in the discharging pipe 5 through the transmission of the bevel gear set 62, the emulsified materials at the bottom end of the kettle body 1 are directly conveyed to the discharging valve 51 by the discharging auger 61, the required time for the emulsified materials to pass through the discharging pipe 5 is shortened, and the effect of accelerating the discharging speed of the emulsified materials in the emulsion reaction kettle is achieved.

Referring to fig. 3, connecting rods 611 are respectively arranged between the top end and the bottom end of the blanking auger 61 and the inner side wall of the blanking pipe 5, the two connecting rods 611 are horizontally arranged, the connecting rods 611 are parallel to the first motor 63, the two ends of the connecting rods 611 are fixedly connected with the inner side wall of the blanking pipe 5, and the centers of the two connecting rods 611 are respectively rotatably connected with the top end and the bottom end of the blanking auger 61. The first motor 63 drives the blanking auger 61 to rotate, and the connecting rod 611 supports the rotation of the blanking auger 61.

Referring to fig. 3, the bevel gear set 62 includes a first wheel 621 and a second wheel 622, the first wheel 621 is horizontally disposed, the top end of the first wheel 621 is fixedly connected to the bottom end face of the blanking auger 61, the second wheel 622 is vertically disposed, the second wheel 622 is located on one side of the first wheel 621 close to the first motor 63, the second wheel 622 is meshed with the first wheel 621, and the center of one side of the second wheel 622 away from the first wheel 621 is fixedly connected to the first motor 63.

The first motor 63 is started, the first motor 63 drives the second wheel 622 to rotate, the second wheel 622 drives the first wheel 621 to rotate synchronously, the first wheel 621 drives the blanking auger 61 to convey in the blanking pipe 5, the arrangement of the first wheel 621 and the second wheel 622 changes the direction of the power provided by the first motor 63 for the blanking auger 61, and convenience is provided for the installation of the first motor 63.

Referring to fig. 3, the rotating wheel plates 7 are arranged in the tapered bottom end of the kettle body 1, the rotating wheel plates 7 are arranged in two numbers, the two rotating wheel plates 7 are respectively arranged on two sides of the discharging pipe 5, each rotating wheel plate 7 comprises a rotating shaft 71 and a rotating plate 72, the rotating shafts 71 are horizontally arranged, the rotating shafts 71 rotate clockwise, one ends of the rotating shafts 71 are fixedly connected with the second motors 73, the second motors 73 are fixedly connected with the outer side walls of the bottom ends of the kettle body 1, one ends of the rotating shafts 71 far away from the second motors 73 penetrate through the kettle body 1, the rotating shafts 71 are rotatably connected with the kettle body 1, the rotating plates 72 are arranged in four numbers, the rotating plates 72 are perpendicular to the rotating shafts 71, two adjacent rotating plates 72 are perpendicularly arranged, and one sides of the rotating plates 72 are fixedly connected with the centers of the side walls of the rotating shafts 71.

When using runner plate 7, start second motor 73, second motor 73 drives pivot 71 and rotates, and pivot 71 drives and changes board 72 and rotate around pivot 71, changes board 72 this moment and promotes near emulsification material and remove to the direction that is close to unloading pipe 5, for the removal of emulsification material provides power, has improved the flow velocity of the emulsification material of cauldron body 1 bottom inside wall department.

Referring to fig. 2, the top wall of the kettle body 1 is provided with a temperature sensor 11, the temperature sensor 11 is vertically arranged, the top end of the temperature sensor 11 penetrates through the top end of the kettle body 1, and the temperature sensor 11 is fixedly connected with the top end of the kettle body 1. The temperature sensor 11 is used for accurately measuring the temperature in the kettle body 1.

Referring to fig. 2, cooling tube 8 is the hard tube, and the winding of cooling tube 8 is at the 1 lateral wall of the cauldron body, and the water inlet of cooling tube 8 is close to the 1 top of the cauldron body, and the water inlet department of cooling tube 8 is provided with flow valve 81, and flow valve 81 and 8 fixed connection of cooling tube, flow valve 81 and temperature sensor 11 are connected through automatically controlled, and the cooling water source is connected to the water inlet of cooling tube 8, and the delivery port of cooling tube 8 is close to the 1 bottom of the cauldron body, and drainage pond is connected to the delivery port of cooling tube 8.

The cooling water in the cooling water source flows along the cooling pipe 8, the kettle body 1 is cooled through heat transfer, and the flow valve 81 is regulated and controlled through the temperature detected by the temperature sensor 11, so that the normal working temperature is maintained in the kettle body 1, and the emulsifying effect of the emulsified substances in the kettle body 1 is ensured.

Referring to fig. 2, installation component 9 includes installation pipe 91 and dead bolt 92 of lock, installation pipe 91 is provided with six, every three groupware is two sets of, two sets of installation pipe 91 set up respectively in 1 lateral wall both sides of the cauldron body, three installation pipe 91 along vertical direction parallel arrangement with the group, installation pipe 91 slope sets up, installation pipe 91 sets up along 8 directions of cooling tube, installation pipe 91 and 1 lateral wall fixed connection of the cauldron body, dead bolt 92 of lock sets up and keeps away from ground one side at installation pipe 91, dead bolt 92 one end of lock is passed behind installation pipe 91 with 8 butts of cooling tube, dead bolt 92 of lock and installation pipe 91 threaded connection.

When utilizing installation component 9 to install cooling tube 8, remove the delivery port of cooling tube 8 and pass six installation pipe 91 along following 1 top of the cauldron body to 1 bottom direction of the cauldron body in proper order, then rotatory dead bolt 92 of lock, make dead bolt 92 one end of lock pass installation pipe 91 back and cooling tube 8 butt, rely on the frictional force between dead bolt 92 of lock and the cooling tube 8 to fix the position of cooling tube 8 in the cauldron body 1 outside, the convenience of installation cooling tube 8 has been improved, and the operation is thus simple, the damage that causes cooling tube 8 when having reduced fixed cooling tube 8, the life of cooling tube 8 has been prolonged.

The implementation principle of the vertical emulsification reaction kettle capable of discharging rapidly is as follows: when using vertical emulsion reation kettle to treat the raw materials of emulsification and carry out emulsification, remove earlier that cooling tube 8 passes six installation pipes 91 in proper order, and utilize dead bolt 92 of lock to fix the position of cooling tube 8, then will treat the raw materials of emulsification and drop into the cauldron body 1 in, at the emulsification in-process, utilize temperature sensor 11 and flow valve 81's cooperation to maintain the normal temperature in the cauldron body 1, after emulsification, open unloading valve 51, and accelerate device 6 through the unloading and come to carry fast the emulsification position in the cauldron body 1, and then the speed and the efficiency of unloading have been improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a vertical emulsion reation kettle of quick unloading, includes the cauldron body (1), the vertical setting of the cauldron body (1), and the cauldron body (1) is provided with unloading pipe (5), and unloading pipe (5) one end and the cauldron body (1) bottom fixed connection and intercommunication, the other end are provided with unloading valve (51), its characterized in that: the device is characterized in that a blanking auger (61) is arranged in the blanking pipe (5), the blanking auger (61) is rotatably connected with the blanking pipe (5), and the blanking auger (61) is positioned between the bottom end of the kettle body (1) and the blanking valve (51).

2. The vertical emulsion reactor capable of discharging materials rapidly as claimed in claim 1, wherein: the blanking auger (61) is connected with a driving piece for driving the blanking auger (61) to rotate.

3. The vertical emulsion reactor capable of discharging materials rapidly as claimed in claim 2, wherein: the driving piece is first motor (63), first motor (63) and unloading pipe (5) lateral wall fixed connection, is provided with between first motor (63) and unloading auger (61) to be used for carrying out driven bevel gear group (62) between motor and unloading auger (61).

4. The vertical emulsion reactor capable of discharging materials rapidly as claimed in claim 1, wherein: the bottom end of the kettle body (1) is provided with a rotating plate (72) wheel, and the rotating plate (72) wheel is rotatably connected with the bottom end of the kettle body (1).

5. The vertical emulsion reactor capable of discharging materials rapidly as claimed in claim 1, wherein: the cooling pipe (8) is arranged on the outer side of the kettle body (1), the cooling pipe (8) is wound on the outer side wall of the kettle body (1), and the cooling pipe (8) is detachably and fixedly connected with the kettle body (1).

6. The vertical emulsion reactor with rapid blanking function as claimed in claim 5, wherein: be provided with between cooling tube (8) and the cauldron body (1) installation pipe (91), installation pipe (91) are provided with a plurality ofly, installation pipe (91) and cauldron body (1) lateral wall fixed connection, and a plurality of installation pipes (91) are passed in proper order to cooling tube (8) one end, are provided with the dead piece of lock that is used for fixed cooling tube (8) position between cooling tube (8) and installation pipe (91).

7. The vertical emulsion reactor with rapid blanking function as claimed in claim 5, wherein: and a flow valve (81) is arranged at the water inlet end of the cooling pipe (8).

8. The vertical emulsion reactor with rapid blanking of claim 7, wherein: cauldron body (1) roof fixedly connected with temperature sensor (11), temperature sensor (11) are connected through automatically controlled with flow valve (81).

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