CN111732144B - Protein separator convenient to adjust - Google Patents

Abstract

The invention discloses a protein separator convenient to adjust, which relates to the technical field of sewage treatment and comprises a base, a shell, a top cover, an aeration disc, an air pump, a water inlet pipe, a water drain pipe, an air inlet pipe and a floating separation mechanism, wherein one end of the air inlet pipe is communicated with the air pump, the water drain pipe is arranged on the side wall of the shell, the water inlet pipe is arranged on the base, the floating separation mechanism is arranged in the shell and comprises a floating separation component, a moving component, a buoyancy adjusting component and a limiting component, the floating separation component is matched with the shell through the moving component, the buoyancy adjusting component is arranged between the floating separation component and the top cover, and the limiting component is arranged at the upper end of the floating separation. According to the invention, the positions of the floating separation assemblies can be adjusted according to different water qualities through the arrangement of the floating separation assemblies, the moving assemblies and the buoyancy adjusting assemblies, so that the invention has stronger applicability, and the structure of the invention is more convenient to disassemble and clean.

Description

Protein separator convenient to adjust

Technical Field

The invention relates to the technical field of sewage treatment, in particular to a protein separator convenient to adjust.

Background

The protein separator is based on the principle that the surface of air bubbles in water can adsorb various granular dirt and soluble organic matters mixed in water, an oxygenating device or a vortex pump is used for generating a large amount of air bubbles, seawater is purified by the protein separator, the air bubbles are all concentrated on the water surface to form foam, the foam is collected in a container on the water surface, and the yellow liquid is removed.

Chinese patent No. CN103125433B discloses an energy-saving fresh water protein separator, which comprises a shell, the inner side of the shell is sequentially provided with a foam forming area, a reaction chamber and a water storage area from top to bottom, a conical foam collecting device is arranged in the foam forming area, a floating bubble cutting material is filled in the reaction chamber, the upper end and the lower end of the reaction chamber are respectively communicated with the foam forming area and the water storage area, the outer side of the shell is provided with a water supply device, an ozone generating device and a foam collecting barrel, the water supply device is connected with a water supply pipeline which passes through the shell and is connected to the water storage area, the conical foam collecting device is connected with a collecting pipeline which penetrates through the shell to be connected to the foam collecting barrel, the ozone generating device is connected with a gas transmission pipeline, and the gas transmission pipeline extends into the shell and is connected with the water supply pipeline. The energy-saving fresh water protein separator provided by the invention can easily cut large bubbles into micro bubbles and can separate organic matters in real time.

However, the above patent has the following disadvantages in use. First, the applicability is low, which is low for sewage with different protein content. The sewage with lower protein content generates less bubbles and the bubbles disappear quickly, the water level of the sewage in the protein separator needs to reach higher height to start working, the generated foam is more and disappears slowly aiming at the sewage with higher protein content, the water level of the sewage in the inner part needs to be lower, otherwise, the foam generated in the working process easily enters a treated purified water discharge groove to generate secondary pollution. Therefore, the size of the valve is required to be manually adjusted according to the actual use condition to control the water level when the protein separator is used every time, which is very troublesome. Secondly, dismantle inconvenient and then lead to wasing inconvenient, even current protein separator has certain dismantlement structure, nevertheless, because its inside multilayer separation structure's setting for inner structure is difficult to be washd, leads to remaining the spot on the inner wall, can influence pleasing to the eye on the one hand, and on the other hand can lead to the water purification effect to reduce.

Disclosure of Invention

The invention aims to provide a protein separator convenient to adjust, and aims to solve the technical problems that the protein separator in the prior art is low in applicability and inconvenient to clean.

The invention provides a protein separator convenient to adjust, which comprises a base, a shell, a top cover, an aeration disc, an air pump, a water inlet pipe, a water drain pipe, an air inlet pipe and a floating separation mechanism, wherein the lower end of the shell is fixedly connected with the base, the top cover is arranged at the upper end of the shell, the aeration disc is arranged at the upper end of the base, the air pump is arranged in the base, the air pump is communicated with the aeration disc through a pipeline, one end of the air inlet pipe is communicated with the air pump, the water drain pipe is arranged on the side wall of the shell, the water inlet pipe is arranged on the base, the floating separation mechanism is arranged in the shell, the floating separation mechanism comprises a floating separation component, a moving component, a buoyancy adjusting component and a limiting component, the floating separation component is matched with the shell through the moving component, the buoyancy adjusting component, the limiting assembly is arranged at the upper end of the floating separation assembly.

Further, the floating separation assembly comprises a floating block, a separation hole is formed in the middle of the floating block, a separation groove is formed in the upper end of the floating block, a drainage hose used for communicating the separation groove and the drainage pipe base is arranged between the separation groove and the drainage pipe base, a horn hole is formed in the lower end of the separation hole, the diameter of the upper end of the horn hole is the same as that of the separation hole, and the horn hole is communicated with the separation hole.

Further, it includes that two are the moving part that the symmetry set up in the slider both sides, every to remove the subassembly all including moving track and two removal framves, it is vertical setting and just removes track and shell integrated into one piece setting to remove the track, and two removal framves are the symmetry and set up in the both sides of removing the track and two remove all with slider fixed connection, the side of removing the frame is equipped with the mount that is vertical setting, be equipped with two regulation poles that are parallel to each other between mount and the removal frame, every the both ends of adjusting the pole are connected with removal frame and mount rotation respectively, every the side of mount all be equipped with two from top to bottom set up and with remove the track complex and remove the wheel, every top all be equipped with the spring between regulation pole and the slider.

Further, the buoyancy adjusting assembly comprises an adjusting cavity, an adjusting hose, an adjusting shell, a piston, a driving rod and a rotating wheel, the adjusting cavity is arranged at the upper end of the floating block, the adjusting shell is arranged at the upper end of the top cover, the adjusting cavity is communicated with the adjusting shell through the adjusting hose, the piston is arranged in the adjusting shell, one end of the driving rod is connected with the upper end of the piston in a rotating mode, the other end of the driving rod penetrates through the adjusting shell and is in threaded fit with the adjusting shell, and the rotating wheel is arranged at the upper end of the driving rod.

Further, spacing subassembly includes first spacing part and second spacing part, first spacing part and second spacing part set up respectively in the both sides of slider, first spacing part includes the first spacing groove of a plurality of and first stopper and first spacing fixture block, all first spacing groove is equidistant setting and all is the slope upwards to set up in arbitrary one removes orbital one side and every first spacing groove, the one end of first stopper is articulated with the slider, the one end and the first stopper fixed connection of first spacing fixture block and the cooperation of first spacing groove that corresponds.

Furthermore, the second limiting part comprises a plurality of second limiting grooves, second limiting blocks and second limiting fixture blocks, all the second limiting grooves are arranged on one side of another moving track at equal intervals, the inclination direction of the second limiting grooves is opposite to that of the first limiting grooves, one ends of the second limiting blocks are hinged to the floating block, one ends of the second limiting fixture blocks are fixedly connected with the second limiting blocks, and the second limiting fixture blocks are matched with the corresponding second limiting grooves.

Further, the inside of shell is equipped with spacing funnel, spacing funnel back-off is in the lower part of shell, the upper end of spacing funnel is equipped with the foam pipe way.

Furthermore, a plurality of supporting plates are arranged at the upper end of the limiting funnel.

Further, the outer diameter of the foam pipe is smaller than the aperture of the separation hole.

Compared with the prior art, the invention has the beneficial effects that:

first, the floating separation module of the present invention has two modes of operation. Firstly, the floating separation assembly is fixed through the limiting assembly, the working mode of the floating separation assembly is the same as that of a protein separator in the prior art, and secondly, the working of the limiting assembly is cancelled, so that the floating separation assembly floats on the liquid level, bubbles generated during sewage treatment can quickly enter the floating separation assembly for separation, adjustment is not needed according to the working condition, the operation is simple and convenient, and the applicability of the floating separation assembly is improved.

Secondly, when the sewage treatment device works, the floating block floats on the liquid level of sewage, bubbles generated in the sewage treatment process can enter the upper end of the floating block through the horn hole and the separation hole and quickly enter the separation tank, the treatment speed of the generated bubbles can be improved, compared with the prior art, the situation that part of the bubbles exist for too long time and disappear to cause impurities to enter the sewage again can not be caused, the sewage treatment effect is improved, and the working water level does not need to be adjusted according to the water quality bubble generation amount through the arrangement of the floating block, so that the sewage treatment device is more convenient and simpler to use.

Thirdly, the moving wheels on each fixing frame are tightly pressed on the corresponding moving tracks through the arrangement of the moving assembly and the tension of the two springs, friction force can be reduced through the matching of the moving wheels and the moving tracks, the moving assembly can be suitable for different moving tracks through the arrangement of the springs, and the application range of the moving assembly is enlarged. In addition, the floating separation component is convenient to detach from the shell in the cleaning process, so that the floating separation component is convenient to distribute and clean, and the cleaning is more convenient and simpler.

Fourthly, when the floating block floating device works, a certain amount of regulating liquid is preset in the regulating shell, if the impurity content of the treated sewage is higher, the buoyancy of the floating block is larger, at the moment, the rotating wheel can be rotated, the piston is enabled to move downwards through the threaded matching of the driving rod and the regulating shell, the regulating liquid enters the regulating cavity to reduce the buoyancy of the floating block, otherwise, the regulating liquid in the regulating cavity is pumped into the regulating shell to increase the buoyancy of the floating block. Through the steps, the method can adjust the difference of the quality of the treated sewage, and further improves the applicability of the method.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

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

FIG. 2 is a top view of the present invention;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 2;

FIG. 4 is an enlarged view at C of FIG. 3;

FIG. 5 is an enlarged view taken at D in FIG. 3;

FIG. 6 is a cross-sectional view taken along line B-B of FIG. 2;

FIG. 7 is a cross-sectional view of the present invention;

fig. 8 is an enlarged view at E in fig. 7.

Reference numerals:

base 1, shell 2, top cap 3, aeration dish 4, air pump 5, inlet tube 6, drain pipe 7, intake pipe 8, the separating mechanism 9 that floats, unsteady subassembly 91, slider 911, separation hole 912, separation tank 913, loudspeaker hole 914, drainage hose 915, remove subassembly 92, remove track 921, remove frame 922, mount 923, adjust pole 924, remove wheel 925, spring 926, buoyancy adjusting component 93, adjust chamber 931, adjust hose 932, adjust the shell 933, piston 934, actuating lever 935, runner 936, spacing subassembly 94, first spacing part 941, first spacing groove 9411, first spacing block 9412, first spacing fixture block 9413, second spacing part 942, second spacing groove 9421, second spacing block 9422, the spacing fixture block 9423 of second, spacing funnel 10, foam pipeline 11, bearing board 12.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention.

The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

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.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 8, an embodiment of the present invention provides a protein separator convenient to adjust, including a base 1, a housing 2, a top cover 3, an aeration disc 4, an air pump 5, a water inlet pipe 6, a water outlet pipe 7, an air inlet pipe 8, and a floating separation mechanism 9, wherein a lower end of the housing 2 is fixedly connected to the base 1, the top cover 3 is disposed at an upper end of the housing 2, the aeration disc 4 is disposed at an upper end of the base 1, the air pump 5 is disposed in the base 1 and is communicated with the aeration disc 4 through a pipeline, one end of the air inlet pipe 8 is communicated with the air pump 5, the water outlet pipe 7 is disposed on a side wall of the housing 2, the water inlet pipe 6 is disposed on the base 1, the floating separation mechanism 9 is disposed in the housing 2, and the floating separation mechanism 9 includes a floating separation assembly 91, a moving assembly 92, a buoyancy adjustment assembly 93, and a limit, the floating separation assembly 91 is matched with the outer shell 2 through a moving assembly 92, the buoyancy adjusting assembly 93 is arranged between the floating separation assembly 91 and the top cover 3, and the limiting assembly 94 is arranged at the upper end of the floating separation assembly 91; when the floating separation assembly is used, sewage with high protein content is discharged into the shell 2 through the water inlet pipe 6, the air inlet pipe 8 and the air pump 5 work, bubbles are introduced into the sewage through the aeration disc 4, impurities in the sewage are adsorbed in a large amount through the bubbles, the bubbles rise and enter the floating separation assembly 91 to form dirty water, the dirty water is discharged, and purified water after certain treatment is discharged through the water discharge pipe 7. There are two modes of operation of the floating separation assembly 91. Firstly, the floating separation component 91 is fixed through the limiting component 94, the working mode of the floating separation component 91 is the same as that of a protein separator in the prior art, and secondly, the working of the limiting component 94 is cancelled, so that the floating separation component 91 floats on the liquid level, bubbles generated during sewage treatment can quickly enter the floating separation component 91 for separation, adjustment is not needed according to the working condition, the operation is simple and convenient, and the floating separation component 91 is detachably connected with the shell 2, so that the floating separation component is convenient to clean.

Specifically, the floating separation assembly 91 comprises a floating block 911, a separation hole 912 is arranged in the middle of the floating block 911, a separation groove 913 is arranged at the upper end of the floating block 911, a drain hose 915 for communicating the separation groove 913 with a base 1 of a drain pipe 7 is arranged between the separation groove 913 and the base 1, a horn hole 914 is arranged at the lower end of the separation hole 912, and the diameter of the upper end of the horn hole 914 is the same as that of the separation hole 912 and the horn hole 912 is communicated with the separation hole 912; during operation, slider 911 floats on the liquid level of sewage, and the setting of horn hole 914 makes the bubble that produces in the sewage treatment process can enter into slider 911's upper end and quick entering separating tank 913 through horn hole 914 and separating hole 912 in, can improve the processing speed to the production bubble, compares with prior art, can not cause partial bubble to exist the time overlength and then disappear and lead to the condition emergence that impurity got into the sewage again, has improved sewage treatment's effect.

Specifically, the moving assembly 92 comprises two moving members symmetrically disposed on both sides of the slider 911, each of the moving members comprises a moving rail 921 and two moving frames 922, the moving track 921 is vertically arranged in the housing 2, the moving track 921 and the housing 2 are integrally formed, the two moving frames 922 are symmetrically arranged at two sides of the moving track 921, and both moving frames 922 are fixedly connected with the floating block 911, a fixing frame 923 which is vertically arranged is arranged beside the moving frame 922, two adjusting rods 924 which are parallel to each other are arranged between the fixing frame 923 and the moving frame 922, two ends of each adjusting rod 924 are respectively rotatably connected with the moving frame 922 and the fixing frame 923, two moving wheels 925 which are arranged up and down and matched with a moving track 921 are arranged beside each fixing frame 923, and a spring 926 is arranged between each adjusting rod 924 above each adjusting rod and the floating block 911; the moving assembly 92 works, through the pulling force of two springs 926, so that the moving wheels 925 on each fixing frame 923 are all pressed on the corresponding moving rail 921, the friction force can be reduced through the matching of the moving wheels 925 and the moving rail 921, the setting of the springs 926 enables the moving assembly 92 to be applicable to different moving rails 921, and the application range of the moving assembly 92 is improved.

Specifically, the buoyancy adjusting assembly 93 comprises an adjusting cavity 931, an adjusting hose 932, an adjusting shell 933, a piston 934, a driving rod 935 and a rotating wheel 936, wherein the adjusting cavity 931 is arranged at the upper end of the slider 911, the adjusting shell 933 is arranged at the upper end of the top cover 3, the adjusting cavity 931 and the adjusting shell 933 are communicated through the adjusting hose 932, the piston 934 is arranged in the adjusting shell 933, one end of the driving rod 935 is rotatably connected with the upper end of the piston 934, the other end of the driving rod 935 passes through the adjusting shell 933 and is in threaded fit with the adjusting shell 933, and the rotating wheel 936 is arranged at the upper end of the driving rod 935; the adjusting hose 932 and the drain hose 915 of the present invention are both preset in the housing 2 to a certain length to satisfy the condition of the floating separating assembly 91 during the floating process. During operation, a certain amount of regulating liquid is preset in the regulating shell 933, if the impurity content of the treated sewage is high, the buoyancy of the floating block 911 is large, at the moment, the rotating wheel 936 can be rotated, the piston 934 moves downwards through the threaded fit of the driving rod 935 and the regulating shell 933, so that the regulating liquid enters the regulating cavity 931 to reduce the buoyancy of the floating block 911, and on the contrary, the regulating liquid in the regulating cavity 931 is pumped into the regulating shell 933 to increase the buoyancy of the floating block 911.

Specifically, spacing subassembly 94 includes first spacing part 941 and second spacing part 942, first spacing part 941 and second spacing part 942 set up respectively in the both sides of slider 911, first spacing part 941 includes first spacing groove 9411 of a plurality of and first spacing block 9412 and first spacing fixture block 9413, all first spacing groove 9411 is equidistant setting and all is the slope upwards setting in one side of arbitrary one removal track 921 and every first spacing groove 9411, the one end of first spacing block 9412 is articulated with slider 911, the one end of first spacing fixture block 9413 and the cooperation of first spacing block 9412 fixed connection of first spacing block 9413 and first spacing fixture block 9413 and the first spacing groove 9411 that corresponds.

Specifically, the second limiting part 942 includes a plurality of second limiting grooves 9421, a second limiting block 9422 and a second limiting clamping block 9423, all the second limiting grooves 9421 are equidistantly disposed on one side of another moving rail 921, and each of the second limiting grooves 9421 has an inclination direction opposite to that of the first limiting groove 9411, one end of the second limiting block 9422 is hinged to the slider 911, one end of the second limiting clamping block 9423 is fixedly connected to the second limiting block 9422, and the second limiting clamping block 9423 is matched with the corresponding second limiting groove 9421.

The first and second stopper grooves 9411 and 9421 in the first and second stopper parts 941 and 942 are disposed obliquely upward and obliquely downward, respectively, one for restricting the slider 911 from moving upward and one for restricting the slider 911 from moving downward.

Specifically, a limiting funnel 10 is arranged inside the shell 2, the limiting funnel 10 is reversely buckled at the lower part of the shell 2, and a foam pipeline 11 is arranged at the upper end of the limiting funnel; the limiting funnel 10 and the foam pipe 11 are arranged to collect air bubbles generated during sewage treatment in a concentrated manner so that the air bubbles can enter the separation groove 913 in the upper end of the slider 911 through the separation hole 912.

Specifically, the upper end of spacing funnel 10 is equipped with a plurality of bearing board 12, becomes the setting of layer board, is used for avoiding the lower extreme of slider 911 and the laminating of spacing funnel 10 to lead to sewage can't get into between the two and then cause the unable buoyancy of slider 911 on the one hand, and on the other hand can avoid slider 911 to cause the extrusion to drainage hose 915.

Specifically, the outer diameter of the foam pipeline 11 is smaller than the aperture of the separation hole 912, so that on one hand, air bubbles can smoothly enter the upper end of the slider 911 from the foam pipeline 11, and on the other hand, treated sewage can enter the upper end of the limiting funnel 10 from a gap between the foam pipeline 11 and the separation hole 912.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, those skilled in the art will appreciate that; the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims (4)

1. A conveniently adjustable protein separator, comprising: the device comprises a base (1), a shell (2), a top cover (3), an aeration disc (4), an air pump (5), an inlet pipe (6), a drain pipe (7), an air inlet pipe (8) and a floating separation mechanism (9), wherein the lower end of the shell (2) is fixedly connected with the base (1), the top cover (3) is arranged at the upper end of the shell (2), the aeration disc (4) is arranged at the upper end of the base (1), the air pump (5) is arranged in the base (1) and communicated with the aeration disc (4) through a pipeline, one end of the inlet pipe (8) is communicated with the air pump (5), the drain pipe (7) is arranged on the side wall of the shell (2), the inlet pipe (6) is arranged on the base (1), the floating separation mechanism (9) is arranged in the shell (2) and the floating separation mechanism (9) comprises a floating separation component (91), The floating separation assembly (91) is matched with the shell (2) through the moving assembly (92), the buoyancy adjusting assembly (93) is arranged between the floating separation assembly (91) and the top cover (3), the limiting assembly (94) is arranged at the upper end of the floating separation assembly (91), the floating separation assembly (91) comprises a floating block (911), a separation hole (912) is formed in the middle of the floating block (911), a separation groove (913) is formed in the upper end of the floating block (911), a drainage hose (915) used for communicating the separation groove (913) and the base (1) is arranged between the separation groove (913) and the base (1), a horn hole (914) is formed in the lower end of the separation hole (912), and the diameter of the upper end of the horn hole (914) is the same as that of the separation hole (912) and communicated with the separation hole (912), remove subassembly (92) including two and be the removal parts that the symmetry set up in slider (911) both sides, every remove the part and all include removal track (921) and two removal frame (922), it is vertical setting and just removes track (921) and shell (2) integrated into one piece setting in shell (2) to remove track (921), two removal frame (922) are the symmetry and set up in the both sides that remove track (921) and two removal frame (922) all with slider (911) fixed connection, the side of removing frame (922) is equipped with mount (923) that are vertical setting, be equipped with two regulation pole (924) that are parallel to each other between mount (923) and removal frame (922), every the both ends of adjusting pole (924) rotate with removal frame (922) and mount (923) respectively and be connected, every the side of mount (923) all be equipped with two from top to bottom settings and with remove track (921) complex removal wheel (925), all be equipped with spring (926) between regulation pole (924) and slider (911) of every top, buoyancy adjustment subassembly (93) is including adjusting chamber (931), adjusting hose (932), regulation shell (933), piston (934), actuating lever (935) and runner (936), it sets up in the upper end of slider (911) to adjust chamber (931), adjust shell (933) setting in the upper end of top cap (3), through adjusting hose (932) intercommunication between regulation chamber (931) and the regulation shell (933), piston (934) set up in adjusting shell (933), the one end of actuating lever (935) is connected with the upper end rotation of piston (934), the other end of actuating lever (935) passes adjusts shell (933) and with adjust shell (933) screw-thread fit, runner (936) are installed in the upper end of actuating lever (935), spacing subassembly (94) includes first spacing part (941) and second spacing part (942), first spacing part (941) and second spacing part (942) set up the both sides at slider (911) respectively, first spacing part (941) includes first spacing groove (9411) of a plurality of and first stopper (9412) and first spacing fixture block (9413), all first spacing groove (9411) is equidistant to set up and all is the slope upwards to set up in one side of arbitrary one removal track (921) and every first spacing groove (9411), the one end and the slider (911) of first stopper (9412) are articulated, the one end and the first stopper (9412) fixed connection of first spacing fixture block (9413) and the first spacing fixture block (9413) that corresponds cooperate in first spacing groove (9411), second spacing part (942) includes a plurality of second spacing groove (9421) and second stopper (9422) and second spacing fixture block (9423), all second spacing groove (9421) are equidistant to set up and move in another side of every track (921) and every track (9411), and second spacing fixture block (9423) The incline direction of second spacing groove (9421) is opposite with the incline direction of first spacing groove (9411), the one end and the slider (911) of second stopper (9422) are articulated, the one end and the second stopper (9422) fixed connection and the spacing fixture block of second (9423) and the cooperation of the second spacing groove (9421) that corresponds of second stopper (9423).

2. The protein separator of claim 1, wherein: the utility model discloses a foam pipeline, including shell (2), the inside of shell (2) is equipped with spacing funnel (10), spacing funnel (10) back-off is in the lower part of shell (2), the upper end of spacing funnel is equipped with foam pipeline (11).

3. The protein separator of claim 2, wherein: the upper end of the limiting funnel (10) is provided with a plurality of supporting plates (12).

4. The protein separator of claim 2, wherein: the outer diameter of the foam pipeline (11) is smaller than the pore diameter of the separation pore (912).

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