LU102546B1 - Environmentally friendly decontamination machine with mechanical grid - Google Patents

Abstract

An environmentally friendly decontamination machine with a mechanical grid surrounding a water contact end and a driving end, the water contact end and the driving end being arranged in parallel with the water contact end being arranged at a low point. and the driving end is located at a high point with a grid transfer belt disposed between the water contact end and the driving end, the grid transfer belt wrapping the water contact end and the driving end, an outer surface of the grid transfer belt being provided with grid elements, and wherein a plurality of groups of grid elements are provided The lattice elements are evenly distributed, the hole diameters between the lattice elements are different, a lattice element is attached to the lattice transfer belt in the present utility model, and several groups of the lattice elements are evenly arranged and the hole diameters of the lattice element are set to different sizes wherein the grid element recovers the garbage from the sewage using the grid element in use, and wherein the grid elements with different hole diameters hold the garbage of different sizes can recover.

Description

! LU102546 Description Environmentally friendly decontamination machine with mechanical grid

TECHNICAL FIELD The present utility model relates to the technical field of wastewater treatment and in particular to an environmentally friendly decontamination machine with a mechanical grid.

BACKGROUND ART With the acceleration of human activities and the improvement in the level of production, the contradiction between humans and the environment has been worsened. Untreated industrial wastewater. Domestic sewage, farmland drainage and other harmful substances enter the river directly or indirectly and exceed the river's self-cleaning capacity. This leads to a deterioration in water quality and changes in the biological community, making the river incapable. to clean itself quickly, and the river becomes heavily polluted. When treating river water pollution, the first thing to do is to recover the garbage floating in the river water. and the grid decontamination machine is generally used for salvage. The lattice element for salvage in a conventional decomamination machine has a uniform size, so that the salvage holes on the lattice element have the same size. but the size of the garbage in the river is different. If the uniform size of the hole diameters is used, the problem of bleeding during recovery can arise. Furthermore, the recovered garbage is poured directly into the collection box. However, the garbage contains water. which does not exclude any impairment of the wider area. For this reason, an environmentally friendly decontamination machine with a mechanical grid is proposed,

CONTENTS OF THE PRESENT USED MODEL

It is an object of the present utility model. to provide an environmentally friendly mechanical grid decontamination machine to solve the above problems in the prior art.

In order to solve the above technical problem, the present utility model provides the following technical solutions: An environmentally friendly mechanical grid decontamination machine includes a water contact end and a driving end, the water contact end and the driving end being arranged in parallel with the water contact end being arranged at a low point and the driving end is located at a high place. wherein a grating transmission rod is arranged between the water contact end and the driving end. wherein the lattice transfer belt wraps the water contact end and the driving end, the lattice transfer belt forming an inclined state at the water contact end and the driving end, an outer surface of the lattice transfer belt being provided with lattice members. and wherein several groups of grid elements are provided, the grid elements being evenly distributed, the hole diameters of the grid elements being different from one another. a garbage collection box is provided under the driving end.

In addition, the water contact end essentially consists of a drive roller. a drive shaft and a pulley, and the drive roller, the drive shaft and the pulley constitute the water contact end.

In addition, two groups of coating rollers are provided, and the two groups of drive rollers are connected to one another via a drive shaft, a belt wheel being mounted on a drive shaft, a coupling belt being arranged on the belt wheel, and the lattice transmission belt being connected by means of two groups supported by drive rollers.

Come in addition. that the diameter of the drive roller is larger than the diameter of the drive shaft, and wherein the diameter of the drive roller is set larger than the diameter of the drive shaft in order to facilitate the rotation of the pulley and the coupling belt on the drive shaft, in addition that the driving end is essentially from a drive roller. a drive shaft, a belt pulley. a coupling and a drive shaft, and the

; LU102546

Drive roller. the drive shaft, the belt pulley, the coupling and the drive shaft form the driving end.

In addition, the drive roller is connected to both ends of the drive shaft, and the belt pulley is mounted in a central position of the drive shaft, a coupling belt also being arranged on the belt pulley. and wherein the outer wall of a group of drive rollers is connected to the coupling, and wherein the drive shaft is attached to the coupling, the drive shaft being connected to the drive element, the drive element being used. to drive the drive shaft to rotate. the drive shaft drives the drive roller to rotate and the drive roller drives the drive roller to rotate.

In addition, the coupling belts at the water contact end and at the driving end belong to the same group, the pulleys at the water contact end and at the driving end are coupled by the coupling belts.

In addition, the grid element consists of a grid and a lower edge of the grid. wherein the lower edge of the grid adjoins an edge of the grid, the width of the grid being smaller than the width of the grid transmission belt, a mounting hole being provided on the lower edge of the grid, so that the grid element can be fixedly mounted with the mounting hole.

Come in addition. that connecting webs are provided on the surface of the lattice transmission belt, and wherein the connecting webs are evenly distributed in several groups, a lattice fastening piece being attached to the connecting web, the position of the lattice fastening piece being adapted to the position of the mounting hole on the lower edge of the lattice, the lattice fastening piece and the lower edge of the grille are fastened to one another by a screw. so that the grid transmission belt is detachably connected to the grid element.

In addition, an inner container is provided in the garbage collection box, an access container is provided in the dust collection container, and a lower end of the inner container is in contact with the access container. a flow collection piece being given away at the bottom of the garbage collection box. and wherein the flow collection piece has a conical shape, the garbage collection box

A LU102546 is given away with water drainage holes on the side. to leach the water out of the garbage. and to facilitate subsequent treatment. Beneficial effects:

1. In the present utility model, the grid transfer belt wraps the water contact end and the driving end at different heights and the grid element is mounted on the grid element, and several groups of the grid elements are evenly arranged and the hole diameters of the grid element are set to different sizes, the grid element in the Recover the garbage from the sewage using the grid element. and wherein the grid elements with different hole diameters can recover the garbage of different sizes. and this solves the problem that the hole diameters of conventional grid elements are consistent, which results from incomplete recovery of part of the garbage.

2. In the present utility model, the lattice element is connected to the lattice transmission belt by the lattice fastening piece and the lower edge of the lattice and the screw. In use, the mounting holes on the tie bar of the grille element are aligned with the grille fastener and then secured with screws. so that the damaged grid can be replaced later.

3. In the present utility model, the inner container and the flow collecting piece are detachably housed in the garbage collection box, and the water balance hole is arranged on the side wall of the garbage collection box, and the water in the garbage collected in the inner container flows under the action of the flow collecting stick out through the water drainage hole in order to leach the water out of the garbage and to facilitate subsequent treatment.

BRIEF DESCRIPTION OF THE DRAWINGS Figure! Figure 2 is a schematic representation of the structure of the water contact end: Figure 3 is a schematic representation of the structure of the driving end:

| LU102546 Figure 4 is a schematic diagram of the structure of the Miill header box; In the drawings: 1 water contact end: 2 grid transmission lines; 3 coupling straps; 4 grid element: 5 garbage collection box; 6 drivers; 7 drive roller; Bdrive shaft: 9 connecting web: 10 grille fastening pieces: 11 belt pulley: 12 grille lower edge; 13 inner container; 14 Access Reservoir: 15 Flow Collector: 16 Water Drainage Hole: 17 Coupling: 18 Drive Shaft; 19 grid.

DETAILED DESCRIPTION With reference to Figures 1 to 4, the present utility model provides a technical solution: the water contact end | and the driving end 6 are included, wherein the water contact end 1 and the driving end 6 are arranged in parallel, the water contact end 1 is arranged in a low place, and the driving end 6 is arranged in a high place, with between the water contact end 1 and the driving end 6, a grid transfer belt 2 is arranged, the grid transfer belt 2 being the water contact end | and the driving end 6 envelops. wherein the grid transfer belt 2 forms an inclined state at the water contact end 1 and the driving end 6, with an outer surface of the grid transfer belt 2 being provided with grid members 4. and wherein several groups of lattice elements 4 are given away. wherein the grid elements 4 are evenly distributed. the hole diameters of the grid elements 4 being different from one another. a garbage collection box 5 is provided under the driving end 6. Preference is given. that the water contact end 1 essentially consists of a drive roller 7, a drive shaft 8 and a belt pulley 11. It is preferably provided that two groups of drive rollers 7 are provided. and wherein the two groups of coating rollers 7 are connected to one another via a drive shaft 8, a belt pulley 11 being mounted on a coating shaft 8. a coupling belt 3 being arranged on the pulley 11. It is preferably provided that the diameter of the drive roller 7 is greater than the diameter of the drive shaft 8.

It is preferably provided that the driving end 6 consists essentially of a drive roller 7, a drive shaft 8, a belt pulley 11, a coupling 17 and a drive shaft 18.

It is preferably provided that the drive roller 7 is connected to both ends of the drive shaft 8. and wherein the pulley 11 is mounted in a middle position of the drive shaft 8, a coupling belt 3 is also arranged on the pulley 11, and wherein the outer wall of a group of drive rollers 7 is connected to the coupling 17, and on the coupling 17 the drive shaft 18 is attached, wherein the drive shaft 18 is connected to a drive element.

It is preferably provided that the coupling belts 3 at the water contact end 1 and at the driving end 6 belong to the same group.

It is preferably provided that the grid element 4 consists of a grid 19 and a grid lower edge 12, the grid lower edge 12 adjoining an edge of the grid 19, the width of the grid 19 being smaller than the width of the grid transmission belt 2. wherein a mounting hole is provided on the lower edge of the grille 12.

It is preferably provided. that connecting webs 9 are provided on the surface of the grid transfer belt 2. and wherein the connecting webs 9 are evenly distributed in several groups, a lattice fastening piece 10 being attached to the connecting web 9. the position of the lattice attachment piece 10 being adapted to the position of the mounting hole on the lattice lower edge 12, the lattice attachment piece 10 and the lattice lower edge 12 being fastened to one another by a screw.

It is preferably provided that an inner container 13 is provided in the garbage collection box 5, with an access container 14 being provided in the dust collection container 5. and a lower end of the inner container 13 is in contact with the access container 14. wherein a flow collector 15 is provided at the bottom of the garbage collection box, and wherein the flow collector 15 has a conical shape. wherein a water drainage hole 16 is provided on a surface of the garbage collection box 5.

The functional principle of the present utility model is as follows: The drive shaft 18 Jeet at the drive end 6 is connected to a drive element (for example an electric motor). The drive roller 7 in the drive end 6 rotates with the drive shaft 18, so that the drive shaft 8 is taken along to rotate the water contact end 1 and the drive shaft 8 of the drive end 6 are coupled by the coupling belt 3, and the water contact end 1 and the drive roller 7 of the drive end 6 are coupled by the grid transmission belt 2. there are two groups of coupling forms. and the operation is more robust. the driving citter transfer belt 2 can take the grid 19 on the grid element 4 with it for removing rubbish in the water. wherein when the grid 19 is moved to the driving end 6. the garbage can fall into the garbage collection box 5, wherein. when the garbage gets into the garbage collection box 5, the garbage will fall into the perforated inner container 13. since the inner container 13 is arranged in the garbage collecting box 5. The water in the garbage can flow into the space between the interior of the garbage collecting box 5 and the inner container 13. By providing the conical flow collecting piece 15 inside this space, the water can flow to the side be directed so that the water flows through the water drainage hole 16 on the side wall of the garbage collection box 5 to leach the water from the garbage, and to facilitate subsequent treatment. Since the grid elements 4 are arranged in several groups and the grid 19 on the grid element 4 is provided with hole diameters. which have different sizes, and the grid elements 4 with different hole diameters can recover the garbage of different sizes. the problem is solved that the hole diameters of conventional C lattice elements 4 are consistent. which results from an incomplete recovery of a part of the garbage, a detachable connection between the grid element 4 and the grid transmission means 2 being provided.

During assembly, the connecting web 9 of the lattice element 4 and the lattice fastening piece 10 of the lattice transmission belt 2 are fastened to one another by means of screws. whereby the connection is achieved.

The screws can be removed simply and easily during dismantling, and the damaged grid 19 can be replaced later.

Claims (10)

Claims 1.Environmentally friendly decontamination machine with mechanical grid, comprising a water contact end (1) and a driving end (6). characterized in that the water contact end (1) and the driving end (6) are arranged in parallel, the water contact end (1) being arranged at a low place and the driving end (6) being arranged at a high place. wherein a grid transmission belt (2) is arranged between the water contact end (1) and the driving end (6), wherein the grid transmission belt (2) envelops the water contact end (1) and the driving end (6), whereby the grid transmission belt (2) at the water contact end ( 1) and the driving end (6) forms an inclined state, wherein an outer surface of the grid transfer belt (2) is provided with grid elements (4), and wherein plural groups of grid elements (4) are provided, the grid elements (4) being evenly distributed are, the hole diameters of the grid elements (4) are different from each other. wherein a garbage collection box (5) is in front of the driving end (6). 2. Environmentally friendly decontamination machine with mechanical grid according to claim 1, characterized. that the water contact end (1) essentially consists of a drive roller (7), a drive shaft (8) and a belt pulley (11). 3, environmentally friendly Dekontaminationsmasehine with mechanical grid according to claim 2, characterized. that two groups of drive rollers (7) are provided. and wherein the two groups of drive rollers (7) are connected to one another via a drive shaft (8). a belt pulley (11) being mounted on a drive shaft (8), a coupling belt (3) being arranged on the belt pulley (11). 4 Environmentally friendly decontamination machine with mechanical grid according to claim 2, characterized in that the diameter of the drive roller (7) is greater than the diameter of the drive shaft (8). 5. Environmentally friendly decontamination machine with mechanical grid according to claim 1, characterized in that the driving end (6) consists essentially of a drive roller (7). a drive shaft (8), a belt pulley (11). a coupling (17) and a drive shaft (18). “4 LU102546 6. Environmentally friendly decontamination machine with mechanical grid according to claim 5, characterized. that the drive roller (7) is connected to both ends of the drive shaft (8), and wherein the belt pulley (11) is mounted in a central position of the drive shaft (8), a coupling belt (3) also being arranged on the belt pulley (11) , and wherein the outer wall of a group of drive rollers (7) is connected to the coupling (17), and wherein the coupling (17) has the drive shaft (18) attached, the drive shaft (18) being connected to a drive element. 7. Environmentally friendly decontamination machine with mechanical grid according to claim 6, characterized in that the coupling belts (3) at the water contact end (1) and at the driving end (6) belong to the same group. 8. Environmentally friendly decontamination machine with mechanical grid according to claim 1, characterized in that the grid element (4) consists of a grid (19) and a grid lower edge (12), over which the grid lower edge (12) is attached to an edge of the grid (19 ), the width of the grid (19) being smaller than the width of the grid transmission belt (2), a mounting hole being provided on the lower edge of the grid (12). 9. Environmentally friendly decontamination machine with mechanical citter according to claim 8, dadureh gekennzcichnet. that connecting webs (9) are provided on the surface of the grid transfer belt (2). and wherein the connecting webs (9) are evenly distributed in several groups, a lattice fastening piece (10) being attached to the connecting web (9), the position of the lattice fastening piece (10) being adapted to the position of the mounting hole on the lower edge of the lattice (12) . wherein the lattice fastening piece (10) and the lower edge of the lattice (12) are fastened to one another by means of a screw. 10. Environmentally friendly decontamination machine with a mechanical grid according to claim 1, characterized in that an inner container (13) is provided in the garbage collection box (5). wherein an access bin (14) is provided in the mill collection box (5). and wherein a lower end of the inner container (13) is in contact with the access container (14). wherein a flow collecting piece (15) is provided on the bottom of the garbage collection box (5), and wherein the flow collecting piece (15) has a conical shape with a water drainage hole (16) provided on a side surface of the garbage collection box (5).