CN215161576U - Automatic device for purifying metal-containing water by using peel adsorbent - Google Patents

Abstract

The utility model discloses a peel adsorbent purifies automation equipment who contains metallic water, including strutting arrangement, controlling means, purifier, induction system and weighing device, controlling means analyzes the ring through quality of water and is connected with strutting arrangement, and purifier is connected with the induction system through six arris water purification boxes, and the induction system passes through the filth filter cartridge and is connected with purifier, and weighing device passes through the adsorbent stand pipe and is connected with the induction system. The utility model discloses a filth filter cartridge realizes that impurity filters, realize the analysis to the kind and the content of heavy metal in the sewage through heavy metal analysis ring, the subsequent peel adsorbent's of being convenient for follow-up correspondence put in, realize the mass through the quality monitoring ring and weigh, avoid causing unnecessary waste, carry out inside slip along the displacement slip post through the two cross traction frames of gomphosis and realize that peel adsorbent storage leaks the box and expose in six arris water purification boxes, purify heavy metal in the sewage, realize water quality testing through water quality analysis ring, judge whether the heavy metal purifies finishes.

Description

Automatic device for purifying metal-containing water by using peel adsorbent

Technical Field

The utility model relates to a purifier specifically is peel adsorbent purifies the automation equipment who contains the metalliferous water.

Background

Heavy metal water pollution is a relatively serious environmental pollution problem at present, and industrial wastewater is improperly discharged into a water body to cause pollution, so that great threat is brought to human health, therefore, the prevention and treatment of heavy metal water pollution is a severe and urgent work for protecting ecological environment and human self, among numerous treatment modes, a biological adsorption method is a high-quality treatment method which is green, safe and low in cost, peel is often used for adsorbing heavy metal, and by using the adsorbent, harmful substances cannot be generated to the water body, and the adsorbent has good environmental affinity.

The existing automatic device for purifying the metal-containing water often generates harmful substances in the purification process, and the adsorbent cannot be automatically replaced, so that incomplete water purification is easily caused.

SUMMERY OF THE UTILITY MODEL

The utility model discloses a main aim at provides the automation equipment that peel adsorbent purifies contains metallic water can effectively solve the automation equipment that purifies containing metallic water in the background art, produces harmful substance often in the purifying process, and the unable automatic change of adsorbent easily causes the incomplete problem of water purification.

In order to achieve the above purpose, the utility model adopts the following technical scheme: an automatic device for purifying metal-containing water by using peel adsorbent comprises a supporting device, a control device, a water purifying device, a leading-in device and a weighing device, wherein the supporting device comprises a base, an arc plate support frame, a water purifying storage barrel, an isolation frame plate, a transfer water storage box, a deformation compression rotary hook lock and an opening and closing draw plate water drain door, one surface of the arc plate support frame is respectively connected with one surface of the base, one surface of the water purifying storage barrel is connected with one surface of the base, one surface of the isolation frame plate is connected with one surface of the water purifying storage barrel, one surface of the transfer water storage box is connected with one surface of the isolation frame plate, the transfer water storage box is of a hollow structure, one surface of the deformation compression rotary hook lock is respectively connected with the inner surface of the transfer water storage box, one surface of the opening and closing draw plate water drain door is respectively connected with one surface of the deformation compression rotary hook locks, the control device comprises a water quality analysis ring and a quality monitoring ring, the water quality analysis ring comprises a hexagonal water purification box, a drawing and water discharging sealing frame, a peel adsorbent storage leakage box and a displacement sliding column, wherein one surface of the hexagonal water purification box is connected with one surface of the water quality analysis ring, the hexagonal water purification box is of a hollow structure, one surface of the drawing and water discharging sealing frame is connected with the peripheral side of the hexagonal water purification box, one surface of the peel adsorbent storage leakage box is in sliding fit with one surface of the hexagonal water purification box, one surface of the displacement sliding column is connected with the inner surface of the hexagonal water purification box, the guiding device comprises a dirt filtering box, a sewage conduit and a peel adsorbent guiding inclined pipe, one surface of the dirt filtering box is connected with the inner surface of the hexagonal water purification box, the sewage guide pipe is matched with the sewage filter box, a plurality of peel adsorbent leading-in inclined pipes are connected with a plurality of peel adsorbent storage leakage boxes respectively on the surface, the weighing device comprises inclined bottom weighing cylinders, embedded inclined plates and induction opening and closing doors, one surface of each inclined bottom weighing cylinder is connected with one surface of each quality monitoring ring respectively, one surface of each embedded inclined plate is connected with one surface of each inclined bottom weighing cylinder respectively, and the induction opening and closing doors are connected with one surface of each inclined bottom weighing cylinder respectively.

Preferably, the supporting device further comprises a plurality of reinforcing rib plates, wherein one surface of each reinforcing rib plate is connected with one surface of each arc plate supporting frame, the number of the arc plate supporting frames is six, the arc plate supporting frames are used for installing the inclined bottom weighing cylinders, the number of the deformation compression rotary pull hook locks is four, the deformation compression rotary pull hook locks are used for opening and closing the draw plate water drain door, the number of the reinforcing rib plates is six, and the reinforcing rib plates are used for reinforcing connection between the base and the arc plate supporting frames.

Preferably, the control device further comprises a heavy metal analysis ring, wherein one surface of the heavy metal analysis ring is connected with one surface of the sewage conduit, the total number of the quality monitoring rings is six, the quality monitoring rings are used for monitoring the quality of the fruit peel adsorbent in the inclined-bottom weighing cylinder, the water quality detection rings are used for detecting whether the purified water quality is qualified, and the heavy metal analysis rings are used for analyzing the types and the content of heavy metals in the wastewater.

Preferably, the water purification device further comprises a plurality of embedded double-cross traction frames, wherein one surface of each embedded double-cross traction frame is in sliding fit with one surface of each positioning sliding column respectively, six drawing water draining sealing frames are used for draining water and sealing, six peel adsorbent storage leakage boxes are used, the peel adsorbent storage leakage boxes are used for temporarily storing the peel adsorbent, six positioning sliding columns are used, the positioning sliding columns are used for providing sliding conditions for the embedded double-cross traction frames, the six embedded double-cross traction frames are used, and the embedded double-cross traction frames are used for driving the peel adsorbent storage leakage boxes to move.

Preferably, the leading-in device further comprises a plurality of adsorbent arc-shaped inverted hoppers, one surface of each adsorbent arc-shaped inverted hopper is connected with one surface of each peel adsorbent leading-in inclined pipe, six peel adsorbent leading-in inclined pipes are arranged, the peel adsorbent leading-in inclined pipes are used for leading the peel adsorbent into the peel adsorbent storage leakage box, six adsorbent arc-shaped inverted hoppers are arranged, and the adsorbent arc-shaped inverted hoppers are used for receiving the led-in peel adsorbent.

Preferably, the weighing device further comprises adsorbent guide pipes, wherein the surfaces of the adsorbent guide pipes are respectively connected with the surfaces of the inclined bottom weighing cylinders, the total number of the inclined bottom weighing cylinders is six, the inclined bottom weighing cylinders are used for weighing the weight of the required peel drying agent, the total number of the embedded inclined plates is six, the embedded inclined plates are used for facilitating the derivation of the peel adsorbent, the total number of the induction opening and closing doors is six, the induction opening and closing doors are used for opening the inclined bottom weighing cylinders, the total number of the adsorbent guide pipes is six, and the adsorbent guide pipes are used for conveying the peel drying agent.

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

1. the utility model discloses in, realize leading-in sewage through the sewage pipe, realize impurity filtering through the filth filter cartridge, realize the analysis to the kind and the content of heavy metal in the sewage through heavy metal analysis ring, the peel adsorbent's of the follow-up correspondence of being convenient for put in, realize purifying through six arris water purification boxes, according to the heavy metal information that detects out, realize the input of ration peel drier through the weighing cylinder of oblique end, realize the mass through the quality monitoring ring and weigh, avoid causing unnecessary waste.

2. The utility model discloses in, realize the derivation of peel drier through the response door that opens and shuts, realize the direction of peel drier through the adsorbent stand pipe, realize the transport of peel adsorbent through the leading-in pipe that inclines of adsorbent arc fill and peel adsorbent, leak the storage that the box realized the peel adsorbent through the peel adsorbent storage, carry out inside slip along the displacement slippage post through the gomphosis bicross traction frame and realize that the peel adsorbent storage leaks the box and expose in six arris water purification boxes, peel adsorbent in the box carries out the mixing reaction with sewage, purify heavy metal in the sewage, realize water quality testing through water quality analysis ring, judge whether the heavy metal purifies and finishes.

3. The utility model discloses in, sluicing seal frame pull-down through the pull realizes ponding in the discharge box, through the deformation compression rotary hook lock realize opening and shutting the opening of taking out the board bleeder gate, hold the water box through the transfer and realize temporarily storing up the purification water, realize purifying water through keeping apart the frame plate and converge into water purification storage bucket.

Drawings

FIG. 1 is a schematic view of the external overall structure of an automated apparatus for purifying metal-containing water by using the peel adsorbent of the present invention;

FIG. 2 is a front view of the automatic apparatus for purifying metal-containing water by using the peel adsorbent of the present invention;

FIG. 3 is a sectional view of the automated apparatus for purifying metal-containing water with peel adsorbent of the present invention shown in FIG. 2A-A;

FIG. 4 is a sectional view of the automatic device for purifying metal-containing water by using the peel adsorbent of the present invention shown in FIG. 3B-B.

In the figure: 100. a support device; 110. a base; 120. an arc plate support frame; 130. a purified water storage barrel; 140. an isolation frame plate; 150. a transfer water storage box; 160. deforming and compressing the rotating hook lock; 170. the draw plate drain door is opened and closed; 180. reinforcing the ribbed plate; 200. a control device; 210. a water quality analysis ring; 220. a quality monitoring loop; 230. a heavy metal analysis ring; 300. a water purification device; 310. a hexagonal water purifying box; 320. drawing a water drainage sealing frame; 330. a peel adsorbent storage box; 340. adjusting the sliding column; 350. embedding a double-cross traction frame; 400. a lead-in device; 410. a dirt filter box; 420. a sewage conduit; 430. introducing a peel adsorbent into the inclined tube; 440. an arc-shaped inverted bucket of the adsorbent; 500. a weighing device; 510. a sloping bottom weighing cylinder; 520. embedding a tilting plate; 530. induction opening and closing the door; 540. an adsorbent guide tube.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

Referring to fig. 1-4, the present invention relates to an automatic device for purifying metal-containing water by using peel adsorbent, comprising a supporting device 100, a control device 200, a water purifying device 300, a guiding device 400 and a weighing device 500, wherein the supporting device 100 comprises a base 110, arc plate brackets 120, a purified water storage tank 130, an isolation frame plate 140, a transit water storage box 150, a deformable compression rotary hook lock 160 and an opening and closing draw plate drain door 170, a surface of each of the arc plate brackets 120 is connected with a surface of the base 110, a surface of the purified water storage tank 130 is connected with a surface of the base 110, a surface of the isolation frame plate 140 is connected with a surface of the purified water storage tank 130, a surface of the transit water storage box 150 is connected with a surface of the isolation frame plate 140, the transit water storage box 150 is of a hollow structure, a surface of each of the deformable compression rotary hook lock 160 is connected with an inner surface of the transit water storage box 150, a surface of the opening and closing draw plate drain door 170 is connected with a surface of each of the deformable compression rotary hook lock 160, the control device 200 comprises a water quality analysis ring 210 and a quality monitoring ring 220, wherein one surface of the water quality analysis ring 210 is connected with one surface of an opening and closing pumping plate drain door 170, one surface of the quality monitoring ring 220 is respectively connected with one surface of a plurality of arc plate supporting frames 120, the water purifying device 300 comprises a hexagonal water purifying box 310, a drawing and draining sealing frame 320, a peel adsorbent storage leaking box 330 and a position-adjusting sliding column 340, one surface of the hexagonal water purifying box 310 is connected with one surface of the water quality analysis ring 210, the hexagonal water purifying box 310 is of a hollow structure, one surface of the drawing and draining sealing frame 320 is respectively connected with the peripheral side surface of the hexagonal water purifying box 310, one surface of the peel adsorbent storage leaking box 330 is respectively in sliding fit with one surface of the hexagonal water purifying box 310, one surface of the position-adjusting sliding column 340 is respectively connected with the inner surface of the hexagonal water purifying box 310, the introducing device 400 comprises a sewage filtering box 410, a sewage conduit 420 and a peel adsorbent introducing inclined conduit 430, one surface of the sewage filter box 410 is connected with the inner surface of the hexagonal water purification box 310, the position of the sewage guide pipe 420 is matched with the position of the sewage filter box 410, one surface of the peel adsorbent leading-in inclined pipes 430 is respectively connected with one surface of the peel adsorbent storage leakage boxes 330, the weighing device 500 comprises inclined bottom weighing cylinders 510, embedded inclined plates 520 and induction opening and closing doors 530, one surface of each inclined bottom weighing cylinder 510 is respectively connected with one surface of the quality monitoring rings 220, one surface of each embedded inclined plate 520 is respectively connected with one surface of each inclined bottom weighing cylinder 510, and the induction opening and closing doors 530 are respectively connected with one surface of each inclined bottom weighing cylinder 510.

Referring to fig. 1-4, the supporting device 100 further includes reinforcing ribs 180, wherein a surface of each of the reinforcing ribs 180 is connected to a surface of each of the arc plate brackets 120, the number of the arc plate brackets 120 is six, the arc plate brackets 120 are used for mounting the inclined bottom weighing cylinders 510, the number of the deformed compressed rotating-pulling hook locks 160 is four, the deformed compressed rotating-pulling hook locks 160 are used for opening and closing the opening and closing draw-plate drain doors 170, the number of the reinforcing ribs 180 is six, and the reinforcing ribs 180 are used for reinforcing the connection between the base 110 and the arc plate brackets 120.

Referring to fig. 1-1, the control device 200 further includes a heavy metal analyzing ring 230, wherein six quality monitoring rings 220 are provided, one surface of the heavy metal analyzing ring 230 is connected to one surface of the sewage conduit 420, the quality monitoring ring 220 is used for monitoring the quality of the pericarp adsorbent inside the inclined bottom weighing cylinder 510, the water quality analyzing ring 210 is used for detecting whether the purified water quality is qualified, and the heavy metal analyzing ring 230 is used for analyzing the types and the content of heavy metals in the wastewater.

Referring to fig. 1-3, the water purifying device 300 further includes a plurality of embedded double-cross traction frames 350, wherein a surface of each of the plurality of embedded double-cross traction frames 350 is slidably engaged with a surface of each of the plurality of positioning sliding columns 340, wherein six of the plurality of drawing water-discharging sealing frames 320 are provided, the drawing water-discharging sealing frames 320 are used for discharging and sealing water, six of the peel adsorbent storage leakage boxes 330 are provided, the peel adsorbent storage leakage boxes 330 are used for temporarily storing the peel adsorbent, six of the positioning sliding columns 340 are provided, the positioning sliding columns 340 are used for providing sliding conditions for the embedded double-cross traction frames 350, six of the embedded double-cross traction frames 350 are provided, and the embedded double-cross traction frames 350 are used for driving the peel adsorbent storage leakage boxes 330 to move.

Referring to fig. 1-3, the introducing device 400 further includes an arc-shaped sorbent hopper 440, wherein a surface of the arc-shaped sorbent hopper 440 is connected to a surface of each of the peel sorbent introducing pipes 430, wherein the number of the peel sorbent introducing pipes 430 is six, the peel sorbent introducing pipes 430 are used for introducing the peel sorbent into the peel sorbent storage hopper 330, the number of the arc-shaped sorbent hoppers 440 is six, and the arc-shaped sorbent hoppers 440 are used for receiving the introduced peel sorbent.

Referring to fig. 1-1, the weighing apparatus 500 further includes adsorbent guiding pipes 540, wherein the surface of each of the adsorbent guiding pipes 540 is connected to the surface of each of the inclined bottom weighing cylinders 510, the total number of the inclined bottom weighing cylinders 510 is six, the inclined bottom weighing cylinders 510 are used for weighing the required peel desiccant, the total number of the embedded inclined plates 520 is six, the embedded inclined plates 520 are used for guiding out the peel adsorbent, the total number of the induction opening and closing doors 530 is six, the induction opening and closing doors 530 are used for opening the inclined bottom weighing cylinders 510, the total number of the adsorbent guiding pipes 540 is six, and the adsorbent guiding pipes 540 are used for conveying the peel desiccant.

The utility model discloses the theory of operation:

please refer to fig. 1-4, the utility model discloses a peel adsorbent purifies the automation equipment who contains metallic water, the utility model discloses in, to leading-in sewage in the sewage pipe 420, sewage filters through filth filter cartridge 410 earlier, filter out impurity wherein, and simultaneously, the inside heavy metal analysis ring 230 that is equipped with of sewage pipe 420 is used for carrying out the analysis to the kind and the content of heavy metal in the sewage, the subsequent peel adsorbent's of being convenient for put in, sewage after the filtration has fallen into six arriss water purification box 310, according to the heavy metal information that detects out, put in the peel drier of certain quality in the corresponding oblique end weighing cylinder 510, quality monitoring ring 220 weighs required quality, avoid causing unnecessary waste.

When the fruit peel adsorbent reaches the required amount, the induction opening and closing door 530 at the bottom of the cylinder is automatically opened, the fruit peel desiccant falls into the adsorbent arc-shaped inverted hopper 440 along the adsorbent guide pipe 540, and then falls into the fruit peel adsorbent storage and leakage box 330 from the adsorbent arc-shaped inverted hopper 440 through the fruit peel adsorbent introduction and inclination pipe 430, the introduction of the fruit peel adsorbent is completed, the embedded double-cross traction frame 350 slides inwards along the positioning and sliding column 340 to drive the corresponding fruit peel adsorbent storage and leakage box 330 connected with the embedded double-cross traction frame to move inwards, the leakage net of the fruit peel adsorbent storage and leakage box 330 originally attached to one side of the inner wall of the hexagonal water purification box 310 is gradually exposed in the hexagonal water purification box 310, the fruit peel adsorbent in the box is mixed with sewage to react to purify heavy metals in the sewage, and when the water quality analysis ring 210 detects that the sewage quality reaches the standard, the purification of the heavy metals is completed.

After the purification is completed, the peel adsorbent storage leaking box 330 is reset to seal the leaking net, the water draining sealing frame 320 is pulled down to drain water in the box, meanwhile, the deformation compression rotary pull hook lock 160 is deformed and contracted to open the opening and closing drawing plate water drain door 170, purified water in the hexagonal purified water box 310 flows to the transit water storage box 150, and finally, the purified water is collected into the purified water storage barrel 130 through the isolation frame plate 140.

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.

Claims (6)

1. The automation equipment that peel adsorbent purified metal-containing water, including strutting arrangement (100), controlling means (200), purifier (300), induction system (400) and weighing device (500), its characterized in that: the supporting device (100) comprises a base (110), arc plate supporting frames (120), a water purification storage barrel (130), an isolation frame plate (140), a transfer water storage box (150), a deformation compression rotary pull hook lock (160) and an opening and closing pull plate drain door (170), wherein one surface of the arc plate supporting frames (120) is respectively connected with one surface of the base (110), one surface of the water purification storage barrel (130) is connected with one surface of the base (110), one surface of the isolation frame plate (140) is connected with one surface of the water purification storage barrel (130), one surface of the transfer water storage box (150) is connected with one surface of the isolation frame plate (140), the transfer water storage box (150) is of a hollow structure, one surface of the deformation compression rotary pull hook lock (160) is respectively connected with the inner surface of the transfer water storage box (150), one surface of the opening and closing pull plate drain door (170) is respectively connected with one surface of the deformation compression rotary pull hook lock (160), the control device (200) comprises a water quality analysis ring (210) and a quality monitoring ring (220), one surface of the water quality analysis ring (210) is connected with one surface of an opening and closing pumping plate drain door (170), one surface of the quality monitoring ring (220) is respectively connected with one surface of a plurality of arc plate brackets (120), the water purifying device (300) comprises a hexagonal water purifying box (310), a drawing and draining sealing frame (320), a peel adsorbent storage leakage box (330) and a positioning sliding column (340), one surface of the hexagonal water purifying box (310) is connected with one surface of the water quality analysis ring (210), the hexagonal water purifying box (310) is of a hollow structure, one surface of the drawing and draining sealing frame (320) is respectively connected with the peripheral side surface of the hexagonal water purifying box (310), one surface of the peel adsorbent storage leakage box (330) is respectively in sliding fit with one surface of the hexagonal water purifying box (310), one surface of each of the position-adjusting sliding columns (340) is connected with the inner surface of the hexagonal water purifying box (310) respectively, the leading-in device (400) comprises a sewage filtering box (410), a sewage conduit (420) and a peel adsorbent leading-in inclined pipe (430), one surface of the sewage filtering box (410) is connected with the inner surface of the hexagonal water purifying box (310), the position of the sewage conduit (420) is matched with the position of the sewage filtering box (410), one surface of each of the peel adsorbent leading-in inclined pipes (430) is connected with one surface of each of the peel adsorbent storage leakage boxes (330), the weighing device (500) comprises an inclined bottom weighing cylinder (510), an embedded inclined plate (520) and an induction opening and closing door (530), one surface of each of the inclined bottom weighing cylinders (510) is connected with one surface of the mass monitoring rings (220), and one surface of each of the embedded inclined plates (520) is connected with one surface of the inclined bottom weighing cylinders (510) respectively, the induction opening and closing doors (530) are respectively connected with one surface of the inclined bottom weighing cylinders (510).

2. The automated fruit peel adsorbent metal-containing water purification apparatus of claim 1, wherein: the supporting device (100) further comprises a plurality of reinforcing rib plates (180), and one surface of each reinforcing rib plate (180) is connected with one surface of each arc plate supporting frame (120).

3. The automated fruit peel adsorbent metal-containing water purification apparatus of claim 1, wherein: the control device (200) further comprises a heavy metal analysis ring (230), and one surface of the heavy metal analysis ring (230) is connected with one surface of the sewage conduit (420).

4. The automated fruit peel adsorbent metal-containing water purification apparatus of claim 1, wherein: the water purifying device (300) further comprises a plurality of embedded double-cross traction frames (350), and one surface of each embedded double-cross traction frame (350) is in sliding fit with one surface of each displacement sliding column (340).

5. The automated fruit peel adsorbent metal-containing water purification apparatus of claim 1, wherein: the leading-in device (400) further comprises a plurality of adsorbent arc-shaped pouring hoppers (440), and one surfaces of the plurality of adsorbent arc-shaped pouring hoppers (440) are respectively connected with one surface of the plurality of peel adsorbent leading-in pouring pipes (430).

6. The automated fruit peel adsorbent metal-containing water purification apparatus of claim 1, wherein: the weighing device (500) further comprises adsorbent guide pipes (540), and one surface of each of the adsorbent guide pipes (540) is connected with one surface of each of the inclined-bottom weighing cylinders (510).

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