CN210117268U - PAM charge device - Google Patents

Abstract

The utility model discloses a PAM dosing device, which comprises a medicine powder storage mechanism, a vacuum suction mechanism, a medicine powder feeding mechanism, a medicine dispensing pool, a conveying assembly and a medicine powder conveying pipeline; the powder storage mechanism and the dispensing pool are arranged on the ground in parallel, the vacuum suction mechanism and the powder feeding mechanism are arranged on the dispensing pool in parallel from top to bottom, the powder storage mechanism and the vacuum suction mechanism are connected through a powder conveying pipeline, and two ends of the conveying assembly are respectively connected with the powder feeding mechanism and the dispensing pool. Through the utility model discloses PAM charge device that preparation obtained, easy operation, vacuum suction mechanism and air suction inlet set up and can guarantee that powder is smooth from subaerial powder storage mechanism suction, avoided the staff at the consuming time power of climbing in-process, the setting of spotlight has accelerated the steam evaporation and has guaranteed powder and pipeline drying, can prevent effectively that powder is moist to block up the pipeline, ensures the normal transport of powder, and whole device easy operation has practiced thrift the cost greatly.

Description

PAM charge device

Technical Field

The utility model relates to a sewage treatment device technical field specifically, relates to a PAM charge device.

Background

PAM is a flocculating agent with strong flocculation, and because PAM has active acyl on the main chain and water solubility, the PAM can reduce the frictional resistance between liquids and can be used as an effective flocculating agent, a thickening agent, a paper strengthening agent, a liquid drag reducer and the like, so PAM has wide application in industries such as oil exploitation, water treatment, textile printing and dyeing, papermaking, ore dressing, coal washing, medicine, sugar manufacturing, cultivation, building materials, agriculture and the like, and is called as 'all-purpose auxiliary agent' and 'universal product'.

The traditional equipment for adding PAM is an integrated dissolving and dosing device, prepares powdered PAM into liquid with a certain concentration, and accurately adds the powdered PAM into a dosing system of a dosing point. Firstly, powder medicament in a hopper is fed into a mixer through a quantitative feeding device, is completely mixed with water and then enters a solution box, the mixed solution is stirred for multiple times and then is uniformly mixed into solution with a specified feeding concentration, and finally the solution enters a liquid storage chamber and is fed to a dosing point through a metering pump.

Patent CN 207313211U discloses a PAM feeding device, wherein a PAM feeding port is arranged at the uppermost end of the whole device, and feeding is performed by using gravity, in actual production, because the PAM feeding device has a certain height, a staircase from the ground to the feeding port is usually arranged beside the PAM feeding device, PAM needs to be conveyed from the ground to the PAM feeding port by manpower for feeding, huge labor cost needs to be consumed, manual feeding cannot be controlled, and the flocculation effect can be influenced by the amount of the drug; the manual dosing is lack of timeliness, and the medicine is not uniformly scattered.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to overcome prior art's defect and not enough, provide a PAM charge device to avoid powder to wet, make the powder pass through the pipeline smoothly and get into dispensing device.

The utility model discloses above-mentioned purpose is realized through following technical scheme:

a PAM dosing device comprises a medicine powder storage mechanism, a vacuum suction mechanism, a medicine powder feeding mechanism, a dosing tank, a conveying assembly and a medicine powder conveying pipeline; the powder storage mechanism and the dispensing pool are arranged on the ground in parallel, the vacuum suction mechanism and the powder feeding mechanism are arranged on the dispensing pool in parallel from top to bottom, the powder storage mechanism and the vacuum suction mechanism are connected through a powder conveying pipeline, and two ends of the conveying assembly are respectively connected with the powder feeding mechanism and the dispensing pool.

When the device is used, firstly, the medicine powder is filled into the medicine powder storage mechanism, then the power switch and the vacuum suction mechanism switch are turned on, the medicine powder enters the medicine powder feeding mechanism through the medicine powder conveying pipeline under the action of the vacuum suction mechanism, and then the medicine powder is conveyed to the medicine dispensing pool for medicine dispensing under the action of the medicine powder conveying assembly.

Preferably, the conveying assembly is a conveyor belt or a screw conveyor to smoothly convey the powder.

Preferably, the dispensing pool is also connected with a diluting pool.

Preferably, the diluting pool is connected with a first water pipe to primarily dilute the medicinal powder conveyed by the conveying assembly.

Preferably, the dispensing pool is composed of a primary dissolving tank, a middle dissolving tank and a liquid medicine storage tank in parallel.

Preferably, overflow ports are respectively arranged between the primary dissolving tank and the intermediate dissolving tank and between the intermediate dissolving tank and the liquid medicine storage tank, so that the primary dissolving tank, the intermediate dissolving tank and the liquid medicine storage tank are communicated.

Preferably, a second water pipe is arranged on the wall of the upper part of the primary dissolving tank so as to further dilute the medicinal powder.

Preferably, stirring parts are arranged in the primary dissolving tank and the intermediate dissolving tank so as to fully dissolve the powdered medicine.

More preferably, the number of the stirring parts is several groups, and the stirring parts are connected side by side so as to fully stir the powdered medicine.

Preferably, a medicine feeding pump is arranged at the bottom of the liquid medicine storage tank so as to conveniently feed the prepared liquid medicine.

Preferably, the bottom of the powder storage mechanism is provided with a powder suction outlet connected to the powder storage mechanism through a powder delivery conduit.

Preferably, the powder storage mechanism is further provided with an air inlet to prevent negative pressure from being generated in the powder storage mechanism after the vacuum inhalation mechanism is operated, and thus the powder cannot be normally sucked out of the storage tank.

Preferably, the air inhalation port is provided at the medicine powder inhalation port so that the vacuum inhalation mechanism can inhale the medicine powder and air simultaneously into the vacuum inhalation mechanism to smoothly inhale the medicine powder from the storage tank.

Preferably, a spotlight is arranged at the medicine powder suction port.

More preferably, the spotlight is a small spotlight to accelerate the evaporation of water vapor by using the temperature of the spotlight to ensure the drying of the powder and the tube and ensure the normal delivery of the powder.

Preferably, the PAM dosing device can be used in a high-efficiency sedimentation tank.

The inventor has solved the actual production in-process through creative work, when using powder in batches, because the dog-house is usually in the eminence, carries out powder and throws the problem that consumes manpower, time cost when to the inventor is to actually dispensing and throw the phenomenon that powder that appears easily wets and block up the pipeline with throwing the in-process, has designed PAM device through setting up vacuum suction mechanism, spotlight and air suction inlet for can carry out powder on ground and throw the operation of throwing, avoided the production of negative pressure in the powder storage mechanism, powder can not wet the caking simultaneously in data send process, and operation process is simple, degree of automation is high, practice thrift manpower and time cost.

Compared with the prior art, the utility model discloses following beneficial effect has:

through the utility model discloses PAM charge device that preparation obtained, easy operation, vacuum suction mechanism and air suction inlet set up and can guarantee that powder is smooth from subaerial powder storage mechanism suction, avoided the staff at the consuming time power of climbing in-process, the setting of spotlight has accelerated the steam evaporation and has guaranteed powder and pipeline drying, can prevent effectively that powder is moist to block up the pipeline, ensures the normal transport of powder, and whole device easy operation has practiced thrift the cost greatly.

Drawings

Fig. 1 is the utility model discloses PAM device structure schematic diagram in the high-efficient sedimentation tank.

1-a powder storage mechanism; 2-a vacuum suction mechanism; 3-a medicine powder feeding mechanism; 4-a dispensing pool; 5-a transfer assembly; 6-a medicine powder conveying pipeline; 7-a dilution tank; 8-a first water pipe; 9-an overflow port; 10-a second water pipe; 11-a medicine powder suction port; 12-air intake; 13-spotlight; 14-a stirring member; 15-a dosing pump; 41-primary dissolving tank; 42-a medium-grade dissolving tank; 43-liquid medicine storage tank.

Detailed Description

The invention is further described with reference to the following figures and specific examples. Wherein the showings are for the purpose of illustrating the invention only and not for the purpose of limiting the same, and in which there is shown by way of illustration only and not in any way limiting the scope of the invention; for a better understanding of the embodiments of the present invention, some parts of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product.

Example 1

As shown in fig. 1, a PAM dosing device comprises a medicine powder storage mechanism 1, a vacuum suction mechanism 2, a medicine powder feeding mechanism 3, a dispensing pool 4, a screw conveyor 5 and a medicine powder conveying pipeline 6; the powder storage mechanism 1 and the dispensing pool 4 are arranged on the ground in parallel, the vacuum suction mechanism 2 and the powder feeding mechanism 3 are arranged on the dispensing pool 4 in parallel from top to bottom, the powder storage mechanism 1 and the vacuum suction mechanism 2 are connected through a powder conveying pipeline 6, and two ends of the conveying assembly 5 are respectively connected with the powder feeding mechanism 3 and the dispensing pool 4. Wherein, the pond 4 that dispenses is connected with the diluting pond 7, the diluting pond 7 is connected with first water pipe 8, the pond 4 that dispenses is dissolved case 41 by elementary, case 42 and liquid medicine bin 43 are dissolved and are constituteed side by side to the medium level, dissolve case 41 and medium level and dissolve case 42 elementary, be equipped with overflow mouth 9 between case 42 and the liquid medicine bin 43 respectively, be equipped with second water pipe 10 on the case wall of elementary 41 upper portions of dissolving case, dissolve case 41 and medium level and dissolve case (42) and be equipped with agitator 14 in, liquid medicine bin 43 bottom is equipped with medicine pump 15, the bottom that powder storage mechanism 1 was equipped with powder suction outlet 11 and air suction hole 12, air suction hole 12 sets up on powder suction outlet 11, powder suction outlet 11 department is equipped with small-size spotlight 13.

When the device is used, firstly, the medicine powder is placed in the medicine powder storage mechanism 1, the small spotlight 13, the vacuum suction mechanism 2, the air suction hole 12, the screw conveyor 5 and the stirrer 14 are opened, the medicine powder in the medicine powder storage mechanism 1 enters the medicine powder feeding mechanism 3 through the medicine powder conveying pipeline 6 and the vacuum suction mechanism 2 under the action of the vacuum suction mechanism 2, then enters the medicine dispensing pool 4 under the conveying action of the screw conveyor 5, is diluted through the first water pipe 8 and the second water pipe 10 and then enters the medicine dispensing pool 4, and then enters the medicine liquid storage tank 43 through the overflow port 9 between the primary dissolving tank 41 and the middle dissolving tank 42 and between the middle dissolving tank 42 and the medicine liquid storage tank 43 after being dissolved and diluted in the primary dissolving tank 41 and the middle dissolving tank 42, and then is distributed through the medicine liquid feeding pump 15.

The above embodiments are preferred embodiments of the present invention, but the embodiments of the present invention are not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be equivalent replacement modes, and all are included in the scope of the present invention.

Claims (10)

1. A PAM dosing device is characterized by comprising a medicine powder storage mechanism (1), a vacuum suction mechanism (2), a medicine powder adding mechanism (3), a dosing pool (4), a conveying assembly (5) and a medicine powder conveying pipeline (6); the medicine powder storage mechanism (1) and the medicine dispensing pool (4) are arranged on the ground in parallel; a medicine powder adding mechanism (3) is arranged on the medicine dispensing tank (4), and a vacuum suction mechanism (2) is arranged on the medicine powder adding mechanism (3); the medicine powder storage mechanism (1) is connected with the vacuum suction mechanism (2) through a medicine powder conveying pipeline (6); two ends of the conveying component (5) are respectively connected with the medicine powder adding mechanism (3) and the medicine dispensing pool (4).

2. The device according to claim 1, characterized in that a dilution basin (7) is also connected to the dosing basin (4).

3. The device according to claim 2, characterized in that a first water pipe (8) is connected to the dilution tank (7).

4. The device according to claim 1, characterized in that the dosing tank (4) is composed of a primary dissolution tank (41), a medium dissolution tank (42) and a liquid medicine storage tank (43) in parallel.

5. The device according to claim 4, characterized in that overflow ports (9) are respectively arranged between the primary dissolving tank (41) and the intermediate dissolving tank (42) and between the intermediate dissolving tank (42) and the liquid medicine storage tank (43).

6. The apparatus according to claim 4, characterized in that the upper wall of the primary dissolving tank (41) is provided with a second water pipe (10).

7. The apparatus according to claim 1, wherein the bottom of the powder storage means (1) is provided with a powder inhalation port (11) connected to the powder storage means (1) through a powder delivery tube (6).

8. The device according to claim 1, wherein the powder storage means (1) is further provided with an air inlet (12).

9. The device according to claim 8, wherein the air inhalation port (12) is provided on the medicine powder inhalation port (11).

10. Device according to claim 9, characterized in that a spotlight (13) is arranged at the powder outlet opening (11).

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