CN116440790B

CN116440790B - Homogenizing valve for homogenizer

Info

Publication number: CN116440790B
Application number: CN202310680115.9A
Authority: CN
Inventors: 陈欣; 董贺存; 陈玉
Original assignee: Jiangsu Xicheng New Material Technology Co ltd
Current assignee: Zhongguancun Technology Leasing Co ltd
Priority date: 2023-06-09
Filing date: 2023-06-09
Publication date: 2023-08-29
Anticipated expiration: 2043-06-09
Also published as: CN116440790A

Abstract

The invention relates to the technical field of homogenizing valves, in particular to a homogenizing valve for a homogenizer, which comprises a material conveying mechanism, a progressive plugging mechanism and a material mixing mechanism, wherein the material conveying mechanism comprises a protection bin pipe and a sealing ring arranged at one end of an inner cavity of the protection bin pipe. The protection bin pipe is internally provided with the guide core pipe capable of gathering two fluid materials uniformly, when the valve column stretches outwards until the guide rod at the inner end of the valve column withdraws from the inner cavity of the guide core pipe, the two fluid materials conveyed to the inner part of the guide core pipe through the two feeding end pipes can be sequentially conveyed to the inside of the mixing bin, at the moment, one feeding end pipe far away from the mixing bin can quantitatively convey one fluid material from the annular gasket inserted into the slot at the top of the guide core pipe to the inside of the mixing bin, at the moment, the two fluid materials can be finally gathered in the inner cavity of the mixing bin, and the two fluid materials positioned in the inner cavity of the mixing bin can be conveyed towards the discharge pipe in a homogeneous mixing manner, so that the device can treat the two different fluid materials after being mixed homogeneously.

Description

Homogenizing valve for homogenizer

Technical Field

The invention relates to the technical field of homogenizing valves, in particular to a homogenizing valve for a homogenizer.

Background

The homogenizer is mainly used for tissue dispersion in the biotechnology field, sample preparation in the medicine field, enzyme treatment in the food industry, detection of pesticide residues and veterinary drug residues in food, and in the aspects of pharmaceutical industry, cosmetic industry, paint industry, petrochemical industry and the like, and the final homogenizing valve is used for high-pressure transferring materials.

The traditional homogenizing valve has strong singleness for treating the crushed fluid materials in a high-pressure state, and can not perform quantity-controlled mixing treatment on two or more fluid materials, and when the two fluid materials enter the inside of the homogenizing valve, the two materials in the mixed state are difficult to obtain active homogenizing mixing treatment.

Aiming at the limitation of single use of the existing homogenizing valve, how to improve the homogenizing mixing treatment of the homogenizing valve on the mixed fluid materials is the technical difficulty to be solved by the invention.

Disclosure of Invention

The present invention aims to solve one of the technical problems existing in the prior art or related technologies.

The technical scheme adopted by the invention is as follows:

the utility model provides a homogeneity valve for homogenizer, includes feeding mechanism, feeding mechanism includes progressive plugging mechanism and compounding mechanism, feeding mechanism includes protection bin pipe, installs two feed end pipes in protection bin pipe both sides, installs at the inside guide core pipe of protection bin pipe, connect at the inside spring assembly of protection bin pipe, lie in the cable in protection bin pipe inner chamber, movable mounting in the inside location baffle of protection bin pipe and connect the pressure spring between location baffle and protection bin pipe, compounding mechanism includes the feed mixing bin of installing in protection bin pipe other end, connects on protection bin pipe and compress tightly the swivel nut outside the feed mixing bin, utilizes bolted connection to cover at the swivel nut outer end, peg graft at the inside discharge tube of closing cap, install the protection overcoat on the closing cap, movable mounting screw shaft pole between feed mixing bin and discharge tube, movable mounting motor and transmission screw shaft pole in the protection overcoat and the chain on the motor.

The present invention may be further configured in a preferred example to: the inside of protection bin pipe has been seted up fan-shaped slotted hole, has retrained in the hole groove and two feeding cross holes of cable, and the sealing washer is installed to protection bin pipe inner chamber one end, the whole T font structure that is of feed end pipe, and installs the rubber packing ring on the lateral wall of feed end pipe inner chamber.

Through adopting above-mentioned technical scheme, utilize to communicate the pipeline and the two feed end pipes of two different fluid materials, when protection storehouse pipe used, the inner chamber of protection storehouse pipe just can form invariable high pressure state this moment, finally can promote two fluid materials through the inner chamber of guide core pipe, combines the grafting of protection storehouse pipe inner chamber middle part cross bore to two fluid materials, finally alright make two fluid materials carry out the accuse volume and gather together.

The present invention may be further configured in a preferred example to: two holes and slots are respectively formed in the two sides and the top of the guide core pipe, the inhaul cable is composed of an inhaul cable and a circular washer, the circular washer is adaptively inserted into the slot in the top of the guide core pipe, a valve column is inserted into one end of an inner cavity of the guide core pipe to be provided with a guide rod, one end, close to the guide core pipe, of the valve column is provided with an annular cushion block, and a groove for adapting, guiding and positioning the side turning of the baffle plate is formed in the annular cushion block.

Through adopting above-mentioned technical scheme, utilize to communicate two feed end pipes and guide core pipe inner chamber, after the guide arm outwards withdraws from guide core pipe inner chamber in the spool, the inner chamber of two feed end pipes can be followed and be linked together with guide core pipe cavity, and the cable of release just can impel the annular packing ring to peg graft fast in the slot at guide core pipe top, finally follow a feed end pipe transfer that keeps away from the blending bunker to the inside fluid material of guide core pipe can be by the transverse bore at annular packing ring middle part quantitative transfer.

The present invention may be further configured in a preferred example to: the progressive plugging mechanism comprises a joint end column arranged on one end of the protection bin pipe, a plurality of sealing bolts penetrating into the joint end column, a gasket positioned between the joint end column and the protection bin pipe, a valve column joint arranged in the joint end column and a valve column penetrating into the protection bin pipe.

The present invention may be further configured in a preferred example to: the anti-collision sealing gasket is arranged on the outer part of the mixing bin, annular grooves which are inwards sunken are formed in two ports, close to the protective outer sleeve, of the mixing bin and the discharging pipe, notch which is clamped on the anti-collision sealing gasket is formed in the outer wall, close to the threaded sleeve, of the mixing bin, one end of the threaded sleeve is connected with a threaded ferrule, and the whole cross section of the threaded sleeve is of a U-shaped structure.

Through adopting above-mentioned technical scheme, utilize to seal the pad with anticollision between blending bunker and swivel nut, after the swivel nut screw thread is installed in protection bin pipe one end, the swivel nut can be continuous to the pad of anticollision and exert pressure this moment until the interior transverse tube of blending bunker and the seamless butt joint of guide core pipe to the unified mixing treatment after having guaranteed two fluid materials and gathered together.

The present invention may be further configured in a preferred example to: the screw shaft also includes a gear end and a screw shaft.

Through adopting above-mentioned technical scheme, when the motor starts and operates, its axostylus axostyle end just can drive the motor and rotate, and movable mounting is at the blending bunker and arrange the spiral axostylus axostyle limit between the material pipe and can be driven in succession, runs through the spiral pole body to the blending bunker inner chamber at this moment and just carries out intensive mixing and quantitative outward transfer with two kinds of fluid materials.

By adopting the technical scheme, the beneficial effects obtained by the invention are as follows:

1. according to the invention, the protection bin pipe is arranged, the two feeding end pipes for connecting the drainage body materials are arranged in the transverse holes on two sides of the outer part of the protection bin pipe, the guide core pipe capable of gathering the two fluid materials uniformly is arranged in the protection bin pipe, when the valve column stretches outwards until the guide rod at the inner end of the valve column withdraws from the inner cavity of the guide core pipe, the two fluid materials conveyed into the guide core pipe through the two feeding end pipes can be sequentially conveyed into the mixing bin, at the moment, one feeding end pipe far away from the mixing bin can quantitatively convey one fluid material from the annular gasket inserted into the slot at the top of the guide core pipe into the mixing bin, at the moment, the two fluid materials can be finally gathered in the inner cavity of the mixing bin, and the two fluid materials positioned in the inner cavity of the mixing bin can be conveyed into the discharge pipe in a uniform mixing manner, so that the device can treat the two different fluid materials after being mixed uniformly.

2. According to the invention, the mixing bin for gathering two fluid materials is arranged at one end of the protection bin pipe far away from the joint end post, and the mixing bin is fixed by matching with the threaded sleeve and the sealing cover, at the moment, a guide pipe at one end of the mixing bin is communicated with the inner cavity of the guide core pipe, after the two fluid materials enter the inner cavity of the mixing bin, the motor in an operation state drives the protection jacket and the spiral shaft rod to rotate, at the moment, the two fluid materials mixed in the inner cavity of the mixing bin can be fully stirred and mixed, and finally, the two fluid materials mixed can be uniformly transferred.

Drawings

FIG. 1 is a schematic illustration of the present invention in use;

FIG. 2 is a schematic view of a progressive plugging mechanism according to the present invention;

FIG. 3 is a schematic view of a feed mechanism according to the present invention;

FIG. 4 is an internal schematic view of FIG. 3 according to the present invention;

FIG. 5 is an internal schematic view of FIG. 4 according to the present invention;

FIG. 6 is a schematic diagram of a mixing mechanism according to the present invention;

fig. 7 is an internal schematic view of fig. 6 according to the present invention.

Reference numerals:

100. a material conveying mechanism; 110. a protective bin tube; 120. a seal ring; 130. a feed end tube; 140. a guide core pipe; 150. a spring assembly; 160. a guy cable; 170. positioning a baffle; 180. a pressure spring;

200. a progressive plugging mechanism; 210. a joint end post; 220. a sealing bolt; 230. a gasket; 240. a spool joint; 250. a spool;

300. a mixing mechanism; 310. a mixing bin; 320. an anti-collision sealing pad; 330. a screw sleeve; 340. a cover; 350. a discharge pipe; 360. a protective outer jacket; 370. a screw shaft lever; 380. a motor; 390. and (3) a chain.

Detailed Description

The objects, technical solutions and advantages of the present invention will become more apparent by the following detailed description of the present invention with reference to the accompanying drawings. It should be noted that, without conflict, the embodiments of the present invention and features in the embodiments may be combined with each other.

It is to be understood that this description is merely exemplary in nature and is not intended to limit the scope of the present invention.

A homogenizing valve for a homogenizer according to some embodiments of the present invention is described below with reference to the accompanying drawings.

Embodiment one:

referring to fig. 1 to 7, the homogenizing valve for a homogenizer provided by the invention comprises a material conveying mechanism 100, a progressive plugging mechanism 200 and a material mixing mechanism 300, wherein the progressive plugging mechanism 200 is arranged on the material conveying mechanism 100, and the material mixing mechanism 300 is arranged on the material conveying mechanism 100.

The delivery mechanism 100 includes a protection bin tube 110, a sealing ring 120, a feed end tube 130, a guide core tube 140, a spring assembly 150, a guy cable 160, a positioning separator 170, and a compression spring 180, the progressive plugging mechanism 200 includes a joint end post 210, a sealing bolt 220, a gasket 230, a spool joint 240, and a spool 250, and the mixing mechanism 300 includes a mixing bin 310, an anti-collision sealing pad 320, a screw sleeve 330, a cover 340, a discharge tube 350, a protection jacket 360, a screw shaft 370, a motor 380, and a chain 390.

Specifically, the sealing ring 120 is installed at one end of the inner cavity of the protection bin pipe 110, the two feeding end pipes 130 are installed at two sides of the protection bin pipe 110, the guide core pipe 140 is installed inside the protection bin pipe 110, the spring assembly 150 is connected inside the protection bin pipe 110, the guy cable 160 is located in the inner cavity of the protection bin pipe 110, the positioning partition 170 is movably installed inside the protection bin pipe 110, the pressure spring 180 is connected between the positioning partition 170 and the protection bin pipe 110, the joint end post 210 is installed at one end of the protection bin pipe 110, the plurality of sealing bolts 220 penetrate into the joint end post 210, the gaskets 230 are located between the joint end post 210 and the protection bin pipe 110, the valve post joint 240 is installed inside the joint end post 210, the valve post 250 penetrates into the protection bin pipe 110, the mixing bin 310 is installed inside the other end of the protection bin pipe 110, the anti-collision sealing gasket 320 is located outside the mixing bin 310, the screw sleeve 330 is connected to the protection bin 110 and is pressed outside the mixing bin 310, the sealing cap 340 is connected to the outer end of the screw sleeve 330 by bolts, the discharge pipe is inserted into the sealing cap 340, the motor housing 360 is installed on the motor housing 340, the screw shaft rod 340 is installed on the screw shaft 380 and the screw cap 380 is movably installed between the screw cap 380 and the screw cap 360, and the transmission housing 370 is movably installed inside the transmission housing and the transmission shaft 370.

By utilizing the guide core pipe 140 which can uniformly gather two fluid materials in the interior of the protection bin pipe 110, when the valve column 250 stretches outwards until the inner guide rod is withdrawn from the inner cavity of the guide core pipe 140, the two fluid materials which are transferred to the interior of the guide core pipe 140 through the two feed end pipes 130 can be sequentially transferred to the interior of the mixing bin 310, at the moment, one feed end pipe 130 which is far away from the mixing bin 310 can quantitatively transfer one fluid material from the annular gasket which is inserted into the slot at the top of the guide core pipe 140 to the mixing bin 310, at the moment, the two fluid materials can be finally gathered in the inner cavity of the mixing bin 310, the two fluid materials which are positioned in the inner cavity of the mixing bin 310 can be transferred to the discharge pipe 350 in a homogeneous mixing way, meanwhile, the screw sleeve 330 and the sealing cover 340 are matched for fixing the mixing bin 310, at the moment, after the two fluid materials enter the inner cavity of the mixing bin 310, the motor 380 in the running state can drive the protection sleeve 360 and the screw sleeve 370 to rotate, the two fluid materials can be finally transferred to the shaft rod to the mixing bin 310, and the two fluid materials can be fully mixed after being processed.

Embodiment two:

referring to fig. 2 to 5, on the basis of the first embodiment, a fan-shaped slot hole, a slot constrained to the guy cable 160, and two feeding transverse holes are formed in the protective bin tube 110, the feeding end tube 130 is integrally in a T-shaped structure, and a rubber gasket is mounted on the side wall of the inner cavity of the feeding end tube 130.

By communicating the two pipelines of different fluid materials with the two feeding end pipes 130, when the protection bin pipe 110 is used, the inner cavity of the protection bin pipe 110 can form a constant high-pressure state, and finally the two fluid materials can be pushed through the inner cavity of the guide core pipe 140, and the two fluid materials can be collected by combining the transverse holes in the middle of the inner cavity of the protection bin pipe 110, so that the two fluid materials can be collected in a controlled quantity finally.

Embodiment III:

referring to fig. 2-5, on the basis of the first embodiment, two holes and slots are respectively formed on two sides and the top of the guide core tube 140, the stay cable 160 is composed of a stay cable and a circular washer, the circular washer is adapted to be inserted into the slot on the top of the guide core tube 140, the valve column 250 is inserted into one end of the inner cavity of the guide core tube 140 to install a guide rod, one end of the valve column 250, which is close to the guide core tube 140, is provided with an annular cushion block, and a groove adapted to guide the side turning of the positioning partition 170 is formed in the annular cushion block.

By communicating the two feeding end pipes 130 with the inner cavity of the guide core pipe 140, after the guide rod in the valve column 250 withdraws from the inner cavity of the guide core pipe 140, the inner cavities of the two feeding end pipes 130 are communicated with the inner cavity of the guide core pipe 140 successively, and the released inhaul cable can promote the circular washer to be inserted into the slot at the top of the guide core pipe 140 rapidly, and finally, a fluid material transferred from one feeding end pipe 130 far away from the mixing bin 310 to the inside of the guide core pipe 140 can be quantitatively transferred by the transverse hole in the middle of the circular washer.

Embodiment four:

referring to fig. 6 and 7, on the basis of the first embodiment, two ports of the mixing bin 310 and the discharging pipe 350, which are close to the protective jacket 360, are respectively provided with an inward concave ring groove, the outer wall of the mixing bin 310, which is close to the screw sleeve 330, is provided with a notch clamped on the anti-collision sealing pad 320, one end of the screw sleeve 330 is connected with a threaded ferrule, the whole section of the screw sleeve 330 is in a U-shaped structure, and the screw shaft lever 370 further comprises a gear end and a screw rod.

By arranging the anti-collision sealing gasket 320 between the mixing bin 310 and the screw sleeve 330, after the screw sleeve 330 is arranged at one end of the protection bin pipe 110 in a threaded manner, the screw sleeve 330 can continuously press the anti-collision sealing gasket 320 until the transverse pipe at the inner end of the mixing bin 310 is in seamless joint with the guide core pipe 140, finally two fluid materials can enter the mixing bin 310, when the motor 380 is started and operated, the shaft rod end of the motor 380 can drive the motor 380 to rotate, the side of the screw rod 370 movably arranged between the mixing bin 310 and the discharge pipe 350 can be continuously driven, and at the moment, the screw rod body penetrating through the inner cavity of the mixing bin 310 can fully mix the two fluid materials and quantitatively transfer the two fluid materials outwards.

The working principle and the using flow of the invention are as follows: the sealing cap 340 is assembled at the outer end of the screw sleeve 330 by a plurality of bolts in advance, at this time, the discharging pipe 350 is clamped at the inner side of the screw sleeve 330 by the sealing cap 340, then the discharging pipe 350 and the mixing bin 310 are connected by penetrating the end pipe of the inner cavity of the screw sleeve 330 by the screw shaft rod 370, at this time, the screw shaft rod of the screw shaft 370 penetrates into the mixing bin 310, then the joint of the combined discharging pipe 350 and the mixing bin 310 is clamped by one end of the protective sleeve 360, at this time, the gear end of the screw shaft 370 is positioned in the inner cavity of the protective sleeve 360, the other end of the protective sleeve 360 penetrates to the outside of the sealing cap 340, at this time, the end of the shaft rod of the motor 380 is movably mounted in the protective sleeve 360, the end of the shaft rod of the motor 380 and the gear end of the screw shaft 370 are driven by the protective sleeve 360, and the motor 380 is inserted into the casing outside the protective bin 110 and fixed by the screw, the guide core pipe 140 is installed in the transverse hole in the middle of the inner cavity of the protection bin pipe 110, the inner ends of the two feeding end pipes 130 penetrate into the protection bin pipe 110 and are communicated with the inner cavity of the guide core pipe 140, then the positioning baffle 170 is movably installed in the fan-shaped slotted hole in the protection bin pipe 110, the positioning baffle 170 is connected with the inner wall of the protection bin pipe 110 by the pressure spring 180, at the moment, the positioning baffle 170 is outwards expanded under the elastic supporting action of the pressure spring 180, the stay cable 160 connected to the top end of the positioning baffle 170 penetrates into the hole groove in the protection bin pipe 110, the annular gasket at one end of the stay cable 160 far away from the positioning baffle 170 is inserted into the vertical groove at the top of the guide core pipe 140, when the two feeding pipes are respectively connected to the outer ends of the two feeding end pipes 130, the valve column 250 is outwards expanded, the guide rod outwards withdraws from the inner cavity of the guide core pipe 140 along with the inner end of the valve column 250, the feeding pipe connected to the two feeding pipes 130 can transfer the material components to the inner cavity of the guide core pipe 140, when the annular cushion block at one end of the valve column 250 near the guide core pipe 140 is pushed by the annular cushion block near the bottom end of the positioning baffle 170, the top of the positioning baffle 170 is turned over, the inhaul cable 160 is loosened, the annular gasket inserted in the slot at the top of the guide core pipe 140 by the inhaul cable 160 is quickly inserted in the middle part of the inner cavity of the guide core pipe 140, one feeding pipe 130 near the mixing bin 310 can transfer the first material into the inner cavity of the mixing bin 310 in advance, the other material transferred through the other feeding pipe 130 and transferred along the middle hole of the annular gasket towards the inner cavity of the mixing bin 310 can be transferred into the inner cavity of the mixing bin 310 in a controlled amount, the motor 380 can drive the protective sleeve 360 and the spiral shaft 370 to quickly rotate along with the operation of the motor 380, and the material transferred through the spiral shaft 370 is finally transferred from the inner part of the discharging pipe 350 in an outward direction, and the two materials can be transferred in a homogeneous and mixed amount under a high pressure state.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the spirit and scope of the invention as defined by the appended claims and their equivalents.

Claims

1. The homogenizing valve for the homogenizer is characterized by comprising a material conveying mechanism (100), wherein a progressive blocking mechanism (200) and a material mixing mechanism (300) are arranged on the material conveying mechanism (100);

the material conveying mechanism (100) comprises a protection bin pipe (110), two feeding end pipes (130) arranged on two sides of the protection bin pipe (110), a material guide core pipe (140) arranged inside the protection bin pipe (110), a spring assembly (150) and a inhaul cable (160), a positioning baffle plate (170) movably arranged inside the protection bin pipe (110) and a pressure spring (180) connected between the positioning baffle plate (170) and the protection bin pipe (110);

the progressive plugging mechanism (200) comprises a joint end post (210) arranged at one end of the protection bin pipe (110), a plurality of sealing bolts (220) penetrating into the joint end post (210), a gasket (230) positioned between the joint end post (210) and the protection bin pipe (110), a valve post joint (240) arranged in the joint end post (210) and a valve post (250) penetrating into the protection bin pipe (110), wherein the valve post (250) is inserted into one end of an inner cavity of the guide core pipe (140) to be provided with a guide rod, one end of the valve post (250) close to the guide core pipe (140) is provided with an annular cushion block, and the annular cushion block is provided with a groove for adapting to guide and positioning the baffle plate (170) to turn on one side;

the mixing mechanism (300) comprises a mixing bin (310) arranged in the other end of the protection bin pipe (110), a threaded sleeve (330) connected to the protection bin pipe (110) and pressed outside the mixing bin (310), a sealing cover (340) connected to the outer end of the threaded sleeve (330) by bolts, a discharging pipe (350) inserted into the sealing cover (340), a protection jacket (360) arranged on the sealing cover (340), a spiral shaft lever (370) movably arranged between the mixing bin (310) and the discharging pipe (350), a motor (380) movably arranged in the protection jacket (360) and a chain (390) for driving the spiral shaft lever (370) and the motor (380);

two holes and slots are respectively formed in the two sides and the top of the guide core pipe (140), the inhaul cable (160) consists of an inhaul cable and a circular washer, and the circular washer is adaptively inserted into the slot in the top of the guide core pipe (140);

after an annular cushion block near one end of a guide core pipe (140) of a valve column (250) contacts with the bottom end of a positioning baffle plate (170), the top of the positioning baffle plate (170) is pushed by the annular cushion block to turn over, a pull rope (160) is loosened, the pull rope (160) is inserted into a circular ring-shaped gasket in a slot at the top of the guide core pipe (140) to be quickly inserted into the middle part of an inner cavity of the guide core pipe (140), one feeding end pipe (130) near a mixing bin (310) is used for transferring one type of material into the inner cavity of the mixing bin (310) in advance, the material is transferred through the other feeding end pipe (130), and the other type of material is transferred towards the inner cavity of the mixing bin (310) along a hole at the middle part of the circular ring-shaped gasket, so that the amount is controlled to be transferred into the inner cavity of the mixing bin (310).

2. The homogenizing valve for the homogenizer according to claim 1, wherein a fan-shaped slot hole, a slot constrained to the stay rope (160) and two feeding transverse holes are formed in the protective bin tube (110), and a sealing ring (120) is installed at one end of the inner cavity of the protective bin tube (110).

3. The homogenizing valve for the homogenizer according to claim 1, wherein the feeding end pipe (130) has a T-shaped structure as a whole, and a rubber gasket is installed on a side wall of an inner cavity of the feeding end pipe (130).

4. The homogenizing valve for the homogenizer according to claim 1, wherein an anti-collision sealing pad (320) is installed at the outer part of the mixing bin (310), annular grooves which are concave inwards are formed in two ports, close to the protective jacket (360), of the mixing bin (310) and the discharging pipe (350), and notches which are clamped on the anti-collision sealing pad (320) are formed in the outer wall, close to the screw sleeve (330), of the mixing bin (310).

5. The homogenizing valve for the homogenizer according to claim 1, wherein one end of the screw sleeve (330) is connected with a threaded ferrule, and the entire cross section of the screw sleeve (330) is in a U-shaped structure.

6. A homogenizer valve according to claim 1, wherein the screw shaft (370) further comprises a gear head and a screw shaft.