CN112157059B - Mechanical chain surface oil stain cleaning equipment - Google Patents

Abstract

The invention discloses a cleaning device for oil stain on the surface of a mechanical chain, which structurally comprises a cleaning cabin, a supporting wheel, a control box and a handle, wherein the supporting wheel is arranged on the outer side surface of the lower end of the cleaning cabin through welding, the supporting wheel is positioned above the control box, the control box is fixedly embedded below the right side of the handle, the handle is arranged right below the cleaning cabin through welding, when the handle spreads to a gap above an embedding block along with the gradual rising of water flow, the oil dirt and part of the water flow at the top can flow to the bottom along the inner wall of the recovery tank, a second adsorption port is arranged at the position of the filter port connected with the recovery tank below the separation mechanism, the second adsorption port is arranged at a lower position and can only discharge water with heavier mass outwards, and the light grease of quality can be installed the arc piece separation of top, can effectually filter the grease, avoids some grease to be attached to the chain through the backward flow of rivers again.

Description

Mechanical chain surface oil stain cleaning equipment

Technical Field

The invention belongs to the field of oil stain cleaning equipment, and particularly relates to oil stain cleaning equipment for the surface of a mechanical chain.

Background

The oil stain cleaning equipment is characterized in that a plurality of sets of combined cleaning equipment are utilized to clean the surface of a chain, and after dirt attached to the surface of a mechanical chain is removed through a series of procedures of scouring, vibrating, wiping and the like of the equipment on the chain, the dryness of the surface of the chain is kept through an air blower.

Based on the findings of the inventor, the following defects mainly exist in the prior art, such as: when the oil stains washed in the washing process flow into the collecting tank along the flowing water, part of the oil stains with lower density float on the upper surface of the flowing water, and when the flowing water flows back along the flowing pipe to repeatedly wash the surface of the chain, a small amount of the oil stains can be attached to the surface of the chain again.

Therefore, the oil stain cleaning equipment for the surface of the mechanical chain needs to be provided.

Disclosure of Invention

The problem that in the technology, when the oil stains washed in the washing process flow into the collecting tank along the flowing water, part of the oil stains with low density float on the upper surface of the flowing water, and when the flowing water flows back along the flowing pipe to repeatedly wash the surface of the chain, a small amount of the oil stains are attached to the surface of the chain again is solved.

The invention relates to a device for cleaning greasy dirt on the surface of a mechanical chain, which has the purpose and the effect and is achieved by the following specific technical means: the structure of the washing machine comprises a washing cabin, supporting wheels, a control box and a handle, wherein the supporting wheels are welded on the outer side surface of the lower end of the washing cabin, the supporting wheels are positioned right below the control box, the control box is embedded and fixedly arranged below the right side of the handle, and the handle is welded and arranged above the washing cabin; the washing cabin includes shock mechanism, manipulator, entry, wiping layer, transfer gear, inlays the groove, shock mechanism inlays locates the manipulator under, the manipulator is located the right side of entry, the entry is inlayed and is located the left side terminal surface on wiping layer, wiping layer activity block is installed in the left side of transfer gear, both ends face about the inboard in washing cabin is installed to the transfer gear symmetry, inlay the inslot medial surface and inlay and be connected the manipulator.

The utility model discloses a vibration mechanism, including shock machine, back flow, water pumper, separating mechanism, the shock machine inlays the fixed left side of installing at the back flow, the back flow is inlayed the block and is installed directly over the water pumper, the water pumper inlays the fixed right side of installing at separating mechanism, separating mechanism inlays and locates terminal surface under the inboard of shock mechanism, the left side terminal surface of water pumper is equipped with communicating pipe that can be connected the separating mechanism lower extreme.

The separation mechanism comprises embedded blocks, an adsorption port, a recovery tank, a drainage mechanism and a filter screen, wherein the embedded blocks are symmetrically arranged on the left side and the right side of the upper end of the adsorption port, the end face of the transverse outer side of the adsorption port is embedded and connected with the recovery tank, the recovery tank is symmetrically arranged on the left end and the right end of the drainage mechanism, the drainage mechanism is embedded and arranged under the filter screen, the filter screen is embedded and clamped and arranged on the upper end face of the separation mechanism, and a gap is arranged above the embedded blocks and can be connected with the recovery tank in series.

The drainage mechanism comprises a collecting port, a scraping mechanism, a filtering port and a drainage channel, wherein the collecting port is embedded and arranged right above the scraping mechanism, the scraping mechanism is embedded and fixedly arranged right above the filtering port, the filtering port is connected right below the drainage channel through a piston, the drainage channel is positioned right below the collecting port, the diameters of the inner walls of the scraping mechanism and the collecting port are gradually narrowed, and a small bump is arranged below the left side of the scraping mechanism.

The filter port comprises a circular arc block, a rubber block, an embedded block and a second adsorption port, the circular arc block is fixedly embedded in the left side of the rubber block, the rubber block is embedded and arranged right above the embedded block, the upper end face of the embedded block is fixedly embedded with the circular arc block, the second adsorption port is located in the left side of the rubber block, the circular arc block is provided with an upper part and a lower part, and the second adsorption port is located at the lower left side.

Wherein, strike off the mechanism including running through breach, filter core, scraping piece, diffluence pass, run through the breach and inlay the left side top of locating the filter core, the filter core inlays solid the right side of installing at scraping the piece, scrape the left side top that the piece was inlayed and is located the diffluence pass, the diffluence pass inlays solid the terminal surface of installing under the inboard of scraping the mechanism, the front end of scraping the piece is equipped with the paster that the diameter is gradually thin.

The scraping mechanism comprises a flow groove, filter blocks, a drainage port and an embedding strip, the flow groove is embedded and arranged right above the drainage port, the filter blocks are symmetrically embedded and arranged on the end surface of the inner side of the scraping mechanism, the drainage port is embedded and arranged right below the embedding strip, the embedding strip is symmetrically arranged on the left side and the right side of the upper end of the flow groove, the number of the filter blocks is five, and the outline of the filter block positioned above the filter blocks is designed to be narrow at the top and wide at the bottom.

Compared with the prior art, the invention has the following beneficial effects:

1. when the water flow gradually rises and spreads to the notch above the embedding block, the oil dirt and partial water flow positioned at the top can flow to the bottom of the recovery tank along the inner wall of the recovery tank, the second adsorption port is arranged at the filter port at the connection part of the lower part of the separation mechanism and the recovery tank, the second adsorption port is lower in position and can only drain the water flow with heavier mass outwards, the oil dirt with lighter mass can be blocked by the circular arc block arranged above, the oil dirt can be effectively filtered, and partial oil dirt is prevented from being attached to the chain through the backflow of the water flow again.

2. When water flow and oil dirt flow along the flow groove, the outer surface of the filter block can be continuously washed, because the filter block positioned above adopts the design of narrow top and wide bottom, the water flow continuously applies larger pressure downwards in the impacting process, the oil dirt is extruded and washed into the filter block, and the oil dirt is adsorbed by utilizing the material of the filter block, so that the content of the oil dirt in the water flow is reduced.

Drawings

Fig. 1 is a schematic overall structure diagram of the oil stain cleaning equipment for the surface of the mechanical chain.

FIG. 2 is a schematic structural diagram of a cleaning cabin of the mechanical chain surface oil stain cleaning equipment.

Fig. 3 is a schematic structural diagram of an oscillating mechanism of the mechanical chain surface oil stain cleaning equipment.

Fig. 4 is a schematic structural diagram of a separation mechanism of the oil stain cleaning equipment for the surface of the mechanical chain.

Fig. 5 is a schematic structural diagram of a drainage port of the oil stain cleaning equipment for the surface of the mechanical chain.

Fig. 6 is a schematic structural diagram of a filtering port of the oil stain cleaning equipment for the surface of the mechanical chain.

Fig. 7 is a schematic structural diagram of a scraping mechanism of a mechanical chain surface oil stain cleaning device of the invention.

Fig. 8 is a schematic structural diagram of a filter element of a mechanical chain surface oil stain cleaning device.

In the figure: cleaning cabin-1, supporting wheel-2, control box-3, handle-4, oscillating mechanism-11, manipulator-12, inlet-13, wiping layer-14, transmission wheel-15, embedding groove-16, oscillating machine-111, return pipe-112, water pump-113, separating mechanism-114, embedding block-141, adsorption port-142, recovery groove-143, drainage mechanism-144, filter screen-145, collection port-441, scraping mechanism-442, filtering port-443, drainage channel-444, circular arc block-431, rubber block-432, embedding block-433, second adsorption port-434, through notch-421, filter core-422, scraping sheet-423, diversion port-424, flow groove-221, filtering block-222, drainage port-223 and embedding strip-224.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example 1:

as shown in figures 1 to 6:

the invention provides a mechanical chain surface oil stain cleaning device which structurally comprises a cleaning cabin 1, a supporting wheel 2, a control box 3 and a handle 4, wherein the supporting wheel 2 is installed on the outer side surface of the lower end of the cleaning cabin 1 through welding, the supporting wheel 2 is positioned under the control box 3, the control box 3 is fixedly embedded under the right side of the handle 4, the handle 4 is installed above the cleaning cabin 1 through welding, the cleaning cabin 1 comprises a vibrating mechanism 11, a manipulator 12, an inlet 13, a wiping layer 14, a transmission wheel 15 and an embedding groove 16, the vibrating mechanism 11 is embedded under the manipulator 12, the manipulator 12 is positioned on the right side of the inlet 13, the inlet 13 is embedded on the left end surface of the wiping layer 14, the wiping layer 14 is movably clamped and installed on the left side of the transmission wheel 15, the transmission wheel 15 is symmetrically installed on the upper end surface and the lower end surface of the inner side of the cleaning cabin 1, the inner end surface of the embedding groove 16 is embedded and connected with the manipulator 12.

Wherein, vibrate mechanism 11 including vibrate machine 111, back flow 112, water pumper 113, separating mechanism 114, vibrate machine 111 inlays the left side of installing at back flow 112, back flow 112 inlays the block and installs directly over water pumper 113, water pumper 113 inlays the right side of installing at separating mechanism 114, separating mechanism 114 inlays the terminal surface under the inboard of locating vibrate mechanism 11, water pumper 113's left side terminal surface is equipped with the communicating pipe that can be connected separating mechanism 114 lower extreme, and the adsorption affinity that provides through water pumper 113 makes rivers form the backward flow through back flow 112 and washes and erode again.

The separation mechanism 114 comprises embedded blocks 141, an adsorption port 142, a recovery tank 143, a drainage mechanism 144 and a filter screen 145, the embedded blocks 141 are symmetrically installed at the left and right sides of the upper end of the adsorption port 142, the lateral outer end surface of the adsorption port 142 is embedded and connected with the recovery tank 143, the recovery tank 143 is symmetrically installed at the left and right ends of the drainage mechanism 144, the drainage mechanism 144 is embedded and installed under the filter screen 145, the filter screen 145 is embedded and clamped and installed at the upper end surface of the separation mechanism 114, a notch is arranged above the embedded blocks 141 and can be connected with the recovery tank 143 in series, and when water flow rises to a certain depth, oil dirt floating on the upper end surface of the water can flow into the recovery tank 143 along the notch.

The drainage mechanism 144 includes a collection port 441, a scraping mechanism 442, a filtering port 443, and a drainage channel 444, the collection port 441 is embedded and disposed right above the scraping mechanism 442, the scraping mechanism 442 is embedded and mounted right above the filtering port 443, the filtering port 443 is piston-connected right below the drainage channel 444, the drainage channel 444 is located right below the collection port 441, the diameters of the inner walls of the scraping mechanism 442 and the collection port 441 gradually narrow, and a small bump is disposed below the left side of the scraping mechanism 442, so that the scraping mechanism 442 can more directly penetrate into the water flow to scrape off the oil.

Wherein, filtration mouth 443 includes arc piece 431, rubber block 432, inlays solid piece 433, second and adsorbs mouth 434, arc piece 431 inlays solid left side of installing at rubber block 432, rubber block 432 inlays and locates and inlays solid directly over piece 433, inlay solid piece 433 up end and inlay and link firmly arc piece 431 after, second adsorbs mouth 434 and is located the left side of rubber block 432, arc piece 431 is equipped with two from top to bottom, and second adsorbs mouth 434 and be in than left side position, can effectively avoid the direct contact with the grease when adsorbing rivers.

The specific use mode and function of the embodiment are as follows:

in the invention, after the operation of the cleaning cabin 1 needs to be controlled by the control box 3 in use, the chain is placed at the oscillating mechanism 11 in operation to enable water to flow over the chain, then the oscillating machine 111 in the oscillating mechanism 11 is used for driving water flow to resonate at the same frequency, oil stains attached to the chain are removed, in the removing process, water flow can flow along the separating mechanism 114 and the return pipe 112 to continuously circulate and scour the surface of the chain, when the oil stains attached to the water flow flows into the separating mechanism 114, a large amount of water flow can not be discharged along the adsorption port 142 immediately, when the water flow spreads to the notch above the embedding block 141 along with gradual rising of the water flow, the oil stains and partial water flow positioned at the top can flow to the bottom of the recovering tank 143 along the inner wall of the recovering tank 143, the filtering port 443 at the connection position of the recovering tank 143 below the separating mechanism 114 is provided with the second adsorption port 434, and the position of the second adsorption port 434 is lower, only can outwards drain the water flow with heavier mass, and the oil dirt with lighter mass can be blocked by the arc block 431 arranged above, so that the oil dirt can be effectively filtered, and part of the oil dirt is prevented from being attached to the chain through the backflow of the water flow.

Example 2:

as shown in fig. 7 to 8: scrape mechanism 442 including running through breach 421, filter core 422, scraping piece 423, reposition of redundant personnel mouth 424, run through breach 421 and inlay the left side top of locating filter core 422, filter core 422 inlays the right side of installing at scraping piece 423, scrape the left side top of inlaying and locating reposition of redundant personnel mouth 424 of piece 423, reposition of redundant personnel mouth 424 inlays the terminal surface under the inboard of installing at scraping mechanism 442, the front end of scraping piece 423 is equipped with the paster that the diameter is gradually thin, guides the rivers grease flow direction in soaking water under the condition of avoiding water flow resistance.

The filter element 422 comprises a flow groove 221, filter blocks 222, a drainage port 223 and an embedding strip 224, wherein the flow groove 221 is embedded and arranged right above the drainage port 223, the filter blocks 222 are symmetrically embedded and arranged on the inner side end surface of the scraping mechanism 442, the drainage port 223 is embedded and arranged right below the embedding strip 224, the embedding strips 224 are symmetrically arranged on the left side and the right side of the upper end of the flow groove 221, the filter blocks 222 are five, the outer contour of the filter block 222 above is designed to be narrow at the top and wide at the bottom, and the pressure between water flows can be increased by utilizing a small distance to force oil dirt to be adsorbed by the filter blocks 222.

The specific use mode and function of the embodiment are as follows:

in the present invention as the water flows down the collection port 441 to flush the outer surface of scraper mechanism 442, since the grease is light and the scraping piece 423 is provided at the inner left lower side of the scraping mechanism 442, the front end of the scraping piece 423 is provided with a light iron piece which can effectively immerse into water to guide the water flow and the oil dirt to flow to the through notch 421, so that the water flow and the oil dirt flow into the filter element 422 along the through notch 421 and finally form oil-water separation and discharge through the drainage port 223 and the diversion port 424, when the water flow and the oil dirt flow along the flow groove 221, the outer surface of the filter block 222 is continuously washed, because the filter block 222 positioned above adopts the design of narrow top and wide bottom, the water flow continuously applies larger pressure downwards in the impacting process, so that the oil dirt is squeezed and flushed into the filter block 222, the material of the filter block 222 is used for absorbing the oil dirt, so that the content of the oil dirt in the water flow is reduced.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (1)

1. The mechanical chain surface oil stain cleaning equipment structurally comprises a cleaning cabin (1), supporting wheels (2), a control box (3) and a handle (4), wherein the supporting wheels (2) are welded on the outer side surface of the lower end of the cleaning cabin (1), the supporting wheels (2) are located right below the control box (3), the control box (3) is fixedly installed below the right side of the handle (4), and the handle (4) is installed above the cleaning cabin (1) through welding; the method is characterized in that:

the cleaning cabin (1) comprises a vibration mechanism (11), a mechanical arm (12), an inlet (13), a wiping layer (14), a conveying wheel (15) and an embedding groove (16), wherein the vibration mechanism (11) is embedded under the mechanical arm (12), the mechanical arm (12) is positioned on the right side of the inlet (13), the inlet (13) is embedded on the left end face of the wiping layer (14), the wiping layer (14) is movably clamped and installed on the left side of the conveying wheel (15), the conveying wheel (15) is symmetrically installed on the upper end face and the lower end face of the inner side of the cleaning cabin (1), and the mechanical arm (12) is embedded and connected on the inner side end face of the embedding groove (16);

the vibration mechanism (11) comprises a vibration machine (111), a return pipe (112), a water pump (113) and a separation mechanism (114), the vibration machine (111) is fixedly embedded at the left side of the return pipe (112), the return pipe (112) is fixedly embedded and clamped and installed right above the water pump (113), the water pump (113) is fixedly embedded and installed at the right side of the separation mechanism (114), and the separation mechanism (114) is embedded at the lower end face of the inner side of the vibration mechanism (11);

the separation mechanism (114) comprises embedded blocks (141), an adsorption port (142), a recovery tank (143), a drainage mechanism (144) and a filter screen (145), the embedded blocks (141) are symmetrically arranged at the left side and the right side of the upper end of the adsorption port (142), the transverse outer end face of the adsorption port (142) is embedded and connected with the recovery tank (143), the recovery tank (143) is symmetrically arranged at the left end and the right end of the drainage mechanism (144), the drainage mechanism (144) is embedded and arranged right below the filter screen (145), and the filter screen (145) is embedded, clamped and arranged at the upper end face of the separation mechanism (114);

the drainage mechanism (144) comprises a collecting port (441), a scraping mechanism (442), a filtering port (443) and a drainage channel (444), the collecting port (441) is embedded and arranged right above the scraping mechanism (442), the scraping mechanism (442) is embedded and arranged right above the filtering port (443), the filtering port (443) is connected right below the drainage channel (444) in a piston manner, and the drainage channel (444) is positioned right below the collecting port (441);

the filtering port (443) comprises an arc block (431), a rubber block (432), an embedding block (433) and a second adsorption port (434), the arc block (431) is embedded and installed on the left side of the rubber block (432), the rubber block (432) is embedded and arranged right above the embedding block (433), the upper end face of the embedding block (433) is embedded and fixedly connected with the arc block (431), and the second adsorption port (434) is located on the left side of the rubber block (432);

the scraping mechanism (442) comprises a through notch (421), a filter element (422), a scraping sheet (423) and a flow dividing port (424), the through notch (421) is embedded in the upper left side of the filter element (422), the filter element (422) is embedded and installed in the right side of the scraping sheet (423), the scraping sheet (423) is embedded in the upper left side of the flow dividing port (424), and the flow dividing port (424) is embedded and installed in the lower inner side end face of the scraping mechanism (442);

the filter element (422) comprises a flow groove (221), a filter block (222), a drainage port (223) and an embedding strip (224), wherein the flow groove (221) is embedded and arranged right above the drainage port (223), the filter block (222) is symmetrically embedded and arranged on the end surface of the inner side of the scraping mechanism (442), the drainage port (223) is embedded and arranged right below the embedding strip (224), and the embedding strips (224) are symmetrically arranged on the left side and the right side of the upper end of the flow groove (221).

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