CN211611816U - Full-automatic two unification intelligence suction filtration appearance of brinell psammitolite - Google Patents

Abstract

The utility model relates to a suction filtration appearance specifically discloses a two unification intelligence suction filtration appearance of full-automatic buchner psammitolite, including buchner funnel, sample holder A, the receiving flask, a panel, suction filtration device, the filter membrane, the psammitolite, psammitolite funnel and large capacity receiving flask, be equipped with boss A on the suction filtration device, suction filtration mouth and boss B, be equipped with the hole of stepping down on the tray, hole A, boss, screw hole A, screw hole B, the hole of stepping down is used for dodging the suction filtration filter tip on the suction filtration device, the cover has the sleeve pipe on the hole A, the spring is equipped with in the sleeve pipe, the lower extreme of spring and the boss A contact on the suction filtration device, the upper end and. The embodiment of the utility model provides an among the intelligence suction filtration appearance, whole assembling process need not to keep watch on for full-automatic intelligent operation, has initiative warning and auto-stop function, can filter multiple or a plurality of filtrating simultaneously moreover, can realize remote operation, can realize filtrating the mass filtration moreover.

Description

Full-automatic two unification intelligence suction filtration appearance of brinell psammitolite

Technical Field

The utility model relates to a suction filtration appearance, in particular to two unification intelligence suction filtration appearance of full-automatic brinell psammitolite.

Background

The suction filtration is also called decompression filtration and vacuum filtration, and has double meanings, and the suction filtration (Leaching) in the physical term refers to a method for reducing the pressure in a suction filtration bottle by using an air pump to achieve the aim of solid-liquid separation. The suction filtration can be divided into buchner funnel suction filtration and sand core suction filtration, and both the buchner suction filtration and the sand core suction filtration have the following defects:

1. a very cumbersome assembly process; 2. all are manually operated; 3. in order to prevent filtrate from being sucked back, a professional is required to monitor the whole suction filtration process; 4. multiple or multiple filtrates cannot be filtered simultaneously.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a two unification intelligence suction filtration appearance of full-automatic brinell psammitolite to solve the problem that proposes in the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme:

a full-automatic two-in-one intelligent buchner sand core suction filtration instrument comprises a buchner funnel, a sample frame A, a control cabinet, a fixing support, a box body, a longitudinal sliding table, a bolt A, a sliding block A, a transverse sliding table, a bolt B, a tray, a spring pressing plate, filter cups, large-capacity filter cups, suction tubes, spring suction tubes, a vacuum pump, a collection bottle, a panel, a suction filtration device, an electromagnetic valve, a bottle plug, a spring, a sleeve, a sealing ring, a sample frame B, a filter membrane, a sand core funnel and a large-capacity collection bottle;

the suction filtration device is provided with a boss A, a suction filtration nozzle and a boss B;

the tray is provided with a abdicating hole, a hole A, a boss, a threaded hole A and a threaded hole B;

the abdicating hole is used for avoiding the filter tip on the suction filtration device;

a sleeve is sleeved on the hole A, a spring is arranged in the sleeve, the lower end of the spring is in contact with a boss A on the suction filtration device, and the upper end of the spring and the upper end of the sleeve are in contact with the bottom surface of a spring pressing plate;

the spring pressing plate is provided with a hole B and a hole C; the hole B is used for avoiding the suction filtration device, the spring pressing plate is fixedly connected with the tray through a bolt, and the bolt is fixed in a threaded hole B on the tray through a hole C; the transverse sliding table is provided with a sliding block B, the sliding block B is fixedly connected with the tray through a bolt, and the bolt is fixed in the threaded hole A.

As a further aspect of the present invention: the Buchner funnel is in sealing fit with the bottle plug, and the bottle plug is in sealing fit with the suction filtration device.

As a further aspect of the present invention: a sliding block A is arranged on the longitudinal sliding table; the transverse sliding table is fixed on the sliding block A through a bolt A.

As a further aspect of the present invention: the longitudinal sliding table is fixed on the box body through a fixing support, a panel is arranged on the box body, and a first accommodating groove is formed in the panel; the sample rack A is placed in the first accommodating groove.

As a further aspect of the present invention: the sample rack A is provided with a liquid level sensor, a first accommodating groove and a handle; the liquid level sensor is used for detecting the liquid level of the collecting bottle.

As a further aspect of the present invention: the first accommodating groove is used for accommodating a collecting bottle; the handle is used for taking and placing the sample rack A.

As a further aspect of the present invention: the control cabinet comprises a cabinet door, a display, an antenna and a control button; still be equipped with display screen wiring end, slip table wiring end, level gauge wiring end, vacuum pump wiring end, solenoid valve wiring, antenna wiring end, ground connection ground wire wiring end and power wiring end in the switch board respectively.

Compared with the prior art, in the full-automatic Brinell sand core two-in-one intelligent suction filtration instrument provided by the embodiment of the utility model, the whole assembly process is full-automatic intelligent operation, does not need monitoring, and has the functions of active alarm and automatic shutdown; moreover, the full-automatic Brinell sand core two-in-one intelligent suction filtration instrument provided by the embodiment of the utility model can filter a plurality of or more filtrates simultaneously, and can realize remote operation; but also can realize the mass filtration of the filtrate.

Drawings

In order to illustrate the technical solutions in the embodiments of the present invention more clearly, the drawings that are needed 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 only some embodiments of the present invention.

Fig. 1 is the embodiment of the utility model provides a full-automatic two unification intelligence suction filtration appearance overall structure schematic diagrams of brinell sand core.

Fig. 2 is the embodiment of the utility model provides a full-automatic two unification intelligence suction filtration appearance of bruch psammitolite horizontal slip table of totality and layer board structure sketch map.

Fig. 3 is the embodiment of the utility model provides a full-automatic two unification intelligence suction filtration appearance local cross-sectional views of brinell sand core.

Fig. 4 is the embodiment of the utility model provides a full-automatic two unification intelligence suction filtration appearance local cross-sectional views of brinell sand core.

Fig. 5 is the embodiment of the utility model provides a full-automatic two unification intelligence suction filtration appearance feng bu shi funnels of buchner psammitolite and connection structure cross-sectional view.

Fig. 6 is the embodiment of the utility model provides a full-automatic two unification intelligence suction filtration appearance suction filtration devices of brinell sand core structural sketch.

Figure 7 is the embodiment of the utility model provides a full-automatic two unification intelligence suction filtration appearance psammitolite funnels of buchner psammitolite and filter bowl cross-sectional view.

Fig. 8 is the embodiment of the utility model provides a full-automatic two unification intelligence suction filtration appearance large capacity filter bowl schematic diagrams of bruch psammitolite.

Fig. 9 is the embodiment of the utility model provides a layer board structure sketch map of two unification intelligence suction filtration appearance of full-automatic brinell psammitolite.

Fig. 10 is the embodiment of the utility model provides a spring plate structure sketch map of two unification intelligence suction filtration appearance of full-automatic brinell psammitolite.

Fig. 11 the embodiment of the utility model provides a box panel structure sketch map of two unification intelligence suction filtration appearance of full-automatic brinell psammitolite

FIG. 12 the embodiment of the utility model provides a sample frame structure sketch map of two unification intelligence suction filtration appearance of full-automatic brinell psammitolite

Fig. 13 the embodiment of the utility model provides a big sample frame and large capacity receiving flask schematic structure of two unification intelligence suction filtration appearance of full-automatic brinell psammitolite.

Fig. 14 the embodiment of the utility model provides a switch board schematic structure of two unification intelligence suction filtration appearance of full-automatic brinell psammitolite.

Fig. 15 the embodiment of the utility model provides a switch board inner structure schematic diagram of two unification intelligence suction filtration appearance of full-automatic brinell psammitolite.

Fig. 16 the embodiment of the utility model provides a full-automatic two unification intelligence suction filtration appearance of buchner sand core carries out buchner funnel suction filtration transition state sketch map.

Fig. 17 the embodiment of the utility model provides a full-automatic two unification intelligence suction filtration appearance of buchner sand core carry out buchner funnel suction filtration state sketch map.

Fig. 18 the embodiment of the utility model provides a two unification intelligence suction filtration appearance of full-automatic brinell psammitolite carry out psammitolite suction filtration transition state sketch map.

Fig. 19 the embodiment of the utility model provides a two unification intelligence suction filtration appearance of full-automatic brinell psammitolite carry out psammitolite suction filtration state sketch map.

Fig. 20 the embodiment of the utility model provides a full-automatic two unification intelligence suction filtration appearance of brinell psammitolite carry out large capacity psammitolite suction filtration transition state sketch map.

Fig. 21 the embodiment of the utility model provides a full-automatic two unification intelligence suction filtration appearance of brinell psammitolite carry out large capacity psammitolite suction filtration state sketch map.

In the figure: 1-Buchner funnel, 2-sample holder A, 201-liquid level sensor, 202-first holding tank, 203-handle, 3-control cabinet, 301-cabinet door, 302-display screen terminal, 303-sliding table terminal, 304-level gauge terminal, 305-vacuum pump terminal, 306-electromagnetic valve terminal, 307-antenna terminal, 308-ground wire terminal, 309-power supply terminal, 4-fixed support, 5-box body, 6-longitudinal sliding table, 7-bolt A, 8-sliding block A, 9-transverse sliding table, 10-bolt B, 11-tray, 1101-abdicating hole, 1102-hole A, 1103-boss, 1104-threaded hole A, 1105-threaded hole B, 12-spring pressing plate, 1201-well B, 1202-well C, 13-filter bowl, 14-high capacity filter bowl, 1401-screw, 15-suction tube, 16-spring suction tube, 17-vacuum pump, 18-collection bottle, 19-panel, 1901-second holding tank, 20-suction filtration device, 2001-boss a, 2002-filter tip, 2003-boss B, 21-solenoid valve, 22-bottle stopper, 23-spring, 24-sleeve, 25-seal ring, 26-sample rack B, 27-filter membrane, 28-sand core, 29-sand core funnel, 30-slide block B, 31-bolt C, 32-valve, 33-high capacity collection bottle, 34-display, 35-antenna, 36-control button.

Detailed Description

In order to make the technical problem, technical solution and advantageous effects to be solved by the present invention more clearly understood, the following description is given in conjunction with the accompanying drawings and embodiments to illustrate the present invention in further detail. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1-15, in an embodiment provided by the present invention, a full-automatic buchner sand core two-in-one intelligent suction filtration instrument comprises a buchner funnel 1, a sample holder a2, a control cabinet 3, a fixing support 4, a box 5, a vertical sliding table 6, a bolt a7, a slider A8, a horizontal sliding table 9, a bolt B10, a tray 11, a spring pressing plate 12, a filter cup 13, a large-capacity filter cup 14, a suction pipe 15, a spring suction pipe 16, a vacuum pump 17, a collection bottle 18, a panel 19, a suction filtration device 20, a solenoid valve 21, a bottle plug 22, a spring 23, a sleeve 24, a sealing ring 25, a sample holder B26, a filter membrane 27, a sand core 28, a sand core funnel 29 and a large-.

In the embodiment of the present invention, the buchner funnel 1 is in sealing fit with the bottle stopper 22, and the bottle stopper 22 is in sealing fit with the suction filtration device 20;

further, a boss A2001, a suction filter nozzle 2002 and a boss B2003 are arranged on the suction filter device;

the tray 11 is provided with a yielding hole 1101, a hole A1102, a boss 1103, a threaded hole A1104 and a threaded hole B1105;

the avoiding hole 1101 is used for avoiding the filter tip 2002 on the suction filtration device 20;

a sleeve 24 is sleeved on the hole A1102, a spring 23 is arranged in the sleeve, the lower end of the spring is in contact with a boss A2001 on the suction filtration device 20, and the upper end of the spring and the upper end of the sleeve are in contact with the bottom surface of a spring pressing plate;

a hole B1201 and a hole C1202 are formed in the spring pressing plate; the hole B1201 is used for avoiding a suction filtration device, the spring pressing plate is fixedly connected with the tray through a bolt, and the bolt is fixed to a threaded hole B1105 on the tray 11 through a hole C1202; a sliding block B30 is arranged on the transverse sliding table 9, the sliding block B30 is fixedly connected with the tray through a bolt, and the bolt is fixed in a threaded hole A1104;

a sliding block A8 is arranged on the longitudinal sliding table 6; the transverse sliding table 9 is fixed on a sliding block A8 through a bolt A7;

the longitudinal sliding table 6 is fixed on the box body 5 through a fixing support 4, a panel 19 is arranged on the box body 5, and a second accommodating groove 1901 is formed in the panel; the sample rack a is placed in the second receiving groove 1901;

the sample rack A2 is provided with a liquid level sensor 201, a first containing groove 202 and a handle 203; the liquid level sensor 201 is used for detecting the liquid level of the collecting bottle;

the first accommodating groove 202 is used for accommodating the collecting bottle 18; the handle 203 is used for taking and placing the sample rack A2.

Further, with continuing reference to fig. 14-15, in the embodiment provided by the present invention, the control cabinet 3 includes a cabinet door 301, a display 34, an antenna 35 and a control button 36; the control cabinet 3 is also internally provided with a display screen terminal 302, a sliding table terminal 303, a level gauge terminal 304, a vacuum pump terminal 305, an electromagnetic valve terminal 306, an antenna terminal 307, a grounding terminal 308 and a power supply terminal 309.

The embodiment of the utility model provides a theory of operation of two unification intelligence suction filtration appearance of full-automatic brinell psammitolite is: utilize the switch board to select the suction filtration mode, horizontal slip table shifts the tray to required horizontal position after the mode selection, and vertical slip table moves the tray downwards, leans on spring pressure until suction filtration device and receiving flask, closely laminates, then adds filtrating to the filter bowl, utilizes the switch board to start the vacuum pump, then opens the solenoid valve that corresponds, then sets for other parameters, if: air pressure, time, etc.

As shown in fig. 16-17, the embodiment of the present invention provides a buchner funnel mode in the method for using the full-automatic buchner sand core two-in-one intelligent vacuum filter apparatus, as follows:

1.1, selecting a Buchner funnel mode on a control cabinet;

1.2, automatically moving the tray backwards by the transverse sliding table until the suction filtration device is aligned with the bottle mouth of the collection bottle;

1.3, automatically moving the tray downwards by the longitudinal sliding table until the suction filtration device is tightly attached to the collection bottle;

1.4, add the filtrating to buchner funnel, utilize the switch board to start the vacuum pump, then open corresponding solenoid valve, then set up other parameters, such as: air pressure, time, etc.

As shown in fig. 18-19, the embodiment of the utility model provides a psammitolite suction filtration mode among the full-automatic two-in-one intelligent suction filtration appearance service method of brinell sand core as follows:

1.1, selecting a sand core suction filtration mode on a control cabinet;

1.2, automatically moving the tray forwards by the transverse sliding table until the suction filtration device is aligned with the bottle mouth of the collection bottle;

1.3, automatically moving the tray downwards by the longitudinal sliding table until the suction filtration device is tightly attached to the collection bottle;

1.4, adding filtrate into the filter bowl, starting the vacuum pump by using a control cabinet, then opening the corresponding electromagnetic valve, and then setting other parameters, such as: air pressure, time, etc.

And 1.5, if the suction filtration is finished, the instrument sends out a buzzer and closes the electromagnetic valve, and if the liquid level sensor detects that the collecting bottle is about to be full, the instrument gives an alarm and closes the electromagnetic valve.

As shown in fig. 20-21, the embodiment of the utility model provides a large amount of suction filtration modes in the full-automatic two-in-one intelligent suction filtration instrument of bruch psammitolite use method as follows:

1.1, replacing the sample rack A with a sample rack B, and replacing the collection bottle with a large-capacity collection bottle;

1.2, selecting a large amount of suction filtration modes on a control cabinet,

1.3, automatically moving the tray forwards by the transverse sliding table until a suction filtration device on the large-capacity filter cup is aligned with the bottle mouth of the large-capacity collection bottle;

1.4, the tray is automatically moved downwards by the longitudinal sliding table until the suction filtration device is tightly attached to the large-capacity collection bottle;

1.5, opening the valve and adding filtrate into the large-capacity filter bowl through the pump, starting the vacuum pump by using the control cabinet, then opening the corresponding electromagnetic valve, and then setting other parameters, such as: air pressure, time, etc.;

1.6, if the suction filtration is finished, the instrument sends out a buzzer and closes the electromagnetic valve, and if the liquid level sensor detects that the collecting bottle is about to be full, the instrument alarms and closes the electromagnetic valve.

It should be noted that all the directional indicators (such as upper, lower, left, right, front, rear, inner and outer …) in the embodiments of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

Furthermore, the descriptions in this application related to "a," "an," "two," etc. are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit ly indicating a number of technical features being indicated. Thus, a feature defined as "a", "an", or "two" may explicitly or implicitly include at least one of the feature.

In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. A full-automatic two-in-one intelligent filter for a Brinell sand core is characterized by comprising a Buchner funnel (1), a sample rack A (2), a control cabinet (3), a fixed support (4), a box body (5), a longitudinal sliding table (6), a bolt A (7), a sliding block A (8), a transverse sliding table (9), a bolt B (10), a tray (11), a spring pressing plate (12), a filter cup (13), a high-capacity filter cup (14), a suction pipe (15), a spring suction pipe (16), a vacuum pump (17), a collecting bottle (18), a panel (19), a filter device (20), an electromagnetic valve (21), a bottle plug (22), a spring (23), a sleeve (24), a sealing ring (25), a sample rack B (26), a filter membrane (27), a sand core (28), a funnel sand core (29) and a high-capacity collecting bottle;

the suction filtration device is provided with a boss A (2001), a suction filtration nozzle (2002) and a boss B (2003);

the tray (11) is provided with a yielding hole (1101), a hole A (1102), a boss (1103), a threaded hole A (1104) and a threaded hole B (1105);

the abdicating hole (1101) is used for avoiding the filter tip (2002) on the suction filtration device (20); a sleeve (24) is sleeved on the hole A (1102), a spring (23) is arranged in the sleeve, the lower end of the spring is in contact with a boss A (2001) on the suction filtration device (20), and the upper end of the spring and the upper end of the sleeve are in contact with the bottom surface of a spring pressing plate.

2. The full-automatic Brinell sand core two-in-one intelligent suction filtration instrument of claim 1, wherein the spring pressing plate is provided with a hole B (1201) and a hole C (1202); the hole B (1201) is used for avoiding the suction filtration device.

3. The full-automatic Brinell sand core two-in-one intelligent suction filtration instrument is characterized in that the spring pressing plate is fixedly connected with the tray through bolts, and the bolts are fixed to threaded holes B (1105) in the tray (11) through holes C (1202).

4. The full-automatic Brinell sand core two-in-one intelligent suction filtration instrument according to claim 3, wherein a sliding block B (30) is arranged on the transverse sliding table (9), the sliding block B (30) is fixedly connected with the tray through a bolt, and the bolt is fixed in the threaded hole A (1104).

5. The full-automatic buchner sand core two-in-one intelligent suction filtration instrument according to any one of claims 1 to 4, wherein the buchner funnel (1) is in sealing fit with the bottle stopper (22);

the bottle stopper (22) is in sealing fit with the suction filtration device (20).

6. The full-automatic Brinell sand core two-in-one intelligent suction filtration instrument according to claim 5, wherein a slide block A (8) is arranged on the longitudinal sliding table (6);

the transverse sliding table (9) is fixed on the sliding block A (8) through a bolt A (7).

7. The full-automatic Brinell sand core two-in-one intelligent suction filtration instrument according to claim 6, wherein the longitudinal sliding table (6) is fixed on a box body (5) through a fixing bracket (4), a panel (19) is arranged on the box body (5), and a second accommodating groove (1901) is arranged on the panel;

the sample rack a is placed in a second receiving groove (1901).

8. The full-automatic Brinell sand core two-in-one intelligent suction filtration instrument according to claim 6, wherein a liquid level sensor (201), a first accommodating groove (202) and a handle (203) are arranged on the sample rack A (2); the liquid level sensor (201) is used for detecting the liquid level of the collecting bottle.

9. The full-automatic Brinell sand core two-in-one intelligent suction filtration instrument of claim 8, wherein the first receiving groove (202) is used for placing the collection bottle (18); the lifting handle (203) is used for taking and placing the sample rack A (2).

10. The full-automatic Brinell sand core two-in-one intelligent suction filtration instrument according to any one of claims 2 to 4, wherein the control cabinet (3) comprises a cabinet door (301), a display (34), an antenna (35) and a control button (36);

still be equipped with display screen wiring end (302), slip table wiring end (303), level gauge wiring end (304), vacuum pump wiring end (305), solenoid valve wiring (306), antenna wiring end (307), ground connection ground wire wiring end (308) and power connection end (309) in switch board (3) respectively.

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