CN209406224U - High pressure homogenizer with radiator - Google Patents
High pressure homogenizer with radiator Download PDFInfo
- Publication number
- CN209406224U CN209406224U CN201822170697.3U CN201822170697U CN209406224U CN 209406224 U CN209406224 U CN 209406224U CN 201822170697 U CN201822170697 U CN 201822170697U CN 209406224 U CN209406224 U CN 209406224U
- Authority
- CN
- China
- Prior art keywords
- radiator
- heating device
- high pressure
- pressure homogenizer
- homogeneous chamber
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Expired - Fee Related
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Abstract
The utility model discloses a kind of high pressure homogenizer with radiator, it is related to the technical field of high pressure homogenizer, it includes shell, high-pressure homogeneous chamber and booster body are provided in the shell, it further include the radiator to radiate to high-pressure homogeneous chamber, the radiator includes the heating device for the heat that the acquisition high-pressure homogeneous chamber is distributed, radiator and the fan dried to radiator, the heating device and the radiator pass through flexible hose connection, water pump is provided on the pipeline of the flexible hose, the radiator, full coolant liquid is filled in heating device and flexible hose.The utility model has the effect of that radiating and cooling can be carried out to high-pressure homogeneous chamber.
Description
Technical field
The utility model relates to the technical fields of high pressure homogenizer, equal more particularly, to a kind of high pressure with radiator
Matter machine.
Background technique
High pressure homogenizer is using reciprocating pump as the mechanism of power transmission material, is the solid of carrier by liquid material or liquid
Particle is transported to high-pressure homogeneous chamber, the effects of by shearing, shock, hole, turbulent flow spiral, obtains liquid material etc. ultra tiny
The state changed and uniformly mixed, is then sent to next process again.By can be improved after homogenizing process product the uniformity and
Stability increases retention period, reduces the reaction time to save a large amount of catalyst or additive etc., moreover it is possible to change the thick of product
Degree, the taste for improving product and color etc., are therefore widely used in the production and processing of the industries such as food, dairy products, beverage.
Existing Authorization Notice No. is that the patent document of CN203408642U discloses a kind of high pressure homogenizer, including machine
Case, upper cover, electric cabinet, reciprocating pump, pressure gauge and control handwheel, electric cabinet are mounted on cabinet, and chassis bottom side is equipped with
The mouth of a river;Reciprocating pump is mounted in cabinet, and reciprocating pump is connect with electric cabinet;Control handwheel is mounted on reciprocating pump and is exposed to cabinet
Outside;Reciprocating pump is equipped with pressure transmission cylinder, and pressure gauge is mounted on pressure transmission cylinder and is exposed to outside cabinet;Reciprocating pump side be equipped with
The feed inlet of water outlet connection;Gland of the reciprocating pump by the reciprocating pump nut of its side and above is fixed on cabinet inside;?
The subsequent top of reciprocating pump is equipped with upper cover, and upper cover is connected and fixed with enclosure top.
But high pressure homogenizer is in use, the high-pressure homogeneous intracavitary high-speed impact that liquid occurs, the energy of consumption
It is huge, and homogenization pressure is higher, and calorific value is then bigger, and high temperature will affect the homogenizing effect of material.So if wanting to increase homogeneous
Pressure improves homogenizing effect, then needs to apply high-pressure homogeneous chamber certain cooling measure.
Utility model content
The purpose of the utility model is to provide a kind of high pressure homogenizers with radiator, and having can be equal to high pressure
The effect of matter chamber progress radiating and cooling.
The above-mentioned purpose of the utility model has the technical scheme that
A kind of high pressure homogenizer with radiator, including shell, be provided in the shell high-pressure homogeneous chamber and
Booster body, further includes the radiator to radiate to high-pressure homogeneous chamber, and the radiator includes that the acquisition high pressure is equal
Heating device, radiator and the fan dried to radiator for the heat that matter chamber is distributed, the heating device and the radiator
By flexible hose connection, water pump, the radiator, heating device and flexible hose are provided on the pipeline of the flexible hose
It is interior to fill full coolant liquid.
By using above-mentioned technical proposal, the heat that high-pressure homogeneous chamber distributes is acquired and is passed to coolant liquid by heating device,
Coolant liquid is transported in radiator by water pump.When the coolant liquid of high temperature is in radiator, radiator will be in coolant liquid
Heat is dispersed into environment.The natural heat-exchange of radiator is changed into heat convection after fan blowing, is improved at radiator
Heat transfer rate.Coolant liquid is flow back into collector again after radiator, adopts heat again.
The utility model is further arranged to: the radiator is end to end curved including being bent into several serpentines
The metal tube of shape.
By using above-mentioned technical proposal, the metal tube constantly to turn back increases the contact area with air, and then improves
Radiating rate;Length of flow of the coolant liquid of high temperature in radiator is increased simultaneously, increases the heat dissipation of the coolant liquid of high temperature
Time.
The utility model is further arranged to: it is thermally conductive to be provided with several between the adjacent metal pipe-wall of the radiator
Fin, the direction of the heat-conducting fins are parallel with the blowing direction of the fan.
By using above-mentioned technical proposal, heat-conducting fins can be improved the radiating rate of radiator, while blow out in fan
Wind quickly the air of high temperature can be blown away, avoid the air of high temperature from accumulating at radiator.
The utility model is further arranged to: the outer profile of the radiator is rounded, and the foreign steamer of the radiator
Wide diameter is equal with the diameter of fan.
By using above-mentioned technical proposal, the wind blown out in fan can be acted on just on a heat sink completely, improve wind
The utilization rate of fan.
The utility model is further arranged to: the shell offers rounded opening, and the radiator is located at opening
In and be fixedly linked with shell.
By using above-mentioned technical proposal, radiator can be made to contact with external environment, and do not needed equal in high pressure
Additional fixed structure is set outside matter machine.
The utility model is further arranged to: the fan be fixedly connected on the outside of the shell and with the heat dissipation
Device is opposite.
By using above-mentioned technical proposal, the heat blowout that the wind of fan blowout directly distributes radiator is high-pressure homogeneous
Machine.
The utility model is further arranged to: the heating device includes the gold being spirally wound on the outer wall of high-pressure homogeneous chamber
Belong to pipe.
By using above-mentioned technical proposal, increases the contact area of heating device and high-pressure homogeneous chamber, improve heating device
Adopt heat.
The utility model is further arranged to: the heating device is weldingly connected with the high-pressure homogeneous chamber.
By using above-mentioned technical proposal, the heat that high-pressure homogeneous chamber distributes can be directly transferred on heating device, be improved
Heating device adopts the thermal efficiency.
In conclusion the advantageous effects of the utility model are as follows:
1. can be cooled down to high-pressure homogeneous chamber, and then can be improved the equal of high-pressure homogeneous chamber by setting radiator
Matter pressure and operating time;
2. increasing the heat dissipation area of radiator by the radiator of setting bending forming, improving radiating rate, improve
The utilization rate of fan;
3. the heating device being spirally wound on outside high-pressure homogeneous chamber by setting increases the contact of heating device and high-pressure homogeneous chamber
Area, improve heating device adopts heat.
Detailed description of the invention
Fig. 1 is the isometric test chart of the high pressure homogenizer with radiator;
Fig. 2 is the schematic diagram of internal structure 1 of the high pressure homogenizer with radiator;
Fig. 3 is the schematic diagram of internal structure 2 of the high pressure homogenizer with radiator;
Fig. 4 is the structural schematic diagram of radiator.
In figure, 1, shell;11, bottom plate;12, side plate;121, ventilation opening;13, top cover;2, booster body;21, motor;22,
Crankcase;221, support rod;222, push rod;231, small belt pulley;232, big belt pulley;233, belt;24, force (forcing) pump;241,
Feed pipe;242, conduit;3, high-pressure homogeneous chamber;31, pressure regulation handle;32, discharge nozzle;33, fixing seat;4, radiator;41, it adopts
Hot device;42, radiator;43, heat-conducting fins;44, fan;45, water pump;46, flexible hose.
Specific embodiment
The utility model is described in further detail below in conjunction with attached drawing.
Referring to Fig. 1 and Fig. 2, a kind of high pressure homogenizer with heat dissipation disclosed by the utility model, shell 1 and is located at outer
Booster body 2 and high-pressure homogeneous chamber 3 inside shell 1.
Shell 1 includes the bottom plate 11 of horizontally disposed rectangle, positioned at the upper surface of bottom plate 11, is distinguished along four sides of bottom plate 11
It is welded with the side plate 12 being vertically arranged.Four blocks of side plates 12 weld the top surrounded in rectangle, positioned at side plate 12 and are placed with rectangle
Top cover 13, the closure of openings that top cover 13 can surround four blocks of side plates 12.
Booster body 2 includes motor 21, crankcase 22 and force (forcing) pump 24.Motor 21 is bolted on bottom plate 11
The output shaft key connection of upper surface, motor 21 has small belt pulley 231.
Crankcase 22 and force (forcing) pump 24 are bolted on respectively on two opposite side plates 12, and crankcase 22 is flat
Row is arranged in motor 21.The lower section of crankcase 22 is provided with two vertical support rods 221, the both ends point of support rod 221
It is not weldingly connected with crankcase 22 and bottom plate 11.Main shaft in crankcase 22 stretched out horizontally outward from crankcase 22 and with electricity
The axis of machine 21 is parallel.The axle body key connection that main shaft stretches out crankcase 22 has a big belt pulley 232, and big belt pulley 232 with it is small
Belt pulley 231 is opposite.The belt 233 of transmission is wound on big belt pulley 232 and small belt pulley 231.From crankcase 22 to
24 side of force (forcing) pump has protruded horizontally up three push rods 222, and three push rods 222 are located in the same horizontal plane.Push rod 222 and song
The sliding of axle box 22 is connected.When motor 21 rotates, driving spindle is rotated, and then driving push rod 222 is past along the axis direction of push rod 222
It is multiple mobile.
Referring to figs. 2 and 3, three push rods 222 extend into force (forcing) pump 24 and are connected with the sliding of force (forcing) pump 24.Work as push rod
222 move back and forth, and will generate pressure effect to force (forcing) pump 24.The bottom end of force (forcing) pump 24 is welded with the feed pipe of connection force (forcing) pump 24
241, feed pipe 241 is protruding from side wall.The outlet of force (forcing) pump 24 is welded with the conduit 242 of connection force (forcing) pump 24.Positioned at leading
Pipe 242 is welded and connected with high-pressure homogeneous chamber 3 away from one end of force (forcing) pump 24, and joins inside conduit 242 and high-pressure homogeneous chamber 3
It is logical.Solution enters in force (forcing) pump 24 through feed pipe 241, then pressurized to be pushed in high-pressure homogeneous chamber 3.High-pressure homogeneous chamber 3
In cylindrical body, axis horizontal setting.Have in the sidewall weld of high-pressure homogeneous chamber 3 with high-pressure homogeneous 3 connection of chamber and upwards from top
Lid 13 is through the discharge nozzle 32 stretched out.Solution is discharged after processing in high-pressure homogeneous chamber 3 from discharge nozzle.In high-pressure homogeneous chamber 3
It is rotatably connected to pressure regulation handle 31 away from one end of conduit 242, pressure regulation handle 31 penetrates through side adjacent thereto and axially opposing
Plate 12 and with the side plate 12 revolution be connected.On the side plate 12 where force (forcing) pump 24, and in the position opposite with high-pressure homogeneous chamber 3
The place of setting is provided with the fixing seat 33 of fixed high-pressure homogeneous chamber 3.Fixing seat 33 is " u "-shaped plate.The both ends of the U-shaped mouth of fixing seat 33 with
The outer wall of high-pressure homogeneous chamber 3 is weldingly connected, and the U-shaped mouth bottom of fixing seat 33 is bolted on opposite side plate 12.It is high
Pressure homogeneous chamber 3 is homogenize the core component of work.
Referring to Fig. 1 and Fig. 3, radiator 4 is additionally provided with inside shell 1.Radiator 4 includes that acquisition is high-pressure homogeneous
Collector, radiator 42 and the fan 44 dried to radiator 42 for the heat that chamber 3 is distributed.
Heating device 41 includes the metal tube being spirally wound on the outer wall of high-pressure homogeneous chamber 3, the tube wall and height of heating device 41
The outer wall of pressure homogeneous chamber 3 is weldingly connected.The heat that high-pressure homogeneous chamber 3 is radiated can be directly transferred on heating device 41.
Positioned at pressure regulation handle 31 the center of perforative side plate 12 offer circular ventilation opening 121, and fan 44 is logical
Cross the outside that bolt is fixed on the side plate 12.Fan 44 and ventilation opening 121 are opposite, and the diameter of fan 44 and ventilation opening 121
Diameter be adapted, and then reach the peak use rate of fan 44.The blowing direction of fan 44 is away from 44 place side plate of fan
12 direction.
In conjunction with Fig. 4, radiator 42 is set in ventilation opening 121.Radiator 42 includes that bending is in several serpentine head and the tail phases
The metal tube of curve shape even, and the outer profile of radiator 42 is in circle compatible with ventilation opening 121, and then will heat dissipation
The inner wall of device 42 and ventilation opening 121 is weldingly connected the fixation realized to radiator 42.It is adjacent in any two of radiator 42
Several heat-conducting fins 43 are welded between tube body, heat-conducting fins 43 are parallel to the blowing direction setting of fan 44.Thermally conductive rib
Contact area of the piece 43 to increase radiator 42 Yu air improves radiating efficiency.
The water pump 45 being bolted is additionally provided in the upper surface of bottom plate 11.One of nozzle of heating device 41 with
One of nozzle of radiator 42 is connected by flexible hose 46;Another nozzle of heating device 41 and the entrance of water pump 45
It is connected by flexible hose 46;Another nozzle of radiator 42 is connected with the outlet of water pump 45 by flexible hose 46.
The junction that flexible hose 46 is connected with water pump 45, heating device 41 and radiator 42 is fixed using pipe collar.
Full coolant liquid is filled in heating device 41, radiator 42 and flexible hose 46.When the work of water pump 45, coolant liquid meeting
It is circulated between heating device 41, radiator 42.
In homogenizer work, high-pressure homogeneous chamber 3 distributes heat and is absorbed by heating device 41, and the heat that heating device 41 absorbs passes
Lead the coolant liquid being located in heating device 41.When water pump 45 works, coolant liquid starts to flow and be moved to the coolant liquid of high temperature
At radiator 42.At radiator 42, heat is conducted on the metal tube of radiator 42 by coolant liquid.The work of fan 44 Shi Huixiang
Away from a cross air blasting of the side plate 12 where fan 44, negative pressure is generated at radiator 42, and then can will be at radiator 42
Hot-air siphons away.Under the action of the forced-convection heat transfer that fan 44 is dried and is generated, radiator 42 is largely dissipated into environment
Heat.After coolant liquid cools down at radiator 42, continues flowing under the action of water pump 45 and be returned at heating device 41, reuptake
The heat of the be conducted to coolant liquid of heating device 41.It is thusly-formed circulation, is constantly cooled down to high-pressure homogeneous chamber 3.
The embodiment of present embodiment is the preferred embodiment of the utility model, and not limitation is originally practical new according to this
The protection scope of type, therefore: the equivalence changes that all structures, shape, principle according to the utility model are done should all be covered by practical
Within novel protection scope.
Claims (8)
1. a kind of high pressure homogenizer with radiator, including shell (1), the shell (1) is interior to be provided with high-pressure homogeneous chamber
(3) and booster body (2), it is characterised in that: it further include the radiator (4) to radiate to high-pressure homogeneous chamber (3), it is described
Radiator (4) include the heating device (41) for acquiring the heat that the high-pressure homogeneous chamber (3) is distributed, radiator (42) and to
The fan (44) of radiator (42) blowing, the heating device (41) and the radiator (42) pass through flexible hose (46) connection,
It is provided with water pump (45) on the pipeline of the flexible hose (46), the radiator (42), heating device (41) and flexible hose
(46) full coolant liquid is filled in.
2. the high pressure homogenizer according to claim 1 with radiator, it is characterised in that: radiator (42) packet
Include the metal tube for being bent into the end to end curve form of several serpentines.
3. the high pressure homogenizer according to claim 2 with radiator, it is characterised in that: the radiator (42)
Several heat-conducting fins (43), the direction of the heat-conducting fins (43) and the fan are provided between adjacent metal pipe-wall
(44) blowing direction is parallel.
4. the high pressure homogenizer according to claim 3 with radiator, it is characterised in that: the radiator (42)
Outer profile is rounded, and the diameter of the outer profile of the radiator (42) is equal with the diameter of fan (44).
5. the high pressure homogenizer according to claim 4 with radiator, it is characterised in that: the shell (1) opens up
There is rounded opening, the radiator (42) is located in opening and is fixedly linked with shell (1).
6. the high pressure homogenizer according to claim 5 with radiator, it is characterised in that: the fan (44) is fixed
It is connected to the outside of the shell (1) and opposite with the radiator (42).
7. the high pressure homogenizer according to claim 1 with radiator, it is characterised in that: heating device (41) packet
Include the metal tube being spirally wound on the outer wall of high-pressure homogeneous chamber (3).
8. the high pressure homogenizer according to claim 7 with radiator, it is characterised in that: the heating device (41) with
The high-pressure homogeneous chamber (3) is weldingly connected.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201822170697.3U CN209406224U (en) | 2018-12-22 | 2018-12-22 | High pressure homogenizer with radiator |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201822170697.3U CN209406224U (en) | 2018-12-22 | 2018-12-22 | High pressure homogenizer with radiator |
Publications (1)
Publication Number | Publication Date |
---|---|
CN209406224U true CN209406224U (en) | 2019-09-20 |
Family
ID=67940114
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201822170697.3U Expired - Fee Related CN209406224U (en) | 2018-12-22 | 2018-12-22 | High pressure homogenizer with radiator |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN209406224U (en) |
-
2018
- 2018-12-22 CN CN201822170697.3U patent/CN209406224U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20190920 Termination date: 20201222 |