CN209143879U - A kind of glass production sewage recovering-recycling device - Google Patents

Abstract

The utility model discloses a recovery and circulation device for glass production sewage, which belongs to the technical field of sewage collection and treatment. The sewage recovery tank of the utility model includes a first sedimentation chamber, a second sedimentation chamber and a recovery water storage chamber. One end of the sewage water inlet pipe on one side of the first sedimentation chamber is connected with a plurality of sewage recovery pipes, and the desilting mechanism is arranged on the first sedimentation chamber. The sedimentation chamber, the round water storage tank is fixedly arranged on the upper side of the storage tank support, the inlet end of the water pumping motor is fixedly connected with a water pumping conduit, and the outlet end of the water pumping motor is fixedly connected with a water supply conduit, which is connected to the water storage round tank. The side of the round water storage tank is vertically arranged with a measuring liquid level gauge, and the middle part of the lower side of the round water storage tank is connected with a circulating water conduit. The utility model has a reasonable structure design, can quickly collect and recycle the sewage generated in the glass production and processing process for precipitation treatment, and can recycle the treated water, reduce the consumption of water in the production process, and meet the needs of production and use.

Description

A glass production sewage recycling device

technical field

The utility model belongs to the technical field of sewage collection and treatment, in particular to a recycling and circulation device for glass production sewage, which is mainly applied to the recycling of production sewage after treatment.

Background technique

Glass is a widely used material in our daily production and life. Glass is used in windows, curtain walls, accessories, utensils, glasses, mirrors and optical instruments. The use of glass in decoration is very common. There are many types of glass, including tempered glass, frosted glass, patterned glass, insulating glass and laminated glass. The production and processing process of glass is cumbersome. According to the needs of glass production, the glass needs to be cut according to the required size. Since glass is mainly made of a variety of inorganic minerals as the main raw materials, and a small amount of auxiliary raw materials are added, the glass During the cutting process, the inorganic minerals that make up the glass will become a slurry under the mixing of the cutting equipment and the washing water. Since the slurry contains a large amount of inorganic mineral powder, after the glass is cut, it needs to be The glass surface is cleaned so that the impurities adhering to the glass surface and the slurry produced by cutting can be cleaned. Therefore, a large amount of water is required in the glass cutting and cleaning process. The water after the cutting process and cleaning process contains For a large amount of mineral powder, conventional glass production enterprises only discharge the sewage directly, which seriously affects the ecological environment. In the process of glass production and processing, in order to ensure the cleanliness of glass cleaning, clean water must be used for glass cleaning. Water that has undergone precipitation treatment is difficult to use for glass cleaning. The sewage after precipitation treatment is recycled as flushing cooling water. The existing water after precipitation treatment is difficult to be recycled, which increases the loss of water in the glass production process and reduces economic benefits. After the precipitation treatment of the existing sewage, the The sludge deposited in the sewage sedimentation tank is difficult to be removed conveniently and efficiently. The manual process of removing the sludge in the sedimentation tank is labor-intensive and the removal efficiency is low, which cannot meet the needs of production and use.

Utility model content

The technical problem to be solved by the present utility model is to overcome the above-mentioned deficiencies in the prior art, and to provide a reasonable structure design, which can quickly collect and recycle the sewage generated in the glass production and processing process for precipitation treatment, and can treat the treated waste water. Water recycling, reducing the consumption of water in the production process, and meeting the needs of production and use of glass production sewage recycling device.

In order to solve the above-mentioned technical problems, the technical scheme adopted by the present utility model is: a glass production sewage recycling device, characterized in that: the glass production sewage recycling device comprises a sewage recycling pool, a sewage water inlet pipe, and a water storage tank , pumping motor and desilting mechanism, the sewage recovery tank includes a first sedimentation chamber, a second sedimentation chamber and a recovery water storage chamber, and a front isolation baffle is vertically fixed between the first sedimentation chamber and the second sedimentation chamber , a rear isolation baffle is vertically fixed between the second sedimentation chamber and the recovery water storage chamber, and a front overflow pipe is fixedly arranged on the upper side of the front isolation baffle, and the upper side of the rear isolation baffle is inclined downward. A rear overflow pipe is fixedly arranged at the bottom, the horizontal position of the front overflow pipe is higher than the horizontal position of the rear overflow pipe, one side of the first sedimentation chamber is connected with a sewage inlet pipe, and one end of the sewage inlet pipe is connected with a plurality of The sewage recovery pipe, the desilting mechanism is vertically arranged in the first sedimentation chamber, the storage tank bracket is vertically fixed on the upper side of the recovery water storage chamber, the water storage round tank is fixedly arranged on the upper side of the storage tank bracket, and the pumping water The motor is fixed on one side of the recovery water storage chamber, the inlet end of the pumping motor is fixedly connected with a pumping conduit, the suction conduit is arranged in the recovery water storage chamber, and the lower end of the pumping conduit is connected and fixed with a pumping filter cartridge, and the pumping motor The outlet end of the water storage tank is fixedly connected with a water supply conduit, which is communicated with the upper side of the water storage tank. Sensing electric wire, a circulating water conduit is connected and fixed in the middle of the lower side of the water storage round tank, and a water guiding control valve is fixed on the circulating water conduit, and a communication round hole is arranged in the middle of the upper side of the water storage round tank. The upper side of the water round tank is connected with a drainage overflow pipe. The desilting mechanism includes a desilting bracket, a desilting motor, a transmission guide belt and a mud lifting hopper. The desilting bracket is vertically arranged in the first sedimentation chamber. The upper and lower sides of the desilting support are respectively connected with guide belt rollers for horizontal rotation. The transmission guide belt is vertically arranged in the first sedimentation chamber. The desilting motor is fixed horizontally on the upper side of the desilting bracket, and the desilting motor drives the guide belt roller on the upper side of the desilting bracket to rotate. One side of the hopper is hingedly connected to the transmission guide belt, and the two sides of the mud lifting hopper and the transmission guide belt are respectively connected obliquely with a limit spring. The ends are respectively connected with translation guide wheels for vertical rotation, and the translation guide wheels roll along the upper side edges of the sewage recovery tank.

Further, the volumes of the second precipitation chamber and the recovery water storage chamber are the same, and the volume of the first precipitation chamber is twice the volume of the second precipitation chamber.

Further, the vertical distance between the water storage tank and the sewage recovery tank is 10 meters to 15 meters.

Further, a plurality of water filtering round holes are evenly arranged at the bottom of the mud lifting hopper.

Compared with the prior art, the utility model has the following advantages and effects: the utility model has a reasonable structure design, and the sewage recovery tank includes a first sedimentation chamber, a second sedimentation chamber and a recovery water storage chamber, a first sedimentation chamber and a second sedimentation chamber. A front isolation baffle is vertically fixed between the two sedimentation chambers, a rear isolation baffle is vertically fixed between the second sedimentation chamber and the recovery water storage chamber, and a front isolation baffle is fixed on the upper side of the front isolation baffle. The overflow pipe, the upper side of the rear isolation baffle is inclined downward and fixed with a rear overflow pipe, the horizontal position of the front overflow pipe is higher than the horizontal position of the rear overflow pipe, and the sewage inlet pipe is connected to one side of the first sedimentation chamber. One end is connected with a plurality of sewage recovery pipes, which are connected with multiple processing equipment on the production site by using multiple sewage recovery pipes, so that the sewage generated by the production of multiple processing equipment can be collected to the sewage inlet pipe separately by using multiple sewage recovery pipes. Ensure that the sewage generated on the production site can flow to the sewage recovery tank quickly and efficiently. Using the first sedimentation chamber, the second sedimentation chamber and the recovery water storage chamber, the sewage can be sedimented in sequence, so that the mineral powder particles in the sewage can be recovered. Fully and efficiently precipitate on the bottom of the first sedimentation chamber and the second sedimentation chamber, using the front overflow pipe on the front isolation baffle and the rear overflow pipe on the rear isolation baffle, so that the precipitation-treated water can overflow in sequence, The mineral powder particles in the water overflowing to the recovery water storage chamber have been precipitated to the greatest extent, ensuring that the water overflowing to the recovery water storage chamber after the sedimentation treatment is relatively clear, so that it can continue to be recycled and pass through the second sedimentation chamber. The volume of the first precipitation chamber is the same as that of the recovery water storage chamber, and the volume of the first precipitation chamber is twice that of the second precipitation chamber. Using the larger volume of the first precipitation chamber, the sewage flowing into the first precipitation chamber through the sewage water inlet pipe can be processed. The long-term stay ensures that the mineral powder particles in the sewage can be fully and completely precipitated. The storage tank bracket is vertically fixed on the upper side of the recovery water storage chamber, and the water storage round tank is fixed on the upper side of the storage tank bracket. The inlet end of the water pumping motor is fixedly connected with a water pumping pipe, the lower end of the water pumping pipe is connected and fixed with a water pumping filter cartridge, the outlet end of the water pumping motor is fixed and connected with a water supply pipe, and the water supply pipe is connected with the upper side of the water storage tank. Connected, one side of the water storage round tank is vertically fixed with a measuring liquid level gauge, the measuring liquid level gauge is connected and fixed with a sensing electric wire, and the middle of the lower side of the water storage round tank is connected and fixed with a circulating water conduit, and the circulating water conduit A water guiding control valve is fixed on the upper part, and the water in the recovered water storage chamber can be quickly pumped into the water storage tank by the water pumping motor. The water inlet end is filtered to avoid the particulate debris in the recovered water storage chamber flowing along the water pumping conduit driven by the water pumping motor, causing adverse effects such as damage to the water pumping motor. The meter monitors the water level in the water storage tank, so that the start and stop of the pumping motor can be controlled according to the water level in the water storage tank to ensure that the water stored in the water storage tank can meet the production needs. A circulating water conduit is connected and fixed in the middle, and a water conduit control valve is fixed on the circulating water conduit, and the water storage tank and the sewage are recycled. The vertical spacing of the pools is 10 meters to 15 meters, so that the water stored in the water storage tank can flow smoothly to various water equipment under the action of its own gravity, and the recycling of sewage after treatment is realized. The water does not need to consume external power when it flows to various water-using equipment, which reduces the energy consumption of sewage recycling. The use of the circular hole on the upper side of the water storage tank is used, so that the water storage tank can be connected to the outside world to ensure sewage. Fast and smooth flow, the upper side of the water storage tank is connected with a drainage overflow pipe, which ensures that when there is too much water in the water storage tank, the water can be quickly discharged through the drainage overflow pipe and pass through the first sedimentation chamber. The upper and lower sides of the desilting bracket are respectively connected with guide belt rollers horizontally, and the upper and lower sides of the transmission guide belt are respectively wound around the guide belt rollers connected to both sides of the desilting bracket, and the desilting motor is fixed horizontally above the desilting bracket. On one side, the two sides of the transmission guide belt are symmetrically provided with mud lifting hoppers, and the belt guide roller on the upper side of the desilting bracket is driven by the desilting motor to rotate, so that the transmission guide belt can be driven by the desilting motor smoothly and smoothly. Continuously rotating and conveying, the transmission guide belt can drive the mud lifting hopper in the vertical direction during the transmission process, and the mud lifting hopper can lift the mineral powder of the sludge in the first sedimentation chamber during the lifting process. The continuous desilting of the first sedimentation chamber can be realized by taking over the mineral powder, which can improve the desilting efficiency of the first sedimentation chamber and reduce the work intensity of workers. The transmission guide belts are respectively connected with a limit tension spring, which can not only ensure that the transmission guide belt is fixed on one side of the mud lifting hopper without affecting the smooth and stable rotation and transmission of the transmission guide belt, but also can ensure that the transmission guide belt is fixed on the side of the mud lifting hopper without affecting the smooth and stable rotation and transmission of the transmission guide belt. The mud lifting hopper is fixed and limited to prevent the mud lifting hopper from swinging greatly during the transfer and overturning process. The lower ends of the lower side of the lower side of the translation support, which are fixed horizontally on both sides of the desilting support, are respectively connected with translation guide wheels to rotate vertically. , the translation guide wheel rolls along the upper side edges of the sewage recovery tank, so that the desilting bracket can be horizontally adjusted in the first sedimentation tank according to the needs of desilting, so as to ensure that the first sedimentation chamber can be fully and completely desilted. The bottom of the mud lifting hopper is evenly provided with a plurality of water filtering round holes, so that during the lifting process of the mud lifting hopper, the water carried in the mud lifting hopper can flow down smoothly through the water filtering round holes, which reduces the lifting load of the mud lifting hopper. , Through such a structure, the structure design of the utility model is reasonable, the sewage generated in the glass production and processing process can be quickly collected and recycled for precipitation treatment, and the treated water can be recycled to reduce the consumption of water in the production process and meet the needs of production and use. .

Description of drawings

Fig. 1 is a schematic view of the front structure of a glass production sewage recycling device of the present invention.

FIG. 2 is a schematic view of the structure of the front view of the desilting mechanism of the present invention.

FIG. 3 is an enlarged structural schematic diagram of the desilting mechanism A of the present invention.

In the picture: 1. Sewage recovery tank, 2. Sewage inlet pipe, 3. Water storage tank, 4. Pumping motor, 5. Desilting mechanism, 6. First sedimentation chamber, 7. Second sedimentation chamber, 8. Return Water storage room, 9. Front isolation baffle, 10. Rear isolation baffle, 11. Front overflow pipe, 12. Rear overflow pipe, 13. Sewage recovery pipe, 14. Storage tank bracket, 15. Suction conduit, 16. Suction filter cartridge, 17. Water supply conduit, 18. Measuring liquid level gauge, 19. Sensing electric wire, 20. Circulating water conduit, 21. Water guiding control valve, 22. Connecting round hole, 23. Drain overflow Tube, 24. Desilting Bracket, 25. Desilting Motor, 26. Transmission Guide Belt, 27. Sludge Hopper, 28. Guide Belt Transfer Roller, 29. Limiting Tension Spring, 30. Translation Bracket, 31. Translation Guide Wheel , 32. Filter hole.

Detailed ways

In order to further describe the present utility model, the specific embodiments of a glass production sewage recycling device are further described below with reference to the accompanying drawings. The following examples are explanations of the present utility model and the present utility model is not limited to the following examples.

As shown in Figure 1, the utility model is a glass production sewage recycling device, including a sewage recovery tank 1, a sewage water inlet pipe 2, a water storage tank 3, a pumping motor 4 and a desilting mechanism 5. The sewage recovery tank 1 includes a first A precipitation chamber 6, a second precipitation chamber 7 and a recovery water storage chamber 8, a front isolation baffle 9 is vertically fixed between the first precipitation chamber 6 and the second precipitation chamber 7, the second precipitation chamber 7 and the recovery A rear isolation baffle 10 is vertically fixed between the water storage chambers 8 , a front overflow pipe 11 is fixed obliquely downward on the upper side of the front isolation baffle 9 , and a rear overflow pipe 11 is fixed obliquely downward on the upper side of the rear isolation baffle 10 . The overflow pipe 12, the horizontal position of the front overflow pipe 11 is higher than the horizontal position of the rear overflow pipe 12, one side of the first sedimentation chamber 6 is connected with a sewage inlet pipe 2, and one end of the sewage inlet pipe 2 is connected with a plurality of sewage pipes The recovery pipe 13, the desilting mechanism 5 is vertically arranged in the first sedimentation chamber 6, the upper side of the recovery water storage chamber 8 of the present invention is vertically fixed with a storage tank bracket 14, and the water storage round tank 3 is fixedly arranged in the storage tank On the upper side of the bracket 14, the water pumping motor 4 is fixedly arranged on one side of the recovery water storage chamber 8, and the inlet end of the water pumping motor 4 is fixed and communicated with a water pumping conduit 15, which is arranged in the recovery water storage chamber 8, and the water pumping conduit 15 is arranged in the recovery water storage chamber 8. The lower end is connected and fixedly provided with a water pumping filter cartridge 16, and the outlet end of the water pumping motor 4 is fixedly connected with a water supply conduit 17, which is communicated with the upper side of the water storage tank 3, and the water storage tank 3 is vertical on one side. A measuring liquid level gauge 18 is directly and fixedly arranged, a sensing electric wire 19 is connected and fixed on the measuring liquid level gauge 18, and a circulating water conduit 20 is connected and fixed in the middle of the lower side of the water storage tank 3, and the circulating water conduit 20 is fixedly arranged on it. There is a water diversion control valve 21 , a communication circular hole 22 is provided in the middle of the upper side of the water storage tank 3 , and a drainage overflow pipe 23 is connected to the upper side of the water storage tank 3 . As shown in FIG. 2, the desilting mechanism 5 of the present invention includes a desilting support 24, a desilting motor 25, a transmission guide belt 26 and a mud lifting hopper 27, and the desilting support 24 is vertically arranged in the first sedimentation chamber 6, The upper and lower sides of the desilting bracket 24 are respectively connected with guide belt rollers 28 for horizontal rotation. The desilting motor 25 is horizontally fixed on the upper side of the desilting bracket 24, and the desilting motor 25 drives the belt guiding roller 28 on the upper side of the desilting bracket 24 to rotate, and drives both sides of the guiding belt 26. The mud-lifting hoppers 27 are symmetrically arranged respectively. As shown in FIG. 3 , one side of the mud-lifting hopper 27 of the present invention is hingedly connected to the transmission guide belt 26, and the two sides of the mud-lifting hopper 27 and the transmission guide belt 26 are respectively connected obliquely. There are limited tension springs 29, translation supports 30 are fixed horizontally on both sides of the desilting support 24, and translation guide wheels 31 are respectively connected vertically at both ends of the lower side of the translation support 30. Side edge scrolling.

The volume of the second precipitation chamber 7 and the recovery water storage chamber 8 of the present invention are the same, the volume of the first precipitation chamber 6 is twice the volume of the second precipitation chamber 7, and the volume of the first precipitation chamber 6 is larger, so that through the The sewage flowing from the sewage inlet pipe 2 to the first sedimentation chamber 6 can stay for a long time to ensure that the mineral powder particles in the sewage can be fully and completely sedimented. The vertical distance between the water storage tank 3 and the sewage recovery tank 1 of the present invention is 10 meters to 15 meters, so that the water stored in the water storage tank 3 can flow smoothly to each water equipment under the action of its own gravity, so as to realize The recycling of sewage after treatment is realized, and the water in the water storage tank 3 does not need to consume external power when flowing to various water-using equipment, which reduces the energy consumption of sewage recycling. The bottom of the mud lifting hopper 27 of the present invention is evenly provided with a plurality of water filtering round holes 32, so that during the lifting process of the mud lifting hopper 27, the water carried in the mud lifting hopper 27 can flow down smoothly through the water filtering round holes 32, The lifting load of the mud lifting hopper 27 is reduced.

By adopting the above technical scheme, when a glass production sewage recycling device of the present invention is in use, the sewage recycling tank 1 includes a first sedimentation chamber 6, a second sedimentation chamber 7 and a recovery water storage chamber 8. The first sedimentation chamber 6 and the second precipitation chamber 7 are vertically fixed with a front isolation baffle 9, between the second precipitation chamber 7 and the recovery water storage chamber 8 are vertically fixed with a rear isolation baffle 10, and the front isolation baffle 9 The front overflow pipe 11 is fixedly arranged on the upper side inclined downward, and the rear overflow pipe 12 is fixedly arranged on the upper side of the rear isolation baffle 10 inclined downward. The horizontal position of the front overflow pipe 11 is higher than the level of the rear overflow pipe 12 position, one end of the sewage inlet pipe 2 connected to one side of the first sedimentation chamber 6 is connected with a plurality of sewage recovery pipes 13, and the plurality of sewage recovery pipes 13 are used to communicate with multiple processing equipments on the production site, so that multiple processing equipments are produced. The generated sewage can be collected to the sewage inlet pipe 2 by using a plurality of sewage recovery pipes 13 to ensure that the sewage generated on the production site can flow to the sewage recovery tank 1 quickly and efficiently. The first sedimentation chamber 6 and the second sedimentation chamber 7 are used. And the recovery water storage chamber 8, the sewage can be subjected to precipitation treatment in sequence, so that the mineral powder particles in the sewage can be fully and efficiently precipitated at the bottom of the first sedimentation chamber 6 and the second sedimentation chamber 7. The front overflow pipe 11 and the rear overflow pipe 12 on the rear isolation baffle 10 enable the precipitation-treated water to overflow in sequence, so that the mineral powder particles in the water overflowing to the recovery water storage chamber 8 have reached the maximum extent. Carry out precipitation to ensure that the water that overflows to the recovery water storage chamber 8 after the precipitation treatment is relatively clear, so that it can continue to be recycled. The volumes of the second sedimentation chamber 7 and the recovery water storage chamber 8 are the same, and the volume of the first sedimentation chamber 6 is the same. The volume of the second precipitation chamber 7 is twice that of the first precipitation chamber 6, so that the sewage flowing into the first precipitation chamber 6 through the sewage water inlet pipe 2 can stay for a long time to ensure the mineral powder in the sewage. The material particles can be fully and completely precipitated. The storage tank bracket 14 is vertically fixed on the upper side of the recovery water storage chamber 8, the water storage round tank 3 is fixedly arranged on the upper side of the storage tank bracket 14, and the inlet end of the pumping motor 4 A water pumping conduit 15 is fixed and communicated, the lower end of the water pumping conduit 15 is connected and fixedly provided with a water pumping filter cartridge 16, and the outlet end of the pumping motor 4 is fixedly communicated with a water supply conduit 17, which is connected to the water storage tank 3. The side of the water storage tank 3 is vertically and fixedly provided with a metering level gauge 18, the metering level meter 18 is connected and fixedly provided with a sensing electric wire 19, and the middle of the lower side of the water storage tank 3 is connected and fixedly provided with a circulating circuit. The water conduit 20, a water conduit control valve 21 is fixed on the circulating water conduit 20, the water in the recovery water storage chamber 8 can be quickly pumped into the water storage tank 3 by the pumping motor 4, and the lower end of the water pumping conduit 15 is fixed The pumping filter cartridge 16 can filter the water inlet end of the pumping conduit 15 during the pumping process, so as to prevent the particulate debris in the recovery water storage chamber 8 from flowing along the pumping conduit 15 under the drive of the pumping motor 4, resulting in For adverse effects such as damage to the water pumping motor 4, use the measuring liquid level gauge 18 on the side of the water storage tank 3 to The water level in the round tank 3 is monitored, so that the start and stop of the pumping motor 4 can be controlled according to the water level in the water storage round tank 3 to ensure that the water stored in the water storage round tank 3 can meet the production needs. A circulating water conduit 20 is connected and fixed in the middle of the side, and a water guiding control valve 21 is fixed on the circulating water conduit 20, and the vertical distance between the water storage tank 3 and the sewage recovery tank 1 is 10 meters to 15 meters, so that the water storage The water stored in the round tank 3 can smoothly flow to various water-using equipment under the action of its own gravity, realizing the recycling of sewage after treatment, and the water in the water-storage round tank 3 does not need to consume external equipment when it flows to each water-using equipment. Power, reducing the energy consumption of sewage recycling, using the water storage tank 3 is provided with a connecting circular hole 22 in the middle of the upper side, so that the water storage tank 3 can be communicated with the outside world, to ensure the rapid and smooth flow of sewage, using the water storage tank The upper side of the 3 is connected with a drainage overflow pipe 23, which can ensure that when there is too much water in the water storage tank 3, the water can be quickly discharged through the drainage overflow pipe 23 and pass through the desilting support in the first sedimentation chamber 6. The upper and lower sides of 24 are respectively connected with guide belt rollers 28 for horizontal rotation, and the upper and lower sides of the transmission guide belt 26 are respectively wound around the guide belt rollers 28 connected to the two sides of the desilting bracket 24. The desilting motor 25 is horizontally fixed on the desilting. On the upper side of the bracket 24, the two sides of the transmission guide belt 26 are symmetrically provided with mud lifting hoppers 27, and the desilting motor 25 is used to drive the belt guide roller 28 on the upper side of the desilting bracket 24 to rotate, so that the transmission guide belt 26 can be removed at the same time. Under the driving of the mud motor 25, the continuous rotation and transmission are smoothly and smoothly carried out. The transmission guide belt 26 can drive the mud lifting hopper 27 in the vertical direction during the transmission process. To lift the mineral powder, the worker only needs to use the container to carry the lifted mineral powder to realize the continuous desilting of the first sedimentation chamber 6, improve the desilting efficiency of the first sedimentation chamber 6, reduce the work intensity of the workers, and use the lifting One side of the mud hopper 27 is hingedly connected to the transmission guide belt 26, and the two sides of the mud hopper 27 and the transmission guide belt 26 are respectively connected obliquely with a limit tension spring 29, which can ensure that the transmission guide belt 26 is fixed on the mud lifting hopper 27. One side does not affect the smooth and stable rotation and transmission of the transmission guide belt 26, and can also fix and limit the mud lifting hopper 27 under the action of the limit tension spring 29, so as to avoid the mud lifting hopper 27 during the transmission and turnover process. Swing, using the horizontally fixed translation support 30 on both sides of the desilting support 24, the lower ends of the lower side are respectively connected with translation guide wheels 31 for vertical rotation. In the need of desilting, the desilting support 24 is horizontally adjusted in the first sedimentation tank 6 to ensure that the first sedimentation chamber 6 can be fully and completely desilted. The bottom of the sludge lifting hopper 27 is evenly provided with a plurality of filtered water The round holes 32 enable the water carried in the mud lifting hopper 27 to flow down smoothly through the water filtering round holes 32 during the lifting process of the mud lifting hopper 27 , which reduces the lifting load of the mud lifting hopper 27 . Through such a structure, the utility model has a reasonable structure design, can quickly collect and recycle the sewage generated in the glass production and processing process for precipitation treatment, and can recycle the treated water, reduce the consumption of water in the production process, and meet the needs of production and use.

The above content described in this specification is only an illustration of the present invention. Those skilled in the art to which the present utility model belongs can make various modifications or supplements to the described specific embodiments or substitute in similar manners, as long as they do not deviate from the contents of the present utility model description or exceed the definitions in the claims The scope of the invention should belong to the protection scope of the present invention.

Claims (4)

1. a kind of glass production sewage recovering-recycling device, it is characterised in that: the glass production sewage recovering-recycling device packet It includes sewage recovery pond, sewage water inlet pipe, water storage round can, pumping motor and desilts mechanism, the sewage recovery pond includes first heavy Shallow lake room, the second mud chamber and recycling reservoir chamber, isolation gear before being fixedly installed vertically between the first mud chamber and the second mud chamber Plate is fixedly installed rear isolation baffle plate, the preceding isolation baffle plate incline upward between the second mud chamber and recycling reservoir chamber vertically It is fixedly installed preceding overflow pipe downwards, rear isolation baffle plate incline upward is fixedly installed downwards rear overflow pipe, the water of preceding overflow pipe Prosposition sets the horizontal position higher than rear overflow pipe, and the first mud chamber side is provided with and communicated with sewage water inlet pipe, wastewater influent Pipe one end is provided with and communicated with more sewage recovery tubes, desilts mechanism and is vertically arranged at the first mud chamber, on the recycling reservoir chamber Side is fixedly installed tank support vertically, and water storage round can is fixedly installed on the upside of tank support, the pumping motor fixed setting In recycling reservoir chamber side, the input end fixation of pumping motor is provided with and communicated with the conduit that draws water, and the conduit that draws water is set to recycling storage In water chamber, the conduit downside end that draws water connection is fixedly installed the filter cylinder that draws water, and the outlet end fixation of pumping motor is provided with and communicated with It being connected on the upside of upper water conduit, upper water conduit and water storage round can, water storage round can side is fixedly installed gauging level meter vertically, It is connected and fixed on gauging level meter and is provided with sensing electric lead, middle side part connection is fixedly installed circulation and leads under the water storage round can Water pipe recycles and is fixedly installed water guide control valve on aqueduct, and middle side part is provided with connection circular hole, water storage on the water storage round can Be provided with and communicated with drainage overflow pipe at the upper side of round can, it is described desilt mechanism include desilt bracket, desilt motor, transmission conduction band and Pug bucket is mentioned, the bracket that desilts is vertically arranged in the first mud chamber, is desilted bracket and is horizontally rotated connection respectively in two sides up and down There is conduction band transfer roller, transmission conduction band is vertically arranged in the first mud chamber, and two sides wind to be connected to respectively above and below transmission conduction band desilts The conduction band transfer roller of bracket two sides, it is described desilt motor level and be fixedly installed on desilt at the upper side of bracket, desilt motor drive and remove Conduction band transfer roller on the upside of mud bracket is rotated, and the transmission conduction band two sides, which have been symmetrically arranged, mentions pug bucket, mentions pug bucket Side be hinged be connected to transmission conduction band, mention pug bucket two sides and transmission conduction band between respectively inclination be connected with limit tension spring, institute It states and desilts bracket two sides level is fixedly installed translating bracket respectively, both ends are rotatably connected to flat vertically respectively on the downside of translating bracket Guide wheel is moved, guide wheel both sides of the edge above sewage recovery pond is translated and rolls.

2. a kind of glass production sewage recovering-recycling device according to claim 1, it is characterised in that: second precipitating Room is identical with the recycling volume of reservoir chamber, and first mud chamber's volume is twice of second mud chamber's volume.

3. a kind of glass production sewage recovering-recycling device according to claim 1, it is characterised in that: the water storage round can Vertical spacing with sewage recovery pond is 10 meters -15 meters.

4. a kind of glass production sewage recovering-recycling device according to claim 1, it is characterised in that: described to mention pug bucket Bottom is evenly arranged with multiple drainage circular holes.