CN205308332U - Reation kettle of adjustable area of direction lid - Google Patents

Abstract

The utility model relates to a reation kettle. A reation kettle of adjustable area of direction lid, includes container and agitator, and the entrance point butt joint of feed inlet has the switching -over to manage, and the switching -over is managed and is hinged and pass through the puller bolt rigid coupling together with the cooperation of feed inlet sphere is sealed, and the switching -over is managed and is equipped with the lid, covers and is equipped with handle rod, and handle rod elasticity overlaps adjustablely and is equipped with the sleeve pipe, the surface of container diapire is equipped with a plurality of adsorption structures, the adsorption structure includes outer suction cup. The utility model has the advantages of it is convenient comfortable when uncapping, solved present reation kettle inconvenient with the switching -over of inlet pipe in the orientation of feed inlet with the problem of opening inconvenience when cover.

Description

Direction is adjustable reactor with cover

Technical field

This utility model relates to reactor, particularly relates to the adjustable reactor with cover in a kind of direction.

Background technology

Reactor is the container for physically or chemically reacting, by the structural design of container and parameter configuration, it is achieved the mixture function of the heating of technological requirement, evaporation, cooling and low high speed. Reactor is made up of kettle, kettle cover, chuck, agitator, actuating device, gland seal device, supporting etc. and constitutes, and is provided with charging aperture and discharging opening in the container that kettle and kettle cover are constituted.

Deficiency below existing reactor ubiquity: the direction of charging aperture is changeless, use procedure when the direction of charging aperture with feed pipe when moving towards inconsistent, then need to make elbow to carry out commutating to realize being docking together feed pipe and charging aperture, therefore bad adaptability; Open inconvenience during the lid in charging aperture.

Utility model content

This utility model provides convenient during the lid that a kind of margin of commutation is big, open on charging aperture and that comfortableness the is good adjustable reactor with cover in direction, solve existing reactor in the direction of charging aperture the problem of inconvenience with the commutation inconvenience of feed pipe and when opening lid.

More than technical problem is that and solved by following technical proposal: a kind of direction is adjustable reactor with cover, including container and agitator, described agitator includes rotating shaft and is connected to the stirring vane of rotating shaft, described container is provided with charging aperture, it is characterized in that, the entrance point of described charging aperture is to being connected to reversing tube, described reversing tube seals hinged with described charging aperture mating spherical surfaces, described reversing tube is fixed together with described charging aperture by puller bolt, described reversing tube is provided with lid, described it is covered with handle rod, the outer resilient sleeve of described handle rod is provided with sleeve pipe, the elastic adjusting mechanism of the elastic force being provided with between adjusting sleeve pipe and handle rod between described handle rod and sleeve pipe, described elastic adjusting mechanism includes being set in that handle rod is outer and the base tube that is located in sleeve pipe and be looped around the holding sheet outside described base tube, described holding sheet is constituted along the circumferentially distributed fricting strip of base tube by some pieces, described fricting strip is provided with some slide bars radially extended along base tube, described sliding bar is arranged in described base tube, the inner of described slide bar is provided with shift-in outside driving slide bar and drives fricting strip to be connected to the 3rd spring together with sleeve pipe, described elastic adjusting mechanism is additionally provided with the pretightning force adjustment structure of the pretightning force regulating described 3rd spring, the outer surface of described vessel bottom wall is provided with some adsorption structures, described adsorption structure includes outer suction bowl.During use, adsorbed by outer suction bowl and be fixed through container, rotate puller bolt and unclamp the pressing fixation to reversing tube, then it is docking together with feed pipe to the entrance point of reversing tube according to the direction of charging aperture and the direction relations of feed pipe, the rotation reversing tube docked with charging aperture, then rotating backward puller bolt again, puller bolt is pressed on reversing tube thus realizing the fixing of reversing tube and charging aperture. By gripping the sleeve pipe on handle rod and open and close lid, material is then made to enter container. Handle rod in the technical program has elasticity, thus comfortableness when improving use, the elastic effect in the technical program can also change, to adapt to different needs. The elastic concrete adjustment process of handle rod is, the 3rd spring moving radially along base tube is driven by pretightning force adjustment structure, so that fricting strip changes with the normal pressure of sleeve pipe, thus realizing the change of pretightning force so that the size change of the power that sleeve pipe rocks relative to handle rod reaches different elastic effects.

This utility model also includes the sealing ring described reversing tube and charging aperture being sealed connected together, and is matched in clearance between described reversing tube and charging aperture. Can either ensure that junction does not leak, enable to again rotate during reversing tube easily laborsaving.

As preferably, described sealing ring is fixed in described charging aperture. Enabling to reversing tube when no matter turning to that angle, reversing tube and charging aperture can both be reliably sealed connected together by sealing ring.

As preferably, described reversing tube is provided with spherical connector, and described charging aperture inwall is provided with sphere pit, and described reversing tube is connected in described sphere pit hinged with charging aperture by described spherical connector. Compact conformation, connects reliable.

As preferably, the centrage of described interlocking screw is through the center of reversing tube and charging aperture mating surface. The damage to commutation tube-surface when briquetting is pressed on reversing tube surface can be reduced further.

As preferably, described pretightning force adjustment structure includes the conical head of two tubular structures being supported on outside handle rod by base tube, drive conical head move axially and can make conical head stop at setting position driving structure and some push rods, said two conical head is in the two ends being slidably connected at described base tube in the way of miner diameter end is arranged oppositely, the two ends of described push rod are shelved on the conical surface of said two conical head, the all of described slide bar of same fricting strip passes through described spring supporting on same described push rod, the described slide bar of each piece of fricting strip is respectively supported by a described push rod. during adjustment, realize push rod by the position of axially varying conical head and move radially thus realizing the push rod change along base tube radial position along base tube, thus realizing the change of the 3rd initial tension of spring. convenience during adjustment is good.

As preferably, described driving structure includes the jacking block in two two ends being threaded in described base tube, and said two conical head is between said two jacking block. Driving conical head to realize regulating by rotating jacking block, regulate and put in place, be automatically positioned, convenience during use is better.

As preferably, being provided with interior suction bowl in described outer suction bowl, forming absorption ditch, be provided with the some elastomeric connector strip outer suction bowl and interior suction bowl linked together in described absorption ditch between described interior suction bowl and outer suction bowl, described elastomeric connector strip is circumferentially distributed along outer suction bowl. Use and outside extruding, inhale bowl and interior suction bowl simultaneously so that the outer inner space inhaling bowl all forms negative pressure with adsorbing in ditch, namely carries out adsorbing by outer suction bowl together with interior suction bowl and fixed on the ground by this utility model. When absorption place making outer suction bowl when vibrated or instant impact produces moment partial disengagement, under the effect of interior suction bowl, after instant impact disappears, outer bowl of inhaling can again recover and adsorb, make to inhale when bowl is subject to moment impact and produces local moment disconnection and will not produce vacuum breaker phenomenon, and namely the slippage of absorption affinity less can remain on good adsorption, reliability and anti-vibration ability when adsorbing are good. When outer suction bowl and interior suction bowl all adsorb upper, elastomeric connector strip is elongated and energy storage, this energy produces the trend promoting outer suction bowl to move towards adsorbate, make when outer suction bowl produces moment disconnection, the outer bowl of inhaling of acceleration returns to adsorbed state, the probability producing to slide when being subject to moment impact can be reduced further, in other words namely improve anti-moment impact ability of the present utility model.

As preferably, the absorption end of described interior suction bowl is beyond the absorption end of described outer suction bowl.

This utility model has an advantage that by the hinged reversing tube of charging aperture, it is achieved that the direction of charging aperture is adjustable, it is possible to increase the reactor adaptability to installing space; Owing to charging aperture and reversing tube are that mating spherical surfaces carries out hinged, reversing tube and can carry out Three dimensional rotation, the margin of commutation of reversing tube is big, so that the better adaptability that reactor is to space; It is convenient to open during lid, and comfortableness is good; It is fixed by sucker, convenient fixing and isolating affection can be improved further.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of this utility model embodiment one.

Fig. 2 is the cross sectional representation of the handle rod in Fig. 1.

Fig. 3 is the axial cross-sectional schematic of the handle rod in Fig. 1.

The A place that Fig. 4 is Fig. 1 removes the close-up schematic view after covering.

Fig. 5 is the enlarged diagram of the adsorption structure in Fig. 1.

In figure: container 1, charging aperture 12, sphere pit 13, handle rod 14, sleeve pipe 141, lid 15, reversing tube 2, spherical connector 21, the free end 22 of spherical connector, sealing ring 23, puller bolt 24, adsorption structure 3, outer suction bowl 31, the absorption end 311 of outer suction bowl, interior suction bowl 32, the absorption end 321 of interior suction bowl, absorption ditch 33, elastomeric connector strip 34, agitator 5, rotating shaft 51, stirring vane 52, motor 53, driving gear 54, driven gear 55, elastic adjusting mechanism 8, base tube 81, holding sheet 82, fricting strip 821, slide bar 822, 3rd spring 823, pretightning force adjustment structure 83, conical head 831, push rod 832, drive structure 833, jacking block 8331.

Detailed description of the invention

Below in conjunction with accompanying drawing and embodiment, this utility model is further described.

Embodiment one, referring to Fig. 1, a kind of direction is adjustable reactor with cover, including container 1, reversing tube 2, puller bolt 24 and agitator 5.

Container 1 is provided with charging aperture 12. The outer surface of the diapire of container 1 is provided with some adsorption structures 3. Adsorption structure 3 includes outer suction bowl 31 and is positioned at the suction bowl 32 of outer suction bowl. The absorption end 321 of interior suction bowl is beyond the absorption end 311 of outer suction bowl.

Reversing tube 2 is docked at the entrance point of charging aperture 12. Reversing tube 2 is fixed together with charging aperture 12 by puller bolt 24. Reversing tube 2 is provided with lid 15. Lid 15 is can cover on reversing tube 2 in the way of plug. Lid 15 is provided with handle rod 14. Handle rod 14 is arranged with sleeve pipe 141.

Agitator 5 includes rotating shaft 51, stirring vane 52, motor 53, driving gear 54 and driven gear 55. Rotating shaft 51 is input in container 1. Rotating shaft 51 is rotationally connected with container 1. Rotating shaft 51 is vertically extending. Stirring vane 52 is connected to rotating shaft 51 and is positioned in the part of container. Stirring vane 52 is blade construction. Stirring vane 52 is welded in rotating shaft 51.

It is coaxial that driven gear 55 is fixed on the upper end of rotating shaft 51, driven gear 55 and rotating shaft 51. Driving gear 54 is arranged at the power output shaft of motor 53. Driving gear 54 meshes together with driven gear 55.

Referring to Fig. 2, between handle rod 14 and sleeve pipe 141, it is provided with elastic adjusting mechanism 8. Elastic adjusting mechanism 8 includes base tube 81, holding sheet 82 and pretightning force adjustment structure 83. Base tube 81 is set in outside handle rod 14. Base tube 81 is located in sleeve pipe 141. Holding sheet 82 is made up of some pieces of fricting strips 821. Fricting strip 821 is circumferentially distributed along base tube 81. Fricting strip 821 is provided with some slide bars 822 radially extending axial distribution along base tube. Slide bar 822 slides and is arranged in base tube 81. The inner of slide bar 822 is provided with the 3rd spring 823.3rd spring 823 drives fricting strip to be connected to together with sleeve pipe 141 by slide bar. The pretightning force adjustment structure 83 of outer shifting includes two conical heads 831 and some push rods 832. Conical head 831 is tubular structure. Conical head 831 is set on handle rod 14 and is located in base tube 81 and linked together with handle rod 14 by base tube 81. Conical head 831 is only slidably connected in base tube 81. Circumferentially distributed axially extending along base tube 81 of push rod 832. The all of slide bar 822 of same fricting strip 821 is supported on same push rod 832 by the 3rd spring 823, and the slide bar of each piece of fricting strip is respectively supported by a push rod.

Referring to Fig. 3, two conical heads 831 are in the two ends being slidably connected at base tube 81 in the way of miner diameter end is arranged oppositely. The two ends of push rod 832 are shelved on the conical surface of two conical heads 831. Pretightning force adjustment structure 83 also includes driving structure 833. . Structure 833 is driven to include the jacking block 8331 in two two ends being threaded in base tube 81. Jacking block 8331 is set on handle rod 14. Two conical heads 831 are between two jacking blocks 8331.

Referring to Fig. 4, the port of export of reversing tube 2 is provided with spherical connector 21. Charging aperture 12 inwall is provided with sphere pit 13. Reversing tube 2 is connected in sphere pit 13 hinged with charging aperture 12 by spherical connector 21, namely reversing tube 2 carries out hinged with charging aperture 12 for mating spherical surfaces. It it is matched in clearance between spherical connector 21 and sphere pit 13. It is sealed connected together by sealing ring 23 between spherical connector 21 and sphere pit 13. Sealing ring 23 is fixed in charging aperture 12. The free end 22 of spherical connector is all contained in sphere pit 13 (namely in the scope that reversing tube can rotate, the free end 22 of spherical connector is all located in sphere pit 13). The centrage of interlocking screw 3 is through the centre of sphere at the center of reversing tube and charging aperture mating surface namely the sphere at place, spherical connector 21 surface.

Referring to Fig. 5, between interior suction bowl 32 and outer suction bowl 31, form absorption ditch 33. It is provided with, in absorption ditch 33, the some elastomeric connector strip 34 outer suction bowl and interior suction bowl linked together. Elastomeric connector strip 34 is circumferentially distributed along outer suction bowl 31.

Referring to Fig. 1, during use, extruding simultaneously is outer inhales bowl 31 and interior suction bowl 32 and lives to be fixed by container, unclamp the position that puller bolt 24 can be freely rotatable to reversing tube 2, rotate reversing tube 2 to dock with feed pipe to reversing tube, then prevent displacement from new reversing tube 2 and charging aperture 12 being locked together by puller bolt 24. It is held on sleeve pipe 141 by hands take off and upper cover 15 is installed. Lid takes off rear raw material and enters container 1 through charging aperture 12. Motor 53 drives driving gear 54 to rotate, driving gear 54 drives driven gear 55 to rotate, driven gear drive shaft 51, rotating shaft 51 drive stirring vane 52 to rotate, thus realizing the stirring to the raw material in container.

Referring to Fig. 2 and Fig. 3, the process of the elastic effect adjusting sleeve pipe is: drive conical head 831 axially moving along base tube 81 by rotating jacking block 8331, conical head 831 drives push rod 832 moving radially along base tube 81, and push rod 832 extrudes the 3rd spring 823 and changes pretightning force.

Claims (7)

1. the adjustable reactor with cover in direction, including container and agitator, described agitator includes rotating shaft and is connected to the stirring vane of rotating shaft, described container is provided with charging aperture, it is characterized in that, the entrance point of described charging aperture is to being connected to reversing tube, described reversing tube seals hinged with described charging aperture mating spherical surfaces, described reversing tube is fixed together with described charging aperture by puller bolt, described reversing tube is provided with lid, described it is covered with handle rod, the outer resilient sleeve of described handle rod is provided with sleeve pipe, the elastic adjusting mechanism of the elastic force being provided with between adjusting sleeve pipe and handle rod between described handle rod and sleeve pipe, described elastic adjusting mechanism includes being set in that handle rod is outer and the base tube that is located in sleeve pipe and be looped around the holding sheet outside described base tube, described holding sheet is constituted along the circumferentially distributed fricting strip of base tube by some pieces, described fricting strip is provided with some slide bars radially extended along base tube, described sliding bar is arranged in described base tube, the inner of described slide bar is provided with shift-in outside driving slide bar and drives fricting strip to be connected to the 3rd spring together with sleeve pipe, described elastic adjusting mechanism is additionally provided with the pretightning force adjustment structure of the pretightning force regulating described 3rd spring, the outer surface of described vessel bottom wall is provided with some adsorption structures, described adsorption structure includes outer suction bowl.

2. the adjustable reactor with cover in direction according to claim 1, it is characterised in that also include the sealing ring described reversing tube and charging aperture being sealed connected together, is matched in clearance between described reversing tube and charging aperture.

3. the adjustable reactor with cover in direction according to claim 1 and 2, it is characterized in that, described reversing tube is provided with spherical connector, and described charging aperture inwall is provided with sphere pit, and described reversing tube is connected in described sphere pit hinged with charging aperture by described spherical connector.

4. the adjustable reactor with cover in direction according to claim 1 and 2, it is characterized in that, described pretightning force adjustment structure includes the conical head of two tubular structures being supported on outside handle rod by base tube, drive conical head move axially and can make conical head stop at setting position driving structure and some push rods, said two conical head is in the two ends being slidably connected at described base tube in the way of miner diameter end is arranged oppositely, the two ends of described push rod are shelved on the conical surface of said two conical head, the all of described slide bar of same fricting strip passes through described spring supporting on same described push rod, the described slide bar of each piece of fricting strip is respectively supported by a described push rod.

5. the adjustable reactor with cover in direction according to claim 4, it is characterised in that described driving structure includes the jacking block in two two ends being threaded in described base tube, and said two conical head is between said two jacking block.

6. the adjustable reactor with cover in direction according to claim 1 and 2, it is characterized in that, it is provided with interior suction bowl in described outer suction bowl, absorption ditch is formed between described interior suction bowl and outer suction bowl, being provided with the some elastomeric connector strip outer suction bowl and interior suction bowl linked together in described absorption ditch, described elastomeric connector strip is circumferentially distributed along outer suction bowl.

7. the adjustable reactor with cover in direction according to claim 6, it is characterised in that the absorption end of described interior suction bowl is beyond the absorption end of described outer suction bowl.