CN105080374B - Suspension type dissolves emulsifier unit - Google Patents
Suspension type dissolves emulsifier unit Download PDFInfo
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- CN105080374B CN105080374B CN201410801501.XA CN201410801501A CN105080374B CN 105080374 B CN105080374 B CN 105080374B CN 201410801501 A CN201410801501 A CN 201410801501A CN 105080374 B CN105080374 B CN 105080374B
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Abstract
The present invention relates to dissolving emulsifier unit and solve the problems, such as easily to generate caking depositional phenomenon during thickener emulsification and can not be installed in a hanging manner.A kind of suspension type dissolves emulsifier unit, including container and the blender for being set to container, the container is equipped with discharge nozzle, the blender includes shaft and is set to shaft and several stirring blades in container, it is characterized in that, it further includes and scrapes wall blade, static chamber and support plate, it is described to scrape the fitting vessel bottom wall inner surface setting of wall blade, the shaft vertically extends, the static chamber is set in the shaft, the shaft is connected with shearing blade, the shearing blade is located at the static intracavitary, the wall of the static chamber is equipped with intercommunicating pore, the stirring blade is located at outside the static chamber, the container connection is on the supporting plate, support plate is equipped with suspension frame.
Description
Technical field
The present invention relates to dissolving emulsifier unit more particularly to a kind of suspension type dissolving emulsifier units.
Background technology
In the technological process for preparing colloidal electrolyte, thickener needs dissolving emulsification in advance, existing thickener dissolving breast
Change is by electrical heating and synchronizes the operating type of stirring and completed in stirred tank.It is in Chinese Patent Application No.
2013102815248th, publication date on October 2nd, 2014, entitled " a kind of stirred tank with double stirrer " patent document
In disclose a kind of existing stirred tank.Existing stirred tank includes container and the blender being set in container, and container is equipped with
Discharge nozzle, the input end of discharge nozzle are located at the middle and lower part of container, and blender includes several stirring blades of shaft.It will increase during use
Thick dose is put into container, and then drive shaft rotates, and shaft driving stirring blade rotates and the object to being mounted in container carries out
Stirring.Then the colloid in container is discharged by discharge nozzle.
Existing stirred tank is for insufficient below generally existing during thickener dissolving emulsification:Colloid easily generates caking and sinks
Colloid in product phenomenon and container can not be emptied by nature of conducting oneself with dignity;Easily container inside can not be observed;No
Can either carry out high-efficiency stirring to material when height of materials changes will not generate the phenomenon that stirring blade is idle again;It cannot
It is enough to be installed in a hanging manner.
Invention content
The present invention provides a kind of suspension types that can prevent deposition caking phenomenon to dissolve emulsifier unit, solves existing
Some dissolving emulsifier units easily generate caking depositional phenomenon and can not pacify in a hanging manner when being emulsified to thickener
The problem of dress.
More than technical problem is solved by following technical proposal:A kind of suspension type dissolves emulsifier unit, including container
With the blender for being set to container, the container is equipped with discharge nozzle, and the blender includes shaft and is set to shaft and is located at
Several stirring blades in container, which is characterized in that it further includes and scrapes wall blade, static chamber and support plate, it is described to scrape wall blade patch
The setting of vessel bottom wall inner surface is closed, the shaft vertically extends, and the static chamber is set in the shaft, described turn
Axis connection has shearing blade, and the shearing blade is located at the static intracavitary, and the wall of the static chamber is equipped with intercommunicating pore, described
Stirring blade is located at outside the static chamber, and the container is connected in the support plate, and the support plate is equipped with hanger bracket.Make
Used time, the present invention live in capable installation by hanger bracket suspension, drive shaft and scrape wall blade and all rotate but static chamber remains stationary,
Shaft drives stirring blade and shearing blade rotation, and stirring blade is stirred being located at the object in container and outside static chamber
It mixes to promote mixing and dissolving;When object flows through static chamber, shearing blade generates shear action to material and prevents to lump
Phenomenon;It scrapes wall blade and operation is scraped and stirred to container bottom, to prevent vessel bottom wall from generating depositional phenomenon.Scrape wall blade
It can together be driven by shaft, independent drive system can also be set to be driven.
Preferably, the hanger bracket includes 5 decoupling rods, 5 decoupling rods are a horizontal shock-absorbing bar), two pieces
Longitudinal decoupling rod and two vertical decoupling rods, two longitudinal one end of decoupling rod and one end of horizontal shock-absorbing bar link together,
The other end of the one end of two vertical decoupling rods respectively with two longitudinal decoupling rods links together, two vertical decoupling rods
The other end link together with the support plate.It is attached during use by the other end of horizontal shock-absorbing bar with installation position
To realize the installation of the suspension type of the present invention.The vibration that the hanger bracket can reduce the three dimensions generated during stirring passes to periphery
The amount of object, therefore effect good damping effect.
Preferably, the decoupling rod is tubular structure, it is equipped with several partition boards in the decoupling rod, the partition board is by damping
The internal insulation of bar goes out the cavity that several extending directions along decoupling rod are distributed, and elastic diaphragm, the bullet are equipped in the cavity
The cavity is divided into filled cavity and vacant chamber by property diaphragm, and the elastic diaphragm is the bowl-type knot to arch upward towards the filled cavity
Structure, the filled cavity is interior to be filled with quicksand, is equipped in the filled cavity and increases baffle-wall, the filled cavity is divided by the increasing baffle-wall
First filled cavity and the second filled cavity, the rubbing hole for increasing baffle-wall and being equipped with the first filled cavity of connection and the second filled cavity are described
Vacant chamber is equipped with the stomata for penetrating through the decoupling rod.When generation vibration, decoupling rod is deformed, and decoupling rod deformation leads to elasticity
Diaphragm is towards the movement that vacant chamber deforms and resets, at the same time quicksand flows back between the first filled cavity and the second filled cavity
It is dynamic, it rubs each other when quicksand flows and consumes vibrational energy, with rubbing hole friction and stream when quicksand flows through rubbing hole
Friction aggravation between sand so that the weakening energy-absorbing effect of hanger bracket is more notable.
Preferably, the peripheral surface of the decoupling rod is equipped with several outer deformation guiding grooves being axially distributed along decoupling rod, institute
The inner peripheral surface for stating decoupling rod is equipped with several interior deformation guiding grooves being axially distributed along decoupling rod, the outer deformation guide channel and interior shape
Become guide channel all into the annular groove of the circumferentially extending along decoupling rod, the outer deformation guide channel and the alignment of interior deformation guide channel.Energy
Reliability when enough improving vibrated during decoupling rod driving quicksand flowing.Simultaneously so that decoupling rod is imitated with good absorbing
Fruit.
Preferably, the hanger bracket be connected with coating type heating arrangements described in hanger bracket further include and arch upward upward or downward
Arc connecting rod, one end of the connecting rod links together with the other end of the horizontal shock-absorbing bar, the coating type
Heating arrangements include swing rod, driving swing rod swing balance staff, driving balance staff rotation wobble gear, forward drive gear, reversely
Drive gear, the tumbler gear and power input shaft meshed together with wobble wheel, the forward drive gear and reverse drive
Gear is distributed and links together with the power input shaft along the axial of power input shaft, the forward drive gear and reversely
Drive gear is all sector gear, and the forward drive gear meshes together with the wobble gear discontinuity, described reversed
Drive gear meshes together with the tumbler gear discontinuity, and the forward drive gear is engaged on one with the wobble gear
Rise when, the reverse drive gear disconnected with the tumbler gear, the reverse drive gear is engaged on the tumbler gear
When together, the forward drive gear disconnected with the wobble gear, the forward drive gear drives the wobble gear to turn
Dynamic angle and the reverse drive gear are equal by the angle that the tumbler gear drives the wobble gear to rotate, described
Swing rod is equipped with and heat is driven to the applicator head of the connecting rod.The connecting rod of arc can be in the case where ensureing bonding strength
The cross-sectional area of connecting rod is reduced to realize the reduction of weight.In use, by the way that by heat, to applicator head, applicator head is along connecting rod
Connecting rod is transferred heat to along stretching when direction swings back and forth so that connecting rod is maintained at required temperature range, so as to keep away
Exempt to produce fracture phenomenon in cold environment.Improve the reliability when present invention uses.Transfer heat to applicator head
Mode has:Hydrating structure is set in applicator head(Such as rag), make applicator head swing during the first heat-absorption water from water tank(Water
Water in case is required temperature), then slided hot water in connecting rod by hydrating structure coated in connecting rod
Mode to connection keep the temperature;Heater in applicator head is set, applicator head is heated to by set temperature by heater, so
Applicator head is come the heat preservation so that connecting rod is heated when backing through connecting rod afterwards.The motor of power input shaft is driven without commutating, just
In the swing in high frequency for realizing swing rod.So that it is also possible that connecting rod is maintained at required temperature when environment temperature is relatively low.
Preferably, the applicator head is annular, the applicator head is set in the connecting rod, is set in the applicator head
There is the fluid course along the circumferentially extending of applicator head, the madial wall of the fluid course is made for Heat Conduction Material.In use,
Hot water is made to be flowed through from fluid course, the heat preservation of connecting rod is realized to connecting rod so as to fulfill by the heat transfer of hot water.
Preferably, the support plate is equipped with several support protrusions, the upper end of the support protrusion, which is connected with, may be reversed
Opening down and cover on the sucker in the support protrusion, the container is by the sucker suction in the support plate.Group
During dress, container is lived by sucker suction to secure the container in support plate, the sucker of spare area is turned to and covers on support
Cause to damage and lose suction-operated and adsorb walker to prevent the edge of sucker from being walked about on the supporting plate by people in protrusion
Member and influence people and walk about on the supporting plate, in support plate set sucker cause support plate surface become uneven anti-so as to play
Sliding effect.The technical solution being capable of general, using area and spare area with the Non-slip material in support plate and fixing piece
The advantages of size variation to adapt to container can be easily changed, solving existing support plate can not be easily right
Different size of object is supported and ensures uncurrent problem between non-skid property and Non-slip material and fixing piece.This is specially
In sharp file, " using area " refers to the region occupied by container of support plate, and " spare area " refers to that removing for support plate uses
Region other than region.
Preferably, the shearing blade includes the substrate being vertically arranged, the substrate surface is equipped with several blades, the substrate
Equipped with sieve pore, the sieve pore penetrates through the substrate.Blade is set, shear effect can be improved;Sieve pore is set so that big material
Block can not pass through, be back to blade be sheared it is broken.Shear effect is more preferably.
Preferably, the direction of the cutting edge of the blade with centered on shaft line and by cutting edge cylinder it is tangent.
Shearing blade can make material generate the flowing along shaft axial direction when rotating, the set-up mode of cutting edge can intersect with flow direction
And play the role of improving shear effect.
Preferably, the container is equipped with observation panel, observation tube is connected in the observation panel, is equipped in the observation panel
Spherical surface pit, the observation tube are equipped with spherical connector, and the observation tube coordinates the spherical surface recessed by the spherical connector
Hole is hinged with the observation panel spherical surface.The technical program with that can adjust viewing angle as required, in container
The advantages of being observed solves the problems, such as that existing stirred tank carries out container inside to observe inconvenience.
Preferably, magnifying glass and headlamp are equipped in the observation tube.It more convenient can be clearly viewed in container
The situation in portion.
Preferably, the observation tube inner end is equipped with the isolation board of transparent configuration, the isolation board, observation tube and magnifying glass
Annular seal space is surrounded, the headlamp is located in the annular seal space.It can prevent container contents from damaging headlamp.
The invention also includes retaining mechanism, the observation tube is fixed in one by the retaining mechanism with the observation panel
It rises, the retaining mechanism includes the locking screw on the face of same observation panel cooperation that briquetting and driving briquetting are pressed into observation tube
Nail, the lock-screw are threaded togather with observation panel, are mating spherical surfaces between the briquetting and observation tube, the lock
The center line of screw is connect by observation tube and the center of observation panel mating surface.In use, rotation lock screw so that briquetting is loose
The pressing fixed function to observation tube is opened, the direction for then needing to adjust observation tube according to the observation is to being able to observe that corresponding position
It puts, then rotates backward lock-screw, lock-screw drives briquetting and is pressed on observation tube, so as to fulfill observation tube and observation
The fixation of mouth.It can be locked out from generating displacement after observation tube angulation is adjusted in place." the center line warp of interlocking screw
Crossing the " center " of observation tube and observation panel mating surface can reduce when briquetting is pressed in observation pipe surface to observation pipe surface
Damage.
The invention also includes the sealing ring for being sealed connected together the observation tube and observation panel, the observation tube and sight
It examines between mouth as clearance fit.It can either ensure that the junction of observation tube and observation panel does not leak, and rotation is enabled to observe
It is easily laborsaving during pipe.
Preferably, the sealing ring is fixed in the observation panel.Enable to no matter observation tube turns to that angle
When, observation tube and observation panel can be reliably sealed connected together by sealing ring.
The invention also includes scrape the rotation of wall blade described in driving to scrape wall blade driving motor, described to scrape wall blade driving electricity
Machine is located at the bottom of the container, and the wall blade of scraping is disconnected with the shaft.It scrapes wall blade and shaft separately drives, reliability
It is good.Driving motor is set to vessel bottom wall, and stationarity is good.
Preferably, the static chamber is surrounded by bottom wall, roof and side wall, the intercommunicating pore includes being set to the roof
Upper intercommunicating pore, be set to the lower intercommunicating pore of the bottom wall and be set to the lateral communication hole of the side wall.Static chamber can be more
Add effectively that internally outer object generates isolation and inside and outside material generation is prevented to be synchronized with the movement, improved so as to play into static
The effect of the shear effect of the material of intracavitary.
Preferably, the upper intercommunicating pore and lower intercommunicating pore are staggered.It can prevent material from leading directly to and flow through static chamber, play
Improve the effect to the shear effect of material.
Preferably, the blade is strip, the blade vertically extends.Blade is strip, is cut
Effect when cutting is good.Blade vertically extends, and particle can be prevented to be deposited on blade without being sheared.
Preferably, the sieve pore is arranged between adjacent blade.The glue not being sheared can further be reduced
The accounting of body particle.
Preferably, the upper surface of the sucker is equipped with anti-skid structure.When sucker is overturn, skid resistant course can be protruded in sucker
Outside, so as to play the role of promoted antiskid effect.
Preferably, the anti-skid structure is several salient points.Good antiskid effect and easy to make.
Preferably, the support plate further includes bracket, the bracket is equipped with hanger, and the lower surface of the support plate is equipped with
Sliding rail, the hanger slip hang on the sliding rail.Fill the bucket of colloid(Hereinafter referred to as storing container)By be shelved on bracket and
It is stored in the space of the lower part of support plate.Change position of the bracket from support plate edge by the way that hanger is made to move on the slide rail
It puts so that people, which does not need to support plate lower space to be entered, can easily pick and place storing container.
Preferably, the sliding rail has two, the hanger has two, and the lower end of two hangers is connected to the support
Both ends, the upper end of frame are slidably connected to described two sliding rails correspondingly.Disconnection is not allowed to be also easy to produce between bracket and wall built-up now
As the abrasion between hanger and sliding rail can be reduced.
Preferably, the discharge orifice is between two one slide rail.The colloid in container can easily be made through going out
Expects pipe passes through support plate and is discharged into storing container.
Preferably, the height of the support protrusion is less than 2 centimetres.When good antiskid effect and on the supporting plate walking
Comfort is good.
Preferably, the support plate is equipped with discharge orifice, the import of the discharge nozzle is located at the bottom wall of the container, described
Discharge nozzle extends to the lower section of the support plate through the discharge orifice.After colloid is made, the bucket for containing colloid is put into support
Be aligned below plate and with the outlet of discharge nozzle, then when colloid be discharged into bucket through discharge nozzle.Since the import of discharge nozzle is located at
The bottom wall and container of container are supported by support plate, so can be emptied by conducting oneself with dignity.
Present invention tool has the advantage that:Thickener can be stirred, the dissolving of thickener to be promoted to mix, additionally it is possible to
Thickener is sheared, to prevent from luming, additionally it is possible to prevent depositional phenomenon, can be installed in a hanging manner.
Description of the drawings
Fig. 1 is the schematic diagram of the emulsifier unit in inventive embodiments one.
Fig. 2 is B-B schematic cross-sectional views of the shearing blade in Fig. 1.
Fig. 3 is the schematic diagram of the support plate in embodiment two.
Fig. 4 is the close-up schematic view at the A of Fig. 3.
Fig. 5 is the schematic diagram of the emulsifier unit in embodiment two.
Fig. 6 is the connection relationship diagram of the observation tube and observation panel in embodiment three.
Fig. 7 is the partial schematic diagram of the embodiment of the present invention four.
Fig. 8 is the schematic cross-sectional view of decoupling rod.
Fig. 9 is the schematic diagram of coating type heating arrangements.
Figure 10 is schematic cross-sectional view of the applicator head with the junction of connecting rod.
In figure:Support plate 1, support plate 1, stair 12, support feet 13, discharge orifice 14, motor via 15, sliding rail 16, bracket
17th, hanger 171, support protrusion 18, sucker 19, anti-skid structure 191, the sucker 192 of using area, spare area sucker 193,
Container 2, feed hopper 21, observation panel 22, spherical surface pit 221, sealing ring 222, observation tube 23, spherical connector 231, spherical connection
The free end 2311 of head, magnifying glass 232, isolation board 233, headlamp 234, annular seal space 235, discharge nozzle 24, outlet valve 25, stirring
Device 3, installing plate 31, connecting rod 311, bolt 312, shaft driving mechanism 32, driving motor 321, driven gear 322, driving tooth
Wheel 323, static chamber 33, bottom wall 331, roof 332, side wall 333, upper intercommunicating pore 334, lower intercommunicating pore 335, lateral communication hole 336,
Shaft 34, stirring blade 35, shearing blade 36, substrate 361, blade 362, sieve pore 363, elevating mechanism 37, sliding slot 371, sliding block
372nd, screw 373, lifting motor 374, scrape wall blade 4, scrape wall blade driving motor 41, retaining mechanism 5, briquetting 51, locking
Screw 52, coating type heating arrangements 8, case shell 80, balance staff 81, wobble gear 82, forward drive gear 83, reverse drive gear
84th, tumbler gear 85, power input shaft 86, swing rod 87, applicator head 871, fluid course 872, fluid course madial wall 8721,
Driving motor 88, hanger bracket 9, connecting rod 9, decoupling rod 92, horizontal shock-absorbing bar 921, longitudinal decoupling rod 922, vertical decoupling rod
923rd, outer deformation guiding groove 924, interior deformation guiding groove 925, partition board 93, cavity 94, filled cavity 941, the first filled cavity 9411,
Two filled cavities 9412, vacant chamber 942, stomata 9421, elastic diaphragm 95, increase baffle-wall 96, rubbing hole 961, blade cutting edge side
To line L, centered on shaft line and by cutting edge cylinder S.
Specific embodiment
The present invention is further illustrated with embodiment below in conjunction with the accompanying drawings.
Embodiment one, referring to Fig. 1, a kind of emulsifier unit, including support plate 1, container 2 and blender 3.
Support plate 1 is equipped with discharge orifice 14 and motor via 15.The both ends of support plate 1 are respectively provided with a hanger bracket 9.
2 roof of container is equipped with feed hopper 21 and observation panel 22.Observation panel 22 is connected with observation tube 23.2 bottom wall of container is set
There is discharge nozzle 24.Discharge nozzle 24 reaches the lower space of support plate 1 through discharge orifice 14.Discharge nozzle 24 is equipped with outlet valve 25.Go out
Material valve 25 is motor-driven valve.Container 2 is fixed in support plate 1.It is additionally provided in container 2 and scrapes wall blade 4.It scrapes wall blade 4 and is bonded container 2
Bottom wall inner surface is set.It scrapes wall blade 4 and is driven by scraping wall blade driving motor 41.It scrapes wall blade driving motor 41 and is located at container
On 1 bottom outer surface.Wall blade driving motor 41 is scraped to be threaded through in motor via 15 and prevent to interfere.It is also set in container
There is electric calorifie installation(It is not drawn in figure).
Blender 3 includes installing plate 31, shaft driving mechanism 32, static chamber 33 and shaft 34.
Installing plate 31 is fixed together by bolt 312 with the roof of container 2.
Shaft driving mechanism 32 includes driving motor 321.Driving motor 321 is fixed in a manner of being vertically arranged on installing plate 31
Side.
Static chamber 33 is fixed together to be suspended on the lower section of installing plate 31 with installing plate 31 by connecting rod 311.It is static
Chamber 33 is located inside container 2.Static chamber 33 is surrounded by bottom wall 331, roof 332 and side wall 333.Side wall 333 is circular ring shape.Roof
331 are equipped with upper intercommunicating pore 334.Bottom wall 332 is equipped with lower intercommunicating pore 335.Upper intercommunicating pore 334 and lower intercommunicating pore 335 are staggered.Side wall
333 lateral communication hole 336.
Shaft 34 vertically extends.It shaft 34 and scrapes wall blade 4 and disconnects.The upper end of shaft 34 is the same as driving motor 321
Power output shaft be coaxially attached to together.The lower end of shaft 34 is threaded through in static chamber 33.Shaft 34 is equipped with several stirrings
Blade 35 and several shearing blades 36.Stirring blade 35 is located in container 2.Stirring blade 35 is located at the top of static chamber 34.It cuts
Blade 36 is cut to be located in static chamber 34.Shearing blade 36 includes the substrate 361 being vertically arranged.
Referring to Fig. 2,361 surface of substrate is equipped with several strip blades 362 and several sieve pores 363.Blade 363 is vertically square
To extension.Sieve pore 363 is arranged between adjacent blade 362.Sieve pore 363 is designed between adjacent blade 362.Sieve pore 363
Penetrate through substrate 361.The both sides of substrate 361 are designed with blade 362.The direction line L of the cutting edge of blade is the same as the line centered on shaft
It is and tangent by the cylinder S of cutting edge.
Referring to Fig. 1 and Fig. 2, in use, the present invention is installed in a hanging manner by two hanger brackets 9.To colloid
Electrolyte thickener emulsification method is:The solvent for making colloidal electrolyte of lead acid accumulator thickener is first packed into container 2, so
The solute for making colloidal electrolyte of lead acid accumulator thickener is added to from feed hopper 21 in container 2 afterwards, plays electric calorifie installation
While heating, 321 drive shaft 34 of driving motor rotates, and shaft 34 drives stirring blade 35 and shearing blade 36 together
Rotation.Stirring blade 35, which rotates, makes the material being located in container and outside static chamber 33 fully dissolve mixing.Material enters
Be sheared after static chamber 33 blade 36 shear after flow out static chamber so that caking be sheared it is broken can prevent generate caking, make
The quantity that must lump it is few even without.Scrape wall blade driving motor 41 driving scrape wall blade 4 rotate and to the bottom wall inner surface of container 1
It is scraped and is stirred, so as to prevent depositional phenomenon.State in container 2 is observed by observation tube 23.Storing container is placed on
Outlet valve 25 after colloid is made, is opened in the position that the lower section of support plate 1 is aligned with discharge orifice 14, and the colloid in container 2 is through discharging
Pipe 24 is discharged into storing container.
Embodiment two, the difference with embodiment one are:
Referring to Fig. 3, the upper surface of support plate 1 is equipped with several support protrusions 18.The height of support protrusion 18 for 2 centimetres with
Under.The upper end of support protrusion 18 is connected with sucker 19.Sucker 19 is downwardly turned over opening down and is covered in support protrusion 18.Branch
1 lower section of fagging is equipped with bracket 17.The lower surface of support plate 1 is equipped with sliding rail 16.Sliding rail 16 has two.Sliding rail 16 extends to support plate
1 edge.Discharge orifice 14 is between two one slide rails 16.Bracket 17 is equipped with two hangers 171.The lower end of two hangers 171 connects
It is connected on the both ends of bracket 17.The upper end of two hangers 171 is slided correspondingly hangs on two one slide rails 16.
Referring to Fig. 4, the upper surface of sucker 19 is equipped with anti-skid structure 191.Anti-skid structure 191 is several salient points.
Referring to Fig. 5, when assembling is of the invention, makes the opening up of the sucker 192 for being located at using area, container 2 is shelved on
In using area, container 2 is adsorbed and is fixed in support plate 1 by the sucker 192 of using area.Make the sucker of spare area
193 it is opening down, so as to can play the role of it is anti-skidding, have and will not be damaged and influence to walk in support plate 1.
In use, bracket 17 is made to be moved to the edge on surface, then storing container is shelved on bracket 17, then by bracket 17
It inside pushes away and storing container is made to be aligned with discharge nozzle 24.
Embodiment three, the difference with embodiment two are:
Referring to Fig. 6, observation tube 23 is fixed together by retaining mechanism 5 with observation panel 22.
Observation tube 23 is equipped with spherical connector 231.Spherical surface pit 221 is equipped in observation panel 22.Observation tube 23 passes through spherical shape
It is interior and hinged with 22 spherical surface of observation panel that connector 231 is accommodated in spherical surface pit 221.Spherical connector 231 and spherical surface are recessed
It is clearance fit between hole 221.Between spherical connector 231 and spherical surface pit 221 one is sealedly connected on by sealing ring 222
It rises.Sealing ring 222 is fixed in observation panel 22.The free end 2311 of spherical connector is all accommodated in spherical surface pit 221(Namely
In the range of reversing tube can rotate, the free end of spherical connector is all located in spherical surface pit).
Magnifying glass 232, isolation board 233 and headlamp 234 are equipped in observation tube 23.Isolation board 233 is transparent configuration such as glass
Glass.Isolation board 233 is located at the inside of magnifying glass 232 i.e. towards the side in container.Isolation board 233, observation tube 23 and magnifying glass
232 surround annular seal space 235.Headlamp 234 is located in annular seal space 235.
Retaining mechanism 5 includes briquetting 51 and lock-screw 52.It is trapped in briquetting 51 in the wall of spherical surface pit 221.It presses
Briquetting 51 is pressed on the face i.e. surface of spherical connector 231 of same observation panel cooperation of observation tube.Briquetting 51 connects with spherical
It is mating spherical surfaces between connector 231.Lock-screw 52 is threaded togather with the wall of observation panel 22 namely the roof of container.Lock
The end of thread of tight screw 52 abuts together with briquetting 51.The center line of interlocking screw 52 coordinates by observation tube and observation panel
The centre of sphere of spherical surface where 231 surface of center namely spherical connector in face.
When needing to observe 2 inside of container, open headlamp 234 and unclamp retaining mechanism 5, rotation observation tube 23 arrives observation tube
Corresponding position in container 2 is able to observe that, then from observation tube 23 to from being carried out in container.After observation is good, from new
Observation tube 23 and observation panel 22 are locked together by retaining mechanism 5.The release of retaining mechanism 5 and locking process are:Rotation
Lock-screw 51 goes driving briquetting 52 to move.
Example IV, the difference with embodiment three are:
Referring to Fig. 7, hanger bracket 9 includes connecting rod 91 and 5 decoupling rods 92.Connecting rod 91 is upward(Certainly it is also downwards
Can with)The arcuate structure to arch upward.5 decoupling rods 92 are the longitudinal decoupling rod 922 of 921, two, a horizontal shock-absorbing bar and two
Vertical decoupling rod 923.One end of connecting rod 91 links together with one end of horizontal shock-absorbing bar 921.Two longitudinal decoupling rods 922
One end and the other end of horizontal shock-absorbing bar 921 link together.The upper end of two vertical decoupling rods 923 is respectively the same as two longitudinal directions
The other end of decoupling rod 922 links together.The lower end of two vertical decoupling rods 923 is connected to support plate 1(Support plate is signal
Picture goes out)Upper surface on.
Coating type heating arrangements 8 include case shell 80, swing rod 87 and driving motor 88.Swing rod 87 is equipped with applicator head 871.Coating
First 871 be annular.Applicator head 871 is set in connecting rod 91.Driving motor 88 is fixed on case shell 80.
Referring to Fig. 8, the peripheral surface of decoupling rod 92 is equipped with several outer deformation guiding grooves 924.Outer deformation guiding groove 924 is along damping
The axial distribution of bar 92.The inner peripheral surface of decoupling rod 92 is equipped with several interior deformation guiding grooves 925.Interior deformation guiding groove 925 is along decoupling rod
92 axial distributions.Outer deformation guiding groove 924 and interior deformation guiding groove 925 are all the annular groove along the circumferentially extending of decoupling rod 92.
Outer deformation guiding groove 924 and interior deformation guiding groove 925 are aligned.4 partition boards 93 are equipped in decoupling rod 92.4 partition boards 93 are by damping
The internal insulation of bar 92 goes out 3 cavitys 94.3 cavitys 94 are distributed along the extending direction of decoupling rod 92.Elasticity is equipped in cavity 94
Diaphragm 95.Cavity 94 is divided into filled cavity 941 and vacant chamber 942 by elastic diaphragm 95.Elastic diaphragm 95 is towards filled cavity 941
The bowl shaped structure to arch upward.It is equipped in filled cavity 941 and increases baffle-wall 96.Increase baffle-wall 96 and filled cavity 941 is divided into the first filled cavity
9411 and second filled cavity 9412.Increase the rubbing hole that baffle-wall 96 is equipped with the first filled cavity 9411 of connection and the second filled cavity 9412
961.It is not drawn in figure filled with quicksand, quicksand in filled cavity 941.Vacant chamber 942 is equipped with the stomata of perforation decoupling rod 92
9421。
Referring to Fig. 9, coating type heating arrangements 8 further include power input shaft 86, balance staff 81 and the swing in case shell
Gear 82, forward drive gear 83, reverse drive gear 84 and tumbler gear 85.Balance staff 81 is rotationally connected with case shell 80.It swings
Gear 82 is connected to balance staff 81.Forward drive gear 83 is connected to power input shaft 86.Power input shaft 86 is rotationally connected with case
Shell 80.Power input shaft 86 is the same as driving motor 88(Referring to Fig. 7)Power output shaft link together.Forward drive gear 83 is
Sector gear.Forward drive gear 83 can turn to same wobble gear 82 and mesh together.Reverse drive gear 84 is connected to
Power input shaft 86.Reverse drive gear 84 and forward drive gear 83 are distributed along the axial direction of power input shaft 86.Reverse drive
Gear 84 is sector gear.Reverse drive gear 84 can turn to same tumbler gear 85 and mesh together.Reverse drive gear
84 and wobble gear 82 be staggered and can not mesh together.Tumbler gear 85 and wobble gear 82 mesh together.Swing rod 87
It links together with balance staff 81.
Referring to Figure 10, fluid course 872 is equipped in applicator head 871.Circumferentially extending of the fluid course 872 along applicator head 871.
The madial wall 9721 of fluid course is made for Heat Conduction Material.
Referring to Fig. 7, by by the other end of connecting rod 91 during use(That is one end vacant in figure)It is connected with installation position
Fetch the suspension type installation for realizing the present invention.
Referring to Fig. 7, Fig. 9 and Figure 10, the process heated by coating type heating arrangements 8 to connecting rod 91 is:Make temperature
Spend satisfactory fluid(It is the engine cooling water of automobile in the present invention)Fluid course 872 is flowed through, driving motor 88 drives
86 continuous rotation of power input shaft, power input shaft 86 drive forward drive gear 83 and reverse drive gear 84 to turn clockwise
It is dynamic.When turning to forward drive gear 83 and meshing together with wobble gear 82, reverse drive gear 84 is the same as tumbler gear 85
It disconnects, forward drive gear 83 drives wobble gear 82 to rotate counterclockwise, and wobble gear 82 drives swing rod 87 inverse by balance staff 81
Hour hands are swung, and the applicator head 871 on swing rod 87 is slided counterclockwise in connecting rod 91.When turning to, reverse drive gear 84 is same to be changed
When meshing together to gear 85, forward drive gear 83 disconnected with wobble gear 82, reverse drive gear 84 drive commutating tooth
Wheel 85 rotates counterclockwise, and tumbler gear 85 drives 82 clockwise oscillation of wobble gear, and wobble gear 82 is driven by balance staff 81 and put
87 clockwise oscillation of bar, applicator head 871 on swing rod 87 slid clockwise in connecting rod 91.Applicator head 871 is in connecting rod 91
During upper slip and by the madial wall 9721 of fluid course by heat be conducted to connecting rod 91 and 91 quilt of connecting rod
It heats and is maintained at required temperature, embrittlement phenomenon is generated so as to avoid low temperature.In order to avoid applicator head 871 slidably reciprocates
When generation position deviation be unable to reliably slide in connecting rod 91, forward drive gear 83 drive wobble gear 82 swing
Angle and reverse drive gear 84 by tumbler gear drive wobble gear swing angle be equal.
Claims (5)
1. a kind of suspension type dissolves emulsifier unit, including container and the blender for being set to container, the container is equipped with discharge nozzle,
The blender includes shaft and is set to shaft and several stirring blades in container, which is characterized in that further includes and scrapes
Wall blade, static chamber and support plate, described to scrape the fitting vessel bottom wall inner surface setting of wall blade, the shaft is prolonged along the vertical direction
It stretches, the static chamber is set in the shaft, and the shaft is connected with shearing blade, and the shearing blade is located at described static
Intracavitary, the wall of the static chamber are equipped with intercommunicating pore, and the stirring blade is located at outside the static chamber, and the container is connected to
In the support plate, the support plate is equipped with hanger bracket, and the hanger bracket includes 5 decoupling rods, and 5 decoupling rods are one
Horizontal shock-absorbing bar, two longitudinal decoupling rods and two vertical decoupling rods, one end of two longitudinal decoupling rods and horizontal shock-absorbing bar
One end links together, and the other end of two longitudinal decoupling rods links together together respectively for one end of two vertical decoupling rods, institute
The other end for stating two vertical decoupling rods links together with the support plate, the decoupling rod be tubular structure, the damping
Several partition boards are equipped in bar, the internal insulation of decoupling rod is gone out the chamber of several extending directions distributions along decoupling rod by the partition board
Body, the cavity is interior to be equipped with elastic diaphragm, and the cavity is divided into filled cavity and vacant chamber, the elasticity by the elastic diaphragm
Diaphragm is the bowl shaped structure to arch upward towards the filled cavity, and quicksand is filled in the filled cavity, is equipped with and increases in the filled cavity
The filled cavity is divided into the first filled cavity and the second filled cavity by baffle-wall, the increasing baffle-wall, and the increasing baffle-wall is equipped with connection the
The rubbing hole of one filled cavity and the second filled cavity, the vacant chamber are equipped with the stomata for penetrating through the decoupling rod, and the hanger bracket connects
Hanger bracket described in being connected to coating type heating arrangements further includes the connecting rod of the arc to arch upward upward or downward, and the one of the connecting rod
The other end with the horizontal shock-absorbing bar is held to link together, the coating type heating arrangements include swing rod, driving swing rod is swung
Balance staff, driving balance staff rotation wobble gear, forward drive gear, reverse drive gear, mesh together with wobble wheel
Tumbler gear and power input shaft, the forward drive gear and reverse drive gear are along the axial distribution of power input shaft and same
The power input shaft links together, and the forward drive gear and reverse drive gear are all sector gear, the forward direction
Drive gear meshes together with the wobble gear discontinuity, and the reverse drive gear is nibbled with the tumbler gear discontinuity
It is combined, when the forward drive gear meshes together with the wobble gear, the reverse drive gear changes with described
It is disconnected to gear, when the reverse drive gear meshes together with the tumbler gear, the forward drive gear is the same as described
Wobble gear disconnects, and the forward drive gear drives the angle of the wobble gear rotation and the reverse drive gear to pass through
The angle that the tumbler gear drives the wobble gear to rotate is equal, and the swing rod is equipped with and heat is driven to the connecting rod
Applicator head, the support plate be equipped with several support protrusions, the upper end of the support protrusion be connected with may be reversed it is opening down
And the sucker in the support protrusion is covered on, the container is by the sucker suction in the support plate.
2. suspension type according to claim 1 dissolves emulsifier unit, which is characterized in that the applicator head is annular, described
Applicator head is set in the connecting rod, and the fluid course along the circumferentially extending of applicator head, the liquid are equipped in the applicator head
The madial wall of circulation road is made for Heat Conduction Material.
3. suspension type according to claim 1 dissolves emulsifier unit, which is characterized in that the shearing blade includes what is be vertically arranged
Substrate, the substrate surface are equipped with several blades, and the substrate is equipped with sieve pore, and the sieve pore penetrates through the substrate.
4. suspension type according to claim 3 dissolves emulsifier unit, which is characterized in that the direction of the cutting edge of the blade is same
Centered on shaft line and by cutting edge cylinder it is tangent.
5. suspension type according to claim 1 dissolves emulsifier unit, which is characterized in that the container is equipped with observation panel, institute
It states and observation tube is connected in observation panel, spherical surface pit is equipped in the observation panel, the observation tube is equipped with spherical connector, described
Observation tube coordinates the spherical surface pit hinged with the observation panel spherical surface by the spherical connector.
Priority Applications (4)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201810452551.XA CN108607406B (en) | 2014-12-22 | 2014-12-22 | Suspension type dissolving and emulsifying device |
CN201410801501.XA CN105080374B (en) | 2014-12-22 | 2014-12-22 | Suspension type dissolves emulsifier unit |
CN201810453135.1A CN108579530B (en) | 2014-12-22 | 2014-12-22 | Suspension type dissolving and emulsifying device |
CN201810452583.XA CN108607374B (en) | 2014-12-22 | 2014-12-22 | Suspension type dissolving and emulsifying device |
Applications Claiming Priority (1)
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CN201410801501.XA CN105080374B (en) | 2014-12-22 | 2014-12-22 | Suspension type dissolves emulsifier unit |
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CN201810453135.1A Division CN108579530B (en) | 2014-12-22 | 2014-12-22 | Suspension type dissolving and emulsifying device |
CN201810452551.XA Division CN108607406B (en) | 2014-12-22 | 2014-12-22 | Suspension type dissolving and emulsifying device |
CN201810452583.XA Division CN108607374B (en) | 2014-12-22 | 2014-12-22 | Suspension type dissolving and emulsifying device |
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CN105080374A CN105080374A (en) | 2015-11-25 |
CN105080374B true CN105080374B (en) | 2018-07-06 |
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CN201410801501.XA Active CN105080374B (en) | 2014-12-22 | 2014-12-22 | Suspension type dissolves emulsifier unit |
CN201810453135.1A Active CN108579530B (en) | 2014-12-22 | 2014-12-22 | Suspension type dissolving and emulsifying device |
CN201810452583.XA Active CN108607374B (en) | 2014-12-22 | 2014-12-22 | Suspension type dissolving and emulsifying device |
CN201810452551.XA Expired - Fee Related CN108607406B (en) | 2014-12-22 | 2014-12-22 | Suspension type dissolving and emulsifying device |
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CN201810453135.1A Active CN108579530B (en) | 2014-12-22 | 2014-12-22 | Suspension type dissolving and emulsifying device |
CN201810452583.XA Active CN108607374B (en) | 2014-12-22 | 2014-12-22 | Suspension type dissolving and emulsifying device |
CN201810452551.XA Expired - Fee Related CN108607406B (en) | 2014-12-22 | 2014-12-22 | Suspension type dissolving and emulsifying device |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
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CN108607374A (en) * | 2014-12-22 | 2018-10-02 | 江山显进机电科技服务有限公司 | Suspension type dissolves emulsifier unit |
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Also Published As
Publication number | Publication date |
---|---|
CN108607374B (en) | 2020-09-11 |
CN108579530A (en) | 2018-09-28 |
CN105080374A (en) | 2015-11-25 |
CN108607374A (en) | 2018-10-02 |
CN108579530B (en) | 2020-10-20 |
CN108607406B (en) | 2020-10-30 |
CN108607406A (en) | 2018-10-02 |
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