CN205032453U - Basin subassembly and cleaning machine - Google Patents

Abstract

The utility model provides a basin subassembly and cleaning machine. The basin subassembly is including the body, collecting chamber, circulating pump installing port, drain pump installing port, lower spray arm seat and the lower spray arm inlet tube that are the disc. The collecting chamber is formed by the body undercut, and the collecting chamber has diapire, perisporium and open -top, and wherein the perisporium is the annular, and the diapire is formed at the bottom of perisporium portion, circulating pump installing port an organic whole is formed at the perisporium of collecting chamber to communicate with the collecting chamber, drain pump installing port an organic whole is formed at the perisporium of collecting chamber to with the collecting chamber intercommunication, the horizontal position of drain pump installing port is less than the circulating pump installing port, lower spray arm seat an organic whole is formed at the upper surface of body to be located collecting chamber one side, have vertical perforating hole in the lower spray arm seat, lower spray arm inlet tube an organic whole is formed at the lower surface of body to perforating hole intercommunication with lower spray arm seat. The utility model discloses the cleaning machine not only can replace manual cleaning completely, can reach very high cleanliness factor moreover.

Description

Basin assembly and cleaning machine

Technical field

The utility model relates to cleaning equipment field on the whole, specifically, relates to a kind of basin assembly and is provided with the cleaning machine of this basin assembly.

Background technology

At present, the glassware that each laboratory is conventional, as beaker, test tube, pipette, volumetric flask etc., all adopt manual cleaning mode, not only take a large amount of manpower, cleaning efficiency is low, and vessel cleanliness factor homogeneity is poor, and cleaning performance is also difficult to ensure.

For the problems referred to above, some laboratory attempt dish-washing machine replaces the various vessel of manual cleaning.But the applicable object due to dish-washing machine is with the particle such as grease or swill vessel, therefore the major design of dish-washing machine is to remove grease, filter out swill.But labware has higher requirement for cleanliness factor, the purity requirements of final cleaning reaches PPM rank even PPB rank, but the design of dish-washing machine cannot reach this purity requirements.

Disclosed in described background technology part, above-mentioned information is only for strengthening the understanding to background of the present utility model, and therefore it can comprise the information do not formed prior art known to persons of ordinary skill in the art.

Utility model content

The technical problems to be solved in the utility model is: overcome the deficiencies in the prior art, a kind of cleaning machine being suitable for labware cleaning and the basin assembly used thereof are provided, this cleaning machine not only can replace manual cleaning completely, and can reach very high cleanliness factor.

Additional aspect of the present utility model and advantage will partly be set forth in the following description, and partly will become obvious from description, or can the acquistion by practice of the present utility model.

The utility model solves the technical scheme that its technical problem adopts:

One embodiment of the utility model basin assembly, comprises in discoidal body, collecting chamber, circulating pump installing port, draining pump installing port, lower spraying arm seat and lower spraying arm water inlet pipe.Collecting chamber is formed to lower recess by described body, and described collecting chamber has diapire, perisporium and open top, and ringwise, described diapire is formed at the bottom of described perisporium to wherein said perisporium; Circulating pump installing port is integrally formed at the perisporium of described collecting chamber, and is communicated with described collecting chamber; Draining pump installing port is integrally formed at the perisporium of described collecting chamber, and is communicated with described collecting chamber, and the horizontal level of described draining pump installing port is lower than described circulating pump installing port; Lower spraying arm seat is integrally formed at the upper surface of body, and is positioned at described collecting chamber side, has vertical through hole in described lower spraying arm seat; Lower spraying arm water inlet pipe is integrally formed at the lower surface of described body, and is communicated with the through hole of described lower spraying arm seat.

According to an embodiment of the present utility model, the perisporium of described collecting chamber comprises interconnective multiple planar section, at least one inner concave arc surface part and at least one outer convex globoidal part.

According to an embodiment of the present utility model, the perisporium of described collecting chamber comprises the first planar section, be connected to the second planar section of described first planar section by fillet, be connected smoothly in described second planar section the first outer convex portions, be connected smoothly in described first outer convex portions the second inner concave part, be connected to the 3rd planar section of the second inner concave part; Multiple plane and inner concave and outer convex surface is connected with in turn between described 3rd planar section and described first planar section.

According to an embodiment of the present utility model, along described collecting chamber circumferencial direction, the length of described first planar section be the 3-4 of described second planar section doubly, the curvature of described first outer convex portions is greater than described second inner concave part.

According to an embodiment of the present utility model, the perisporium of described collecting chamber comprises interconnective two planar sections, and the angle between these two planes is not more than 90 ° ~ 100 °, and the position of angle is relative with described circulating pump installing port.

According to an embodiment of the present utility model, described draining pump installing port is formed at the diapire of described collecting chamber, and the extreme lower position of described draining pump installing port is lower than described bottom wall upper surface.

According to an embodiment of the present utility model, described circulating pump installing port comprises the larger installation portion of diameter and the less connecting portion of diameter; And/or described draining pump installing port comprises the larger installation portion of diameter and the less connecting portion of diameter.

According to an embodiment of the present utility model, the angle α between the center line of described draining pump installing port and the projection in the horizontal plane of the center line of described circulating pump installing port is 40 ° ~ 50 °.

According to an embodiment of the present utility model, described lower spraying arm water inlet pipe is bend pipe, and its upper end is connected to the lower surface of described body, and bottom is towards described circulating pump installing port.

According to an embodiment of the present utility model, also comprise the first sensor installation portion at least one perisporium being integrally formed at described collecting chamber, described first sensor installation portion is provided with the through hole supplying the detecting head of a sensor to stretch into described collecting chamber.

According to an embodiment of the present utility model, also comprise the sensor that at least one pair of type is identical, be installed at least two described first sensor installation portions.

According to an embodiment of the present utility model, also comprise a cup portion, this cup portion is extended vertically downward by the diapire of described collecting chamber and is formed, at the bottom of described cup portion has glass, wall of cup and rim of a cup.

According to an embodiment of the present utility model, described draining pump installing port is communicated in described cup portion, and the extreme lower position of described draining pump installing port inner surface is lower than upper surface at the bottom of described cup.

According to an embodiment of the present utility model, the diapire of described collecting chamber is provided with one end and is communicated with described circulating pump installing port, the other end is contiguous or be communicated with the intake chamber of rim of a cup of described cup portion, and along by described circulating pump installing port to described rim of a cup direction, the degree of depth of described intake chamber shoals gradually.

According to an embodiment of the present utility model, also comprise the leg with lateral opening, the lateral opening of described leg is connected to outside the perisporium of described collecting chamber, the top of described leg is connected to described body lower surface, bottom is connected with a shrouding, a part of perisporium and the described shrouding of a part for described body, described leg, collecting chamber surround an air chamber jointly, and the perisporium of described collecting chamber is provided with the connected entrance that can be communicated with described air chamber and described collecting chamber.

According to an embodiment of the present utility model, also comprise the leg with lateral opening, outside the perisporium that the lateral opening of described leg is connected to described collecting chamber and outside the wall of cup of described cup portion, the top of described leg is connected to described body lower surface, bottom is connected with a shrouding, a part of perisporium of a part for described body, described leg, collecting chamber, a part of wall of cup of described cup portion and described shrouding surround an air chamber jointly, and described perisporium is provided with the connected entrance that can connect described air chamber and described collecting chamber.

According to an embodiment of the present utility model, described basin assembly also comprises pressure sensor and/or conductivity apparatus, on described leg, contiguous described body position is provided with pressure sensor installation portion and/or conductivity apparatus installation portion, described pressure sensor installation portion and/or conductivity apparatus installation portion are provided with through hole separately, and the probe for described pressure sensor and/or conductivity apparatus stretches into described air chamber.

According to an embodiment of the present utility model, also comprise the dividing plate that described air chamber is separated into the first Room and the second Room by, and the top of described dividing plate is connected to described body, between the bottom of described dividing plate and described shrouding, there is interval or be connected to described shrouding.

According to an embodiment of the present utility model, described basin assembly also comprises pressure sensor and/or conductivity apparatus, the volume of described second Room is 1/6 ~ 1/4 of the volume of described first Room, and described body upper surface is provided with air chamber post, be provided with in air chamber post can be communicated with described second Room run through pore; On described leg, contiguous described body position is provided with pressure sensor installation portion and/or conductivity apparatus installation portion, described pressure sensor installation portion and/or conductivity apparatus installation portion are provided with through hole separately, and the probe for described pressure sensor and/or conductivity apparatus stretches into described air chamber; The probe of described pressure sensor installation portion and/or conductivity apparatus installation portion stretches into described first Room.

According to another aspect of the present utility model, a kind of cleaning machine, comprise casing, be installed in described casing and have the inner bag of bottom opening and be installed on the basin assembly of described bottom opening, wherein said basin assembly is basin assembly described in the utility model.

As shown from the above technical solution, advantage of the present utility model and good effect are:

The utility model basin assembly can be applicable to Laboratory Clean machine, this cleaning function completes cleaning, the drying of multiple vessel automatically, can replace manual cleaning, saves a large amount of human costs, and complicated glassware can be cleaned, reach the homogeneous cleaning performance of high cleanliness.

Each building block of basin assembly is all formed in one, thus in cleaning process antileaking, can effectively power generating ratio, maintenance frequency, improve cleaning efficiency further; The more important thing is, because each building block of basin assembly is all formed in one, not easy to leak, therefore cleaning with pressure can be adapted to, namely by using the cleaning fluid with certain pressure to wash away vessel, thus increase substantially cleaning degree.

Basin assembly can the various functions of matching purge, and have certain automatically cleaning ability, draining is thorough, improves cleaning degree from another point of view.

Accompanying drawing explanation

Describe its example embodiment in detail by referring to accompanying drawing, above-mentioned and further feature of the present utility model and advantage will become more obvious.

Fig. 1 is the perspective view of the utility model basin assembly one illustrative embodiments from an angle views;

Fig. 2 is the perspective view of the utility model basin assembly one illustrative embodiments from another angle views, in order to clear, plenum interior structure is shown, has removed shrouding in Fig. 2;

Fig. 3 is the broken section perspective view of the utility model basin assembly one illustrative embodiments from another angle views;

Fig. 4 is the front view of Fig. 3.

Detailed description of the invention

More fully example embodiment is described referring now to accompanying drawing.But example embodiment can be implemented in a variety of forms, and should not be understood to be limited to embodiment set forth herein; On the contrary, these embodiments are provided to make the utility model comprehensively with complete, and the design of example embodiment will be conveyed to those skilled in the art all sidedly.Reference numeral identical in figure represents same or similar structure, thus will omit their detailed description.

The utility model cleaning machine one embodiment exists, and comprises basin assembly, circulating pump, draining pump and spray cycle system.Wherein basin assembly is basin assembly described in the utility model.

As shown in Figures 1 to 4, the utility model basin assembly one illustrative embodiments, comprises body 1 and is integrally formed at collecting chamber 10, circulating pump installing port 11, draining pump installing port 12, lower spraying arm seat 13 and the lower spraying arm water inlet pipe 14 on this body 1.

Body 1 can be disc, but not as limit, it can be other shapes.The excircle of body 1 is provided with seal groove 100 (see Fig. 4), can place sealing ring (not shown) in seal groove 100.When the utility model basin assembly is installed on miscellaneous part as cleaning machine inner bag, the sealing ring in seal groove 100 can effectively prevent from leaking.

Collecting chamber 10 is formed to lower recess by body 1.Collecting chamber 10 has diapire 101, perisporium 105 and open top, and wherein perisporium 105 ringwise, and diapire 101 is formed at the bottom of perisporium 105.The perisporium 105 of collecting chamber 10 can be cylindrical, but not as limit, it also can be irregular tubular.

As shown in figures 1 and 3, the perisporium 105 of collecting chamber 10 comprises interconnective multiple planar section and multiple cambered surface part, and cambered surface part can comprise inner concave arc surface part and outer convex globoidal part

In one embodiment, the perisporium 105 of collecting chamber 10 comprise one first planar section 1051, the second planar section 1052 of being connected with this first planar section 1051 by fillet, be connected smoothly in the second planar section 1052 the first outer convex portions 1054, be connected smoothly in the first outer convex portions 1054 the second inner concave part 1055, be connected to the 3rd planar section 1056 of the second inner concave part 1055.Wherein, the angle θ between the first planar section 1051 with the second planar section 1052 is basic relative with circulating pump installing port 11, and this angle θ is about 92 °, but not as limit, this angle θ is all feasible between 85 °-105 °, and preferably, this angle θ is between 90 °-100 °.In this embodiment, the perisporium 105 of collecting chamber 10 is not cylindrical shape, but is made up of multiple plane, inner concave, outer convex surface, and this can effectively prevent the liquid in collecting chamber 10 from draining or water inlet process, forming eddy flow, thus improves draining and water inlet efficiency.Particularly inner concave is very helpful with water inlet efficiency for raising raising draining.

Further, along collecting chamber 10 circumferencial direction, the length of the first planar section 1051 be the 3-4 of the second planar section 1052 doubly, the curvature of the first outer convex portions 1054 is greater than the second inner concave part 1055.Multiple plane and inner concave and outer convex surface can be connected successively between the 3rd planar section 1056 with the first planar section 1051.

As shown in Figure 1 and Figure 4, circulating pump installing port 11 is formed at the perisporium 105 of collecting chamber 10, and is communicated with collecting chamber 10.

In one embodiment, circulating pump installing port 11 comprises the larger installation portion of diameter 111 and the less connecting portion 112 of diameter.Like this when the mouth of a river of circulating pump is configured at the installation portion 111 of this circulating pump installing port 11, the mouth of a river inner surface of circulating pump can be made concordant with connecting portion 112 inner surface, namely the cylindrical surface that the diameter of each cross-section location is all identical is formed, smooth fluid is flow through, thus be conducive to improving rate of flow of fluid, and reduce linear loss, and be easy to control fluid pressure.

As shown in Figure 1 and Figure 4, draining pump installing port 12 is integrally formed at the perisporium 105 of collecting chamber 10, and is communicated with collecting chamber 10.

In one embodiment, draining pump installing port 12 comprises the larger installation portion of diameter 121 and the less connecting portion 122 of diameter.Like this when the mouth of a river of draining pump is configured at the installation portion 121 of this draining pump installing port 12, the mouth of a river inner surface of draining pump can be made concordant with connecting portion 122 inner surface, namely the cylindrical surface that the diameter of each cross-section location is all identical is formed, smooth fluid is flow through, thus be conducive to improving draining flow velocity, and draining is clean, thorough.

In one embodiment, draining pump installing port 12 is formed at the diapire 101 of collecting chamber 10, and draining pump installing port 12 inner surface is lower than diapire 101 upper surface, and namely the bottom of draining pump installing port 12 is positioned at the extreme lower position of whole collecting chamber 10.The horizontal level of draining pump installing port 12 is lower than circulating pump installing port 11.It is thorough that these are all conducive to draining, thus a cleaning step after avoiding the residual sewage of last cleaning step to be again mixed into, and then effectively improve cleaning degree.

In one embodiment, the angle between the center line of draining pump installing port 12 and the projection in the horizontal plane of the center line of circulating pump installing port 11 is 40 °, and this angle is all feasible within the scope of 30 ° ~ 60 °, and the preferable range of this angle is 40 ° ~ 50 °.

As shown in Figure 2, Figure 3 and Figure 4, lower spraying arm seat 13 is formed at the upper surface of body 1, and is positioned at collecting chamber 10 side, has vertical through hole 131 in lower spraying arm seat 13.Lower spraying arm seat 13 can perpendicular to body 1 upper surface, also can to slope inwardly an angle relative to body 1 upper surface.During use, lower spraying arm seat 13 can install jet pipe.

Lower spraying arm water inlet pipe 14 is integrally formed at body 1, and is communicated with the through hole of lower spraying arm seat 13.

In one embodiment, lower spraying arm water inlet pipe 14 is bend pipe, and its upper end is connected to the lower surface of body 1, and bottom is towards circulating pump installing port 11, the bottom of such lower spraying arm water inlet pipe 14 can be directly connected in the mouth of a river of circulating pump, saves middle connecting line.Certain lower spraying arm water inlet pipe 14 not necessarily bend pipe, it also can be straight tube, and this straight tube can vertically or can be obliquely installed relative to body 1.

In one embodiment, be formed with at least one first sensor installation portion 15 on the perisporium 105 of collecting chamber 10, first sensor installation portion 15 is provided with the through hole 151 supplying the detecting head of a sensor to stretch into collecting chamber 10.Required sensor, detector as turbidity transducer, temperature sensor, level sensor, conductivity sensor etc. can be installed on as described in first sensor installation portion 15.Further, first sensor installation portion 15 is more than two, the position of these first sensor installation portions 15 can adjacent (see Fig. 3), also can non-conterminous (not shown), by sensor identical for a pair type as temperature sensor is installed on wherein in two installation portions 15.In the course of the work, when the registration of two temperature sensors is inconsistent, can artificial judgment or judged by controller accordingly: or have a fault in two temperature sensors, can change in time; Machine operation troubles, needs to carry out failture evacuation process, and therefore, under the sensor situation of installation two identical types, it is more reliable that machine runs control.

As shown in Figure 1, Figure 2 and Figure 4, the utility model basin assembly one illustrative embodiments, also comprises a cup portion.This cup portion is extended vertically downward by the diapire 101 of collecting chamber 10 and is formed, at the bottom of cup portion has glass 102, wall of cup 103 and rim of a cup.

Have in cup portion situation, draining pump installing port 12 is communicated in cup portion, and to keep the position of draining pump installing port 12 in whole basin modular construction minimum, namely draining pump installing port 12 inner surface extreme lower position is not higher than 102 upper surfaces at the bottom of cup, thus energy draining is thorough.

As shown in Figure 1, in one embodiment, the diapire 101 of collecting chamber 10 is provided with intake chamber 110 above, intake chamber 110 one end communication loop pump installing port 11, the intake chamber 110 of the rim of a cup of other end vicinity or connection cup portion, and along by circulating pump installing port 11 to rim of a cup direction, the degree of depth of intake chamber 110 shoals gradually.That is, intake chamber 110 is being close to one end of cup portion higher than adjacent cycle pump installing port 11 one end, such one side can ensure that circulating pump installing port 11 is intake stable, prevent the bumping caused because pressure sharply reduces at pump entrance, on the other hand to avoid sucking at the bottom of being deposited to glass the impurity in 102.

As shown in Figure 2, in one embodiment, the utility model basin assembly also comprises the leg 16 with lateral opening.The lateral opening of leg 16 is connected to outside the perisporium 105 of collecting chamber 10, and the top of leg 16 is connected to body 1 lower surface, and bottom is connected with a shrouding and (in order to clear, plenum interior structure (scheming not shown) is shown.Jointly surround an air chamber by a part of perisporium 105 of the part of body 1, leg 16, collecting chamber 10 and shrouding, perisporium 105 is provided with the connected entrance that can connect air chamber and collecting chamber 10.In another embodiment, namely when the utility model basin assembly also comprises a cup portion, outside the perisporium 105 that the lateral opening of leg 16 is connected to collecting chamber 10 and outside the wall of cup 103 of cup portion.Jointly surround an air chamber by the part of body 1, leg 16, a part of perisporium 105 of collecting chamber 10, a part of wall of cup 103 of cup portion and shrouding, wall of cup 103 is provided with the connected entrance 160 that can connect air chamber and collecting chamber 10.

On leg 16, adjacent body 1 position is provided with pressure sensor installation portion or conductivity apparatus installation portion, or pressure sensor installation portion or conductivity apparatus installation portion are set simultaneously, in order to setting pressure sensor and conductivity apparatus, pressure sensor installation portion and conductivity apparatus installation portion are provided with through hole separately, and the probe for pressure sensor and conductivity apparatus stretches into air chamber.

In one embodiment, the dividing plate 17 that air chamber is separated into the first Room 161 and the second Room 162 by is also comprised in air chamber.The top of dividing plate 17 is connected to body 1, has interval between the bottom of dividing plate 17 and shrouding.The bottom of dividing plate 17 also can be connected to shrouding.The volume of the second Room 162 is less than the volume of the first Room 161, and such as the volume of the second Room 162 is 1/7 ~ 1/3 of volumes of the first Room 161, and preferably, the volume of the second Room 162 is 1/6 ~ 1/4 of the volume of the first Room 161, and the best is 1/5.Under air chamber has dividing plate 17 situation, pressure sensor installation portion and conductivity apparatus installation portion are arranged at the first larger Room 161 of volume.Body 1 upper surface is provided with air chamber post 18, be provided with in air chamber post 18 can be communicated with the second Room 162 run through pore 181.Have the air chamber post 18 running through pore 181 to have and make air chamber and cleaning chambers keep being communicated with, air pressure one is made peace the effect of liquid level stabilizing.

When the utility model basin component application is in cleaning machine, basin assembly can be installed on the installing port of the inner bag bottom of cleaning machine.When in the inner bag water inlet process of cleaning machine, water can enter air chamber by connected entrance 160, due to water and non-immediate enters air chamber, but enter air chamber by connected entrance 160, therefore, the current in air chamber avoid the impact of the factors such as spray sputtering, and very steady; The air arrived after the feather edge of dividing plate 17 in first Room 161 when water level is just closed, along with water level constantly rises, air pressure in first Room 161 constantly increases, pressure sensor can detect air pressure value constantly, and transfer to the controller of cleaning machine, when the air pressure value that pressure sensor detects reaches setting value (the corresponding specific water yield of this air pressure value), namely controller controls release of intaking.Therefore, in the utility model, control inflow by the air pressure controlled in the first Room 161, not only avoid the trouble that level sensor is set at cleaning machine inner bag or other positions, and accurately can control inflow in the utility model.In addition, air chamber is positioned at below body 1, is positioned at the side of cup portion and collecting chamber 10, effectively make use of this segment space, decreases the volume of basin assembly, to facilitate in cleaning machine miscellaneous part as the arranged of the parts such as circulating pump, draining pump.

The utility model cleaning machine is the special full automatic cleaning equipment in laboratory, uses the utility model cleaning machine can obtain very high cleaning degree and stable cleaning performance, and can realize the requirement of trackability.

The course of work of the utility model cleaning machine: vessel to be cleaned are put into cleaning column frame, after cleaning column frame is pushed inner bag and purge chamber, cleaning solution enters upper and lower spray arm under the pressurised driving of circulating pump, and omnibearing flushing is carried out on the inside and outside surface that the recirculated water after pressurization drives upper and lower spray arm to rotate and is injected into vessel.

For the cleaning that purity requirements is higher, its cleaning process generally includes: prewashing-cleaning-neutralization-rinsing-drying and other steps; For the cleaning that purity requirements is general, a certain step wherein or certain several step can be omitted, as prewashing, neutralization, rinsing or drying and other steps.In neutralization procedure, the material that can hold according to vessel and add auxiliary cleaning agent as acid, alkali etc.Can also in cleaning process simultaneously by cleaning fluid heat temperature raising to improve cleaning efficiency and cleanliness factor, temperature reaches 93 degree and keeps can reaching Disinfection Effect in 5 minutes, and therefore the utility model cleaning machine also can be used for medical field.

By the use of various kinds of sensors, amount of inlet water, cleaning agent distribution, mechanical movement, heating-up temperature accurately can be controlled; In addition by using the cleaning fluid of proper temperature and concentration, by alkaline detergent, organic pollution is changed into water soluble compound, during acidic cleaner is commonly used to and alkaline cleaner residual, and the precipitation that can demineralize, by the mode that a large amount of water is rinsed by machinery, make labware can be able to sufficient washing in a short period of time; And automatically control cleaning, sterilization, drying and other steps are completed automatically by controller.Simultaneously, use the utility model cleaning machine, washing, sterilization, drying and other steps are all complete in airtight space, greatly reduce infection risk and the labour intensity of operator, saved manpower and time, not only researcher can be freed from cleaning, and provide can verify, repeatably experimental result, no matter carry out trace analysis or tissue cultures, cleaning machine of the present utility model all can meet required standard, reaches best cleaning performance.In cleaning process, cleaning fluid does not contact with people simultaneously, safety, environmental protection.

Below illustrative embodiments of the present utility model is illustrate and described particularly.Should be appreciated that, the utility model is not limited to disclosed embodiment, and on the contrary, the utility model intention contains and is included in various amendment in the spirit and scope of claims and equivalent arrangements.

Claims (22)

1. a basin assembly, is characterized in that, comprising:

Body (1), in disc;

Collecting chamber (10), formed to lower recess by described body (1), described collecting chamber (10) has diapire (101), perisporium (105) and open top, ringwise, described diapire (101) is formed at the bottom of described perisporium (105) to wherein said perisporium (105);

Circulating pump installing port (11), is integrally formed at the perisporium (105) of described collecting chamber (10), and is communicated with described collecting chamber (10);

Draining pump installing port (12), be integrally formed at the perisporium (105) of described collecting chamber (10), and be communicated with described collecting chamber (10), the horizontal level of described draining pump installing port (12) is lower than described circulating pump installing port (11);

Lower spraying arm seat (13), is integrally formed at the upper surface of body (1), and is positioned at described collecting chamber (10) side, has vertical through hole (131) in described lower spraying arm seat (13);

Lower spraying arm water inlet pipe (14) is integrally formed at the lower surface of described body (1), and is communicated with the through hole of described lower spraying arm seat (13).

2. basin assembly as claimed in claim 1, it is characterized in that, the perisporium (105) of described collecting chamber (10) comprises interconnective multiple planar section, at least one inner concave arc surface part and at least one outer convex globoidal part.

3. basin assembly as claimed in claim 2, it is characterized in that, the perisporium (105) of described collecting chamber (10) comprises the first planar section (1051), second planar section (1052) of described first planar section (1051) is connected to by fillet, be connected smoothly in the first outer convex portions (1054) of described second planar section (1052), be connected smoothly in the second inner concave part (1055) of described first outer convex portions (1054), be connected to the 3rd planar section (1056) of the second inner concave part (1055), multiple plane and inner concave and outer convex surface is connected with in turn between described 3rd planar section (1056) and described first planar section (1051).

4. basin assembly as claimed in claim 3, it is characterized in that, along described collecting chamber (10) circumferencial direction, the length of described first planar section (1051) is 3-4 times of described second planar section (1052), and the curvature of described first outer convex portions (1054) is greater than described second inner concave part (1055).

5. basin assembly as claimed in claim 2, it is characterized in that, the perisporium (105) of described collecting chamber (10) comprises interconnective two planar sections, angle (θ) between these two planes is not more than 90 ° ~ 100 °, and the position of angle (θ) is relative with described circulating pump installing port (11).

6. basin assembly as claimed in claim 1, it is characterized in that, described draining pump installing port (12) is formed at the diapire (101) of described collecting chamber (10), and the extreme lower position of described draining pump installing port (12) is lower than described diapire (101) upper surface.

7. basin assembly as claimed in claim 1, is characterized in that, described circulating pump installing port (11) comprises the larger installation portion of diameter (111) and the less connecting portion (112) of diameter; And/or described draining pump installing port (12) comprises the larger installation portion of diameter (121) and the less connecting portion (122) of diameter.

8. basin assembly as claimed in claim 1, it is characterized in that, the angle α between the center line of described draining pump installing port (12) and the projection in the horizontal plane of the center line of described circulating pump installing port (11) is 30 ° ~ 50 °.

9. basin assembly as claimed in claim 1, it is characterized in that, described lower spraying arm water inlet pipe (14) is bend pipe, and its upper end is connected to the lower surface of described body (1), and bottom is towards described circulating pump installing port (11).

10. basin assembly as claimed in claim 1, it is characterized in that, also comprise the first sensor installation portion (15) at least one perisporium being integrally formed at described collecting chamber (10) (105), described first sensor installation portion (15) is provided with the through hole (151) supplying the detecting head of a sensor to stretch into described collecting chamber (10).

11. basin assemblies as claimed in claim 10, is characterized in that, also comprise the sensor that at least one pair of type is identical, are installed at least two described first sensor installation portions (15).

12. basin assemblies as claimed in claim 1, it is characterized in that, also comprise a cup portion, this cup portion is extended vertically downward by the diapire (101) of described collecting chamber (10) and is formed, (102), wall of cup (103) and rim of a cup at the bottom of described cup portion has glass.

13. basin assemblies as claimed in claim 12, it is characterized in that, described draining pump installing port (12) is communicated in described cup portion, and the extreme lower position of described draining pump installing port (12) inner surface is lower than (102) upper surface at the bottom of described cup.

14. basin assemblies as claimed in claim 12, it is characterized in that, the diapire (101) of described collecting chamber (10) is provided with one end and is communicated with described circulating pump installing port (11), the other end is contiguous or be communicated with the intake chamber (110) of rim of a cup of described cup portion, and along by described circulating pump installing port (11) to described rim of a cup direction, the degree of depth of described intake chamber (110) shoals gradually.

15. basin assemblies according to any one of claim 1-11, it is characterized in that, also comprise the leg (16) with lateral opening, the lateral opening of described leg (16) is connected to perisporium (105) outside of described collecting chamber (10), the top of described leg (16) is connected to described body (1) lower surface, bottom is connected with a shrouding, a part for described body (1), described leg (16), a part of perisporium (105) of collecting chamber (10) and described shrouding surround an air chamber jointly, the perisporium (105) of described collecting chamber (10) is provided with the connected entrance that can be communicated with described air chamber and described collecting chamber (10).

16. basin assemblies as claimed in claim 15, it is characterized in that, described basin assembly also comprises pressure sensor and/or conductivity apparatus, upper contiguous described body (1) position of described leg (16) is provided with pressure sensor installation portion and/or conductivity apparatus installation portion, described pressure sensor installation portion and/or conductivity apparatus installation portion are provided with through hole separately, and the probe for described pressure sensor and/or conductivity apparatus stretches into described air chamber.

17. basin assemblies as claimed in claim 15, it is characterized in that, also comprise the dividing plate (17) that described air chamber is separated into the first Room (161) and the second Room (162) by, and the top of described dividing plate (17) is connected to described body (1), between the bottom of described dividing plate (17) and described shrouding, there is interval or be connected to described shrouding.

18. as claim 12, basin assembly described in 13 or 14, it is characterized in that, also comprise the leg (16) with lateral opening, the lateral opening of described leg (16) is connected to perisporium (105) outside of described collecting chamber (10) and wall of cup (103) outside of described cup portion, the top of described leg (16) is connected to described body (1) lower surface, bottom is connected with a shrouding, a part for described body (1), described leg (16), a part of perisporium (105) of collecting chamber (10), a part of wall of cup (103) of described cup portion and described shrouding surround an air chamber jointly, described perisporium (105) is provided with the connected entrance (160) that can connect described air chamber and described collecting chamber (10).

19. basin assemblies as claimed in claim 18, it is characterized in that, described basin assembly also comprises pressure sensor and/or conductivity apparatus, upper contiguous described body (1) position of described leg (16) is provided with pressure sensor installation portion and/or conductivity apparatus installation portion, described pressure sensor installation portion and/or conductivity apparatus installation portion are provided with through hole separately, and the probe for described pressure sensor and/or conductivity apparatus stretches into described air chamber.

20. basin assemblies as claimed in claim 18, it is characterized in that, also comprise the dividing plate (17) that described air chamber is separated into the first Room (161) and the second Room (162) by, and the top of described dividing plate (17) is connected to described body (1), between the bottom of described dividing plate (17) and described shrouding, there is interval or be connected to described shrouding.

21. basin assemblies as claimed in claim 20, it is characterized in that, described basin assembly also comprises pressure sensor and/or conductivity apparatus, the volume of described second Room (162) is 1/6 ~ 1/4 of the volume of described first Room (161), described body (1) upper surface is provided with air chamber post (18), be provided with in air chamber post (18) can be communicated with described second Room (162) run through pore (181); Upper contiguous described body (1) position of described leg (16) is provided with pressure sensor installation portion and/or conductivity apparatus installation portion, described pressure sensor installation portion and/or conductivity apparatus installation portion are provided with through hole separately, and the probe for described pressure sensor and/or conductivity apparatus stretches into described air chamber; The probe of described pressure sensor installation portion and/or conductivity apparatus installation portion stretches into described first Room (161).

22. 1 kinds of cleaning machines, comprise casing, be installed in described casing and have the inner bag of bottom opening and be installed on the basin assembly of described bottom opening, it is characterized in that, described basin assembly is the basin assembly as described in any one of claim 1-21.