CN202107162U - Automatic vacuum inverted water tank - Google Patents

Abstract

The utility model relates to an automatic vacuum inverted water tank. The automatic vacuum inverted water tank is characterized in that an arc-shaped partition plate is arranged in the internal middle of a tank body and divides the tank body into an upper cabin and a lower cabin; a bleeding pipe and a water inlet pipe are arranged at the top of the tank body and communicated with the upper cabin of the tank body; a communicating pipe is further arranged at the top of the tank body; one end of the communicating pipe is fixed to the top of the tank body; the other end of the communicating pipe penetrates the arc-shaped partition plate; the upper cabin is communicated with the lower cabin through the communicating pipe; a water discharge port is arranged at the bottom of the tank body; a water discharge reverse turning bed is arranged at the water discharge port; a communication port is formed on the tank wall of the lower cabin of the tank body; a first magnetic valve is arranged at the communication port; a connecting pipe is arranged on the tank wall of the tank body; one end of the connecting pipe is communicated with the upper cabin of the tank body; the other end of the connecting pipe is communicated with the lower cabin of the tank body; a second magnetic valve is arranged on the connecting pipe; a communicating reverse turning bed is arranged on the tank wall of the upper cabin of the tank body; an elbow pipe is arranged below the communicating reverse turning bed and communicated with the lower cabin of the tank body; a sealing shield is also arranged on the tank wall of the tank body; the elbow pipe and the communicating reverse turning bed are located in the sealing shield; and a liquid level relay is arranged in the lower cabin of the tank body. The automatic vacuum inverted water tank has the advantages of simple structure and low cost.

Description

The automatic pouring jar of vacuum

Technical field

The utility model relates in a kind of chemical production field, the filtrating that has the part filter residue after filtering is transported to the automatic pouring jar of vacuum of wastewater disposal basin.

Background technology

Can produce great amount of wastewater in the chemical production field; Also can have the part filter residue in its filtrating after these waste water filterings; Carry this part liquid can adopt centrifugal pump; But consider that the wastewater from chemical industry majority is acid, and the impurity of carrying secretly in the waste water, so the material of centrifugal pump must withstanding corrosion and wearing and tearing.Simultaneously the principle of work of centrifugal pump requires to be transferred liquid and will supply endlessly, lets the air admission pump housing in case supply not on, and this pump water again with air exhaustion in the pump housing, could continue to move discharge opeing so.In view of the above-mentioned use defective of centrifugal pump, generally adopt the pouring jar to carry liquid.The pouring jar adopts vacuum liquid-absorbing and transfusion, and it does not have the impeller of high-speed operation, does not therefore have the problem of erosion corrosion basically.And its when transfusion, to the no requirement (NR) of liquid moment supply, therefore use more convenient.But because conventional pouring jar project organization imprecision, it is unreliable that framing member is made, so can run into many beyond thought problems in the operational process, causes transfusion not smooth, inefficiency, even can not turn round.This wherein mainly can occur, and for example float seal is not tight, and rubber layer problem such as come off causes the maintenance of pouring jar frequent.

The utility model content

The utility model technical matters to be solved is to overcome deficiency of the prior art and provide a kind of vacuum simple in structure, easy to use, that use cost is cheap automatic pouring jar.

The technical scheme that the utility model solves the problems of the technologies described above employing is: the automatic pouring jar of this vacuum; Comprise tank body; It is characterized in that: the middle part is provided with arc-shaped partition in the described tank body; Arc-shaped partition is divided into two cabins up and down with the tank interior space, because tank interior need vacuumize, adopts the intensity of arc-shaped partition to be superior to flat dividing plate.The tank body top is provided with extraction pipe and the coolant inlet pipe that is communicated with the tank body upper-deck cabin; The tank body top also is provided with communicating pipe, this communicating pipe one end be fixed on the tank body top, the other end passes arc-shaped partition; This communicating pipe is communicated with cabin under tank body upper-deck cabin and the tank body; Communicating pipe passes the arc-shaped partition place communicating pipe and welds in order to the inductive means of liquid level relay to be installed, to guarantee sealing.Tank base is provided with discharge port, and discharge port is provided with the draining turnover panel, has connected entrance on the tank skin of cabin under the tank body; Connected entrance is provided with first electromagnetic valve, and the tank body tank skin is provided with connection pipe, and connection pipe one end is communicated with the tank body upper-deck cabin; The cabin is communicated with under the other end and the tank body, and connection pipe is provided with second electromagnetic valve, and tank body upper-deck cabin tank skin is provided with the connection turnover panel; The below that is communicated with turnover panel is provided with bend pipe, and the cabin is communicated with under bend pipe and the tank body, and tank body also is provided with seal closure on the tank skin outward; Bend pipe is positioned at the sealing cover with the connection turnover panel, is provided with liquid level relay under the tank body in the cabin.

Being provided with three liquid level relay contact points under the described tank body of the utility model in the cabin, is respectively the liquid level summit, residue foam vertex and between front intermediate point between the two.

The described draining turnover panel of the utility model is the unidirectional rotation turnover panel with the connection turnover panel.

The utility model compared with prior art has the following advantages: the utility model is controlled the tank body air pressure in the cabin up and down through being arranged on two electromagnetic valves on the tank body tank skin; Thereby control the turnover panel of two unidirectional rotation, feasible waste water through coolant inlet pipe entering tank body can discharge from discharge port.Because the difference of application industry; The waste water of some industry can produce foam after flowing into tank body; Thereby disturb the work of liquid level relay, the therefore extra time relay that is provided with, the cycle time of the flow set time relay through waste water; Thereby control the switch of two electromagnetic valves, make that the waste water in the tank body can smooth delivery of power.

Description of drawings

Fig. 1 is the utility model structure cutaway view.

Fig. 2 is a D-D cutaway view among Fig. 1.

The specific embodiment

Referring to Fig. 1-Fig. 2, the utility model comprises tank body 1, and the middle part is provided with arc-shaped partition 2 in the described tank body 1; Arc-shaped partition 2 is divided into cabin 12 under tank body upper-deck cabin 11 and the tank body with the tank interior space, and tank body 1 top is provided with the extraction pipe 3 and coolant inlet pipe 4 that is communicated with tank body upper-deck cabin 11, and tank body 1 top also is provided with communicating pipe 5; These, end was fixed on tank body 1 top communicating pipes 5 one; The other end passes arc-shaped partition 2, and this communicating pipe 5 is communicated with cabin 12 under tank body upper-deck cabin 11 and the tank body, and tank body 1 bottom is provided with discharge port 6; Discharge port 6 is provided with draining turnover panel 7, and draining turnover panel 7 is the unidirectional rotation turnover panel.Have connected entrance 8 on 12 tank skins of cabin under the tank body; Connected entrance 8 is provided with first electromagnetic valve 9, and the tank body tank skin is provided with connection pipe 10, and connection pipe 10 1 ends are communicated with tank body upper-deck cabin 11; Cabin 12 is communicated with under the other end and the tank body; Connection pipe 10 is provided with second electromagnetic valve 13, and tank body upper-deck cabin 11 tank skins are provided with and are communicated with turnover panel 14, and being communicated with turnover panel 14 is the unidirectional rotation turnover panel.The below that is communicated with turnover panel 14 is provided with bend pipe 15, and cabin 12 is communicated with under bend pipe 15 and the tank body, also is provided with seal closure 16 on the tank body 1 outer tank skin; Bend pipe 15 is positioned at sealing cover 16 with connection turnover panel 14; Be provided with three liquid level relay contact points under the tank body in the cabin 12, wherein the A point is the summit, and the C point is residue foam vertex; The B point is between A and C, and B point position is confirmed according to material properties.

During use, at first through the extraction pipe 3 tank body 1 in-to-in air of finding time, seal gas extraction duct 3 then, open second electromagnetic valve 13, close first electromagnetic valve 9.Because second electromagnetic valve 13 opens, cabin 12 forms same vacuum state under the tank body upper-deck cabin 11 that is communicated with through connection pipe 10 and the tank body, and discharge port turnover panel 7 is closed.In tank body 1, inject waste water through coolant inlet pipe 4, waste water is because deadweight will be communicated with turnover panel 14 opens, thereby process bend pipe 15 flows into cabin 12 under the tank bodies.Liquid measure under the tank body in the cabin 12 increased along with the time, and when liquid level surpassed liquid level relay contact point A point, second electromagnetic valve 13 was closed, and first electromagnetic valve 9 is opened.After second electromagnetic valve 13 is closed; Cut off the connection in cabin 12 under tank body upper-deck cabin 11 and the tank body, made tank body upper-deck cabin 11 keep vacuum states, vacuum states are removed in cabin 12 under the tank body; Air pressure under the tank body in the cabin 12 is communicated with turnover panel 14 and is closed greater than the air pressure in the tank body upper-deck cabin 11.Because the air pressure in cabin 12 is returned to normal barometric pressure through first electromagnetic valve 9 under the tank body at this moment, so draining turnover panel 7 is opened the waste water outflow.When the liquid level in the cabin under the tank body 12 drops to liquid level relay contact point C point; First electromagnetic valve 9 is closed, and second electromagnetic valve 13 is opened, and waits under tank body upper-deck cabin 11 and the tank body after the air pressure balance in the cabin 12; Repeat above-mentioned working process, carry out automatic pouring operation again and again.

Take out when some material waste water and can produce foam when getting into tank body 1 and make and normally accurately work of liquid level relay can also add a time relay when therefore needing, when the waste water liquid level reaches liquid level relay contact point A; Close second electromagnetic valve 13, open first electromagnetic valve 9, adjust time relay according to the actual pouring time; As 3 minutes; Open second electromagnetic valve 13 after 3 minutes, close first electromagnetic valve 9, according to above-mentioned working process circulation pouring.

Above content described in this specification sheets only is the casehistory that the utility model structure is done.The utility model person of ordinary skill in the field can make various modifications or replenishes or adopt similar mode to substitute described specific embodiment; Only otherwise depart from the structure of the utility model or surmount the defined scope of these claims, all should belong to the protection domain of the utility model.

Claims (3)

1. the automatic pouring jar of vacuum comprises tank body, it is characterized in that: the middle part is provided with arc-shaped partition in the described tank body, and arc-shaped partition is divided into two cabins up and down with the tank interior space; The tank body top is provided with extraction pipe and the coolant inlet pipe that is communicated with the tank body upper-deck cabin, and the tank body top also is provided with communicating pipe, this communicating pipe one end be fixed on the tank body top, the other end passes arc-shaped partition; This communicating pipe is communicated with cabin under tank body upper-deck cabin and the tank body, and tank base is provided with discharge port, and discharge port is provided with the draining turnover panel; Have connected entrance on the tank skin of cabin under the tank body, connected entrance is provided with first electromagnetic valve, and the tank body tank skin is provided with connection pipe; Connection pipe one end is communicated with the tank body upper-deck cabin, and the cabin is communicated with under the other end and the tank body, and connection pipe is provided with second electromagnetic valve; Tank body upper-deck cabin tank skin is provided with the connection turnover panel, and the below that is communicated with turnover panel is provided with bend pipe, and the cabin is communicated with under bend pipe and the tank body; Also be provided with seal closure on the outer tank skin of tank body, bend pipe is positioned at the sealing cover with the connection turnover panel, is provided with liquid level relay under the tank body in the cabin.

2. the automatic pouring jar of vacuum according to claim 1 is characterized in that: being provided with three liquid level relay contact points under the described tank body in the cabin, is respectively the liquid level summit, residue foam vertex and between front intermediate point between the two.

3. the automatic pouring jar of vacuum according to claim 1 is characterized in that: described draining turnover panel is the unidirectional rotation turnover panel with the connection turnover panel.