CN220684719U - Electroplating wastewater recycling and emission reduction device - Google Patents

Abstract

The application relates to an electroplating wastewater recycling and emission reduction device, which comprises a machine base and a plurality of treatment tanks for purifying and filtering wastewater; the bottom of the machine seat is provided with a plurality of transverse frames which are parallel to each other, and the transverse frames are arranged side by side; a plurality of setting plates are arranged between the adjacent transverse frames, insertion holes are formed in the side walls, facing the transverse frames, of the setting plates in a penetrating mode, a plurality of inserting rods used for being inserted into the insertion holes are arranged on the side walls, facing the setting plates, of the transverse frames, and the shape of each inserting rod is matched with that of each insertion hole; the placing plate is provided with a bearing plate for placing the treatment tank, and the placing plate is also provided with a locking component for limiting and fixing the treatment tank on the bearing plate. The method and the device have the effect of enabling the user to automatically adjust the type of the treatment tank according to actual requirements.

Description

Electroplating wastewater recycling and emission reduction device

Technical Field

The application relates to the technical field of electroplating equipment, in particular to an electroplating wastewater recycling and emission reduction device.

Background

The waste water and waste liquid after electroplating contains a large amount of metal ions such as: chromium, pickaxe, nickel, cyanide, acid, alkali, metal ions exist in the form of simple cations, acid anions, and complex ions. Therefore, the electroplating wastewater treatment is commonly performed by chemical methods such as a neutralization precipitation method, a neutralization coagulation precipitation method, an oxidation method, a reduction method, a barium salt method, a ferrite method and the like.

At present, the electroplating factory usually adopts matched electroplating wastewater treatment equipment to carry out purification treatment on wastewater, and the purified wastewater can be recycled, so that a large amount of water resources can be saved, and the purposes of energy conservation and emission reduction are achieved. The electroplating wastewater treatment equipment mainly comprises a machine base and a plurality of treatment tanks fixedly arranged on the machine base, wherein the treatment tanks are sequentially communicated through water pipes; during operation, the wastewater is sequentially introduced into each treatment tank, and after the wastewater is purified by the treatment tanks, the wastewater can be recycled.

However, most of the devices are customized products, the treatment tank is usually installed on the stand in a fixed connection manner, so that the user is generally difficult to increase or decrease the treatment tank by himself, and the type of the treatment tank cannot be adjusted in time according to actual demands, so that inconvenience is brought to the treatment of wastewater.

Disclosure of Invention

The utility model provides an electroplating wastewater recycling emission reduction device has the effect that can make things convenient for the user to adjust the type of handling jar by oneself according to actual demand to can ensure that wastewater treatment work goes on smoothly.

The application provides an electroplating wastewater circulation is retrieved and is reduced emission device adopts following technical scheme:

the electroplating wastewater recycling and emission reduction device comprises a machine base and a plurality of treatment tanks for purifying and filtering wastewater; the bottom of the machine seat is provided with a plurality of transverse frames which are parallel to each other, and the transverse frames are arranged side by side; a plurality of setting plates are arranged between the adjacent transverse frames, insertion holes are formed in the side walls, facing the transverse frames, of the setting plates in a penetrating mode, a plurality of inserting rods used for being inserted into the insertion holes are arranged on the side walls, facing the setting plates, of the transverse frames, and the shape of each inserting rod is matched with that of each insertion hole; the placing plate is provided with a bearing plate for placing the treatment tank, and the placing plate is also provided with a locking component for limiting and fixing the treatment tank on the bearing plate.

By adopting the technical scheme: when the designated treatment tank on the machine base needs to be replaced, the mounting plate and the treatment tank to be replaced can be smoothly removed from the machine base at the moment by unscrewing the fastener on the mounting plate where the treatment tank to be replaced is positioned from the plugging rod; the treatment tank is taken out from the narrow machine seat, so that the limit fixation of the locking assembly to the treatment tank can be conveniently released subsequently; after the treatment tank is replaced and is fixed on the bearing plate in a limiting way again through the locking assembly, the placement plate is inserted on the designated inserting connection rod again through the insertion hole, and finally the placement plate is screwed and fixed on the transverse frame through the fastener, so that the replacement of the treatment tank is completed; because the splicing rods are arranged on the transverse frame, when the placement plate is installed, a user can install the placement plate at a proper position according to actual installation requirements, the installation is more flexible, and the wastewater treatment work is ensured to be smoothly carried out.

Preferably, the locking component comprises limiting frames fixedly arranged on the placement plate, and the limiting frames are symmetrically arranged on two sides of the bearing plate; the locking assembly further comprises a plurality of hoops for tightly holding and fixing the treatment tank, and the limiting frame is provided with a plurality of through holes for being matched with the hoops; the perforations are sequentially distributed at intervals along the height direction of the limiting frame.

Preferably, the locking assembly further comprises a fixing pile fixedly arranged on the central shaft of the placement plate, a fixing groove for the fixing pile to be inserted is formed in the bottom of the treatment tank, and the shape of the fixing pile is matched with that of the fixing groove.

Preferably, the machine base is further provided with a plurality of reinforcing frames, and the reinforcing frames are used for erecting water pipes and supporting the water pipes; the reinforcing frame is provided with a plurality of limiting grooves for water supply pipe insertion, and the water pipe is limited on the reinforcing frame through the limiting grooves.

Preferably, the machine base is further provided with an extension frame, a placement platform is arranged on the extension frame, a collecting barrel is placed on the placement platform, and the collecting barrel is communicated with the treatment tank through a water pipe.

Preferably, the bottom of the stand is rotatably provided with a plurality of universal wheels.

Preferably, the bottom of the stand is in threaded connection with a supporting leg, the length of the supporting leg extends along the height direction of the stand, and a supporting seat for contacting with the ground is arranged at the bottom of the supporting leg.

Preferably, a plurality of hoisting seats are arranged at the top of the machine base, and hoisting holes are formed in the hoisting seats in a penetrating mode.

In summary, the present application includes at least one of the following beneficial technical effects:

the type of the treatment tank is automatically adjusted according to actual demands by a user, so that the installation is more flexible, and the wastewater treatment work can be ensured to be smoothly carried out;

the universal wheels are arranged to facilitate the whole movement of the stand, and the support legs are arranged to ensure the stability of the stand during operation, so that the state mode of the stand is switched;

the locking component ensures the stability and the firmness of the treatment tank on the bearing plate;

through setting up the water pipe and fixing on the reinforcement frame, guaranteed the stability of water pipe, optimized the water pipe overall arrangement.

Drawings

FIG. 1 is a schematic overall structure of an embodiment of the present application;

FIG. 2 is a schematic exploded view of a partial structure at the salient lock assembly of FIG. 1;

FIG. 3 is a schematic view of a portion of the structure from another perspective of FIG. 2;

fig. 4 is a partial structure of the fig. 1 highlighting the collecting vessel.

Reference numerals illustrate: 1. a base; 10. a cross frame; 11. inserting a connecting rod; 110. a fastener; 12. a universal wheel; 13. supporting legs; 130. a support base; 14. hoisting the base; 140. a hoisting hole; 2. a treatment tank; 20. a fixing groove; 3. a setting plate; 30. a jack; 31. a carrying plate; 4. a locking assembly; 40. a limiting frame; 41. a hoop; 42. perforating; 43. fixing piles; 5. a reinforcing frame; 50. a limit groove; 6. an extension frame; 60. placing a platform; 7. and a collecting barrel.

Description of the embodiments

The present application is described in further detail below with reference to the accompanying drawings.

The embodiment of the application discloses an electroplating wastewater recycling emission reduction device.

Referring to fig. 1 and 2, an electroplating wastewater recycling and emission reduction device comprises a machine base 1 and a plurality of treatment tanks 2 for purifying and filtering wastewater, wherein the appearance specifications of the treatment tanks 2 are the same. The bottom welding of frame 1 is fixed with many crossbearers 10 that are mutual parallel arrangement, and the length of crossbearer 10 extends along the length direction of frame 1, and adjacent each crossbearer 10 is arranged at intervals along the width direction of frame 1 in proper order. A plurality of mutually parallel placement plates 3 are erected between two adjacent crossbearers 10, the lengths of the placement plates 3 extend along the width direction of the machine base 1, and the adjacent placement plates 3 extend along the length direction of the machine base 1.

As shown in fig. 1 and 2, a plurality of plugging rods 11 are fixedly installed on the lateral wall of the transverse frame 10, which faces the top of the mounting plate 3, and the lengths of the plugging rods 11 extend along the height direction of the machine base 1. The plugging rods 11 on the same transverse frame 10 are sequentially and uniformly distributed at intervals along the length direction of the transverse frame 10. Two groups of jacks 30 for inserting the opposite insertion rods 11 are penetrated through the placement plate 3, and the two groups of jacks 30 are symmetrically arranged on two sides of the placement plate 3. The shape of the inserting connection rod 11 is matched with the shape of the inserting hole 30, and the setting plate 3 is fixed above the transverse frame 10 through the mutual inserting matching of the inserting holes 30 on two sides and the inserting connection rods 11.

As shown in fig. 1 and 2, the top of the plugging rod 11 inserted into the respective insertion hole 30 is penetrated out from the upper surface of the mounting plate 3, and the top of the plugging rod 11 penetrated out of the insertion hole 30 is connected with a fastener 110 by screw threads, and in this embodiment, the fastener 110 is a nut. The top wall center position of the placement plate 3 is fixedly provided with a bearing plate 31 for placing the treatment tank 2, and the placement plate 3 is provided with a locking component 4 for limiting and fixing the treatment tank 2 on the bearing plate 31.

As shown in fig. 1 and 2, the locking assembly 4 includes two limiting frames 40 welded and fixed on the mounting plate 3, the two limiting frames 40 are symmetrically disposed on two sides of the bearing plate 31, and the length of the limiting frame 40 extends along the height direction of the stand 1. The locking assembly 4 further comprises a plurality of hoops 41 for holding and fastening the treatment tank 2, a plurality of through holes 42 for mutually inserting and matching with bolts on the hoops 41 are penetrated through the limiting frame 40, and the through holes 42 are sequentially and uniformly distributed at intervals along the height direction of the limiting frame 40.

As shown in fig. 2 and 3, the locking assembly 4 further includes a fixing pile 43 fixedly disposed on the central axis of the top of the setting plate 3, and the length of the fixing pile 43 extends along the height direction of the stand 1. The bottom central shaft of the treatment tank 2 is provided with a fixing groove 20 for inserting a fixing pile 43 from bottom to top, and the shape of the fixing pile 43 is matched with the shape of the fixing groove 20.

When the treatment tank 2 is installed, the fixing groove 20 at the bottom of the treatment tank 2 is aligned with the fixing pile 43 and is inserted above the placement plate 3, and the treatment tank 2 can be initially limited and fixed on the placement plate 3 through mutual insertion and matching of the fixing groove 20 and the fixing pile 43. Then, the processing tank 2 is fixed on the limiting frame 40 in a limiting manner through the anchor ear 41, and at the moment, the processing tank 2 can be ensured to be stably and firmly fixed above the placement plate 3 under the action of the anchor ear 41 and the limiting frame 40. Since the perforations 42 are sequentially and uniformly spaced apart in the height direction of the stopper 40, the user can install the anchor ear 41 at an appropriate height of the stopper 40 according to the actual height of the treatment tank 2.

As shown in fig. 4, the base 1 is further welded and fixed with a plurality of reinforcing frames 5, and the reinforcing frames 5 are used for erecting water pipes and supporting the water pipes. Be formed with a plurality of spacing grooves 50 that are used for delivery pipe male on the reinforcement frame 5, the water pipe passes through the centre gripping of spacing groove 50 spacing to be fixed on the reinforcement frame 5, just can effectively prevent the water pipe to slide on the reinforcement frame 5 through the spacing of spacing groove 50, has ensured the stability of water pipe, has optimized the overall arrangement of water pipe.

As shown in fig. 4, the bottom of the stand 1 is also welded and fixed with an extension frame 6 positioned outside the transverse frame 10, a placement platform 60 is arranged above the extension frame 6, a collecting barrel 7 is placed on the placement platform 60, and the collecting barrel 7 is mutually communicated with the water outlet of the treatment tank 2 in the last procedure through a water pipe. When the wastewater is treated by each treatment tank 2 and discharged from the water outlet of the treatment tank 2 in the last treatment process, the treated clean water is discharged into the collecting barrel 7 through the water pipe, and the clean water is collected intensively through the collecting barrel 7, so that the treated clean water can be recycled conveniently.

As shown in fig. 4, a plurality of universal wheels 12 are rotatably arranged at the bottom of the stand 1, and the stand 1 is conveniently moved as a whole through the universal wheels 12. The bottom of the stand 1 is also connected with a plurality of supporting legs 13 in a threaded manner, the length of each supporting leg 13 extends along the height direction of the stand 1, and a supporting seat 130 for contacting with the ground is also fixedly arranged at the bottom of each supporting leg 13. The supporting seat 130 is driven to move up and down along the height direction of the stand 1 by rotating the supporting legs 13, and when the bottom of the supporting seat 130 descends to be in contact with the ground, the movement of the stand 1 can be prevented under the action of the supporting seat 130, so that the stability of the stand 1 during operation is ensured.

As shown in fig. 4, a plurality of lifting seats 14 are welded and fixed on the top of the machine base 1, the lifting seats 14 are symmetrically arranged on two sides of the machine base 1, and lifting holes 140 are penetrated through the lifting seats 14. When the machine base 1 needs to be hoisted, the hoisting rope or the lifting hook is hung on the hoisting base 14 through the hoisting hole 140, so that subsequent hoisting work can be facilitated.

The implementation principle is as follows:

when the designated treatment tank 2 on the machine base 1 needs to be replaced, the fastening piece 110 on the placement plate 3 where the treatment tank 2 to be replaced is positioned is unscrewed from the plugging rod 11, and then the placement plate 3 together with the treatment tank 2 to be replaced can be smoothly removed from the machine base 1. The processing tank 2 is taken out from the narrow base 1, so that the limit fixing of the processing tank 2 by the locking component 4 can be conveniently released subsequently. After the treatment tank 2 is replaced and is fixed on the bearing plate 31 in a limiting way again through the locking assembly 4, the placement plate 3 is inserted on the designated inserting rod 11 again through the inserting hole 30, and finally the placement plate 3 is screwed and fixed on the transverse frame 10 through the fastener 110, so that the replacement of the treatment tank 2 is completed. Because the splicing rods 11 on the transverse frame 10 are arranged in a plurality, when the placement plate 3 is installed, a user can install the placement plate 3 at a proper position according to actual installation requirements, the installation is more flexible, and the wastewater treatment work is ensured to be smoothly carried out.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (8)

1. The electroplating wastewater recycling and emission reduction device comprises a machine base (1) and a plurality of treatment tanks (2) for purifying and filtering wastewater; the method is characterized in that: a plurality of transverse frames (10) which are parallel to each other are arranged at the bottom of the stand (1), and the transverse frames (10) are arranged side by side; a plurality of placement plates (3) are erected between the adjacent transverse frames (10), insertion holes (30) are formed in the side walls, facing the transverse frames (10), of the placement plates (3), and a plurality of insertion rods (11) used for being inserted into the insertion holes (30) are arranged on the side walls, facing the placement plates (3), of the transverse frames (10); the shape of the plug rod (11) is matched with the shape of the jack (30), and the plug rod (11) is connected with a fastener (110) in a threaded manner; the device is characterized in that a bearing plate (31) for placing the treatment tank (2) is arranged on the placement plate (3), and a locking assembly (4) for limiting and fixing the treatment tank (2) on the bearing plate (31) is further arranged on the placement plate (3).

2. The electroplating wastewater recycling and emission reduction device according to claim 1, wherein: the locking assembly (4) comprises limiting frames (40) fixedly arranged on the placement plate (3), and the limiting frames (40) are symmetrically arranged on two sides of the bearing plate (31); the locking assembly (4) further comprises a plurality of hoops (41) for tightly holding and fixing the treatment tank (2), and the limiting frame (40) is provided with a plurality of through holes (42) which are used for being matched with the hoops (41); the perforations (42) are sequentially arranged at intervals along the height direction of the limiting frame (40).

3. The electroplating wastewater recycling and emission reduction device according to claim 2, wherein: the locking assembly (4) further comprises a fixing pile (43) fixedly arranged on the central shaft of the placement plate (3), a fixing groove (20) for the fixing pile (43) to be inserted is formed in the bottom of the treatment tank (2), and the shape of the fixing pile (43) is matched with the shape of the fixing groove (20).

4. The electroplating wastewater recycling and emission reduction device according to claim 1, wherein: the machine seat (1) is also provided with a plurality of reinforcing frames (5), and the reinforcing frames (5) are used for erecting water pipes and supporting the water pipes; a plurality of limiting grooves (50) used for inserting the water supply pipe are formed in the reinforcing frame (5), and the water pipe is limited on the reinforcing frame (5) through the limiting grooves (50).

5. The electroplating wastewater recycling and emission reduction device according to claim 1, wherein: the device is characterized in that an extension frame (6) is further arranged on the machine base (1), a placement platform (60) is arranged on the extension frame (6), a collecting barrel (7) is placed on the placement platform (60), and the collecting barrel (7) is communicated with the treatment tank (2) through a water pipe.

6. The electroplating wastewater recycling and emission reduction device according to claim 1, wherein: the bottom of the machine base (1) is rotatably provided with a plurality of universal wheels (12).

7. The electroplating wastewater recycling and emission reduction device according to claim 6, wherein: the support is characterized in that the bottom of the stand (1) is connected with support legs (13) in a threaded mode, the length of each support leg (13) extends along the height direction of the stand (1), and support bases (130) used for being in contact with the ground are arranged at the bottoms of the support legs (13).

8. The electroplating wastewater recycling and emission reduction device according to claim 1, wherein: the top of the machine base (1) is provided with a plurality of hoisting seats (14), and hoisting holes (140) are formed in the hoisting seats (14) in a penetrating mode.