CN220176204U - Medicine organic wastewater recovery device - Google Patents

Abstract

The utility model provides a medical organic wastewater recovery device, and belongs to the technical field of wastewater recovery. The medical organic wastewater recovery device comprises a filtering component and a dehydration component. The filtering component comprises a box body and a V-shaped sieve plate, the sieve plate is arranged in the box body, the dewatering component comprises a rubbing and squeezing piece, the rubbing and squeezing piece is arranged on the sieve plate, and the rubbing and squeezing piece is movably connected with the box body. In this application: the dewatering component utilizes the rubbing and squeezing piece to roll the medical solids at the bottom end of the V-shaped sieve plate, squeezes and dewaters the medical solids, and simultaneously rubs and squeezes the medical solids backwards and upwards to roll the medical solids, and finally discharges the medical solids out of the box body, so that three procedures of wastewater input, dewatering and solid removal are realized, and the recovery efficiency is greatly improved.

Description

Medicine organic wastewater recovery device

Technical Field

The utility model relates to the technical field of wastewater recovery, in particular to a medical organic wastewater recovery device.

Background

Medical cotton, medical cotton balls, medical cotton swabs and the like are often mixed in medical organic wastewater generated in hospitals, and the method for discarding the medical cotton, the medical cotton balls, the medical cotton swabs and the like is different from the medical organic wastewater, so that the medical cotton, the medical cotton balls, the medical cotton swabs and the like in the medical organic wastewater need to be separated when the medical organic wastewater is recovered.

In this regard, chinese patent application No. CN202222156793.9 discloses a pharmaceutical organic wastewater recovery device, and this scheme is mainly with solid waste such as cotton ball bandage filtration in the cartridge filter, and the reuse lead screw drives the stripper plate and removes to one side, extrudes the dehydration with solid waste, then opens the closure plate and takes out the waste.

However, in the process of implementing the technical solution in the embodiment of the present utility model, the present inventors have found that at least the following technical problems exist in the above technology:

the extrusion dehydration can not continue pouring waste water, otherwise solid waste can fall on the other side of the extrusion plate, can not participate in extrusion, and after extrusion is finished, waste can be continuously poured into the waste water after being taken out manually, so that the waste water pouring, the extrusion dehydration and the solid waste removal can not be simultaneously carried out, and the waste water recovery efficiency is greatly reduced.

Disclosure of Invention

In order to overcome the defects, the utility model provides a medical organic wastewater recovery device, which aims to solve the problems in the background technology.

The embodiment of the utility model provides a medical organic wastewater recovery device, which comprises a filtering component and a dehydration component. The filtering component comprises a box body and a V-shaped sieve plate, the sieve plate is arranged in the box body, the dewatering component comprises a rubbing and squeezing piece, the rubbing and squeezing piece is arranged on the sieve plate, and the rubbing and squeezing piece is movably connected with the box body.

In a specific embodiment, the box body is provided with a feed inlet.

In the implementation process, medical organic wastewater is put into the box body from the feed inlet, and the feed inlet enables the wastewater to fall on one end of the sieve plate far away from the rubbing and extruding piece, so that most of the wastewater can be drained in advance when the sieve plate slides to one side of the rubbing and extruding piece, and damage caused by the flooding of the wastewater is avoided.

In a specific embodiment, the filter assembly further comprises a filter plate disposed below the screen plate, the filter plate disposed within the housing.

In a specific embodiment, the bottom wall of the box is obliquely arranged, and the bottom end of the box is provided with a valve.

In the realization process, after the wastewater falls from the sieve plate, the wastewater is dripped on the filter plate, high-efficiency filtration is performed, the filtered water is accumulated at the bottom end of the box body, and when the water is suitable, the valve is opened to lead out the wastewater.

In a specific embodiment, the rubbing and extruding piece comprises a roller frame and rotating rollers, wherein two ends of the roller frame are respectively and rotatably connected with one rotating roller, and the two rotating rollers are in transmission connection with a belt.

In a specific embodiment, the rubbing and extruding piece further comprises a press roller, the press roller is arranged on the roller frame in an array, and all the press rollers are in rolling connection with the inner wall of the belt.

In a specific embodiment, the dewatering assembly further comprises a motor, the motor is arranged on the outer wall of the box body, the output end of the motor is connected with the roller shaft at the tail end of the rubbing and extruding piece, and the roller at the tail end of the rubbing and extruding piece is rotationally connected with the box body.

In the implementation process, the motor drives the rotating roller at the rear end to rotate, and then drives the belt to drive, because the rotating roller at the tail end is rotationally connected with the box body, the whole rubbing and extruding piece can deflect up and down, torque generated by the motor during driving can promote the front end of the whole rubbing and extruding piece to press the surface of the screen plate, the bandage, cotton balls and other water-containing solids in waste water are extruded and dehydrated, the solid is rubbed backwards during extrusion, the solid is extruded and dehydrated, the solid is rolled towards the rear end until the water is squeezed, the water is discharged from the rear end of the screen plate, if larger solids are encountered, the whole rubbing and extruding piece can be lifted upwards, the distance between the solid and the screen plate cannot be changed until the solid rolls towards the rear end pressing roller, the maximum extrusion force can be generated, the solid is dehydrated further, and in the embodiment, the motor has a speed reducing function to increase the torque.

In a specific embodiment, the dewatering assembly further comprises a rotating wheel, wherein the rotating wheel is rotatably connected with the sieve plate, and the rotating wheel is in rolling connection with the front end of the rubbing and extruding piece.

In the implementation process, the whole rubbing and extruding piece is pressed on the sieve plate to generate larger running resistance, so that the rotating wheel is arranged at the front end to jack up the front end of the rubbing and extruding piece, so that only smaller gaps are reserved between the belt and the sieve plate, and the friction resistance is reduced as much as possible.

Compared with the prior art, the utility model has the beneficial effects that: the dewatering component utilizes the rubbing and squeezing piece to roll the medical solids at the bottom end of the V-shaped sieve plate, squeezes and dewaters the medical solids, and simultaneously rubs and squeezes the medical solids backwards and upwards to roll the medical solids, and finally discharges the medical solids out of the box body, so that three procedures of wastewater input, dewatering and solid removal are realized, and the recovery efficiency is greatly improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some examples of the present utility model and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic structural view of a medical organic wastewater recovery device according to an embodiment of the present utility model;

FIG. 2 is a schematic cross-sectional view of a medical organic wastewater recycling apparatus according to an embodiment of the present utility model;

fig. 3 is a schematic structural diagram of connection between a rubbing member and a rotating wheel according to an embodiment of the present utility model.

In the figure: a 100-filtration assembly; 110-a box body; 120-sieve plate; 130-a feed inlet; 140-filter plates; 150-valve; 200-a dehydration assembly; 210-rubbing the extruded piece; 211-a roller frame; 212-rotating rollers; 213-belt; 214-a press roll; 220-motor; 230-wheel.

Detailed Description

The technical solutions in the embodiments of the present utility model will be described below with reference to the accompanying drawings in the embodiments of the present utility model.

Referring to fig. 1-3, the present utility model provides a pharmaceutical organic wastewater recycling apparatus, which includes a filtering assembly 100 and a dewatering assembly 200. The filtering assembly 100 comprises a box body 110 and a V-shaped screen plate 120, the screen plate 120 is arranged in the box body 110, the dewatering assembly 200 comprises a rubbing and squeezing piece 210, the rubbing and squeezing piece 210 is arranged on the screen plate 120, and the rubbing and squeezing piece 210 is movably connected with the box body 110. The dewatering assembly 200 uses the rubbing and squeezing member 210 to roll in the medical solids at the bottom end of the V-shaped screen plate 120, squeeze and dewater the medical solids, rub and squeeze the medical solids backwards and upwards, and finally discharge the medical solids out of the box 110, thereby realizing three procedures of wastewater input, dewatering and solid removal, and greatly improving recovery efficiency.

Referring to fig. 1-2, a feed inlet 130 is formed in the case 110. Medical organic wastewater is put into the box body 110 from the feed inlet 130, and the feed inlet 130 enables the wastewater to fall on one end of the sieve plate 120 far away from the rubbing and extruding piece 210, so that most of the wastewater can be drained in advance when the wastewater slides on the sieve plate 120 to one side of the rubbing and extruding piece 210, and damage caused by the wastewater inundating the rubbing and extruding piece 210 is avoided.

Referring to fig. 1-2, the filter assembly 100 further includes a filter plate 140, the filter plate 140 is disposed below the screen plate 120, and the filter plate 140 is disposed in the housing 110. The bottom wall of the box 110 is obliquely arranged, and a valve 150 is arranged at the bottom end of the box 110. After the wastewater falls from the screen plate 120, it drops onto the filter plate 140 where it is efficiently filtered, and the filtered water accumulates at the bottom end of the tank 110, where appropriate, the valve 150 is opened to direct the wastewater out.

Referring to fig. 1-3, the rubbing member 210 includes a roller frame 211 and rollers 212, wherein two ends of the roller frame 211 are respectively rotatably connected with one roller 212, and belts 213 are drivingly connected to the two rollers 212. The rubbing and squeezing piece 210 further comprises a pressing roller 214, the pressing roller 214 is arranged on the roller frame 211, and all the pressing rollers 214 are in rolling connection with the inner wall of the belt 213. The dewatering assembly 200 further includes a motor 220, the motor 220 is disposed on the outer wall of the casing 110, an output end of the motor 220 is connected with a roller 212 at the tail end of the rubbing member 210, and the roller 212 at the tail end of the rubbing member 210 is rotatably connected with the casing 110. The motor 220 drives the rear rotary roller 212 to rotate, and then drives the belt 213 to drive, because the rear rotary roller 212 is rotationally connected with the box 110, the whole rubbing and extruding member 210 can deflect up and down, torque generated by the motor 220 during driving can cause the front end of the whole rubbing and extruding member 210 to press the surface of the sieve plate 120, the water-containing solid matters such as bandages and cotton balls in waste water are extruded and dehydrated, and are rubbed backwards during extrusion, so that the solid matters are extruded and dehydrated and rolled backwards until the water is squeezed and discharged from the rear end of the sieve plate 120, if larger solid matters are met, the whole rubbing and extruding member 210 can be lifted upwards, and rolls backwards along with the solid matters until the solid matters roll to the position of the rear end pressing roller 214, the distance between the solid matters and the sieve plate 120 cannot be changed, the maximum extrusion force is generated, the solid matters are dehydrated further, and in this embodiment, the motor 220 has a speed reducing function to increase the torque.

Referring to fig. 2-3, the dewatering assembly 200 further includes a rotating wheel 230, wherein the rotating wheel 230 is rotatably connected to the screen plate 120, and the rotating wheel 230 is rotatably connected to the front end of the rubbing member 210. Since the whole rubbing and extruding member 210 is pressed against the screen plate 120 to generate larger running resistance, the rotating wheel 230 is arranged at the front end to jack up the front end of the rubbing and extruding member 210, so that only smaller gaps are reserved between the belt 213 and the screen plate 120, and the friction resistance is reduced as much as possible.

The working principle of the medical organic wastewater recovery device is as follows: the medical organic wastewater is put into the box 110 from the feeding hole 130, the feeding hole 130 enables the wastewater to fall on one end of the sieve plate 120 far away from the rubbing and squeezing piece 210, so that most of medical solid such as cotton balls and bandages can be drained in advance when the wastewater slides down to one side of the rubbing and squeezing piece 210 on the sieve plate 120, the medical solid slides down along the sieve plate 120 or rolls down to the lowest center, the rotary roller 212 at the front end of the rubbing and squeezing piece 210 rotates at the position, the solid is rolled under the belt 213, the solid is squeezed and rolled between the belt 213 and the sieve plate 120, the solid is squeezed and dehydrated while rolling to the rear end until the water is squeezed and drained from the rear end of the sieve plate 120, and the fact that the adjacent part of the sieve plate 120 and the belt 213 is inclined upwards is needed is avoided, the wastewater can be prevented from falling down to the filter plate 140 under the condition that the medical solid wastes after the squeezing is soaked again, the filtered water is accumulated at the bottom end of the box 110, the valve 150 is opened to lead out the solid to be rolled up under the condition that the condition, the solid is squeezed and squeezed up by the bottom end of the filter plate 200V-shaped, and the solid is drained out of the box 110 when the medical solid is properly, and the solid is drained from the filter plate is removed, and the solid is greatly dehydrated and dewatered and discharged from the box is discharged.

The above embodiments of the present utility model are only examples, and are not intended to limit the scope of the present utility model, and various modifications and variations will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model. It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

Claims (8)

1. A pharmaceutical organic wastewater recovery device is characterized by comprising

The filter assembly (100), the filter assembly (100) comprises a box body (110) and a V-shaped sieve plate (120), and the sieve plate (120) is arranged in the box body (110);

the dewatering assembly (200), the dewatering assembly (200) comprises a rubbing and extruding piece (210), the rubbing and extruding piece (210) is arranged on the sieve plate (120), and the rubbing and extruding piece (210) is movably connected with the box body (110).

2. A pharmaceutical organic wastewater recovery device according to claim 1, wherein the tank (110) is provided with a feed inlet (130).

3. A medical organic wastewater recovery device according to claim 2 and wherein said filter assembly (100) further comprises a filter plate (140), said filter plate (140) being arranged below said screen plate (120), said filter plate (140) being arranged in said housing (110).

4. A pharmaceutical organic wastewater recovery device according to claim 3, wherein the bottom wall of the tank (110) is inclined, and a valve (150) is provided at the bottom end of the tank (110).

5. The device for recycling medical organic wastewater according to claim 4, wherein the rubbing member (210) comprises a roller frame (211) and rotating rollers (212), two ends of the roller frame (211) are respectively and rotatably connected with one rotating roller (212), and belts (213) are connected to the two rotating rollers (212) in a transmission manner.

6. A medical organic wastewater recovery device according to claim 5, wherein the rubbing member (210) further comprises a press roller (214), the press roller (214) is arranged on the roller frame (211), and all the press rollers (214) are in rolling connection with the inner wall of the belt (213).

7. The device for recovering medical organic wastewater according to claim 6, wherein the dewatering assembly (200) further comprises a motor (220), the motor (220) is disposed on the outer wall of the box body (110), an output end of the motor (220) is connected with the rotating roller (212) at the tail end of the rubbing and squeezing piece (210) through a shaft, and the rotating roller (212) at the tail end of the rubbing and squeezing piece (210) is rotatably connected with the box body (110).

8. A medical organic wastewater recovery device according to claim 7 and wherein said dewatering assembly (200) further comprises a rotor (230), said rotor (230) being rotatably connected to said screen plate (120), said rotor (230) being in rolling connection with the front end of said wringer (210).