CN112520829A - Water quality treatment device of garbage power plant - Google Patents

Abstract

The invention discloses a water quality treatment device of a garbage power plant, which comprises a sewage pool and a precipitant pool, wherein a feeding mechanism comprises a first rod group, a sliding plate and a limiting wall, the limiting wall is arranged above the precipitant pool, the sliding plate is slidably arranged in the limiting wall, and one end of the sliding plate is also rotatably connected with the first rod group; the first limiting groove is formed in the limiting wall, the second limiting groove is formed in the sliding plate, a first guide rod penetrates through the position between the first limiting groove and the second limiting groove in a sliding mode, the first power mechanism is driven to drive the sliding plate to slide along the first limiting groove, the grabbing mechanism is driven to grab the chemical precipitator from the precipitator tank through the first guide rod, the chemical precipitator is thrown in the sewage tank, and the working efficiency is improved through the carrying effect of the feeding mechanism.

Description

Water quality treatment device of garbage power plant

Technical Field

The invention relates to the field of sewage treatment, in particular to a water quality treatment device of a garbage power plant.

Background

No matter normal life of human beings or normal operation of enterprises, a large amount of garbage is generated essentially every day, and the most common mode of garbage recycling treatment is to incinerate the garbage to generate electricity so as to achieve the purpose of recycling the garbage;

however, the waste generates sewage in the incineration process, and dust and residues remained in the boiler after the waste is incinerated are added, so that a cement mixture is easily formed, and in the prior art, a chemical precipitator is mostly added into the cement mixture to separate heavy metals in the mixture, and then the mixture is subjected to subsequent treatment; most of the chemical precipitating agents are transported manually, so that not only can the efficiency be low due to the fact that manpower cannot be used continuously, but also the chemical precipitating agents can damage the human body.

Disclosure of Invention

The invention aims to provide a water quality treatment device of a garbage power plant, which aims to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

a water quality treatment device of a garbage power plant comprises a sewage tank and a precipitant tank, wherein the precipitant tank is arranged on the side surface of the sewage tank, a chemical precipitant is filled in the precipitant tank, and a feeding mechanism for carrying the chemical precipitant is arranged between the sewage tank and the precipitant tank; the feeding mechanism comprises a first rod group, a sliding plate and a limiting wall, the limiting wall is arranged above the precipitant pool, the sliding plate is slidably arranged in the limiting wall, and one end of the sliding plate is also rotatably connected with the first rod group; a first limiting groove is formed in the limiting wall, a second limiting groove is formed in the sliding plate, a first guide rod penetrates through the space between the first limiting groove and the second limiting groove in a sliding mode, and a second guide rod is fixedly connected to one end of the first guide rod; the first limiting groove is U-shaped, and the second limiting groove is V-shaped; the first rod group comprises a first feeding rod and a second feeding rod, one end of the first feeding rod is fixedly connected to the output end of the first power mechanism, the other end of the first feeding rod is rotatably connected with one end of the second feeding rod, and the other end of the second feeding rod is rotatably connected to the sliding plate; and a grabbing mechanism is further installed below the second guide rod.

As a further scheme of the invention: snatch mechanism includes control module and two clamping jaws, control module includes telescopic link and side position pole, the fixed end fixed connection of telescopic link is on the second guide arm, and the one end of expansion end and two side position poles rotates to be connected, and every the other end of side position pole still rotates with a clamping jaw to be connected.

As a still further scheme of the invention: the material leaking mechanism is further arranged in the sewage pool and comprises a second rod group, a material leaking box and a fixing plate provided with a sliding groove, the second rod group is rotatably connected with the material leaking box, a cavity is formed in the material leaking box, a material receiving port connected with the cavity is formed in the upper end face of the material leaking box, and a sliding pipe connected with the sliding groove in a sliding manner is formed in the lower end face of the material leaking box; the sliding pipe is communicated with the cavity; the fixed plate is connected to the inner wall of the sewage pool; the second rod group comprises a first material leaking rod and a second material leaking rod, the first material leaking rod is connected with the output end of the second power mechanism, one end of the second material leaking rod is rotatably connected with the first material leaking rod, and the other end of the second material leaking rod is rotatably connected with the material leaking box; the sliding groove is S-shaped.

As a still further scheme of the invention: an opening plate for separating a cement mixture is further arranged inside the sewage pool and comprises two expansion plates; when the filter is needed, the two expansion plates are unfolded, and when the filter is not needed, the two expansion plates are retracted.

As a still further scheme of the invention: the utility model discloses a sewage pond, including cavity, division board, upper and lower both sides, the upper strata space is provided with hourglass material mechanism, and be located and be provided with the mud pipe on the lateral wall in upper space, be located and be provided with the drain pipe on the inner wall in lower floor's space.

As a still further scheme of the invention: and the sludge discharge pipe is also connected with a drying mechanism.

As a still further scheme of the invention: a material sliding mechanism used for receiving dry mud falling from the drying mechanism is further arranged on one side of the drying mechanism and comprises a first material sliding plate, a base and a second material sliding plate, the first material sliding plate is fixedly arranged on the base, the input end of the first material sliding plate is connected with the drying mechanism, the output end of the first material sliding plate is connected with the second material sliding plate, and the second material sliding plate is rotatably connected to the base; a supporting plate for supporting the second material sliding plate is fixedly arranged on the base; and one end of the second material sliding plate is also connected with a baffle through a connecting frame.

Compared with the prior art, the invention has the beneficial effects that: during the use, first-selected drive first power unit through the connected mode between first pay-off pole and the second pay-off pole in the first pole group, drives the sliding plate and slides along first spacing groove to drive through wearing to locate the first guide arm between first spacing groove and the second spacing groove and snatch the mechanism and snatch chemical precipitant from the precipitant pond in, and throw in the sewage pond, through feeding mechanism's transport effect, avoided the process of artifical transport chemical precipitant, just first guide arm drives through the second guide arm snatch the mechanism and snatch the motion of puting in and be reciprocating motion, and then make this design can follow certain work beat in the course of the work, further improved work efficiency.

Drawings

Fig. 1 is a schematic structural view of a water treatment apparatus of a garbage power plant.

Fig. 2 is a schematic structural diagram of a feeding mechanism in a water quality treatment device of a garbage power plant.

Fig. 3 is a partially enlarged structural diagram of a in fig. 1.

Fig. 4 is a schematic structural diagram of a material leaking mechanism in a water quality treatment device of a garbage power plant.

FIG. 5 is a schematic view of the structure of a material leakage box in a water treatment device of a garbage power plant.

Fig. 6 is a schematic structural diagram of a material sliding mechanism in a water quality treatment device of a garbage power plant.

In the figure: 1-feeding mechanism, 2-first feeding rod, 3-second feeding rod, 4-limiting wall, 5-first limiting groove, 6-sliding plate, 7-second limiting groove, 8-first guide rod, 9-second guide rod, 10-clamping jaw, 11-telescopic rod, 12-lateral rod, 13-material leaking mechanism, 14-first material leaking rod, 15-second material leaking rod, 16-material leaking box, 17-sliding groove, 18-material receiving port, 19-sliding pipe, 20-drying mechanism, 21-material sliding mechanism, 22-base, 23-first material sliding plate, 24-second material sliding plate, 25-supporting plate, 26-connecting frame, 27-opening plate, 28-precipitant pool, 29-water discharging pipe, 30-mud discharging pipe, 31-baffle, 32-sewage pool and 33-fixing plate.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Referring to fig. 1 and 2, a water treatment device for a garbage power plant comprises a sewage tank 32 and a precipitant tank 28, wherein the precipitant tank 28 is disposed on a side surface of the sewage tank 32, a chemical precipitant is filled in the precipitant tank 28, and a feeding mechanism 1 for conveying the chemical precipitant is disposed between the sewage tank 32 and the precipitant tank 28; the feeding mechanism 1 comprises a first rod group, a sliding plate 6 and a limiting wall 4, wherein the limiting wall 4 is arranged above the precipitating agent pool 28, the sliding plate 6 is slidably arranged in the limiting wall 4, and one end of the sliding plate 6 is also rotatably connected with the first rod group; a first limiting groove 5 is formed in the limiting wall 4, a second limiting groove 7 is formed in the sliding plate 6, a first guide rod 8 penetrates through the space between the first limiting groove 5 and the second limiting groove 7 in a sliding mode, and a second guide rod 9 is fixedly connected to one end of the first guide rod 8; the first limiting groove 5 is U-shaped, and the second limiting groove 7 is V-shaped; the first rod group comprises a first feeding rod 2 and a second feeding rod 3, one end of the first feeding rod 2 is fixedly connected to the output end of the first power mechanism, the other end of the first feeding rod is rotatably connected with one end of the second feeding rod 3, and the other end of the second feeding rod 3 is rotatably connected to the sliding plate 6; and a grabbing mechanism is further installed below the second guide rod 9.

When the device is used, a first power mechanism is firstly driven, a sliding plate 6 is driven to slide along a first limiting groove 5 through a connection mode between a first feeding rod 2 and a second feeding rod 3 in a first rod group, a grabbing mechanism is driven to grab a chemical precipitator from a precipitator pool 28 through a first guide rod 8 arranged between the first limiting groove 5 and a second limiting groove 7 in a penetrating mode, the chemical precipitator is thrown in a sewage pool 32, the process of manually carrying the chemical precipitator is avoided through the carrying effect of a feeding mechanism 1, the first guide rod 8 drives the grabbing mechanism to grab and throw the chemical precipitator through a second guide rod 9, the reciprocating motion is adopted, and therefore the device can follow a certain working beat in the working process, and the working efficiency is further improved;

specifically, because the first limiting groove 5 is U-shaped, and the second limiting groove 7 is V-shaped, when the second limiting groove 7 and the first limiting groove 5 move relatively, the first guide rod 8 penetrating between the first limiting groove 5 and the second limiting groove 7 can be driven by the squeezing of the two sides of the first limiting groove 5 and the two sides of the second limiting groove 7 to force the first guide rod 8 to perform lifting and descending movements, and the U-shape and the V-shape are both symmetrical structures, so that the first guide rod 8 also performs movements with symmetrical movement tracks in the grabbing and throwing processes, and the rhythm of the work is improved.

Referring to fig. 1 and 3, as a preferred embodiment, the grasping mechanism includes a control module and two clamping jaws 10, the control module includes an expansion link 11 and side position rods 12, a fixed end of the expansion link 11 is fixedly connected to the second guide rod 9, a movable end of the expansion link is rotatably connected to one end of each of the side position rods 12, and the other end of each of the side position rods 12 is further rotatably connected to one clamping jaw 10.

When grabbing motion is needed, the telescopic rod 11 is controlled to extend, the clamping jaws 10 are driven to unfold by driving the side rods 12 to rotate, when chemical precipitator is clamped in the clamping jaws 10, the telescopic rod 11 is controlled to retract, the side rods 12 are driven to rotate, the two clamping jaws 10 are driven to close, and the chemical precipitator in the clamping jaws 10 can be firmly packed up; at the moment, the grabbing mechanism moves into the sewage tank 32 under the driving of the feeding mechanism 1, the telescopic rod 11 is stretched again, the two clamping jaws 10 are driven to be unfolded, the chemical precipitator in the grabbing mechanism is thrown into the sewage tank 32 completely, and the chemical precipitator and the cement mixture react; through the flexible and then control opening and shutting of clamping jaw 10 of telescopic link 11, improved the convenience of snatching, simultaneously, there is certain motion beat between snatching mechanism and the feeding mechanism 1, further improved the efficiency of getting and throwing the chemical precipitant of clamp.

Referring to fig. 1, 4 and 5, as another preferred embodiment, in order to increase the range of the thrown chemical precipitant, a material leaking mechanism 13 is further disposed in the wastewater tank 32, the material leaking mechanism 13 includes a second rod set, a material leaking tank 16 and a fixing plate 33 having a sliding groove 17, the second rod set is rotatably connected to the material leaking tank 16, a cavity is disposed in the material leaking tank 16, a material receiving port 18 connected to the cavity is disposed on an upper end surface, and a sliding pipe 19 slidably connected to the sliding groove 17 is disposed on a lower end surface; the slide pipe 19 is communicated with the cavity; the fixed plate 33 is connected to the inner wall of the sewage tank 32; the second rod group comprises a first material leaking rod 14 and a second material leaking rod 15, the first material leaking rod 14 is connected with the output end of the second power mechanism, one end of the second material leaking rod 15 is rotatably connected with the first material leaking rod 14, and the other end of the second material leaking rod 15 is rotatably connected with the material leaking box 16; the sliding slot 17 is S-shaped.

When needing to use, erect in the effluent water sump 32 with hourglass material mechanism 13, it is concrete, drive the second pole group through second power unit, and then drive hourglass workbin 16 along the groove 17 motion slides, and the inside cavity that is used for holding the chemical precipitant that offers of hourglass workbin 16, seted up on the up end of hourglass workbin 16 and connect the material mouth 18, connect material mouth 18 can accept the chemical precipitant of throwing from snatching the mechanism, consequently it can be the slip of within range on the groove 17 that slides along the S-shaped, and then throws the chemical precipitant through the pipe 19 that slides that is linked together with the cavity in the scope, has improved the reaction rate of heavy metal and chemical precipitant in the sewage.

Referring to fig. 1, as another preferred embodiment, an open plate 27 for separating a cement mixture is further provided inside the wastewater tank 32, and the open plate 27 includes two telescopic plates; when the filter is needed, the two expansion plates are unfolded, and when the filter is not needed, the two expansion plates are retracted.

The open-close plate 27 can provide a cement separation function after the cement mixture reacts with the chemical precipitator, and particularly after standing and precipitating, the separation effect is more obvious; further facilitating the next cement separation treatment.

Referring to fig. 1, as another preferred embodiment, the open close plate 27 divides the cavity of the sewage tank 32 into an upper side and a lower side, the material leaking mechanism 13 is disposed in the upper space, the side wall of the upper space is provided with a sludge discharging pipe 30, and the inner wall of the lower space is provided with a water discharging pipe 29.

After standing still, most of water flow is discharged from the water discharge pipe 29, and sludge remained at the upper end of the open-close plate 27 is discharged through the sludge discharge pipe 30, so that the purpose of separating and discharging sludge and water is achieved, and the effect of separating sludge and water after standing separation is ensured to the maximum extent.

Referring to fig. 1, as another preferred embodiment, a drying mechanism 20 is further connected to the sludge discharge pipe 30.

The drying mechanism 20 is provided to dry the wet sludge, so as to facilitate subsequent centralized recycling.

Referring to fig. 1 and fig. 6, as a further preferred embodiment, in order to improve the collection efficiency of the dried sludge, a material sliding mechanism 21 for receiving the dried sludge falling from the drying mechanism 20 is further disposed on one side of the drying mechanism 20, the material sliding mechanism 21 includes a first material sliding plate 23, a base 22 and a second material sliding plate 24, the first material sliding plate 23 is fixedly mounted on the base 22, an input end of the first material sliding plate 23 is connected to the drying mechanism 20, an output end of the first material sliding plate 23 is connected to the second material sliding plate 24, and the second material sliding plate 24 is rotatably connected to the base 22; a supporting plate 25 for supporting the second material sliding plate 24 is also fixedly mounted on the base 22; a baffle 31 is further connected to one end of the second material sliding plate 24 through a connecting frame 26.

During specific operation, dried sludge firstly slides from the first material sliding plate 23 to the second material sliding plate 24 and is stacked at one end of the second material sliding plate 24, a certain distance still exists between the baffle 31 and the bottom surface of the first material sliding plate 23, and when the number of the stacked dried sludge is increased continuously, the second material sliding plate 24 is driven to rotate, so that the baffle 31 is driven to be clamped into the first material sliding plate 23, and the dried sludge is prevented from further sliding downwards;

the supporting plate 25 is arranged to ensure that the dried sludge does not slide in the second material sliding plate 24 due to the weight of the sludge, so that the slide material is not influenced by the overlarge inclination angle of the second material sliding plate 24;

when the weight of the sludge at one end of the second material sliding plate 24 reaches a certain degree, the baffle plate 31 can contact with the first material sliding plate 23, so that the second material sliding plate 24 is prevented from continuously receiving the dried sludge sliding down from the first material sliding plate 23, and the inclination angle of the second material sliding plate 24 is ensured, and the inclination angle is enough to support the dried sludge to slide down;

it should be noted that, no matter before or after the baffle 31 and the first material sliding plate 23 are contacted, the dried sludge on the second material sliding plate 24 slides down, and only when the dried sludge is stacked on the second material sliding plate 24, the baffle 31 is triggered;

and because the dried sludge falling from the drying mechanism 20 is in large batch, the baffle 31 can be triggered, so that the dried sludge is collected in batches, and the large-volume quantity of the sludge is conveniently controlled.

It should be noted that, in the present application, the power consuming components, such as the first power mechanism and the second power mechanism, are connected to the external controller, and the external controller is the prior art, and the present application does not improve the power consuming components, so that the specific model, the circuit structure, and the like of the external controller do not need to be disclosed, and the integrity of the present application is not affected.

Although the preferred embodiments of the present patent have been described in detail, the present patent is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present patent within the knowledge of those skilled in the art.

Claims (7)

1. A water quality treatment device of a garbage power plant comprises a sewage tank (32) and a precipitant tank (28), wherein the precipitant tank (28) is arranged on the side surface of the sewage tank (32), and chemical precipitant is filled in the precipitant tank (28), and the water quality treatment device is characterized in that a feeding mechanism (1) for carrying the chemical precipitant is arranged between the sewage tank (32) and the precipitant tank (28); the feeding mechanism (1) comprises a first rod group, a sliding plate (6) and a limiting wall (4), the limiting wall (4) is arranged above the precipitating agent pool (28), the sliding plate (6) is slidably arranged in the limiting wall (4), and one end of the sliding plate (6) is further rotatably connected with the first rod group; a first limiting groove (5) is formed in the limiting wall (4), a second limiting groove (7) is formed in the sliding plate (6), a first guide rod (8) penetrates through the position between the first limiting groove (5) and the second limiting groove (7) in a sliding mode, and a second guide rod (9) is fixedly connected to one end of the first guide rod (8); the first limiting groove (5) is U-shaped, and the second limiting groove (7) is V-shaped; the first rod group comprises a first feeding rod (2) and a second feeding rod (3), one end of the first feeding rod (2) is fixedly connected to the output end of the first power mechanism, the other end of the first feeding rod is rotatably connected with one end of the second feeding rod (3), and the other end of the second feeding rod (3) is rotatably connected to the sliding plate (6); and a grabbing mechanism is further installed below the second guide rod (9).

2. The water quality treatment device of the garbage power plant according to claim 1, wherein the grabbing mechanism comprises a control module and two clamping jaws (10), the control module comprises a telescopic rod (11) and side position rods (12), the fixed end of the telescopic rod (11) is fixedly connected to the second guide rod (9), the movable end of the telescopic rod is rotatably connected with one end of each of the two side position rods (12), and the other end of each of the side position rods (12) is rotatably connected with one clamping jaw (10).

3. The water quality treatment device of the garbage power plant according to claim 1, wherein a material leaking mechanism (13) is further arranged in the sewage pool (32), the material leaking mechanism (13) comprises a second rod group, a material leaking box (16) and a fixing plate (33) provided with a sliding groove (17), the second rod group is rotatably connected with the material leaking box (16), a cavity is formed in the material leaking box (16), a material receiving opening (18) connected with the cavity is formed in the upper end face of the material leaking box, and a sliding pipe (19) slidably connected with the sliding groove (17) is formed in the lower end face of the material leaking box; the sliding pipe (19) is communicated with the cavity; the fixed plate (33) is connected to the inner wall of the sewage pool (32); the second rod group comprises a first material leaking rod (14) and a second material leaking rod (15), the first material leaking rod (14) is connected with the output end of a second power mechanism, one end of the second material leaking rod (15) is rotatably connected with the first material leaking rod (14), and the other end of the second material leaking rod is rotatably connected with the material leaking box (16); the sliding groove (17) is S-shaped.

4. A water quality treatment apparatus of a garbage power plant according to claim 3, wherein an opening plate (27) for separating cement mixture is further provided inside the sewage tank (32), and the opening plate (27) comprises two expansion plates; when the filter is needed, the two expansion plates are unfolded, and when the filter is not needed, the two expansion plates are retracted.

5. The water quality treatment device of the garbage power plant as recited in claim 4, characterized in that the open close board (27) divides the cavity in the sewage pool (32) into upper and lower sides, the upper space is provided with the material leaking mechanism (13), the side wall in the upper space is provided with the sludge discharging pipe (30), and the inner wall in the lower space is provided with the water discharging pipe (29).

6. The water quality treatment device of the garbage power plant according to claim 5, wherein the sludge discharge pipe (30) is further connected with a drying mechanism (20).

7. The water quality treatment device of the garbage power plant according to claim 6, wherein one side of the drying mechanism (20) is further provided with a material sliding mechanism (21) for receiving dry mud falling from the drying mechanism (20), the material sliding mechanism (21) comprises a first material sliding plate (23), a base (22) and a second material sliding plate (24), the first material sliding plate (23) is fixedly arranged on the base (22), an input end of the first material sliding plate (23) is connected with the drying mechanism (20), an output end of the first material sliding plate is connected with the second material sliding plate (24), and the second material sliding plate (24) is rotatably connected to the base (22); a supporting plate (25) for supporting the second material sliding plate (24) is fixedly arranged on the base (22); one end of the second material sliding plate (24) is also connected with a baffle (31) through a connecting frame (26).

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