CN106390899A - Reaction kettle for improving thermal reaction efficiency - Google Patents

Abstract

The invention relates to a reaction kettle for improving the thermal reaction efficiency. The reaction kettle comprises a shell, a control chamber, a reaction chamber and a control mechanism, a feeding opening, a water inlet, a water outlet and a fourth bearing are arranged on the shell, and the control mechanism comprises a first rotating shaft, a first bearing, a first bearing seat, a first gear, a sleeve rod, a second bearing, a supporting plate, a second gear, a screw rod, a motor, a second rotating shaft, a third gear, a fourth gear, a third bearing, a second bearing seat and stirring rods. The reaction kettle for improving the thermal reaction efficiency has ingenious design, high feasibility and dual heating function, is externally heated by water and internally heated by an electric heating wire, and can realize dual stirring, the stirring rods positioned in the reaction chamber and the reaction chamber oppositely rotates, and the stirring rods are arranged on the inner wall of the reaction chamber, so the heating efficiency is greatly improved.

Description

A kind of reactor improving thermal response efficiency

Technical field

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

Background technology

Reactor is indispensable equipment in modern industry, and traditional reactor adopts outer layer heating collocation single shaft mostly Or the mode of multi-shaft stirring, the efficiency of heating surface of this kind of mode does not project, and may become restriction in some special scenes The bottleneck of development, and reactor in the market seldom has using the inside and outside collocation axle of heating simultaneously and kettle body Stirring simultaneously Technology.

Content of the invention

The technical problem to be solved in the present invention is：In order to solve the deficiencies in the prior art, a kind of thermal response that improves is provided to imitate The reactor of rate.

The technical solution adopted for the present invention to solve the technical problems is：A kind of reactor improving thermal response efficiency, bag Include housing, control room, reative cell, the 3rd rotating shaft and controlling organization；

Described housing is provided with dog-house, water inlet, delivery port and fourth bearing, and described dog-house is located at the upper of housing End, described control room is arranged on the upper surface of housing, and described control room is located at side, described water inlet and the delivery port of dog-house It is located at the both sides of housing respectively, described reative cell is located in housing, and described reative cell is connected with fourth bearing by the 3rd rotating shaft, Fourth bearing is arranged on the bottom surface of enclosure interior, and the bottom of described reative cell is provided with discharging opening, and described reative cell passes through discharging opening With ft connection, the upper surface of described reative cell is provided with charging aperture, and described charging aperture is located at the lower section of dog-house, described control machine Structure is located at and controls interior；

Described controlling organization include first rotating shaft, clutch shaft bearing, first bearing seat, first gear, loop bar, second bearing, Support plate, second gear, screw mandrel, motor, the second rotating shaft, the 3rd gear, the 4th gear, 3rd bearing, second bearing seat and stirring Rod, described first rotating shaft is vertically arranged, and described first rotating shaft is connected with first bearing seat by clutch shaft bearing, described clutch shaft bearing Seat be arranged on the upside of the inwall of control room, described loop bar be shaped as hollow cylinder, described loop bar is set in first rotating shaft, Described loop bar and first rotating shaft are slidably connected, and described second bearing is set on loop bar, and described support plate is horizontally disposed with, described support plate Positioned at the top of loop bar, described second bearing is connected with the lower surface of support plate, described first rotating shaft pass through support plate, described first turn The upper end of axle is located at and controls interior, and the lower end of described first rotating shaft is located at reacts indoor, and the lower end of described first rotating shaft is provided with to be stirred Mix rod, described first gear is set in first rotating shaft, described first gear is located between clutch shaft bearing and support plate, described second Gear is set on loop bar, and described second gear is located at the lower section of second bearing, and the lower end of described loop bar is connected with reative cell, institute State the second rotating shaft to be vertically arranged, described second rotating shaft is connected with second bearing seat by 3rd bearing, and described second bearing seat sets Put on the upside of the inwall of control room, described 3rd gear and the 4th gear are all set in the second rotating shaft, described first tooth passes through Screw mandrel is connected with the 3rd gear drive, and by Motor drive, described second gear is engaged described screw mandrel with the 4th gear.

Preferably, in order to improve stirring efficiency, the inwall of described reative cell is uniformly provided with several stirring rod.

Preferably, in order to realize dual-heated, described first rotating shaft is hollow-core construction, and the inside of described first rotating shaft sets There is heater strip.

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

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

Preferably, in order that motor works on demand, described motor is servomotor.

The invention has the beneficial effects as follows, a kind of this mixer design of raising thermal response efficiency is ingenious, and feasibility is high, has Dual-heated function, outside is heated by water, and Double stirring can be realized by electric-heating-wire-heating, simultaneously this reactor in inside, is located at Stirring rod in reative cell and reative cell can do rotary motion in opposite direction, because reaction chamber wall also is provided with stirring rod, The efficiency of heating surface therefore can be greatly enhanced.

Brief description

The present invention is further described with reference to the accompanying drawings and examples.

Fig. 1 is a kind of structural representation of the reactor of raising thermal response efficiency of the present invention.

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

In figure：1. housing, 2. control room, 3. dog-house, 4. water inlet, 5. delivery port, 6. reative cell, 7. charging aperture, 8. Stirring rod, 9. the second fin, 10. discharging opening, 11. first rotating shafts, 12. clutch shaft bearings, 13. first bearing seats, 14. first teeth Wheel, 15. loop bars, 16. second bearings, 17. support plates, 18. second gears, 19. screw mandrels, 20. motors, 21. second rotating shafts, 22. the Three gears, 23. the 4th gears, 24. 3rd bearings, 25. second bearing seats, 26. stirring rod, 27. first fins, 28. heater strips, 29. the 3rd rotating shafts, 30. fourth bearings.

Specific embodiment

In conjunction with the accompanying drawings, the present invention is further detailed explanation.These accompanying drawings are the schematic diagram of simplification, only with Illustration illustrates the basic structure of the present invention, and therefore it only shows the composition relevant with the present invention.

As shown in Figure 1-2, a kind of reactor improving thermal response efficiency, including housing 1, control room 2, reative cell the 6, the 3rd Rotating shaft and controlling organization；

Described housing 1 is provided with dog-house 3, water inlet 4, delivery port 5 and fourth bearing 30, and described dog-house 3 is located at shell The upper end of body 1, described control room 2 is arranged on the upper surface of housing 1, described control room 2 be located at dog-house 3 side, described enter , respectively positioned at the both sides of housing, described reative cell 6 is located in housing 1, and described reative cell 6 passes through the 3rd turn for the mouth of a river 4 and delivery port 5 Axle 29 is connected with fourth bearing 30, and fourth bearing 30 is arranged on the bottom surface within housing 1, and the bottom of described reative cell 6 is provided with out Material mouth 10, described reative cell 6 passes through discharging opening 10 and ft connection, and the upper surface of described reative cell 6 is provided with charging aperture 7, described Charging aperture 7 is located at the lower section of dog-house 3, and described controlling organization is located in control room 2；

Described controlling organization include first rotating shaft 11, clutch shaft bearing 12, first bearing seat 13, first gear 14, loop bar 15, Second bearing 16, support plate 17, second gear 18, screw mandrel 19, motor 20, the second rotating shaft 21, the 3rd gear 22, the 4th gear 23, 3rd bearing 24, second bearing seat 25 and stirring rod 26, described first rotating shaft 11 is vertically arranged, and described first rotating shaft 11 passes through the One bearing 12 is connected with first bearing seat 13, and described first bearing seat 13 is arranged on the upside of the inwall of control room 2, described loop bar 15 Be shaped as hollow cylinder, described loop bar 15 is set in first rotating shaft 11, and described loop bar 15 is slided even with first rotating shaft 11 Connect, described second bearing 16 is set on loop bar 15, described support plate 17 is horizontally disposed with, described support plate 17 is located at the upper of loop bar 15 Side, described second bearing 16 is connected with the lower surface of support plate 17, and described first rotating shaft 11 passes through support plate 17, described first rotating shaft 11 Upper end be located in control room 2, the lower end of described first rotating shaft 11 is located in reative cell 6, and the lower end of described first rotating shaft 11 sets There is stirring rod 26, described first gear 14 is set in first rotating shaft 11, described first gear 14 is located at clutch shaft bearing 12 and props up Between plate 17, described second gear 18 is set on loop bar 15, and described second gear 18 is located at the lower section of second bearing 16, described The lower end of loop bar 15 is connected with reative cell 6, and described second rotating shaft 21 is vertically arranged, and 3rd bearing 24 is passed through in described second rotating shaft 21 It is connected with second bearing seat 25, described second bearing seat 25 is arranged on the upside of the inwall of control room 2, described 3rd gear 22 and Four gears 23 are all set in the second rotating shaft 21, and described first tooth 14 is in transmission connection with the 3rd gear 22 by screw mandrel 19, described Screw mandrel 19 is driven by motor 20, and described second gear 18 is engaged with the 4th gear 23.

Preferably, in order to improve stirring efficiency, the inwall of described reative cell 6 is uniformly provided with several stirring rod 8.

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

Preferably, in order to improve the efficiency of heating surface, the part that described first rotating shaft 11 is located in reative cell 6, outside it all Even it is provided with several the first fins 27.

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

Preferably, in order that motor works on demand, described motor 20 is servomotor.

The reactor of this raising thermal response efficiency, control room 2 is located on housing 1, in control room 2, first bearing seat 13 He Second bearing seat 25 is arranged at the inner side at control room 2 top, and clutch shaft bearing 12 is connected with first bearing seat 13, first rotating shaft 11 It is fixedly connected with the inner ring of clutch shaft 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 sets There is stirring rod 26, whole controlling organization is driven by motor 20, motor 20 drives first gear 11 and the 3rd gear 22 rotating in same direction, 3rd gear 22 drives the 4th gear 23 to rotate, and the 4th gear 23 drives second gear 18 to rotate, and second gear drives loop bar 15 And reative cell 6 rotates, thus realize stirring rod 26 and reative cell 6 reversely rotates simultaneously, support plate 17 is fixed on the shell of control room 2 On body, play the effect supporting reative cell 6.It is provided with heating wire in first rotating shaft 11, and first rotating shaft 11 is provided with fin, permissible Play the heat effect to object in reative cell 6, the fin that the outer wall of reative cell 6 is provided with can play and heat fully connecing of liquid Touch effect, thermal response efficiency is improved with this.

Compared with prior art, a kind of this reactor machine improving thermal response efficiency designs ingenious, feasibility height, filling machine Structure can be used to hold four kinds of different products, and controlling organization can be used to realize holding moving up and down and rotating of mechanism, When needing using which kind of product it is only necessary to select corresponding product in manipulation version, this equipment just can be automatically from liquid outlet Extrude a certain amount of corresponding product, this product not only saves substantial amounts of space, the waste to product can also be reduced, very suitable Close average family and each hotel uses.

With the above-mentioned desirable embodiment according to the present invention for enlightenment, by above-mentioned description, relevant staff is complete Entirely various change and modification can be carried out in the range of without departing from this invention technological thought.The technology of this invention The content that property scope is not limited on specification it is necessary to determine its technical scope according to right.

Claims (6)

1. a kind of improve thermal response efficiency reactor it is characterised in that：Including housing (1), control room (2), reative cell (6), 3rd rotating shaft and controlling organization；

Described housing (1) is provided with dog-house (3), water inlet (4), delivery port (5) and fourth bearing (30), described dog-house (3) it is located at the upper end of housing (1), described control room (2) is arranged on the upper surface of housing (1), and described control room (2) is located at and feeds intake The side of mouth (3), described water inlet (4) and delivery port (5) are located at the both sides of housing respectively, and described reative cell (6) is located at housing (1), in, described reative cell (6) is connected with fourth bearing (30) by the 3rd rotating shaft (29), and fourth bearing (30) is arranged on housing (1) internal bottom surface, the bottom of described reative cell (6) is provided with discharging opening (10), described reative cell (6) pass through discharging opening (10) with Ft connection, the upper surface of described reative cell (6) is provided with charging aperture (7), and described charging aperture (7) is located at the lower section of dog-house (3), Described controlling organization is located in control room (2)；

Described controlling organization includes first rotating shaft (11), clutch shaft bearing (12), first bearing seat (13), first gear (14), set Bar (15), second bearing (16), support plate (17), second gear (18), screw mandrel (19), motor (20), the second rotating shaft (21), the 3rd Gear (22), the 4th gear (23), 3rd bearing (24), second bearing seat (25) and stirring rod (26), described first rotating shaft (11) it is vertically arranged, described first rotating shaft (11) is connected with first bearing seat (13) by clutch shaft bearing (12), described first axle Bearing (13) is arranged on the upside of the inwall of control room (2), described loop bar (15) be shaped as hollow cylinder, described loop bar (15) It is set in first rotating shaft (11), described loop bar (15) and first rotating shaft (11) are slidably connected, described second bearing (16) is sheathed On loop bar (15), described support plate (17) is horizontally disposed with, and described support plate (17) is located at the top of loop bar (15), described second bearing (16) be connected with the lower surface of support plate (17), described first rotating shaft (11) pass through support plate (17), described first rotating shaft (11) upper End is located in control room (2), and the lower end of described first rotating shaft (11) is located in reative cell (6), under described first rotating shaft (11) End is provided with stirring rod (26), and described first gear (14) is set in first rotating shaft (11), and described first gear (14) is located at the Between one bearing (12) and support plate (17), described second gear (18) is set on loop bar (15), described second gear (18) position In the lower section of second bearing (16), the lower end of described loop bar (15) is connected with reative cell (6), and described second rotating shaft (21) vertically sets Put, described second rotating shaft (21) is connected with second bearing seat (25) by 3rd bearing (24), described second bearing seat (25) sets Put on the upside of the inwall of control room (2), described 3rd gear (22) and the 4th gear (23) are all set in the second rotating shaft (21), Described first tooth (14) is in transmission connection with the 3rd gear (22) by screw mandrel (19), and described screw mandrel (19) is driven by motor (20), Described second gear (18) is engaged with the 4th gear (23).

2. as claimed in claim 1 a kind of improve thermal response efficiency reactor it is characterised in that：Described reative cell (6) Several stirring rod (8) are uniformly provided with inwall.

3. as claimed in claim 1 a kind of improve thermal response efficiency reactor it is characterised in that：Described first rotating shaft (11) For hollow-core construction, the inside of described first rotating shaft (11) is provided with heater strip (28).

4. as claimed in claim 1 a kind of improve thermal response efficiency reactor it is characterised in that：Described first rotating shaft (11) Part in reative cell (6), is uniformly provided with several the first fins (27) outside it.

5. as claimed in claim 1 a kind of improve thermal response efficiency reactor it is characterised in that：Described reative cell (6) Outer wall is uniformly provided with several the second fins (9).

6. as claimed in claim 1 a kind of improve thermal response efficiency reactor it is characterised in that：Described motor (20) is to watch Take motor.