CN113522391A

CN113522391A - Knockout for chemical analysis detects

Info

Publication number: CN113522391A
Application number: CN202110787383.1A
Authority: CN
Inventors: 刘国栋
Original assignee: Zhifu Shanghai Technology Co ltd
Current assignee: Zhifu Shanghai Technology Co ltd
Priority date: 2021-07-13
Filing date: 2021-07-13
Publication date: 2021-10-22
Anticipated expiration: 2041-07-13
Also published as: CN113522391B

Abstract

The invention discloses a liquid separator for chemical analysis and detection, which comprises a liquid separating cylinder, scales, a liquid outlet pipe, a first control valve, an air outlet pipe, a second control valve, a liquid adding structure and a pneumatic pressure adjusting structure, wherein the liquid adding structure is optimally arranged, when the liquid separating cylinder inclines, a screw head can be rotated to enable a worm to drive a special-shaped worm wheel to rotate, a shaft lever on the middle side of the special-shaped worm wheel drives an outer ring seat to rotate on the outer side of a cylinder column through a connector, so that the outer ring seat is adjusted to be horizontal to the ground, a funnel is stably placed under the support of a lug, and the stability of the funnel after being placed is further improved through the wrapping of a sleeve block; the pneumatic adjusting structure is set through optimization, when the support plate is located at the top side, the top end face of the limit column is arranged at the bottom end part inside the small spring, when the support plate is located at the bottom side, the small spring wraps the outer side of the limit column, the bottom end part of the small spring is in contact with the sealing rubber head, the pressure of the sealing rubber head when the sealing rubber head needs to move is improved when the small spring is in contact, and the air passage is opened when the pneumatic pressure is controlled to reach a certain degree according to needs.

Description

Knockout for chemical analysis detects

Technical Field

The invention relates to the field related to chemical analysis and detection, in particular to a liquid distributor for chemical analysis and detection.

Background

In the chemical detection test process, liquid is often required to be separated by using a liquid separator, the structure of the liquid separator generally comprises a liquid storage bottle, a liquid outlet pipeline and a valve, and the flow of the liquid can be controlled by the valve, so that the liquid is separated.

However, the liquid distributor for chemical analysis and detection in the prior art has a relatively simple structure, the liquid adding is inconvenient to place on the funnel in the inclined heating process, the required pressure in the funnel is inconvenient to control, and the atomized gas is discharged and collected after the pressure reaches a certain degree.

Disclosure of Invention

Accordingly, in order to solve the above-mentioned disadvantages, the present invention provides a dispenser for chemical analysis and detection.

The invention is realized in such a way, the liquid separator for chemical analysis and detection is constructed, the device comprises a liquid separating cylinder, scales, a liquid outlet pipe, a first control valve, an air outlet pipe, a second control valve, a liquid adding structure and a pneumatic pressure adjusting structure, the scales are arranged on the outer surface of the liquid separating cylinder, the liquid outlet pipe is integrally formed at the bottom of the liquid separating cylinder, the first control valve is connected to the inner side of the liquid outlet pipe, the air outlet pipe is integrally formed at the top side of the rear part of the liquid separating cylinder, the second control valve is connected to the top side of the air outlet pipe, the liquid adding structure is connected to the top side of the liquid separating cylinder, the pneumatic pressure adjusting structure is connected to the top side of the front part of the liquid separating cylinder, the liquid adding structure comprises a cylinder seat component, an angle adjusting component, an outer ring seat and a lug, the bottom side of the cylinder seat component is connected with the liquid separating cylinder, the angle adjusting component is connected to the inner side of the front part of the cylinder seat component, the top side of the rear part of the angle adjusting component is connected with the outer ring seat, the inner bottom side of the outer ring seat is wrapped outside the barrel seat assembly and is in rotating connection with the barrel seat assembly, and a lug is embedded on the outer side of the top of the outer ring seat.

Preferably, the number of the lugs is five, and the five lugs are distributed around the same circular point at equal intervals.

Preferably, the cylinder base assembly comprises a cylinder, a channel, a rectangular groove, a spring and a sleeve block, the bottom side of the cylinder is connected with the liquid separating cylinder, the top side of the outer surface of the cylinder is rotatably connected with an outer ring base, the channel is formed in the middle side of the inside of the cylinder, the rectangular groove is formed in the middle side of the inside of the cylinder, the inner side of the rectangular groove is elastically abutted to the sleeve block through the spring, and the upper side and the lower side of the sleeve block are slidably connected with the rectangular groove.

Preferably, the structure that rectangular channel, spring and nested piece formed is provided with three groups to be the distribution of circle form equidistance between three groups of structures, the angle of inclination has been seted up to the inside top side of nested piece.

Preferably, the angle adjusting assembly comprises a protective cover, a rotary head, a worm, a supporting sleeve, a special-shaped worm wheel, a shaft rod and a connector, the rear side of the protective cover is fixed with the barrel column, the left part of the rotary head penetrates through the protective cover and is fixed with the worm, the left side of the worm is inserted into the inner side of the supporting sleeve and is connected with the supporting sleeve in a rotating mode, the left side of the supporting sleeve is fixed with the protective cover, the top side of the worm is meshed with the special-shaped worm wheel, the middle side of the special-shaped worm wheel is fixed with the shaft rod, the shaft rod penetrates through the rear side of the protective cover and is connected with the protective cover in a rotating mode, and the rear side of the shaft rod is connected with the outer ring base through the connector.

Preferably, the air pressure adjusting structure comprises a sleeve seat, an air passage, an air outlet, an arc-shaped groove and an adjusting assembly, wherein the bottom side of the sleeve seat is connected with the liquid separating cylinder, the air passage is formed in the bottom side of the inner portion of the sleeve seat, the other end of the air passage is communicated with the air outlet, the air outlet is formed in the front portion of the sleeve seat, the arc-shaped groove is formed in the top of the bottom side of the sleeve seat, the inner side of the arc-shaped groove is connected with the adjusting assembly, and the adjusting assembly is arranged on the inner side of the air passage.

Preferably, the adjusting part includes urceolus, bin, driven gear, driving gear, threaded rod, internal thread piece, support and seal member, the urceolus inlays in cover seat inboard, the bin has been seted up to the inside top side of urceolus, the inside left side of bin is connected with driven gear, the meshing of driven gear right side has the driving gear, driven gear and driving gear middle part all rotate with the bin and be connected, threaded rod top side runs through the bin and is connected with driven gear, the threaded rod runs through internal thread piece inboard rather than threaded connection, the internal thread piece inlays in the inboard middle part of support, support surface and urceolus sliding connection to the support bottom side is connected with seal member.

Preferably, the sealing part comprises a support plate, a large spring, a small spring, a limiting column and a sealing rubber head, the top side of the support plate is connected with the support, the middle of the bottom side of the support plate is connected with the large spring, the small spring is arranged on the inner side of the large spring, the bottom side of the large spring is connected with the sealing rubber head, and the limiting column is vertically fixed on the middle of the top of the limiting column of the sealing rubber head.

Preferably, when the support plate is located at the top side, the top end face of the limiting column is arranged at the bottom end part of the inner side of the small spring, when the support plate is located at the bottom side, the small spring wraps the outer side of the limiting column, and the bottom end part of the small spring is in contact with the sealing rubber head.

Preferably, a rubber sleeve block is embedded at the bottom side of the interior of the air passage, and the inner side of the rubber sleeve block is in contact with the sealing rubber head.

Preferably, the sealing rubber head is made of a silica gel material.

Preferably, the threaded rod and the internal thread block are made of stainless steel.

The invention has the following advantages: the invention provides a dispenser for chemical analysis and detection through improvement, which has the following improvement compared with the same type of equipment:

the method has the advantages that: according to the liquid separator for chemical analysis and detection, the liquid adding structure is optimally arranged, when the liquid separating cylinder inclines, the screw head can be rotated to enable the worm to drive the special-shaped worm wheel to rotate, the shaft lever on the middle side of the special-shaped worm wheel drives the outer ring seat to rotate on the outer side of the cylinder column through the connector, so that the outer ring seat is adjusted to be horizontal to the ground, the funnel is stably placed under the support of the lug, the stability of the funnel after placement is further improved through the wrapping of the sleeve block, and the problem that liquid is inconvenient to place and add to the funnel in the inclined heating process is solved.

The method has the advantages that: according to the liquid distributor for chemical analysis and detection, the air pressure adjusting structure is optimally arranged, the driving gear is rotated to enable the driven gear to drive the height position of the inner thread block to be adjusted through the threaded rod, the inner thread block moves to enable the support plate to move the position of the sealing rubber head through the large spring and the small spring, so that the sealing rubber head is subjected to different pressures, an air passage needs to be opened when the air pressure reaches a certain degree, and the problems that the required pressure inside the liquid distributor is inconvenient to control, and the atomized gas is discharged and collected after the pressure reaches the certain degree are solved.

The method has the advantages that: according to the liquid distributor for chemical analysis and detection, the number and the positions of the protruding pieces are five, the five protruding pieces are equidistantly distributed in a surrounding mode through the same circular point, stable supporting of a liquid feeding hopper is facilitated, three groups of structures formed by the rectangular grooves, the springs and the sleeve block are arranged, the three groups of structures are circularly and equidistantly distributed, wrapping of the bottom of the liquid feeding hopper is facilitated, the top side of the inner part of the sleeve block is provided with the inclined angle, and the liquid feeding hopper can be conveniently inserted.

The advantages are that: according to the liquid distributor for chemical analysis and detection, when the support plate is located at the top side, the top end face of the limiting column is arranged at the bottom end part of the inner side of the small spring, when the support plate is located at the bottom side, the small spring wraps the outer side of the limiting column, the bottom end part of the small spring is in contact with the sealing rubber head, the pressure of the sealing rubber head when the sealing rubber head needs to move is increased when the small spring is in contact, the rubber sleeve block is embedded at the bottom side in the air passage, and the inner side of the rubber sleeve block is in contact with the sealing rubber head, so that the sealing performance is guaranteed.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of a liquid adding structure of the present invention;

FIG. 3 is a schematic structural view of the cartridge assembly of the present invention;

FIG. 4 is a schematic view of the construction of the angle adjustment assembly of the present invention;

FIG. 5 is a schematic structural view of an air pressure regulating structure according to the present invention;

FIG. 6 is a schematic structural view of the adjustment assembly of the present invention;

fig. 7 is a schematic view of the structure of the sealing member of the present invention.

Wherein: a liquid separating cylinder-1, a scale-2, a liquid outlet pipe-3, a first control valve-4, a gas outlet pipe-5, a second control valve-6, a liquid adding structure-7, a pneumatic adjusting structure-8, a cylinder seat component-71, an angle adjusting component-72, an outer ring seat-73, a lug-74, a cylinder column-711, a channel-712, a rectangular groove-713, a spring-714, a sleeve block-715, a protective cover-721, a rotary head-722, a worm-723, a supporting sleeve-724, a special-shaped worm wheel-725, a shaft rod-726, a connector-727, a sleeve seat-81, a gas channel-82, a gas outlet-83, an arc groove-84, an adjusting component-85, a rubber sleeve block-821, an outer cylinder-851, a chamber-852, a gas outlet pipe-5, a gas outlet pipe-6, a gas filling structure-7, a pneumatic adjusting structure-8, a cylinder seat component-71, a screw seat component-723, a special-725, a special-shaped worm wheel, a piston, the sealing device comprises a driven gear-853, a driving gear-854, a threaded rod-855, an internal thread block-856, a bracket-857, a sealing component-858, a support plate-8581, a large spring-8582, a small spring-8583, a limiting column-8584 and a sealing rubber head-8585.

Detailed Description

The present invention will be described in detail below with reference to fig. 1 to 7, and the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1, the liquid separator for chemical analysis and detection of the present invention includes a liquid separating cylinder 1, scales 2, a liquid outlet pipe 3, a first control valve 4, a gas outlet pipe 5, a second control valve 6, a liquid feeding structure 7 and a gas pressure adjusting structure 8, wherein the scales 2 are arranged on the outer surface of the liquid separating cylinder 1, the liquid outlet pipe 3 is integrally formed at the bottom of the liquid separating cylinder 1, the first control valve 4 is connected to the inner side of the liquid outlet pipe 3, the gas outlet pipe 5 is integrally formed at the top side of the rear portion of the liquid separating cylinder 1, the second control valve 6 is connected to the top side of the inner portion of the gas outlet pipe 5, the liquid feeding structure 7 is connected to the top side of the liquid separating cylinder 1, so as to support and place a liquid feeding funnel, which is beneficial to the stability of liquid feeding, the top side of the front portion of the liquid separating cylinder 1 is connected to the gas pressure adjusting structure 8, and adjust the maximum pressure bearing of the inner portion according to requirements.

Referring to fig. 2, 3 and 4, the liquid dispenser for chemical analysis and detection of the present invention comprises a cartridge holder assembly 71, an angle adjusting assembly 72, an outer ring holder 73 and a protruding piece 74, wherein the bottom side of the cartridge holder assembly 71 is connected to the liquid dispensing cartridge 1, the angle adjusting assembly 72 is connected to the front side of the cartridge holder assembly 71 for facilitating angle adjustment and facilitating liquid addition during inclined heating, the top side of the rear portion of the angle adjusting assembly 72 is connected to the outer ring holder 73, the bottom side of the inner portion of the outer ring holder 73 is wrapped outside the cartridge holder assembly 71 and rotatably connected thereto for facilitating angle adjustment, the protruding piece 74 is embedded on the outer side of the top of the outer ring holder 73 for supporting, the cartridge holder assembly 71 comprises a cartridge column 711, a channel 712, a rectangular groove 713, a spring 714 and a sleeve block 715, the bottom side of the cartridge column 711 is connected to the liquid dispensing cartridge 1 for supporting and fixing, and the top side of the outer surface of the cartridge column 711 is rotatably connected to the outer ring holder 73, the middle side in the cylinder 711 is provided with a channel 712, the middle side in the cylinder 711 is provided with a rectangular groove 713, the inner side of the rectangular groove 713 is elastically abutted with a sleeve block 715 through a spring 714 to facilitate the adjustment of the transverse position of the sleeve block 715, the upper side and the lower side of the sleeve block 715 are slidably connected with the rectangular groove 713 to facilitate the movement, the angle adjusting assembly 72 comprises a protective cover 721, a rotary head 722, a worm 723, a bearing sleeve 724, a special-shaped worm wheel 725, a shaft rod 726 and a connector 727, the rear side of the protective cover 721 is fixed with the cylinder 711 to play a role of supporting and fixing, the left part of the rotary head 722 penetrates through the protective cover 721 and is fixed with the worm 723 to facilitate the rotation of the rotary worm 723, the left side of the worm 723 is inserted into the bearing sleeve 724 to rotatably connect with the inner side thereof, the left side of the bearing sleeve 724 is fixed with the protective cover 721, the top side of the worm 723 is engaged with the special-shaped worm wheel 725 to facilitate the steering transmission, the middle side of the rear part of the worm wheel 725 is fixed with the shaft rod 726, the shaft 726 penetrates the rear side of the protective cover 721 and is rotatably connected with the protective cover, and the rear side of the shaft 726 is connected with the outer ring base 73 through the connector 727, so as to drive the outer ring base 73 to rotate for angle adjustment.

Referring to fig. 5, 6 and 7, in the liquid dispenser for chemical analysis and detection of the present invention, the air pressure adjusting structure 8 includes a sleeve seat 81, an air passage 82, an air outlet 83, an arc-shaped groove 84 and an adjusting component 85, the bottom side of the sleeve seat 81 is connected to the liquid dispensing cylinder 1, the air passage 82 is formed at the bottom side of the sleeve seat 81, the air passage 82 is formed at the inner side of the sleeve seat 81, the other end of the air passage 82 is communicated with the air outlet 83, the air outlet 83 is formed at the front portion of the sleeve seat 81 for facilitating air circulation, the arc-shaped groove 84 is formed at the top of the bottom side of the sleeve seat 81 for facilitating transmission of the adjusting component 85, the adjusting component 85 is connected to the inner side of the arc-shaped groove 84 and arranged inside the air passage 82 for facilitating adjustment of the air blocking force, the adjusting component 85 includes an outer cylinder 851, a chamber 852, a driven gear 853, a driving gear 854, a threaded rod 855, an inner threaded block, a bracket 856 and a sealing component 858, and an outer cylinder 851 embedded inside the sleeve seat 81, a bin 852 is arranged on the top side inside the outer barrel 851, a driven gear 853 is connected to the left side inside the bin 852, a driving gear 854 is meshed on the right side of the driven gear 853, the middle parts of the driven gear 853 and the driving gear 854 are rotatably connected with the bin 852 to play a supporting role, the top side of a threaded rod 855 penetrates through the bin 852 and is connected with the driven gear 853, the threaded rod 855 penetrates through the inner side of an inner thread block 856 to be in threaded connection with the inner thread block 856, the inner thread block 856 is embedded in the middle part inside the bracket 857, the outer surface of the bracket 857 is in sliding connection with the outer barrel 851 to facilitate stable vertical movement of the bracket 857, the bottom side of the bracket 857 is connected with a sealing part 858, the sealing part 858 comprises a support plate 8581, a large spring 8582, a small spring 8583, a limit column 8584 and a sealing rubber head 8585, the top side of the support plate 8581 is connected with the bracket 857 to facilitate movement of the support plate 8581, a large spring 8582 is connected with the support plate 8582, the inner side of the support plate 8582, a small spring 8583 is arranged inside the large spring 8582, the bottom side of the large spring 8582 is connected with the sealant head 8585, so that the sealant head 8585 can be driven to adjust and move, and the limiting column 8584 is vertically fixed on the top side of the limiting column 8584 of the sealant head 8585 to play a role in limiting and guiding.

Example two:

the invention relates to a liquid distributor for chemical analysis and detection, the number and the position of a lug 74 are five, the five lugs 74 are distributed around the same round point at equal intervals, which is favorable for stably supporting a liquid adding hopper, the structure formed by a rectangular groove 713, a spring 714 and a sleeve block 715 is provided with three groups, the three groups of structures are distributed in a round and equal interval manner, which is favorable for wrapping the bottom of the liquid adding hopper, the top side of the inner part of the sleeve block 715 is provided with an inclined angle for facilitating the insertion of the liquid adding hopper, when a support plate 8581 is positioned at the top side, the top end surface of a limit column 8584 is arranged at the bottom end part of the inner side of a small spring 8583, when the support plate 8581 is positioned at the bottom side, the small spring 8583 wraps the outer side of the limit column 8584, the bottom end part of the small spring 8583 is contacted with a sealing rubber head 8585, when the sealing rubber head 8585 is contacted, the pressure when the sealing rubber head 8585 is required to move is increased, a rubber sleeve block 821 at the bottom side of the inner part of an air duct 82 is embedded, and the inner side of the rubber sleeve block 821 is contacted with the sealing rubber head 8585, and the sealing performance is ensured.

The invention provides a liquid distributor for chemical analysis and detection through improvement, and the working principle is as follows;

firstly, placing the design at a liquid separation position where chemical analysis and detection are needed, and then using the design;

secondly, injecting liquid into the liquid separation cylinder 1 from the channel 712 through the liquid adding structure 7, and then carrying out heating liquid separation treatment on the liquid separation cylinder 1;

thirdly, a user can adjust the air pressure kept in the liquid separation cylinder 1 as required, the driven gear 853 drives the height position of the inner thread block 856 through the threaded rod 855 by rotating the driving gear 854, the inner thread block 856 moves to enable the support 857 to drive the support plate 8581 to move the position of the sealing rubber head 8585 through the large spring 8582 and the small spring 8583, when the support plate 8581 is located at the top side, the top end face of the limiting column 8584 is arranged at the bottom end part of the inner side of the small spring 8583, when the support plate 8581 is located at the bottom side, the small spring 8583 wraps the outer side of the limiting column 8584, the bottom end part of the small spring 8583 is in contact with the sealing rubber head 8585, when the small spring 8583 is in contact, the pressure of the sealing rubber head 8585 needing to move is increased, so that the sealing rubber head 8585 bears different pressures, when the air pressure reaches a certain degree, an air passage is opened, and a certain pressure is kept in the liquid separation cylinder 1;

fourthly, when liquid needs to be added in the heating process, a user rotates the rotary head 722 to enable the worm 723 to stably rotate in the supporting sleeve 724, the worm 723 drives the special-shaped worm wheel 725 to rotate, a shaft rod 726 in the middle of the special-shaped worm wheel 725 drives the outer ring seat 73 to rotate on the outer side of the cylinder 711 through a connecting head 727, and therefore the outer ring seat 73 is adjusted to be horizontal to the ground;

fifthly, the funnel is stably placed under the support of the protruding piece 74, the bottom of the funnel is inserted into the inner side of the sleeve block 715, the three sleeve blocks 715 are wrapped on the bottom side of the funnel through the reaction force of the spring 714, the stability of the funnel is further improved, and liquid adding can be carried out after the funnel is stably placed.

The invention provides a liquid separator for chemical analysis and detection through improvement, a liquid adding structure 7 is optimally arranged, when a liquid separating barrel 1 inclines, a rotary head 722 can be rotated to enable a worm 723 to drive a special-shaped worm wheel 725 to rotate, a shaft rod 726 in the middle of the special-shaped worm wheel 725 drives an outer ring seat 73 to rotate on the outer side of a barrel column 711 through a connector 727, so that the outer ring seat 73 is adjusted to be horizontal to the ground, a funnel is stably placed under the support of a lug 74, the stability of the placed funnel is further improved through the wrapping of a sleeve block 715, and the problem that liquid is inconvenient to place and add to the funnel in the inclined heating process is solved; through optimizing the air pressure adjusting structure 8, the driving gear 854 is rotated to enable the driven gear 853 to drive the height position of the inner thread block 856 to be adjusted through the threaded rod 855, the inner thread block 856 moves to enable the supporting plate 8581 to move the position of the sealing rubber head 8585 through the large spring 8582 and the small spring 8583, so that the sealing rubber head 8585 is subjected to different pressures, the air passage 82 needs to be opened when the air pressure reaches a certain degree, the problem that the required pressure inside the device is inconvenient to control, and the atomizing gas is discharged and collected after the pressure reaches a certain degree is solved; the number and the position of the protruding pieces 74 are five, the five protruding pieces 74 are distributed around the same round point at equal intervals, which is beneficial to stably supporting the filling funnel, three groups of structures formed by the rectangular groove 713, the spring 714 and the sleeve block 715 are arranged, and the three groups of structures are distributed in a round shape with equal distance, which is beneficial to wrapping the bottom of the liquid feeding hopper, the top side in the sleeve block 715 is provided with an inclination angle which is convenient for the insertion of the liquid feeding hopper, when the support plate 8581 is positioned at the top side, the top end face of the limit column 8584 is arranged at the bottom end part of the inner side of the small spring 8583, when the support plate 8581 is positioned at the bottommost side, the small spring 8583 wraps the outer side of the limit column 8584, the bottom end part of the small spring 8583 is contacted with the sealing rubber head 8585, when the small spring 8583 contacts with the sealing rubber head 8585, the pressure of the sealing rubber head 8585 which needs to move is increased, the bottom side in the air passage 82 is embedded with a rubber sleeve block 821, and the inside of the rubber sleeve block 821 is contacted with a sealing rubber head 8585, so that the sealing property is ensured.

The basic principles and main features of the present invention and the advantages of the present invention have been shown and described, and the standard parts used in the present invention are all available on the market, the special-shaped parts can be customized according to the description and the accompanying drawings, the specific connection mode of each part adopts the conventional means of bolt and rivet, welding and the like mature in the prior art, the machinery, parts and equipment adopt the conventional type in the prior art, and the circuit connection adopts the conventional connection mode in the prior art, and the details are not described herein.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. A liquid separator for chemical analysis and detection comprises a liquid separating cylinder (1), scales (2), a liquid outlet pipe (3), a first control valve (4), an air outlet pipe (5) and a second control valve (6), wherein the scales (2) are arranged on the outer surface of the liquid separating cylinder (1), the liquid outlet pipe (3) is integrally formed at the bottom of the liquid separating cylinder (1), the first control valve (4) is connected to the inner side of the liquid outlet pipe (3), the air outlet pipe (5) is integrally formed at the top side of the rear part of the liquid separating cylinder (1), and the second control valve (6) is connected to the top side of the inner part of the air outlet pipe (5);

the method is characterized in that: still include liquid feeding structure (7) and atmospheric pressure regulation structure (8), liquid feeding structure (7) are connected in minute liquid section of thick bamboo (1) top side, minute liquid section of thick bamboo (1) front portion top side is connected with atmospheric pressure regulation structure (8), liquid feeding structure (7) include tube base subassembly (71), angle adjusting part (72), outer ring seat (73) and lug (74), tube base subassembly (71) bottom side is connected with minute liquid section of thick bamboo (1), tube base subassembly (71) front portion middle side is connected with angle adjusting part (72), angle adjusting part (72) rear portion top side is connected with outer ring seat (73), the inside bottom side parcel of outer ring seat (73) is connected in tube base subassembly (71) outside and rather than rotating, lug (74) have been inlayed in outer ring seat (73) top outside.

2. The dispenser for chemical analysis/detection according to claim 1, wherein: the number of the lugs (74) is five, and the five lugs (74) are distributed around the same circular point at equal intervals.

3. The dispenser for chemical analysis/detection according to claim 1, wherein: the cylinder seat assembly (71) comprises a cylinder column (711), a channel (712), a rectangular groove (713), a spring (714) and a sleeve block (715), wherein the bottom side of the cylinder column (711) is connected with the liquid separating cylinder (1), the top side of the outer surface of the cylinder column (711) is rotatably connected with an outer ring seat (73), the channel (712) is arranged at the middle side inside the cylinder column (711), the rectangular groove (713) is arranged at the middle side inside the cylinder column (711), the inner side of the rectangular groove (713) is elastically abutted to the sleeve block (715) through the spring (714), and the upper side and the lower side of the sleeve block (715) are slidably connected with the rectangular groove (713).

4. The dispenser for chemical analysis/detection according to claim 3, wherein: the structure that rectangular groove (713), spring (714) and nest block (715) formed is provided with three groups to be the circular equidistance between three groups of structures and distribute, the inside top side of nest block (715) is seted up the angle of inclination.

5. The dispenser for chemical analysis/detection according to claim 1, wherein: the angle adjusting assembly (72) comprises a protective cover (721), a rotary head (722), a worm (723), a supporting sleeve (724), a special-shaped worm wheel (725), a shaft rod (726) and a connecting head (727), wherein the rear side of the protective cover (721) is fixed with a cylinder (711), the left part of the rotary head (722) penetrates through the protective cover (721) and is fixed with the worm (723), the left side of the worm (723) is inserted into the inner side of the supporting sleeve (724) to be rotationally connected with the supporting sleeve, the left side of the supporting sleeve (724) is fixed with the protective cover (721), the top side of the worm (723) is meshed with the special-shaped worm wheel (725), the rear side of the special-shaped worm wheel (725) is fixedly provided with the shaft rod (726), the shaft rod (726) penetrates through the rear side of the protective cover (721) and is rotationally connected with the shaft rod (726), and the rear side of the shaft rod (726) is connected with an outer ring seat (73) through the connecting head (727).

6. The dispenser for chemical analysis/detection according to claim 1, wherein: the air pressure adjusting structure (8) comprises a sleeve seat (81), an air passage (82), an air outlet (83), an arc-shaped groove (84) and an adjusting component (85), wherein the bottom side of the sleeve seat (81) is connected with the liquid separating cylinder (1), the air passage (82) is formed in the bottom side of the inner portion of the sleeve seat (81), the other end of the air passage (82) is communicated with the air outlet (83), the air outlet (83) is formed in the front portion of the sleeve seat (81), the arc-shaped groove (84) is formed in the top portion of the bottom side of the sleeve seat (81), the inner side of the arc-shaped groove (84) is connected with the adjusting component (85), and the adjusting component (85) is arranged on the inner side of the air passage (82).

7. The dispenser for chemical analysis/detection according to claim 6, wherein: adjusting part (85) includes urceolus (851), bin (852), driven gear (853), driving gear (854), threaded rod (855), internal thread piece (856), support (857) and sealing member (858), urceolus (851) inlays in cover seat (81) inboard, bin (852) has been seted up to the inside top side of urceolus (851), the inside left side of bin (852) is connected with driven gear (853), driven gear (853) right side meshing has driving gear (854), driven gear (853) and driving gear (854) middle part all are connected with bin (852) rotation, bin (852) and driven gear (853) are run through to threaded rod (855) top side, threaded rod (855) run through internal thread piece (856) inboard rather than threaded connection, internal thread piece (856) inlays in support (857) inboard middle part, the outer surface of the bracket (857) is connected with the outer cylinder (851) in a sliding way, and the bottom side of the bracket (857) is connected with the sealing part (858).

8. The dispenser for chemical analysis/detection according to claim 7, wherein: the sealing component (858) comprises a support plate (8581), a large spring (8582), a small spring (8583), a limiting column (8584) and a sealing rubber head (8585), the top side of the support plate (8581) is connected with a support (857), the middle of the bottom side of the support plate (8581) is connected with the large spring (8582), the small spring (8583) is arranged on the inner side of the large spring (8582), the bottom side of the large spring (8582) is connected with the sealing rubber head (8585), and the limiting column (8584) is vertically fixed on the middle of the top of the limiting column (8584) of the sealing rubber head (8585).

9. The dispenser for chemical analysis/detection according to claim 8, wherein: when the support plate (8581) is positioned at the top side, the top end face of the limiting column (8584) is arranged at the bottom end part of the inner side of the small spring (8583), when the support plate (8581) is positioned at the bottom side, the small spring (8583) wraps the outer side of the limiting column (8584), and the bottom end part of the small spring (8583) is in contact with the sealing rubber head (8585).

10. The dispenser for chemical analysis/detection according to claim 6, wherein: the bottom side of the interior of the air passage (82) is embedded with a rubber sleeve block (821), and the inner side of the rubber sleeve block (821) is in contact with a sealing rubber head (8585).