WO2020211355A1 - Device for separating and absorbing sewage impurities - Google Patents

Abstract

A device for separating and absorbing sewage impurities, comprising a water storage tank (1) having an upper end opening and a cover plate (2); a collision separation frame is mounted at one side of the water storage tank (1), and a sewage flow channel on the collision separation frame communicates with the upper end opening of the water storage tank (1); the collision separation frame comprises a sieve plate (3), a first side plate (4) and a second side plate (5), the first side plate (4) and the second side plate (5) being fixed at two sides of the sieve plate (3) respectively; a first vertical plate (6), a second vertical plate (7) and a third vertical plate (8) extend from three side edges of the upper end of the water storage tank (1) respectively; the first side plate (4) is connected to the first vertical plate (6) to form a whole, and the second side plate (5) is connected to the second vertical plate (7) to form a whole; a plurality of absorption grooves are uniformly distributed on an upper surface of the sieve plate (3), activated carbon particles being packaged and fixed in the absorption grooves by means of a mesh cover; upper ends of the first vertical plate (6) and the second vertical plate (7) are respectively provided with a first chute (9), and upper ends of the first side plate (4) and the second side plate (5) are respectively provided with a second chute (10) which correspondingly communicates with the first chute (9); and the cover plate (2) is slidably mounted on the first chute (9) and the second chute (10).

Description

Equipment for separating and absorbing sewage impurities Technical field

The invention relates to the technical field of sewage treatment equipment, in particular to a device for separating and absorbing sewage impurities.

Background technique

When dealing with sewage treatment in the form of urban sewage, garbage permeate in garbage transfer stations, and medical wastewater, special attention should be paid to the separation and treatment of impurities in the sewage, such as filtering large particles of solid impurities, and small particles of impurities Adsorption, neutralization of harmful components, etc. In the actual sewage treatment process, many types of sewage treatment devices have been produced, all of which have a certain ability to purify sewage. However, for the sewage after the preliminary filtration of large particles of impurities, it is necessary to further separate and absorb small particles of impurities. The impurity separation and absorption devices related to sewage treatment have complex structures and high costs.

Summary of the invention

The technical problem to be solved by the present invention is to provide a device with relatively simple structure and good separation and absorption effect of impurity particles.

The technical solution of the present invention is to provide a device for separating and absorbing sewage impurities, including a water storage tank with an upper end opening and a detachable cover plate for covering the upper end opening of the water storage tank, and one side of the water storage tank is installed with an inclined upward setting The collision separation frame, the sewage flow channel on the collision separation frame is in communication with the upper end opening of the water storage tank; the collision separation frame includes a sieve plate, a first side plate and a second side plate, the first side plate and the second side plate The two side plates are respectively fixed on both sides of the sieve plate, and three of the sides of the upper end of the water storage tank respectively extend with a first vertical plate, a second vertical plate and a third vertical plate. One side plate is connected with the first vertical plate as a whole, the second side plate is connected with the second vertical plate as a whole, a plurality of adsorption grooves are evenly distributed on the upper surface of the sieve plate, and the adsorption grooves are The mesh cover is encapsulated and fixed with activated carbon particles; the upper ends of the first vertical plate and the second vertical plate are respectively provided with first sliding grooves, and the upper ends of the first side plate and the second side plate are respectively provided with The first chute corresponds to a connected second chute, and the cover plate is slidably mounted on the first chute and the second chute.

The beneficial effects of the technical solution of the present invention are: in the equipment, the collision separation rack is used for collision separation of sewage, and after the sewage introduced from the outside flows into the sieve plate on the collision separation rack, there are multiple concave adsorption on the surface of the sieve plate. When the sewage flows on the sieve plate, there will be ups and downs, forming a certain collision on the edge of the adsorption tank and the surface of the sieve plate, which is beneficial to disperse the impurity particles in the sewage. The activated carbon particles in the adsorption tank are bound and fixed by the mesh cover , It can form a good absorption effect on small particles of impurities, and the sewage after collision separation and adsorption flows into the water storage tank.

Further, a plurality of activated alumina balls are rotatably installed on the sieve plate, and the activated alumina balls are uniformly densely distributed and staggered from the adsorption tank.

Further, a first partition plate is fixed in the middle of the cover plate, and the cover plate is divided into a first feeding area and a second feeding area by the first partition plate, and the first feeding area and the second feeding area are respectively A plurality of feeding holes are densely arranged. When the cover plate is completely slid into the second chute through the first chute, the bottom of the first feeding area is directly opposite to the upper opening of the water storage tank. The bottom of the second feeding zone faces the sewage flow channel at the upper end of the collision separation frame.

Further, a water inlet groove is installed at one end of the sieve plate away from the water storage tank, and the water inlet groove includes a horn groove plate and a square groove plate. The upper end opening of the square groove plate is connected to the smaller end of the horn groove plate. Open connection, the lower end of the square groove plate is installed on the sieve plate, and a first water inlet channel is left between the lower end of the square groove plate and the sieve plate.

Further, one of the side walls of the water storage tank is connected with a second partition that extends upward, the second partition is arranged opposite to the third vertical plate, and the bottom of the second partition is connected to the A second water inlet channel is left between the upper ends of the water storage tank.

Further, a plurality of auxiliary support plates are arranged in parallel on the upper end opening of the water storage tank, and the auxiliary support plates are connected to two opposite side plates of the water storage tank, and the upper end surface of the auxiliary support plate is connected to the second The bottom end of the partition is in contact.

Further, the bottom of the adsorption tank is provided with cleaning holes, the bottom of the sieve plate is equipped with a cleaning nozzle connected to a water source, and the water outlet of the cleaning nozzle is connected with a plurality of water distribution pipes, and the water distribution pipes are respectively corresponding to The cleaning hole is connected.

Description of the drawings

In order to more clearly describe the technical solutions in the embodiments of the present invention, the following will briefly introduce the accompanying drawings used in the description of the embodiments. Obviously, the accompanying drawings in the following description are only some embodiments of the present invention. For those of ordinary skill in the art, other drawings can be obtained from these drawings without creative work.

Figure 1 is a structural diagram of a device for separating and absorbing sewage impurities in an embodiment of the present invention;

Figure 2 is a structural diagram of a device for separating and absorbing sewage impurities in an embodiment of the present invention with the cover removed;

Fig. 3 is an enlarged schematic view of the structure of part A in Fig. 2;

Fig. 4 is a schematic diagram of an enlarged structure of part B in Fig. 2.

detailed description

The present invention will be further described below in conjunction with the drawings and specific embodiments.

Referring to Figures 1 to 4, the present invention provides a device for separating and absorbing sewage impurities, including a water storage tank 1 with an upper end opening and a cover plate 2 that can detachably cover the upper end opening of the water storage tank 1. The water storage tank 1 A collision separation frame installed obliquely upward is installed on one side of the collision separation frame, and the sewage flow channel on the collision separation frame communicates with the upper end opening of the water storage tank 1; the collision separation frame includes a sieve plate 3, a first side plate 4 and a second side plate 5, The first side plate 4 and the second side plate 5 are respectively fixed on both sides of the sieve plate 3, and three sides of the upper end of the water storage tank 1 respectively extend with a first vertical plate 6, a second vertical plate 7, and a second vertical plate 7. Three vertical plates 8, the first side plate 4 and the first vertical plate 6 are connected as a whole, the second side plate 5 and the second vertical plate 7 are connected as a whole, and the upper surface of the screen plate 3 is evenly distributed with a plurality of adsorbers Tank (not shown), the adsorption tank is sealed and fixed with activated carbon particles by a mesh cover; the upper ends of the first vertical plate 6 and the second vertical plate 7 are respectively provided with a first chute 9, a first side plate 4 and a second vertical plate The upper ends of the two side plates 5 are respectively provided with a second sliding groove 10 communicating with the first sliding groove 9, and the cover plate 2 is slidably mounted on the first sliding groove 9 and the second sliding groove 10.

Among them, the collision separation rack is used to collide and separate sewage. After the sewage introduced from the outside flows into the sieve plate on the collision separation rack, because there are multiple concave adsorption grooves on the surface of the sieve plate, the sewage will flow on the sieve plate. The ups and downs form a certain collision with the edge of the adsorption tank and the surface of the sieve plate, which is beneficial to disperse the impurity particles in the sewage. The activated carbon particles in the adsorption tank are bound and fixed by the mesh cover, which can form a good adsorption of small particles of impurities Absorption effect, the sewage after collision separation and adsorption flows into the water storage tank.

As one of the improvements, a plurality of activated alumina balls 11 are rotatably installed on the sieve plate 3, and the activated alumina balls 11 are evenly densely distributed and staggered from the adsorption tank. The activated alumina balls 11 are installed in rotation, which can be Quickly switch to the front surface to absorb impurities more comprehensively and evenly.

Further, a first partition plate 12 is fixed in the middle of the cover plate 2. The cover plate 2 is divided by the first partition plate 12 into a first feeding area 2a and a second feeding area 2b, a first feeding area 2a and a second feeding area 2b. The upper part is densely provided with a plurality of feeding holes 2c. When the cover plate 2 is completely slid into the second chute 10 through the first chute 9, the lower part of the first feeding area 2a faces the upper opening of the water storage tank 1, and the second The bottom of the feeding area 2b is facing the sewage flow channel at the upper end of the collision separation rack. In the actual operation, different reagents or other substances need to be added to the water storage tank 1 or the sieve plate 3 area, but they should not be greatly exposed. The design of adding holes can shield the corresponding area, and can also add fluid or powder substances evenly.

Further, a water inlet trough 13 is installed at the end of the sieve plate 3 away from the water storage tank 1. The water inlet trough 3 includes a horn groove plate 13a and a square groove plate 13b. The upper end opening of the square groove plate 13b and the horn groove plate 13a have a smaller size. The opening at one end is connected, the lower end of the square trough plate 13b is installed on the sieve plate 3, and a first water inlet channel 14 is left between the lower end of the square trough plate 13b and the sieve plate 3, and the sewage to be treated flows in from the top of the water inlet groove 3. After reaching the lower end of the square groove plate 13b, it flows out from the first water inlet channel 14 and directly pours into the sieve plate 3 for separation treatment.

Further, one of the side walls of the water storage tank 1 is connected with a second partition 15 extending upward, the second partition 15 is arranged opposite to the third vertical plate 8, and the bottom of the second partition 15 is connected to the bottom of the water storage tank 1. A second water inlet channel 16 is left between the upper ends. The second partition 15 is designed to divide the two areas of the water storage tank and the collision separation frame, so that the sewage flowing through the screen 3 will not directly splash into the water storage tank 1.

Further, a plurality of auxiliary support plates 17 are arranged in parallel on the upper end opening of the water storage tank 1, and the auxiliary support plates 17 are connected to two opposite side plates of the water storage tank 1, and the upper end surface of the auxiliary support plate 17 and the second partition 15 The auxiliary support plate 17 is arranged to strengthen the structural strength of the water storage tank 1 and form a support for the second partition 15, which can strengthen the installation stability of the second partition 15 without affecting the water flow path. degree.

As one of the optimized designs, the bottom of the adsorption tank is equipped with cleaning holes, the bottom of the sieve plate is equipped with a cleaning nozzle connected to the water source, and the outlet of the cleaning nozzle is connected with multiple water distribution pipes, which are respectively connected to the corresponding cleaning holes After multiple sewage treatments, there are bound to be many accumulated impurities in the adsorption tank. By opening a hole at the bottom of the tank to connect the nozzle and water source, it can be backwashed by adding water or reacting substances to restore a certain impurity absorption capacity.

The above are only the preferred embodiments of the present invention, and the protection scope of the present invention is not limited to the above-mentioned embodiments. All technical solutions under the idea of the present invention belong to the protection scope of the present invention. It should be noted that for those of ordinary skill in the art, several improvements and modifications made without departing from the principle of the present invention should also be regarded as the protection scope of the present invention.

Claims (7)

A device for separating and absorbing sewage impurities, comprising a water storage tank with an open upper end and a detachable cover for covering the upper opening of the water storage tank, and is characterized in that: One side of the water storage tank is installed with a collision separation frame arranged obliquely upward, and the sewage flow channel on the collision separation frame is in communication with the upper end opening of the water storage tank; The collision separation frame includes a sieve plate, a first side plate and a second side plate. The first side plate and the second side plate are respectively fixed on both sides of the sieve plate. Three of the upper ends of the water storage tank A first vertical plate, a second vertical plate, and a third vertical plate extend on each of the side edges. The first side plate is connected to the first vertical plate to form an integral body, and the second side plate is connected to the second vertical plate. The sieve plate is connected into one body, a plurality of adsorption grooves are uniformly distributed on the upper surface of the sieve plate, and activated carbon particles are encapsulated and fixed in the adsorption groove by a mesh cover; The upper ends of the first vertical plate and the second vertical plate are respectively provided with a first sliding groove, and the upper ends of the first side plate and the second side plate are respectively provided with a first sliding groove corresponding to the first sliding groove. Two sliding grooves, the cover plate is slidably mounted on the first sliding groove and the second sliding groove. The equipment for separating and absorbing sewage impurities according to claim 1, characterized in that: the sieve plate is also rotatably installed with a plurality of activated alumina balls, and the activated alumina balls are uniformly densely distributed and connected with the The adsorption tanks are staggered. The equipment for separating and absorbing sewage impurities according to claim 1, characterized in that: a first partition is fixed in the middle of the cover plate, and the cover plate is divided into a first feeding area by the first partition plate And the second feeding zone, the first feeding zone and the second feeding zone are respectively densely provided with a plurality of feeding holes, when the cover plate is completely slid into the second chute through the first chute, so The bottom of the first feeding zone faces the upper end opening of the water storage tank, and the bottom of the second feeding zone faces the sewage flow channel at the upper end of the collision separation frame. The equipment for separating and absorbing sewage impurities according to claim 1, characterized in that: the end of the sieve plate away from the water storage tank is equipped with a water inlet groove, and the water inlet groove includes a horn groove plate and a square groove plate, The upper end opening of the square groove plate is connected with the opening of the smaller end of the horn groove plate, the lower end of the square groove plate is installed on the sieve plate, and the lower end of the square groove plate is connected to the sieve plate. There is a first water inlet channel between. The equipment for separating and absorbing sewage impurities according to claim 1, characterized in that: one of the side walls of the water storage tank is connected with a second partition that extends upward, and the second partition is connected to the The third vertical plates are arranged oppositely, and a second water inlet channel is left between the bottom of the second partition and the upper end of the water storage tank. The device for separating and absorbing sewage impurities according to claim 5, characterized in that: a plurality of auxiliary support plates are arranged in parallel on the upper opening of the water storage tank, and the auxiliary support plates are connected to opposite sides of the water storage tank. Two side plates, and the upper end surface of the auxiliary supporting plate is in contact with the bottom end of the second partition plate. The equipment for separating and absorbing sewage impurities according to claim 1, wherein the bottom of the adsorption tank is provided with cleaning holes, and the bottom of the sieve plate is equipped with a cleaning nozzle connected to a water source, and A plurality of water distribution pipes are connected to the water outlet of the cleaning nozzle, and the water distribution pipes are respectively communicated with the corresponding cleaning holes.

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