CN112302147B - Double-layer garbage intercepting ball - Google Patents

Abstract

The invention relates to the technical field of municipal engineering, in particular to a double-layer garbage intercepting ball which comprises an outer-layer intercepting ball and an inner-layer intercepting net arranged inside the outer-layer intercepting ball, wherein the inner-layer intercepting net comprises a plurality of intercepting rods and intercepting nails arranged on the intercepting rods, the intercepting nails penetrate through the outer-layer intercepting ball and extend out of the outer-layer intercepting ball, and a plurality of water through holes are formed in the outer-layer intercepting ball. The intercepting nails penetrating through the outer-layer intercepting ball have the intercepting effect of improving the garbage intercepting ball, linear garbage can be effectively intercepted, and meanwhile, the intercepting nails protruding outwards can reduce the blockage of the plastic garbage to a water through hole when garbage bags, plastic packaging bags and the like are intercepted, so that the garbage intercepting device keeps good hydrophobicity while intercepting the garbage.

Description

Double-layer garbage intercepting ball

Technical Field

The invention belongs to the technical field of municipal engineering, and particularly relates to a double-layer garbage intercepting ball.

Background

A large amount of dirt in water flow in a sewer flows along with the water flow and finally flows into a sewer pump station or a river, the operation of the pump station can be frequently influenced by the garbage, the garbage can pollute the river water after being directly discharged into the river channel even if the operation of the pump station is not influenced, in order to prevent the garbage, a plurality of places generally adopt a plane grating to intercept the dirt, but for an already-built inspection well, the plane grating cannot be additionally arranged, and the economic and social costs are too high unless the inspection well is knocked off for reconstruction. The surface of the existing plane grating is easily blocked by garbage in a large proportion or all in the process of intercepting the sewage of a sewer, so that water flow blockage is caused.

To the above-mentioned problem, through the retrieval, chinese utility model patent: a sewer sundries intercepting apparatus (application No. 201821456979.3, application No. 2018.9.6), which discloses a sewer sundries intercepting apparatus comprising a fixing member, a lead wire and a filtering device, wherein: the fixing piece is fastened on the inner wall of the sewer; one end of the lead is connected with the fixing piece, the other end of the lead is connected with the filtering device, and the filtering device comprises a filtering ball or a filtering polyhedron. The application has reasonable structure, smart design and convenient installation; the surface area of the filtering device is large, so that the blocking of water flow is reduced while sundries are intercepted.

However, the disadvantages of this application are: the surface of the filtering device of the application adopts a smooth design, and when garbage such as plastic belts and packaging bags is encountered, the hydrophobic holes on the surface of the filtering device are easily covered and blocked by the garbage, so that the blocking of water flow is seriously increased, and the passing rate of the water flow is influenced.

Disclosure of Invention

1. Technical problem to be solved by the invention

The invention aims to solve the problem that the existing sewer garbage intercepting device is easily covered by garbage such as plastic belts, packaging bags and the like, so that the water flow passing speed is influenced.

2. Technical scheme

In order to achieve the purpose, the technical scheme provided by the invention is as follows: a double-layer garbage intercepting ball comprises an outer-layer intercepting ball and an inner-layer intercepting net arranged inside the outer-layer intercepting ball, wherein the inner-layer intercepting net comprises a plurality of intercepting rods and intercepting nails arranged on the intercepting rods, the intercepting nails penetrate through the outer-layer intercepting ball and extend out of the outer-layer intercepting ball, two ends of the intercepting rods are respectively arranged on two mounting plates, the two mounting plates are symmetrically arranged inside the outer-layer intercepting ball, and the edges of the mounting plates are tangent to the inside of the outer-layer intercepting ball; the outer intercepting ball is provided with a plurality of water through holes, and the outer intercepting ball is provided with a matching hole for penetrating through the intercepting nails.

Preferably, the mounting plates comprise a traction pipe and a plurality of sliding grooves, the traction pipe is arranged in the center of the mounting plates, the sliding grooves extend from the edge of the traction pipe to the edge close to the mounting plates, and the sliding grooves on one of the two mounting plates correspond to the sliding grooves on the other mounting plate one by one; the two ends of the intercepting rod are respectively provided with a sliding block, the two ends of the intercepting rod are respectively arranged in corresponding sliding grooves on the two mounting plates in a sliding mode through the sliding blocks, and the sliding blocks can be fixed at one ends, close to the edges of the mounting plates, of the sliding grooves.

Preferably, a limiting block is arranged in the sliding groove, the limiting block is arranged at one section of the sliding groove close to the traction tube, and a rebounding device is arranged in the sliding groove and used for moving the sliding block to one end, close to the edge of the installation plate, of the sliding groove.

Preferably, a traction rope is arranged on the sliding block, one end of the traction rope is fixedly arranged on the sliding block, the other end of the traction rope penetrates through the limiting block and the traction pipe and extends to the outside of the outer-layer intercepting ball, and a traction handle is arranged at one end, far away from the sliding block, of the traction rope; the outer intercepting ball is provided with a hanging handle at a position close to the traction pipe, a handle buckle is arranged on the hanging handle, and the handle buckle is used for fixing the traction handle.

Preferably, the water through holes are arranged in a honeycomb shape.

Preferably, the intercepting rod is arranged in an arc line and can be attached to the inner wall of the intercepting ball at the outer layer; the length direction of the intercepting nails on the intercepting rod is parallel to the sliding direction of the sliding block on the intercepting rod.

3. Advantageous effects

Compared with the prior art, the technical scheme provided by the invention has the following beneficial effects:

the double-layer garbage intercepting ball comprises an outer-layer intercepting ball and an inner-layer intercepting net arranged inside the outer-layer intercepting ball, wherein the inner-layer intercepting net comprises a plurality of intercepting rods and intercepting nails arranged on the intercepting rods, the intercepting nails penetrate through the outer-layer intercepting ball and extend out of the outer-layer intercepting ball, two ends of the intercepting rods are respectively arranged on two mounting plates, and the two mounting plates are symmetrically arranged inside the outer-layer intercepting ball. The outer interception ball is provided with a plurality of limber holes. The intercepting nails penetrating through the outer-layer intercepting ball have the intercepting effect of improving the garbage intercepting ball, linear garbage can be effectively intercepted, and meanwhile, the intercepting nails protruding outwards can reduce the blockage of the plastic garbage to the water through hole when garbage bags, plastic packaging bags and the like are intercepted, so that the garbage intercepting device can keep good hydrophobicity while intercepting the garbage.

Drawings

FIG. 1 is a structural sectional view showing a state in which the present invention is used;

FIG. 2 is a schematic structural view of a use state of the present invention;

FIG. 3 is a sectional view of the storage state of the present invention;

FIG. 4 is a schematic structural view of a storage state of the present invention;

fig. 5 is an enlarged view of the structure of the mounting plate of the present invention.

The reference numerals in the schematic drawings illustrate:

100. an outer intercepting ball; 110. a water through hole; 120. a mating hole; 130. a hanging handle; 131. a handle buckle; 200. an inner layer interception net; 210. a catch bar; 211. a slider; 220. intercepting a nail; 230. mounting a plate; 231. a sliding groove; 232. a rebounding device; 233. a limiting block; 234. a traction tube; 240. a hauling rope; 250. a traction handle.

Detailed Description

In order to facilitate an understanding of the invention, the invention will now be described more fully hereinafter with reference to the accompanying drawings, in which several embodiments of the invention are shown, but which may be embodied in many different forms and are not limited to the embodiments described herein, but rather are provided for the purpose of providing a more thorough disclosure of the invention.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present; when an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present; the terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs; the terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention; as used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Example 1

Referring to fig. 1 to 5, the present embodiment provides a technical solution: the utility model provides a double-deck rubbish intercepting ball includes outer intercepting ball 100 and sets up in the inside inlayer interception net 200 of outer intercepting ball 100, inlayer interception net 200 includes a plurality of interception pole 210 and sets up the interception nail 220 on interception pole 210, interception nail 220 link up outer intercepting ball 100 and stretch out to the outside of outer intercepting ball 100, interception nail 220 is cylindric setting, just interception nail 220 surface sets up to smooth surface. The two ends of the intercepting rods 210 are respectively arranged on two mounting plates 230, the two mounting plates 230 are symmetrically arranged inside the outer intercepting ball 100, the mounting plates 230 and the inner part of the outer intercepting ball 100 are integrally formed, and the edges of the mounting plates 230 are tangent to the inner part of the outer intercepting ball 100; the outer-layer intercepting ball 100 is provided with a plurality of water through holes 110, the outer-layer intercepting ball 100 is provided with a matching hole 120 for penetrating through the intercepting nail 220, and the aperture of the matching hole 120 is slightly larger than the diameter of the intercepting nail 220, so that the intercepting nail 220 can freely slide in the matching hole 120.

In a preferred embodiment, the mounting plate 230 includes a pulling tube 234 disposed at the center of the mounting plate 230 and a plurality of sliding grooves 231, the sliding grooves 231 extend from the edge of the pulling tube 234 to the edge near the mounting plate 230, the sliding grooves 231 of one mounting plate 230 of the two mounting plates 230 correspond to the sliding grooves 231 of the other mounting plate 230 one by one; sliding blocks 211 are arranged at two ends of a plurality of the intercepting rods 210, and two ends of the intercepting rods 210 are respectively arranged in the corresponding sliding grooves 231 of the two mounting plates 230 in a sliding manner through the sliding blocks 211, so that the intercepting rods 210 can move in the sliding grooves 231 through the sliding blocks 211. So that the distance that the intercepting nail 220 of the intercepting bar 210 protrudes out of the outer layer intercepting ball 100 varies with the position of the intercepting bar 210 within the sliding groove 231, and the distance that the intercepting nail 220 protrudes out of the outer layer intercepting ball 100 reaches the maximum when the sliding block 211 is moved to an end of the sliding groove 231 near the edge of the mounting plate 230. The surface that the sliding block 211 and the sliding groove 231 bottom surface contacted is provided with the curved surface arch, and the sliding groove 231 is close to the bottom surface of mounting panel 230 edge one end and is provided with the protruding matched with concave surface with the sliding block 211 curved surface, make the sliding block 211 slide to the sliding groove 231 in be close to the mounting panel 230 edge one end time, the curved surface arch of sliding block 211 and the concave surface in the sliding groove 231 are mutually supported, ensure that the sliding block 211 is relatively fixed in the concave surface of sliding groove 231, be favorable to ensuring rubbish interception ball when using, the distance that interception nail 220 stretches out outer layer interception ball 100 on interception pole 210 keeps at the maximum distance, make rubbish interception effect of rubbish interception ball reach the best, simultaneously when sliding block 211 receives certain pulling force, the curved surface arch of sliding block 211 can slide out from the concave surface of sliding groove 231.

In a preferable scheme, be provided with stopper 233 in sliding tray 231, stopper 233 sets up in the one section that sliding tray 231 is close to traction tube 234, be provided with resilient means 232 in sliding tray 231, resilient means 232 adopts elastic spring, just resilient means 232's one end is fixed to be set up in stopper 233 towards the surface of sliding block 211, and the other end is fixed to be set up in the surface of sliding block 211 towards stopper 233, and when sliding block 211 gliding in sliding tray 231, resilient means 232 all is in the state of compressed for sliding block 211 continuously receives towards keeping away from stopper 233 ascending elasticity in the gliding in-process of sliding tray 231. Therefore, during the use of the trash interception ball, the sliding block 211 is moved to the end of the sliding groove 231 close to the edge of the mounting plate 230 by the elastic force of the resilient means 232, and at this time, the sliding block 211 is fixed by the elastic force of the resilient means 232 and the concave surface of the sliding groove 231, so that the sliding block 211 is more stably fixed to the end of the sliding groove 231 close to the edge of the mounting plate 230, thereby realizing that the interception nail 220 is maintained at the maximum distance extending out of the outer layer interception ball 100.

In a preferred embodiment, a pulling rope 240 is disposed on the sliding block 211, and the pulling rope 240 is a rigid rope. One end of the pulling rope 240 is fixedly arranged on the surface of the sliding block 211 facing the limiting block 233, the other end of the pulling rope runs through the limiting block 233 and the pulling pipe 234 to extend to the outside of the outer-layer intercepting ball 100, and a through hole for accommodating the pulling rope 240 is arranged on the limiting block 233. One end of the traction rope 240, which is far away from the sliding block 211, is provided with a traction handle 250, the traction handle 250 is in a rod-shaped arrangement, the length of the traction handle 250 is greater than the diameter of the traction tube 234, and the traction rope 240 is fixedly arranged in the middle of the traction handle 250. The outer interception ball 100 is provided with a hanging handle 130 at a position close to the traction tube 234, the hanging handle 130 is arranged in a concave structure, and two ends of the hanging handle 130 are fixedly arranged on the surface of the outer interception ball 100. The hanging handle 130 is provided with two handle buckles 131 at a position higher than the pipe orifice of the traction pipe 234, the handle buckles 131 are hook-shaped, the two handle buckles 131 are arranged on the hanging handle 130 in parallel, the distance between the two handle buckles 131 is smaller than the length of the traction handle 250, when the traction handle 250 is pulled to the two handle buckles 131, the two handle buckles 131 fix the traction handle 250, and the traction handle 250 is prevented from being pulled back to the pipe orifice of the traction pipe 234. The distance from the mouth of the traction tube 234 to the connecting line of the two handle clasps 131 is equal to the maximum distance that the interception nail 220 extends out of the outer interception ball 100. Therefore, when the pulling handle 250 is pulled toward the handle buttons 131, the pulling handle 250 pulls the sliding block 211 to slide along the sliding groove 231 by the pulling string 240, and the intercepting nail 220 moves toward the inside of the outer intercepting ball 100 by the driving of the intercepting bar 210, and the intercepting nail 220 is sunk into the outer surface of the outer intercepting ball 100 when the pulling handle 250 is pulled to both handle buttons 131.

In a preferred embodiment, the plurality of water through holes 110 are arranged in a honeycomb shape, so that the outer interception ball 100 has a good strength, and when the outer interception ball 100 is impacted by water flow and intercepts garbage, the outer interception ball 100 is not easily deformed under the pressure of the water flow and the garbage.

In a preferred embodiment, the intercepting bar 210 is arranged in an arc, and the intercepting bar 210 can be attached to the inner wall of the outer intercepting ball 100; the length direction of the intercepting nail 220 on the intercepting bar 210 is parallel to the sliding direction of the sliding block 211 on the intercepting bar 210, and the maximum length of the intercepting nail 220 which can extend out of the outer layer intercepting ball 100 is equal to the maximum distance of the sliding block 211 sliding on the sliding groove 231.

When the double-layered garbage intercepting ball is used, the intercepting nail 220 is firstly kept at the maximum distance extending out of the outer-layer intercepting ball 100, then the garbage intercepting ball is integrally placed at the mouth of the sewer pipe, and one end of the suspension cable is fixed to the suspension handle 130, and the other end of the suspension cable is fixed to the inner wall of the sewer. When the sewer pipeline needs to be cleaned, the garbage intercepting ball is lifted out of the sewer, in the process that the garbage intercepting ball is lifted out of the sewer, partial garbage of the sewer can be pulled out of the sewer by stretching the intercepting nails 220 of the outer-layer intercepting ball 100, then the traction handles 250 at two ends of the garbage intercepting ball are pulled, the traction handles 250 are pulled to the two handle buckles 131, the intercepting nails 220 are made to sink into the outer surface of the outer-layer intercepting ball 100, at the moment, the garbage intercepted on the intercepting nails 220 is scraped by the matching holes 120 due to the fact that the intercepting nails 220 are smooth in surface, cleaning personnel can clean the double-layer garbage intercepting ball conveniently, and meanwhile, in the processes of moving, storing, installing and the like, the traction handles 250 are buckled on the handle buckles 131, the intercepting nails 220 sink into the outer surface of the outer-layer intercepting ball 100, and potential safety hazards are not prone to being caused.

The above-mentioned embodiments only express a certain implementation mode of the present invention, and the description thereof is specific and detailed, but not construed as limiting the scope of the present invention; it should be noted that, for those skilled in the art, without departing from the concept of the present invention, several variations and modifications can be made, which are within the protection scope of the present invention; therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (3)

1. The utility model provides a ball is blocked to double-deck rubbish which characterized in that: the intercepting device comprises an outer intercepting ball (100) and an inner intercepting net (200) arranged inside the outer intercepting ball (100), wherein the inner intercepting net (200) comprises a plurality of intercepting rods (210) and intercepting nails (220) arranged on the intercepting rods (210), the intercepting nails (220) penetrate through the outer intercepting ball (100) and extend out of the outer intercepting ball (100), two ends of the intercepting rods (210) are respectively arranged on two mounting plates (230), the two mounting plates (230) are symmetrically arranged inside the outer intercepting ball (100), and the edge of each mounting plate (230) is tangent to the inside of the outer intercepting ball (100); the outer-layer intercepting ball (100) is provided with a plurality of water through holes (110), and the outer-layer intercepting ball (100) is provided with matching holes (120) for penetrating through the intercepting nails (220);

the mounting plates (230) comprise a traction pipe (234) arranged in the center of the mounting plates (230) and a plurality of sliding grooves (231), the sliding grooves (231) extend from the edge of the traction pipe (234) to the edge close to the mounting plates (230), and the sliding grooves (231) on one mounting plate (230) of the two mounting plates (230) are in one-to-one correspondence with the sliding grooves (231) on the other mounting plate (230); sliding blocks (211) are arranged at two ends of the intercepting rods (210), two ends of the intercepting rods (210) are respectively arranged in corresponding sliding grooves (231) on the two mounting plates (230) in a sliding mode through the sliding blocks (211), and the sliding blocks (211) can be fixed to one ends, close to the edges of the mounting plates (230), of the sliding grooves (231); the surface of the sliding block (211) contacted with the bottom surface of the sliding groove (231) is provided with a curved surface bulge, and the bottom surface of one end of the sliding groove (231) close to the edge of the mounting plate (230) is provided with a concave surface matched with the curved surface bulge of the sliding block (211);

a limiting block (233) is arranged in the sliding groove (231), the limiting block (233) is arranged at one section, close to the traction pipe (234), of the sliding groove (231), and a rebounding device (232) is arranged in the sliding groove (231) and used for moving the sliding block (211) to one end, close to the edge of the mounting plate (230), of the sliding groove (231);

a traction rope (240) is arranged on the sliding block (211), one end of the traction rope (240) is fixedly arranged on the sliding block (211), the other end of the traction rope (240) penetrates through the limiting block (233) and the traction pipe (234) to extend to the outside of the outer-layer intercepting ball (100), and a traction handle (250) is arranged at one end, far away from the sliding block (211), of the traction rope (240); the outer-layer intercepting ball (100) is provided with a hanging handle (130) at a position close to the traction pipe (234), a handle buckle (131) is arranged on the hanging handle (130), and the handle buckle (131) is used for fixing the traction handle (250).

2. The double-deck refuse intercepting ball of claim 1, wherein: the water through holes (110) are arranged in a honeycomb shape.

3. The double-deck refuse intercepting ball of claim 1, wherein: the intercepting rods (210) are arranged in an arc line, and the intercepting rods (210) can be attached to the inner wall of the outer intercepting ball (100); the length direction of the intercepting nail (220) on the intercepting rod (210) is parallel to the sliding direction of the sliding block (211) on the intercepting rod (210), and the maximum length of the intercepting nail (220) capable of extending out of the outer-layer intercepting ball (100) is equal to the maximum sliding distance of the sliding block (211) on the sliding groove (231).

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