CN106390899B - A kind of reaction kettle improving thermal response efficiency - Google Patents

Abstract

The present invention relates to a kind of reaction kettles improving thermal response efficiency,Including shell,Control room,Reative cell,Control mechanism,The shell is equipped with feeding port,Water inlet,Water outlet and fourth bearing,The control mechanism includes first rotating shaft,First bearing,First bearing seat,First gear,Loop bar,Second bearing,Support plate,Second gear,Lead screw,Motor,Second shaft,Third gear,4th gear,3rd bearing,Second bearing seat and stirring rod,A kind of mixer design improving thermal response efficiency is ingenious,Feasibility is high,Has the function of dual-heated,It is heated by water outside,Inside is by electric-heating-wire-heating,Double stirring may be implemented in the reaction kettle simultaneously,Stirring rod and reative cell in reative cell can do the opposite rotary motion in direction,Since reaction chamber wall also is provided with stirring rod,Therefore the efficiency of heating surface can be greatlyd improve.

Description

A kind of reaction kettle improving thermal response efficiency

Technical field

The present invention relates to a kind of reaction kettles improving thermal response efficiency.

Background technology

Reaction kettle is equipment indispensable in modern industry, and it is uniaxial that traditional reaction kettle mostly uses greatly outer layer heating collocation Or the mode of multi-shaft stirring, the efficiency of heating surface of such mode do not protrude, and may become in some special scenes and restrict The bottleneck of development, and reaction kettle currently on the market is few heats collocation axis and kettle body Stirring simultaneously simultaneously using inside and outside Technology.

Invention content

The technical problem to be solved by the present invention is to：In order to solve the deficiencies in the prior art, a kind of raising thermal response effect is provided The reaction kettle of rate.

The technical solution adopted by the present invention to solve the technical problems is：A kind of reaction kettle improving thermal response efficiency, packet Include shell, control room, reative cell, third shaft and control mechanism；

The shell is equipped with feeding port, water inlet, water outlet and fourth bearing, and the feeding port is located at the upper of shell End, the control room are arranged in the upper surface of shell, and the control room is located at the side of feeding port, the inlet and outlet The both sides of shell are located at, the reative cell is located in shell, and the reative cell is connect by third shaft with fourth bearing, The bottom surface of fourth bearing setting inside housings, the bottom of the reative cell are equipped with discharge port, and the reative cell passes through discharge port It is connected to outside, the upper surface of the reative cell is equipped with feed inlet, and the feed inlet is located at the lower section of feeding port, the control machine Structure is located in control room；

The control mechanism include first rotating shaft, first bearing, first bearing seat, first gear, loop bar, second bearing, Support plate, second gear, lead screw, motor, the second shaft, third gear, the 4th gear, 3rd bearing, second bearing seat and stirring Stick, the first rotating shaft are vertically arranged, and the first rotating shaft is connect by first bearing with first bearing seat, the first bearing Seat is arranged on the upside of the inner wall of control room, and the shape of the loop bar is hollow cylinder, and the loop bar is set in first rotating shaft, The loop bar is slidably connected with first rotating shaft, and the second bearing is set on loop bar, and the support plate is horizontally disposed, the support plate Positioned at the top of loop bar, the lower face of the second bearing and support plate connects, and the first rotating shaft passes through support plate, described first turn The upper end of axis is located in control room, and the lower end of the first rotating shaft is located in reative cell, and the lower end of the first rotating shaft, which is equipped with, to be stirred Stick is mixed, the first gear is set in first rotating shaft, and the first gear is between first bearing and support plate, and described second Gear is set on loop bar, and the second gear is located at the lower section of second bearing, and the lower end of the loop bar is connect with reative cell, institute It states the second shaft to be vertically arranged, second shaft is connect by 3rd bearing with second bearing seat, and the second bearing seat is set It sets on the upside of the inner wall of control room, the third gear and the 4th gear are set in the second shaft, and the first gear is logical It crosses lead screw to connect with third gear drive, the lead screw is driven by motor, and the second gear is engaged with the 4th gear.

Preferably, in order to realize that dual-heated, the first rotating shaft are hollow-core construction, the inside of the first rotating shaft is set There is heater strip.

Preferably, in order to improve the efficiency of heating surface, the first rotating shaft is located at the part in reative cell, and outside is uniformly set There are several the first fins.

Preferably, in order to improve the efficiency of heating surface to reative cell, the outer wall of the reative cell be uniformly provided with several Two fins

Preferably, in order to make motor work on demand, the motor is servo motor.

The invention has the advantages that a kind of mixer design improving thermal response efficiency is ingenious, feasibility is high, has Dual-heated function, outside are heated by water, and inside is by electric-heating-wire-heating, while Double stirring may be implemented in the reaction kettle, is located at Stirring rod and reative cell in reative cell can do the opposite rotary motion in direction, since reaction chamber wall also is provided with stirring rod, Therefore the efficiency of heating surface can be greatlyd improve.

Description of the drawings

Present invention will be further explained below with reference to the attached drawings and examples.

Fig. 1 is a kind of structural schematic diagram of the reaction kettle of raising thermal response efficiency of the present invention.

Fig. 2 is the portions the A enlarged drawing of Fig. 1.

In figure：1. shell, 2. control rooms, 3. feeding ports, 4. water inlets, 5. water outlets, 6. reative cells, 7. feed inlets, 9. Second fin, 10. discharge ports, 11. first rotating shafts, 12. first bearings, 13. first bearing seats, 14. first gears, 15. loop bars, 16. second bearing, 17. support plates, 18. second gears, 19. lead screws, 20. motors, 21. second shafts, 22. third gears, 23. Four gears, 24. 3rd bearings, 25. second bearing seats, 26. stirring rod, 27. first fins, 28. heater strips, 29. third shafts, 30. fourth bearing.

Specific implementation mode

In conjunction with the accompanying drawings, the present invention is further explained in detail.These attached drawings are simplified schematic diagram, only with Illustration illustrates the basic structure of the present invention, therefore it only shows the composition relevant to the invention.

As shown in Figs. 1-2, a kind of reaction kettle improving thermal response efficiency, including shell 1, control room 2, reative cell 6, third Shaft and control mechanism；

The shell 1 is equipped with feeding port 3, water inlet 4, water outlet 5 and fourth bearing 30, and the feeding port 3 is located at shell The upper end of body 1, the control room 2 are arranged in the upper surface of shell 1, and the control room 2 is located at the side of feeding port 3, it is described into The mouth of a river 4 and water outlet 5 are located at the both sides of shell, and the reative cell 6 is located in shell 1, and the reative cell 6 is turned by third Axis 29 is connect with fourth bearing 30, and the bottom surface inside shell 1 is arranged in fourth bearing 30, and the bottom of the reative cell 6 is equipped with out Material mouth 10, the reative cell 6 are connected to by discharge port 10 with outside, and the upper surface of the reative cell 6 is equipped with feed inlet 7, described Feed inlet 7 is located at the lower section of feeding port 3, and the control mechanism is located in control room 2；

The control mechanism include first rotating shaft 11, first bearing 12, first bearing seat 13, first gear 14, loop bar 15, Second bearing 16, support plate 17, second gear 18, lead screw 19, motor 20, the second shaft 21, third gear 22, the 4th gear 23, 3rd bearing 24, second bearing seat 25 and stirring rod 26, the first rotating shaft 11 are vertically arranged, and the first rotating shaft 11 passes through One bearing 12 is connect with first bearing seat 13, and the first bearing seat 13 is arranged on the upside of the inner wall of control room 2, the loop bar 15 Shape be hollow cylinder, the loop bar 15 is set in first rotating shaft 11, and the loop bar 15 connects with the sliding of first rotating shaft 11 It connects, the second bearing 16 is set on loop bar 15, and the support plate 17 is horizontally disposed, and the support plate 17 is located at the upper of loop bar 15 Side, the second bearing 16 are connect with the lower face of support plate 17, and the first rotating shaft 11 passes through support plate 17, the first rotating shaft 11 Upper end be located in control room 2, the lower end of the first rotating shaft 11 is located in reative cell 6, and the lower end of the first rotating shaft 11 is set There are stirring rod 26, the first gear 14 to be set in first rotating shaft 11, the first gear 14 is located at first bearing 12 and branch Between plate 17, the second gear 18 is set on loop bar 15, and the second gear 18 is located at the lower section of second bearing 16, described The lower end of loop bar 15 is connect with reative cell 6, and second shaft 21 is vertically arranged, and second shaft 21 passes through 3rd bearing 24 It is connect with second bearing seat 25, the second bearing seat 25 is arranged on the upside of the inner wall of control room 2, the third gear 22 and Four gears 23 are set in the second shaft 21, and the first gear 14 is sequentially connected by lead screw 19 and third gear 22, institute It states lead screw 19 to be driven by motor 20, the second gear 18 is engaged with the 4th gear 23.

Preferably, in order to realize dual-heated, the first rotating shaft 11 is hollow-core construction, the first rotating shaft 11 it is interior Portion is equipped with heater strip 28.

Preferably, in order to improve the efficiency of heating surface, the first rotating shaft 11 is located at the part in reative cell 6, and outside is It is even to be equipped with several first fins 27.

Preferably, in order to improve the efficiency of heating surface to reative cell 6, the outer wall of the reative cell 6 is uniformly provided with several Second fin 9

Preferably, in order to make motor work on demand, the motor 20 is servo motor.

The reaction kettle of the raising thermal response efficiency, control room 2 is located on shell 1, in control room 2,13 He of first bearing seat Second bearing seat 25 is arranged at the inside at 2 top of control room, and first bearing 12 is connect with first bearing seat 13, first rotating shaft 11 It is fixedly connected with the inner ring of first bearing 12, the lower end of first rotating shaft 11 is located in reative cell 6, and the lower end of first rotating shaft 11 is set There are stirring rod 26, entire control mechanism to be driven by motor 20, motor 20 drives first gear 11 and third gear 22 to rotate in same direction, Third gear 22 drives the rotation of the 4th gear 23, the 4th gear 23 that second gear 18 is driven to rotate, and second gear drives loop bar 15 And reative cell 6 rotates, to realize stirring rod 26 and reative cell 6 reversely while rotate, support plate 17 is fixed on the shell of control room 2 On body, play the role of supporting reative cell 6.Heating wire is equipped in first rotating shaft 11, and first rotating shaft 11 is equipped with fin, it can be with The heat effect to object in reative cell 6 is played, the fin that the outer wall of reative cell 6 is equipped with can play and heat fully connecing for liquid Effect is touched, thermal response efficiency is improved with this.

Compared with prior art, a kind of reaction kettle machine improving thermal response efficiency is ingenious in design, and feasibility is high, filling machine Structure can be used for holding four kinds of different products, and control mechanism, which can be used for realizing, holds moving up and down and rotating for mechanism, When needing using which kind of product, it is only necessary to select corresponding product in manipulation version, which can be automatically from liquid outlet A certain amount of corresponding product is squeezed out, which not only saves a large amount of space, can also reduce the waste to product, very suitable It closes average family and each hotel uses.

It is enlightenment with above-mentioned desirable embodiment according to the present invention, through the above description, relevant staff is complete Various changes and amendments can be carried out without departing from the scope of the technological thought of the present invention' entirely.The technology of this invention Property range is not limited to the contents of the specification, it is necessary to determine its technical scope according to right.

Claims (5)

1. a kind of reaction kettle improving thermal response efficiency, it is characterised in that：Including shell (1), control room (2), reative cell (6), Third shaft and control mechanism；

The shell (1) is equipped with feeding port (3), water inlet (4), water outlet (5) and fourth bearing (30), the feeding port (3) it is located at the upper end of shell (1), in the upper surface of shell (1), the control room (2), which is located at, to be fed intake for control room (2) setting The side of mouth (3), the water inlet (4) and water outlet (5) are located at the both sides of shell, and the reative cell (6) is located at shell (1) in, the reative cell (6) is connect by third shaft (29) with fourth bearing (30), and fourth bearing (30) is arranged in shell (1) internal bottom surface, the bottom of the reative cell (6) are equipped with discharge port (10), the reative cell (6) by discharge port (10) with The upper surface of outside connection, the reative cell (6) is equipped with feed inlet (7), and the feed inlet (7) is located at the lower section of feeding port (3), The control mechanism is located in control room (2)；

The control mechanism includes first rotating shaft (11), first bearing (12), first bearing seat (13), first gear (14), set Bar (15), second bearing (16), support plate (17), second gear (18), lead screw (19), motor (20), the second shaft (21), third Gear (22), the 4th gear (23), 3rd bearing (24), second bearing seat (25) and stirring rod (26), the first rotating shaft (11) it is vertically arranged, the first rotating shaft (11) is connect by first bearing (12) with first bearing seat (13), the first axle Bearing (13) is arranged on the upside of the inner wall of control room (2), and the shape of the loop bar (15) is hollow cylinder, the loop bar (15) It is set in first rotating shaft (11), the loop bar (15) is slidably connected with first rotating shaft (11), and the second bearing (16) is arranged On loop bar (15), the support plate (17) is horizontally disposed, and the support plate (17) is located at the top of loop bar (15), the second bearing (16) connect with the lower face of support plate (17), the first rotating shaft (11) pass through support plate (17), the first rotating shaft (11) it is upper End is located in control room (2), and the lower end of the first rotating shaft (11) is located in reative cell (6), under the first rotating shaft (11) End is equipped with stirring rod (26), and the first gear (14) is set in first rotating shaft (11), and the first gear (14) is located at the Between one bearing (12) and support plate (17), the second gear (18) is set on loop bar (15), second gear (18) position The lower end of lower section in second bearing (16), the loop bar (15) is connect with reative cell (6), and second shaft (21) sets vertically It sets, second shaft (21) is connect by 3rd bearing (24) with second bearing seat (25), and the second bearing seat (25) sets It sets on the upside of the inner wall of control room (2), the third gear (22) and the 4th gear (23) are set in the second shaft (21), The first gear (14) is sequentially connected by lead screw (19) and third gear (22), and the lead screw (19) is driven by motor (20) Dynamic, the second gear (18) is engaged with the 4th gear (23).

2. a kind of reaction kettle improving thermal response efficiency as described in claim 1, it is characterised in that：The first rotating shaft (11) For hollow-core construction, the first rotating shaft (11) is internally provided with heater strip (28).

3. a kind of reaction kettle improving thermal response efficiency as described in claim 1, it is characterised in that：The first rotating shaft (11) Part in reative cell (6), outside are uniformly provided with several the first fins (27).

4. a kind of reaction kettle improving thermal response efficiency as described in claim 1, it is characterised in that：The reative cell (6) Outer wall is uniformly provided with several the second fins (9).

5. a kind of reaction kettle improving thermal response efficiency as described in claim 1, it is characterised in that：The motor (20) is to watch Take motor.