CN211004718U - Concrete effluent treatment plant - Google Patents

Abstract

The utility model discloses a concrete wastewater treatment device, which belongs to the technical field of concrete manufacturing equipment and comprises a main support, wherein the top of the main support is fixedly connected with a wastewater disposal basin, a top scraper is connected on the inner bottom surface of the wastewater disposal basin in a sliding way, two sides of the top scraper can be simultaneously abutted against two side walls of the wastewater disposal basin, and the top of the top scraper is connected with a sliding mechanism which can drive the top scraper to slide; the equal fixedly connected with in top scraper blade both sides is the side scraper blade that right triangle set up, is formed with between top scraper blade and the both sides scraper blade and stores up the mud space, and the discharge gate has been seted up to the wastewater disposal basin bottom surface, and when the top scraper blade slided to the top butt of top scraper blade when the position department of the end wall of wastewater disposal basin, the discharge gate can communicate with storing up the mud space, and the position department sliding connection that the wastewater disposal basin is close to the discharge gate has the discharge end cover that can cover the discharge gate, the utility model discloses have the effect that the efficient will be separated by the earth.

Description

Concrete effluent treatment plant

Technical Field

The utility model relates to a technical field of concrete manufacture equipment especially relates to a concrete effluent treatment plant.

Background

At present in the manufacturing process of concrete, all can produce mud waste water, present concrete production enterprise will accomodate mud waste water in the effluent water sump and carry out the processing and the reuse of waste water to reach resources are saved and environmental protection's effect, usually, can let water and earth layering through the precipitant earlier, export the two respectively again.

The prior art can refer to the chinese utility model patent that the grant bulletin number is CN202410357U, and it discloses a concrete production back end three wastes circulation recovery unit, including effluent treatment plant, waste residue processing apparatus, exhaust treatment device, its characterized in that: the rear section device for concrete production is respectively connected with a waste water treatment device, a waste residue treatment device and a waste gas treatment device.

The above prior art solutions have the following drawbacks: at present at the in-process of carrying out the separation of earth and water, need often just can clear up earth from aqueous many times, waste time and energy, reduce the availability factor.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a concrete effluent treatment plant can the efficient will be separated by the earth and the water of layering and derive.

The above technical purpose of the present invention can be achieved by the following technical solutions:

a concrete wastewater treatment device comprises a main support, wherein a wastewater pool is fixedly connected to the top of the main support, a top scraper which is obliquely arranged along the length direction of the wastewater pool is connected to the inner bottom surface of the wastewater pool in a sliding manner, one end, close to the bottom surface of the wastewater pool, of the top scraper can abut against the inner bottom surface of the wastewater pool, two sides of the top scraper can abut against two side walls of the wastewater pool at the same time, the top scraper can slide along the length direction of the wastewater pool, and the top of the top scraper is connected with a sliding mechanism which can drive the top scraper to slide; the two sides of the top scraper close to the bottom surface of the wastewater pool are fixedly connected with side scrapers which are arranged in a right-angled triangle, a sludge storage gap is formed between the top scraper and the two side scrapers, and when the top scraper slides to a position where the top end of the top scraper abuts against the end wall of the wastewater pool, the two right-angled sides of the two side scrapers can simultaneously abut against the bottom surface and the end wall of the wastewater pool; the waste water tank bottom surface has seted up the discharge gate, when the top scraper blade slide to the top butt of top scraper blade in the position department of the end wall of waste water tank, the discharge gate can with store up mud space intercommunication, the waste water tank is close to the position department sliding connection of discharge gate has can cover the discharge end cover of discharge gate.

Through adopting above-mentioned scheme, during the use, after mud waste water has been stratified by the precipitant, start slide mechanism and drive the top scraper blade and slide in the wastewater disposal basin bottom, the silt that will deposit down gathers in the position department that is close to the discharge gate, top scraper blade and side scraper blade let the mud storage space closed this moment, open the ejection of compact end cover, alright empty out the wastewater disposal basin from the discharge gate with silt, silt north wind ratio is storing up in the mud space this moment, alright take water away from the wastewater disposal basin in order to realize the separation of water and silt.

The utility model discloses further set up to: the bottom surface in the wastewater pond is smoothly arranged.

Through adopting above-mentioned scheme, the smooth setting of wastewater disposal basin bottom surface can effectively reduce the resistance that top scraper blade and side scraper blade received when sliding in the wastewater disposal basin to improve the gliding efficiency of top scraper blade and side scraper blade, improve the efficiency of silt and separation of water.

The utility model discloses further set up to: the sliding mechanism comprises a cylinder body which is slidably connected with a driving hydraulic cylinder at the position, above the top scraping plate, of the main support, the driving hydraulic cylinder can slide along the length direction of the wastewater disposal basin, a piston rod of the driving hydraulic cylinder is vertically arranged, the top scraping plate is fixedly connected to the end part of the piston rod of the driving hydraulic cylinder, and when the piston rod of the driving hydraulic cylinder completely extends out of the cylinder body of the driving hydraulic cylinder, the bottom end of the top scraping plate is abutted to the bottom surface of the wastewater disposal basin.

Through adopting above-mentioned scheme, when needs promote the top scraper blade and slide, start the piston rod that drives the pneumatic cylinder and let drive pneumatic cylinder and stretch out the cylinder body to slide and drive the pneumatic cylinder, just can drive the top scraper blade and slide, when silt and water all separate and take out from the wastewater disposal basin, controllable to drive the pneumatic cylinder and lift the top scraper blade, conveniently carry out adding water of second time.

The utility model discloses further set up to: a driving threaded rod arranged along the length direction of the wastewater pool is rotatably connected to the position, corresponding to the upper part of the top scraping plate, of the main support, a supporting block is connected to the driving threaded rod in a threaded mode, a cylinder body of the driving hydraulic cylinder is fixedly connected to the supporting block, limiting plates arranged along the length direction of the wastewater pool are fixedly connected to the positions, corresponding to the two sides of the supporting block, of the top of the main support, and the opposite surfaces of the two limiting plates are abutted to the supporting block at the same time; the main support is fixedly connected with a driving motor at a position corresponding to one end of the driving threaded rod, and the end part of the driving threaded rod is fixedly connected to an output shaft of the driving motor.

Through adopting above-mentioned scheme, when needs slip drive hydraulic cylinder, start driving motor, drive the drive threaded rod and rotate, all carry on spacingly because of drive hydraulic cylinder both sides have the limiting plate, and drive hydraulic cylinder is unable rotatory, only can slide along wastewater disposal basin length direction under the transmission of supporting shoe.

The utility model discloses further set up to: the waste water tank bottom surface outside is close to the cylinder body of discharge air cylinder of the position department fixedly connected with of ejection of compact end cover, the piston rod of ejection of compact cylinder is followed the length direction setting of waste water tank, ejection of compact end cover fixed connection in on the piston rod of ejection of compact cylinder.

Through adopting above-mentioned scheme, when the ejection of compact end cover is opened or closed to needs, start ejection of compact cylinder, just can realize the efficient operation that opens and shuts the ejection of compact end cover.

The utility model discloses further set up to: the top surface of the discharging end cover is fixedly connected with an elastic waterproof layer.

Through adopting above-mentioned scheme, set up the waterproof layer at ejection of compact end cover top surface, can effectively avoid taking place in the gap outflow of the in-process waste water from ejection of compact end cover and wastewater disposal basin to adding water in the wastewater disposal basin to avoid the wasting of resources.

The utility model discloses further set up to: the main support is connected with a discharge conveyor belt at a position corresponding to the lower part of the discharge port, and the discharge conveyor belt is downwards inclined from one end close to the discharge port to a direction far away from the discharge port.

Through adopting above-mentioned scheme, when empting out the wastewater disposal basin with silt from the discharge gate, start exit conveyor, just can realize that the efficient transports the silt of pouring to the position of formulating or the process of formulating, improves the efficiency of whole silt cyclic utilization process.

The utility model discloses further set up to: the main support is fixedly connected with side baffles arranged along the length direction of the discharging conveyor belt at positions corresponding to two sides of the discharging conveyor belt.

Through adopting above-mentioned scheme, the unrestrained condition of silt appearance when falling on exit conveyor can further be avoided in the setting of side shield to improve silt cyclic utilization's utilization ratio and efficiency, resources are saved.

The utility model discloses further set up to: the top of the end wall of the wastewater pond close to the discharge hole is fixedly connected with a feeding groove body.

Through adopting above-mentioned scheme, when adding waste water in to the wastewater disposal basin, can ensure through the feeding cell body that the interpolation in-process waste water of waste water can not splash to improve the collection efficiency of waste water, improve the utilization ratio of resource.

The utility model discloses further set up to: the wastewater disposal basin is kept away from the end wall bottom fixedly connected with suction pump of discharge gate, the suction pump is kept away from one side fixedly connected with water outlet hose of wastewater disposal basin.

Through adopting above-mentioned scheme, after sealing silt in storing up the mud space, start the suction pump just can be convenient take water out from the wastewater disposal basin, go out water hose's setting and can conveniently guide the link of taking out or position department to needs.

To sum up, the utility model discloses following beneficial effect has:

1. the layered soil and water can be efficiently separated and led out;

2. the treatment efficiency of the waste water newly-married exchange utilization link and the utilization efficiency of resources can be effectively guaranteed;

3. can effectively reduce the operating steps of workers and realize semi-automatic wastewater treatment.

Drawings

FIG. 1 is an overall schematic view of the present embodiment;

FIG. 2 is a sectional view of the protruding inner configuration in the embodiment;

fig. 3 is an enlarged view of a portion a in fig. 2.

In the figure, 1, a main bracket; 11. a discharge conveyor belt; 12. a side dam; 2. a wastewater tank; 21. a top scraper; 211. a side flight; 212. a sludge storage gap; 213. a discharge port; 214. a discharge end cover; 215. a discharging cylinder; 216. a waterproof layer; 22. a sliding mechanism; 221. driving the hydraulic cylinder; 222. driving the threaded rod; 223. a limiting plate; 224. a support block; 225. a drive motor; 23. a feed trough body; 24. a water pump; 25. and a water outlet hose.

Detailed Description

Example (b): a concrete wastewater treatment device, as shown in figure 1, comprises a main support 1, wherein a wastewater tank 2 for containing and treating is fixedly connected to the top of the main support 1. When the device is used, the slurry wastewater is added into the wastewater tank 2, and a proper amount of precipitator is added, so that the separation and the derivation of water and silt can be completed in the wastewater tank 2.

As shown in fig. 1 and 2, a top scraper 21 is slidably attached to the inner bottom surface of the wastewater tank 2, the top scraper being inclined in the longitudinal direction of the wastewater tank 2, and one end of the top scraper 21 close to the bottom surface of the wastewater tank 2 can abut against the inner bottom surface of the wastewater tank 2. Both sides of the top scraper 21 can abut against both side walls of the wastewater tank 2 at the same time, and the top scraper 21 can slide along the length direction of the wastewater tank 2. The position department that the top scraper blade 21 both sides are close to the bottom surface of wastewater disposal basin 2 all fixedly connected with be the side scraper blade 211 that right triangle set up, is formed with between top scraper blade 21 and the both sides scraper blade 211 and stores up mud space 212. When the top scraper 21 slides to the position where the top end of the top scraper 21 abuts against the end wall of the wastewater tank 2, the two right-angled sides of the scrapers 211 on the two sides can abut against the bottom surface and the end wall of the wastewater tank 2 at the same time. The bottom surface in the wastewater tank 2 is arranged smoothly. Slide in wastewater disposal basin 2 bottom through top scraper blade 21 and side scraper blade 211, can pile up the silt gathering in wastewater disposal basin 2 bottom after deposiing in storing up mud space 212, when top and the 2 lateral walls butt of wastewater disposal basin of top scraper blade 21, store up mud space 212 and can be the encapsulated situation.

As shown in fig. 2 and 3, a discharge port 213 is formed in the bottom surface of the wastewater tank 2, when the top scraper 21 slides to a position where the top end of the top scraper 21 abuts against the end wall of the wastewater tank 2, the discharge port 213 can be communicated with the sludge storage space 212, a cylinder body of a discharge cylinder 215 is fixedly connected to a position where the outer side of the bottom surface of the wastewater tank 2 is close to a discharge end cover 214, a piston rod of the discharge cylinder 215 is arranged along the length direction of the wastewater tank 2, and the discharge end cover 214 is fixedly connected to a piston rod of the discharge cylinder 215. When silt is accumulated in the silt storage space 212, the discharge end cover 214 is opened, so that the discharge hole 213 can be opened to pour the silt in the silt storage space 212 out of the discharge hole 213.

As shown in fig. 2 and 3, a waterproof layer 216 made of elastic material such as rubber is fixedly connected to the top surface of the discharge end cap 214. The elasticity of the waterproof layer 216 can ensure that waste water does not seep out from the gap between the discharge end cover 214 and the wastewater tank 2 when the discharge end cover 214 covers the position of the discharge port 213.

As shown in fig. 2 and 3, a slide mechanism 22 is attached to the top of the top blade 21. The sliding mechanism 22 includes a cylinder body slidably connected to the driving hydraulic cylinder 221 of the main support 1 at a position corresponding to the upper portion of the top scraper 21, the driving hydraulic cylinder 221 is capable of sliding along the length direction of the wastewater tank 2, a piston rod of the driving hydraulic cylinder 221 is vertically disposed, the top scraper 21 is fixedly connected to the end portion of the piston rod of the driving hydraulic cylinder 221, and when the piston rod of the driving hydraulic cylinder 221 completely extends out of the cylinder body of the driving hydraulic cylinder 221, the bottom end of the top scraper 21 abuts against the bottom surface of the wastewater tank 2. When the top scraping plate 21 needs to be pushed to slide, the driving hydraulic cylinder 221 is started to enable the piston rod of the driving hydraulic cylinder 221 to extend out of the cylinder body, the driving hydraulic cylinder 221 slides, the top scraping plate 21 can be driven to slide, and when silt and water are separated and are pumped out of the wastewater tank 2, the driving hydraulic cylinder 221 can be controlled to lift the top scraping plate 21, so that water adding for the second time is facilitated.

As shown in fig. 2 and 3, a driving threaded rod 222 arranged along the length direction of the wastewater tank 2 is rotatably connected to a position above the main support 1 corresponding to the top scraper 21, a supporting block 224 is connected to the driving threaded rod 222 in a threaded manner, a cylinder body of the driving hydraulic cylinder 221 is fixedly connected to the supporting block 224, position limiting plates 223 arranged along the length direction of the wastewater tank 2 are fixedly connected to positions on two sides of the top of the main support 1 corresponding to the supporting block 224, and opposite surfaces of the two limiting plates 223 are abutted to the supporting block 224. A driving motor 225 is fixedly connected to a position of the main support 1 corresponding to one end of the driving threaded rod 222, and an end of the driving threaded rod 222 is fixedly connected to an output shaft of the driving motor 225. When the hydraulic cylinder 221 needs to be driven in a sliding manner, the driving motor 225 is started to drive the driving threaded rod 222 to rotate, and the two sides of the driving hydraulic cylinder 221 are limited by the limiting plates 223, so that the driving hydraulic cylinder 221 cannot rotate and can only slide along the length direction of the wastewater pond 2 under the transmission of the supporting blocks 224.

As shown in fig. 2 and 3, the discharging conveyor belt 11 is connected to the main support 1 at a position corresponding to the lower part of the discharging port 213, and the discharging conveyor belt 11 is inclined downwards from one end close to the discharging port 213 to a direction far away from the discharging port 213. The main support 1 is fixedly connected with side baffles 12 arranged along the length direction of the discharging conveyor belt 11 at the positions corresponding to the two sides of the discharging conveyor belt 11. When pouring silt out from discharge gate 213, silt can fall on exit conveyor 11, and the setting of side shield 12 can further ensure silt not from exit conveyor 11 both sides landing to in the link after carrying silt with exit conveyor 11.

As shown in fig. 2 and 3, a feed trough body 23 is fixedly connected to the top of the end wall of the wastewater tank 2 close to the discharge hole 213. The slurry wastewater can be conveniently poured into the wastewater tank 2 from the feed chute 23.

As shown in fig. 1 and fig. 2, a water pump 24 is fixedly connected to the bottom of the end wall of the wastewater tank 2 far from the discharge port 213, and a water outlet hose 25 is fixedly connected to one side of the water pump 24 far from the wastewater tank 2. When silt discharges, because of storing up mud space 212 and sealing, can start suction pump 24 simultaneously and take out the water in wastewater disposal basin 2 from wastewater disposal basin 2, improve the treatment effeciency.

In use, during use, wastewater is poured into the wastewater tank 2 from the feeding tank body 23, a precipitator is added, after water and silt are layered, the driving hydraulic cylinder 221 is started to drive the top scraper 21 to fall on one end of the bottom of the wastewater tank 2, which is far away from the discharge hole 213, the driving motor 225 is started to drive the driving hydraulic cylinder 221 to slide, the top scraper 21 is driven to slide, the silt is sealed in the silt storage gap 212, at the moment, the discharge end cover 214 and the water suction pump 24 can be opened simultaneously, the silt is discharged from the discharge hole 213, water is discharged from the water outlet hose 25, and separation of water and mud is realized.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (10)

1. A concrete effluent treatment plant, includes main support (1), its characterized in that: the top of the main support (1) is fixedly connected with a wastewater tank (2), the inner bottom surface of the wastewater tank (2) is connected with a top scraper (21) which is obliquely arranged along the length direction of the wastewater tank (2) in a sliding manner, one end, close to the bottom surface of the wastewater tank (2), of the top scraper (21) can be abutted against the inner bottom surface of the wastewater tank (2), two sides of the top scraper (21) can be abutted against two side walls of the wastewater tank (2) at the same time, the top scraper (21) can slide along the length direction of the wastewater tank (2), and the top of the top scraper (21) is connected with a sliding mechanism (22) which can drive the top scraper (21) to slide;

the positions, close to the bottom surface of the wastewater pool (2), of the two sides of the top scraper (21) are fixedly connected with side scrapers (211) which are arranged in a right-angled triangle, a sludge storage gap (212) is formed between the top scraper (21) and the two side scrapers (211), and when the top scraper (21) slides to the position where the top end of the top scraper (21) abuts against the end wall of the wastewater pool (2), the two right-angled sides of the two side scrapers (211) can simultaneously abut against the bottom surface and the end wall of the wastewater pool (2);

discharge gate (213) have been seted up to wastewater disposal basin (2) bottom surface, when top scraper blade (21) slide to the top butt of top scraper blade (21) in the position department of the end wall of wastewater disposal basin (2), discharge gate (213) can with store up mud space (212) intercommunication, wastewater disposal basin (2) are close to the position department sliding connection of discharge gate (213) has can cover discharge gate (213) discharge end cover (214).

2. The concrete wastewater treatment apparatus according to claim 1, wherein: the bottom surface in the wastewater tank (2) is arranged smoothly.

3. The concrete wastewater treatment apparatus according to claim 1, wherein: slide mechanism (22) including sliding connection in main support (1) corresponds the cylinder body of drive pneumatic cylinder (221) of top scraper blade (21) top position department, drive pneumatic cylinder (221) can be followed the length direction slip of wastewater disposal basin (2), the vertical setting of piston rod of drive pneumatic cylinder (221), top scraper blade (21) fixed connection in the piston rod end portion of drive pneumatic cylinder (221), when the piston rod of drive pneumatic cylinder (221) stretches out completely when the cylinder body of drive pneumatic cylinder (221), the bottom butt of top scraper blade (21) in the bottom surface of wastewater disposal basin (2).

4. A concrete waste water treatment apparatus according to claim 3, wherein: a driving threaded rod (222) arranged along the length direction of the wastewater tank (2) is rotatably connected to the position, corresponding to the upper part of the top scraper (21), of the main support (1), a supporting block (224) is connected to the driving threaded rod (222) in a threaded manner, a cylinder body of the driving hydraulic cylinder (221) is fixedly connected to the supporting block (224), limiting plates (223) arranged along the length direction of the wastewater tank (2) are fixedly connected to positions, corresponding to the two sides of the supporting block (224), of the top of the main support (1), and opposite surfaces of the two limiting plates (223) are abutted to the supporting block (224) at the same time;

the main support (1) is fixedly connected with a driving motor (225) at a position corresponding to one end of the driving threaded rod (222), and the end part of the driving threaded rod (222) is fixedly connected to an output shaft of the driving motor (225).

5. The concrete wastewater treatment apparatus according to claim 1, wherein: the waste water tank is characterized in that a cylinder body of a discharging air cylinder (215) is fixedly connected to the position, close to the discharging end cover (214), on the outer side of the bottom surface of the waste water tank (2), a piston rod of the discharging air cylinder (215) is arranged along the length direction of the waste water tank (2), and the discharging end cover (214) is fixedly connected to the piston rod of the discharging air cylinder (215).

6. The concrete wastewater treatment apparatus according to claim 1, wherein: the top surface of the discharging end cover (214) is fixedly connected with an elastic waterproof layer (216).

7. The concrete wastewater treatment apparatus according to claim 1, wherein: the main support (1) is connected with a discharge conveyor belt (11) at a position corresponding to the lower part of the discharge hole (213), and the discharge conveyor belt (11) is arranged in a manner that the discharge conveyor belt is downwards inclined from one end close to the discharge hole (213) to the direction far away from the discharge hole (213).

8. The concrete wastewater treatment apparatus according to claim 7, wherein: the main support (1) is fixedly connected with side baffles (12) which are arranged along the length direction of the discharging conveyor belt (11) at positions corresponding to two sides of the discharging conveyor belt (11).

9. The concrete wastewater treatment apparatus according to claim 1, wherein: the top of the end wall of the wastewater pond (2) close to the discharge hole (213) is fixedly connected with a feeding groove body (23).

10. The concrete wastewater treatment apparatus according to claim 1, wherein: the waste water tank (2) is far away from the bottom of the end wall of the discharge hole (213) is fixedly connected with a water suction pump (24), and the water suction pump (24) is far away from one side of the waste water tank (2) is fixedly connected with a water outlet hose (25).

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