CN213979206U - Full-automatic negative pressure drainage device - Google Patents

Abstract

The utility model discloses a full-automatic negative pressure drainage device, including gravity-feed tank, negative pressure drain tank, drainage tube, drainage check valve, vacuum exhaust flange, drainage flange of intaking, one-way drainage device and vacuum negative pressure adjusting device, the bottom of negative pressure drain tank is located to one-way drainage device, the top of gravity-feed tank is located to vacuum negative pressure adjusting device, vacuum negative pressure adjusting device includes synchronous exhaust tube, tee bend connecting pipe, the connecting pipe of bleeding, solenoid electric valve one and solenoid electric valve two. The utility model belongs to the technical field of the automatic drainage of machine tooling, specifically a full-automatic negative pressure drainage device, the effectual defect that needs artifical supervision constantly in having solved the machine tooling drainage in the existing market realizes full-automatic negative pressure drainage through the mode of gravity-feed tank, and the liberation labour has improved production efficiency simultaneously greatly, is a very practical full-automatic negative pressure drainage device.

Description

Full-automatic negative pressure drainage device

Technical Field

The utility model belongs to the technical field of the automatic drainage of machine tooling, specifically indicate a full-automatic negative pressure drainage device.

Background

Traditional vacuum is inhaled and is not had automatic drainage function and need shut down and use manual artifical drainage, and the cost of labor is high and the time waste is of a specified duration, and the drainage process needs personnel incessantly to monitor, wastes time and energy and also causes personnel fatigue easily, causes equipment in the past very easily and can not in time to drain and break down to influence production efficiency, simultaneously because the big just environment of operating space noise is poor, causes very big injury to operating personnel's health easily.

SUMMERY OF THE UTILITY MODEL

To the above situation, for overcoming prior art's defect, the utility model provides a full-automatic negative pressure drainage device, the effectual defect that needs artifical supervision constantly in having solved the machining drainage on the computer in the existing market, the mode through gravity-feed tank realizes full-automatic negative pressure drainage, and the liberation labour has improved production efficiency simultaneously greatly, is a very practical full-automatic negative pressure drainage device.

The utility model adopts the following technical scheme: the utility model relates to a full-automatic negative pressure drainage device, which comprises a gravity sensing water storage tank, a negative pressure drainage tank, a drainage tube, a drainage check valve, a vacuum exhaust connecting flange, a drainage water inlet connecting flange, a one-way drainage device and a vacuum negative pressure adjusting device, wherein the negative pressure drainage tank is arranged on the gravity sensing water storage tank, one end of the drainage tube is arranged on the gravity sensing water storage tank, the other end of the drainage tube is arranged on the negative pressure drainage tank, the drainage check valve is arranged on the drainage tube, the vacuum exhaust connecting flange is arranged on the gravity sensing water storage tank, the drainage water inlet connecting flange is arranged on the gravity sensing water storage tank and is symmetrically arranged with the vacuum exhaust connecting flange, the one-way drainage device is arranged at the bottom of the negative pressure drainage tank, one end of the vacuum negative pressure adjusting device is arranged at the top of the gravity sensing water storage tank, the other end of the vacuum negative pressure adjusting device is arranged on the negative pressure drainage tank, the vacuum negative pressure adjusting device comprises a synchronous exhaust pipe, a three-way connecting pipe, an exhaust connecting pipe, a first electromagnetic control valve and a second electromagnetic control valve, wherein the exhaust connecting pipe is arranged at the top of the gravity sensing water storage tank, the first electromagnetic control valve is arranged on the exhaust connecting pipe, the three-way connecting pipe is arranged on the exhaust connecting pipe, the second electromagnetic control valve is arranged on the three-way connecting pipe and is perpendicular to the exhaust connecting pipe, one end of the synchronous exhaust pipe is arranged on the three-way connecting pipe, the other end of the synchronous exhaust pipe is arranged on the negative pressure drainage tank, the gravity sensing water storage tank plays a role in storing water and feeding water, the negative pressure drainage tank plays a role in draining water, the drainage pipe plays a role in drainage, the drainage one-way valve plays a role in controlling the water flow discharge direction, the vacuum exhaust connecting flange plays a role in connecting the vacuum exhaust device, the drainage water feeding connecting flange plays a role in connecting the machining drainage device, the one-way drainage device plays a role in one-way drainage, the vacuum negative pressure adjusting device plays a role in synchronously adjusting negative pressure, the synchronous exhaust pipe plays a role in synchronously exhausting air, the three-way connecting pipe plays a role in connection, the exhaust connecting pipe plays a role in connection, support and exhaust, and the first electromagnetic control valve and the second electromagnetic control valve play a role in control.

Further, one-way drainage device includes one-way drain pipe and one-way drain valve, one-way drain pipe is located on the diapire of negative pressure drainage case, one-way drain valve is located on the one-way drain pipe, one-way drain pipe plays the effect of drainage, one-way drain valve plays the effect of control drainage flow direction.

Further, be equipped with the gravity inductor on the gravity induction storage water tank inner wall diapire, the gravity inductor plays the effect of the gravity of response water.

Further, the tee bend connecting pipe is located between bleed connecting pipe and the synchronous exhaust tube, the gravity response storage water tank is located between bleed connecting pipe and the negative pressure drain tank, the negative pressure drain tank is located between one-way drain pipe and the gravity response storage water tank, the gravity response storage water tank is located between vacuum exhaust flange and the drainage intake flange, vacuum exhaust flange's height is less than the height of drainage intake flange.

Further, the gravity-feed tank is the setting of cavity cylinder cavity, negative pressure drainage tank is the setting of cavity cylinder cavity, the volume of gravity-feed tank is greater than the volume of negative pressure drainage tank, the drainage tube is the setting of U type, synchronous exhaust tube is the setting of type of falling L, the tee bend connecting pipe is the setting of type of falling T, the connecting pipe of bleeding is the setting of type of falling L, the length of the connecting pipe of bleeding is less than the length of drainage tube, the length of drainage tube is less than the length of synchronous exhaust tube, one-way drain pipe is the setting of type L.

Further, the gravity sensor is provided with a plurality of groups.

Adopt above-mentioned structure the utility model discloses the beneficial effect who gains as follows: the utility model provides a full-automatic negative pressure drainage device, the effectual defect that needs artifical supervision constantly in having solved the machining drainage on the existing market, the mode through gravity-feed tank realizes full-automatic negative pressure drainage, and the liberation labour has improved production efficiency simultaneously greatly, is a very practical full-automatic negative pressure drainage device.

Drawings

Fig. 1 is a schematic view of the overall structure of a full-automatic negative pressure drainage device of the present invention;

fig. 2 is a cross-sectional view of the fully automatic negative pressure drainage device of the present invention.

The device comprises a gravity sensing water storage tank 1, a negative pressure drainage tank 2, a drainage pipe 3, a drainage check valve 4, a drainage check valve 5, a vacuum exhaust connecting flange 6, a drainage water inlet connecting flange 7, a check drainage device 8, a vacuum negative pressure adjusting device 9, a synchronous exhaust pipe 10, a three-way connecting pipe 11, an exhaust connecting pipe 12, a first electromagnetic control valve 13, a second electromagnetic control valve 14, a check drainage pipe 15, a check drainage valve 16 and a gravity sensor.

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments; based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in the figure 1-2, the utility model relates to a full-automatic negative pressure drainage device, which comprises a gravity sensing water storage tank 1, a negative pressure drainage tank 2, a drainage tube 3, a drainage check valve 4, a vacuum exhaust connecting flange 5, a drainage water inlet connecting flange 6, a one-way drainage device 7 and a vacuum negative pressure adjusting device 8, wherein the negative pressure drainage tank 2 is arranged on the gravity sensing water storage tank 1, one end of the drainage tube 3 is arranged on the gravity sensing water storage tank 1, the other end of the drainage tube 3 is arranged on the negative pressure drainage tank 2, the drainage check valve 4 is arranged on the drainage tube 3, the vacuum exhaust connecting flange 5 is arranged on the gravity sensing water storage tank 1, the drainage water inlet connecting flange 6 is arranged on the gravity sensing water storage tank 1 and is symmetrically arranged with the vacuum exhaust connecting flange 5, the one-way drainage device 7 is arranged at the bottom of the negative pressure drainage tank 2, one end of the vacuum negative pressure adjusting device 8 is arranged at the top of the gravity sensing water storage tank 1, the other end of the vacuum negative pressure adjusting device 8 is arranged on the negative pressure drainage box 2, the vacuum negative pressure adjusting device 8 comprises a synchronous exhaust pipe 9, a three-way connecting pipe 10, an exhaust connecting pipe 11, a first electromagnetic control valve 12 and a second electromagnetic control valve 13, the exhaust connecting pipe 11 is arranged at the top of the gravity sensing water storage box 1, the first electromagnetic control valve 12 is arranged on the exhaust connecting pipe 11, the three-way connecting pipe 10 is arranged on the exhaust connecting pipe 11, the second electromagnetic control valve 13 is arranged on the three-way connecting pipe 10 and is vertically arranged with the exhaust connecting pipe 11, one end of the synchronous exhaust pipe 9 is arranged on the three-way connecting pipe 10, and the other end of the synchronous exhaust pipe 9 is arranged on the negative pressure drainage box 2.

The one-way drainage device 7 comprises a one-way drainage pipe 14 and a one-way drainage valve 15, the one-way drainage pipe 14 is arranged on the bottom wall of the negative pressure drainage tank 2, and the one-way drainage valve 15 is arranged on the one-way drainage pipe 14.

And a gravity sensor 16 is arranged on the bottom wall of the inner wall of the gravity sensing water storage tank 1.

Tee bend connecting pipe 10 is located between bleed connecting pipe 11 and the synchronous exhaust tube 9, gravity induction water storage tank 1 is located between bleed connecting pipe 11 and the negative pressure drain tank 2, negative pressure drain tank 2 is located between one-way drain pipe 14 and the gravity induction water storage tank 1, gravity induction water storage tank 1 is located between vacuum exhaust flange 5 and the drainage flange of intaking 6, vacuum exhaust flange 5 highly is less than the drainage flange of intaking 6 height.

Gravity-feed tank 1 is the setting of cavity cylinder cavity, negative pressure drainage tank 2 is the setting of cavity cylinder cavity, gravity-feed tank 1's volume is greater than negative pressure drainage tank 2's volume, drainage tube 3 is the setting of U type, synchronous exhaust tube 9 is the setting of type of falling L, tee bend connecting pipe 10 is the setting of type of falling T, connecting pipe 11 of bleeding is the setting of type of falling L, the length of connecting pipe 11 of bleeding is less than the length of drainage tube 3, the length of drainage tube 3 is less than the length of synchronous exhaust tube 9, one-way drain pipe 14 is the setting of type of L.

The gravity sensors 16 are provided in several groups.

When the gravity induction water storage tank is used, a user connects the drainage water inlet connecting flange 6 with a machined drainage device, the vacuum air extraction device is installed and connected on the vacuum exhaust connecting flange 5, the user controls the first electromagnetic control valve 12 to be opened and the second electromagnetic control valve 13 to be closed in an initial state, the user opens the vacuum air extraction device at the moment, air in the gravity induction water storage tank 1 is extracted through the vacuum exhaust connecting flange 5, meanwhile, air in the negative pressure drainage tank 2 can be extracted through the synchronous exhaust pipe 9, the three-way connecting pipe 10 and the air extraction connecting pipe 11, so that the gravity induction water storage tank 1 and the negative pressure drainage tank 2 form isobaric vacuum, then the user enters water through the drainage water inlet connecting flange 6, at the moment, the water falls to the bottom of the gravity induction water storage tank 1 under the action of gravity and contacts with the gravity inductor 16, and after the gravity inductor 16 receives a gravity signal of the water, when the gravity sensing water storage tank 1 is drained into the negative pressure drainage tank 2, the gravity sensor 16 loses a gravity signal and then controls the electromagnetic control valve II 13 to be opened and controls the electromagnetic control valve I12 to be closed, air starts to enter the negative pressure drainage tank 2 at the moment, and water in the negative pressure drainage tank 2 is drained through the one-way drainage pipe 14 and the one-way drainage valve 15 under the action of atmospheric pressure, so that the use flow of the whole full-automatic negative pressure drainage device is realized.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

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

The present invention and the embodiments thereof have been described above, but the description is not limited thereto, and the embodiment shown in the drawings is only one of the embodiments of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should understand that they should not be limited to the embodiments described above, and that they can design the similar structure and embodiments without departing from the spirit of the invention.

Claims (6)

1. The utility model provides a full-automatic negative pressure drainage device which characterized in that: the gravity sensing water storage tank is arranged on the gravity sensing water storage tank, one end of the drainage pipe is arranged on the gravity sensing water storage tank, the other end of the drainage pipe is arranged on the negative pressure drainage tank, the drainage check valve is arranged on the drainage pipe, the vacuum exhaust connecting flange is arranged on the gravity sensing water storage tank and is symmetrically arranged with the vacuum exhaust connecting flange, the one-way drainage device is arranged at the bottom of the negative pressure drainage tank, one end of the vacuum negative pressure adjustment device is arranged at the top of the gravity sensing water storage tank, the other end of the vacuum negative pressure adjustment device is arranged on the negative pressure drainage tank, and the vacuum negative pressure adjustment device comprises a synchronous exhaust pipe, a vacuum exhaust pipe, a drainage check valve, a one-way drainage device and a vacuum negative pressure adjustment device, The gravity sensing water storage tank comprises a three-way connecting pipe, an air exhaust connecting pipe, a first electromagnetic control valve and a second electromagnetic control valve, wherein the air exhaust connecting pipe is arranged at the top of the gravity sensing water storage tank, the first electromagnetic control valve is arranged on the air exhaust connecting pipe, the three-way connecting pipe is arranged on the air exhaust connecting pipe, the second electromagnetic control valve is arranged on the three-way connecting pipe and is vertically arranged with the air exhaust connecting pipe, one end of a synchronous air exhaust pipe is arranged on the three-way connecting pipe, and the other end of the synchronous air exhaust pipe is arranged on a negative pressure water drainage tank.

2. The full-automatic negative pressure drainage device according to claim 1, wherein: the one-way drainage device comprises a one-way drainage pipe and a one-way drainage valve, the one-way drainage pipe is arranged on the bottom wall of the negative pressure drainage box, and the one-way drainage valve is arranged on the one-way drainage pipe.

3. The full-automatic negative pressure drainage device according to claim 2, wherein: and a gravity sensor is arranged on the bottom wall of the inner wall of the gravity sensing water storage tank.

4. The full-automatic negative pressure drainage device according to claim 3, wherein: the tee bend connecting pipe is located between bleed connecting pipe and the synchronous exhaust tube, the gravity response storage water tank is located between bleed connecting pipe and the negative pressure drain tank, the negative pressure drain tank is located between one-way drain pipe and the gravity response storage water tank, the gravity response storage water tank is located between vacuum exhaust flange and the drainage flange of intaking, vacuum exhaust flange's height is less than the drainage flange of intaking's height.

5. The full-automatic negative pressure drainage device according to claim 4, wherein: the gravity induction water storage tank is the setting of cavity cylinder cavity, the negative pressure drainage tank is the setting of cavity cylinder cavity, the volume of gravity induction water storage tank is greater than the volume of negative pressure drainage tank, the drainage tube is the setting of U type, synchronous exhaust tube is the setting of type of falling L, the tee bend connecting pipe is the setting of type of falling T, the connecting pipe of bleeding is the setting of type of falling L, the length of the connecting pipe of bleeding is less than the length of drainage tube, the length of drainage tube is less than the length of synchronous exhaust tube, one-way drain pipe is the setting of type of L.

6. The full-automatic negative pressure drainage device according to claim 5, wherein: the gravity sensor is provided with a plurality of groups.

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