CN217777881U - Organic waste crushing and squeezing device - Google Patents

Abstract

The utility model discloses an organic waste crushing and squeezing device, belonging to the technical field of organic waste treatment; the device comprises a squeezing pipe, wherein a crushing box is arranged above the squeezing pipe, a feeding pipe is arranged at the upper end of the crushing box, squeezing blades are arranged inside the squeezing pipe, and an air-drying adsorption component is arranged at the upper end of the squeezing pipe; the utility model discloses a set up and air-dry adsorption component, realized the inside absorption with the peculiar smell of air-drying of squeezing pipe, it can lead to the extrusion blade corrosion and gather the condition emergence of more peculiar smell polluted environment to have avoided squeezing pipe inside being in humid state for a long time, the environment has both been protected, prevent to extrude the blade corrosion again, through setting up radiator unit, quick heat dissipation to motor power has been realized, it is difficult to the effluvium to have avoided motor power continuous operation to produce more heat, influence motor power life's the condition emergence, accelerate motor power's radiating rate, prolong motor power's life.

Description

Organic waste crushing and squeezing device

Technical Field

The utility model belongs to the technical field of organic waste handles, concretely relates to organic waste crushing squeezes device.

Background

Organic waste refers to solid, liquid or gaseous organic substances and substances produced in production, life and other activities that lose their original utilization value or are discarded or abandoned without losing their utilization value. According to morphological classification, organic wastes mainly include organic solid wastes, organic waste water, and organic waste gases.

The prior art has the following problems: in the organic waste crushing and squeezing device disclosed in the prior art, when the device is used, the interior of a squeezing pipe is in a wet state for a long time, so that the squeezing blades are corroded, more peculiar smells are accumulated, the environment is polluted, and a power motor continuously works, so that more heat is generated and is difficult to dissipate, and the service life of the power motor is influenced.

SUMMERY OF THE UTILITY MODEL

To solve the problems set forth in the background art described above. The utility model provides a broken device that squeezes of organic waste has the characteristics that prevent corrosion, environmental protection, extension fixture life.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a broken device that squeezes of organic waste, is including squeezing the pipe, the top of squeezing the pipe is provided with broken case, the upper end of broken case is provided with the inlet pipe, the inside of squeezing the pipe is provided with the extrusion blade, the upper end of squeezing the pipe is provided with air-dries adsorption component, the one end of squeezing the pipe is provided with motor power, motor power's one end is provided with radiator unit.

Preferably, air-dry adsorption component and include filter screen, fixed cover, suction fan, active carbon adsorption net and spacing subassembly, wherein, the upper end of squeezing the pipe is provided with the filter screen, the top of filter screen is provided with the suction fan, the surface of suction fan is provided with fixed cover, the top of suction fan is provided with active carbon adsorption net, be provided with spacing subassembly between active carbon adsorption net and the fixed cover.

Preferably, the limiting assembly comprises a sliding block, a positioning rod, a limiting column, a pull rod and a limiting spring, wherein the sliding block is arranged on two sides of the activated carbon adsorption net, the positioning rod is arranged inside the sliding block, the limiting column is arranged on one side of the sliding block, the pull rod is arranged at one end of the limiting column, and the limiting spring is arranged on the surface of the pull rod.

Preferably, the upper end of the limiting column is provided with a clamping block, and a clamping groove is formed below the limiting column.

Preferably, the heat dissipation assembly comprises a heat absorbing plate, a heat dissipation column, a cooling water tank, a heat conduction sleeve, a heat dissipation fan, a water pipe and a circulating pump, wherein the heat absorbing plate is arranged at one end of the power motor, the heat dissipation column is arranged on one side of the heat absorbing plate, the cooling water tank is arranged at one end, away from the heat absorbing plate, of the heat dissipation column, the circulating pump is arranged above the cooling water tank, the water pipe is arranged at one end of the circulating pump, the heat conduction sleeve is arranged on the surface of the water pipe, and the heat dissipation fan is arranged inside the heat conduction sleeve.

Preferably, a dust screen is arranged above the heat dissipation fan, and a fixing bolt is arranged between the dust screen and the heat conduction sleeve.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the air drying adsorption component is arranged, so that air drying and peculiar smell adsorption inside the squeezing pipe are realized, the condition that the squeezing blade is rusted and more peculiar smell is accumulated to pollute the environment due to the long-term wet state inside the squeezing pipe is avoided, the environment is protected, and the squeezing blade is prevented from being rusted;

2. the utility model discloses a set up radiator unit, realized the quick heat dissipation to motor power, avoided motor power continuous operation to produce more heat and be difficult to the effluvium, influence motor power life's the condition emergence for motor power's radiating rate, extension motor power's life.

Drawings

Fig. 1 is a schematic view of the appearance structure of the present invention;

FIG. 2 is a schematic cross-sectional view of the present invention;

FIG. 3 is a schematic view of the structure of the air drying adsorption assembly of the present invention;

fig. 4 is a schematic structural view of the limiting assembly of the present invention.

Fig. 5 is a schematic structural view of the heat dissipation assembly of the present invention.

In the figure: 1. a press tube; 2. a crushing box; 3. a feed pipe; 4. extruding the blade; 5. air-drying the adsorption component; 51. a filter screen; 52. fixing a sleeve; 53. a suction fan; 54. an activated carbon adsorption net; 55. a limiting component; 551. a slider; 552. positioning a rod; 553. a clamping block; 554. a limiting column; 555. a pull rod; 556. a limiting spring; 6. a power motor; 7. a heat dissipating component; 71. a heat absorbing plate; 72. a heat-dissipating column; 73. a cooling water tank; 74. a heat conducting sleeve; 75. a heat-dissipating fan; 76. a water delivery pipe; 77. and a circulating pump.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts all belong to the protection scope of the present invention.

Example 1

Referring to fig. 1-5, the present invention provides the following technical solutions: the utility model provides a broken device that squeezes of organic waste, is provided with broken case 2 including squeezing pipe 1, the top of squeezing pipe 1, and the upper end of broken case 2 is provided with inlet pipe 3, and the inside of squeezing pipe 1 is provided with extrusion blade 4, and the upper end of squeezing pipe 1 is provided with air-dries adsorption component 5, and the one end of squeezing pipe 1 is provided with power motor 6, and the one end of power motor 6 is provided with radiator unit 7.

Specifically, air-dry adsorption component 5 includes filter screen 51, fixed cover 52, suction fan 53, activated carbon adsorption net 54 and spacing subassembly 55, and wherein, the upper end of squeezing pipe 1 is provided with filter screen 51, and filter screen 51's top is provided with suction fan 53, and suction fan 53's surface is provided with fixed cover 52, and suction fan 53's top is provided with activated carbon adsorption net 54, is provided with spacing subassembly 55 between activated carbon adsorption net 54 and the fixed cover 52.

Through adopting above-mentioned technical scheme, will squeeze through suction fan 53 and take out the interior air of pipe 1, the air of taking out prevents that the peculiar smell from drifting to the air through the absorption of active carbon adsorption net 54, the environmental protection squeezes in the pipe 1 air take out the back outside air entering squeeze pipe 1 in for air flow rate is to squeezing air-dries in the pipe 1, prevents to squeeze and is in the wet condition in the pipe 1 and lead to squeezing the condition emergence of blade 4 corrosion for a long time.

Specifically, the limiting assembly 55 comprises a sliding block 551, a positioning rod 552, a limiting column 554, a pull rod 555 and a limiting spring 556, wherein the sliding blocks 551 are arranged on two sides of the activated carbon adsorption net 54, the positioning rod 552 is arranged inside the sliding block 551, the limiting column 554 is arranged on one side of the sliding block 551, the pull rod 555 is arranged at one end of the limiting column 554, and the limiting spring 556 is arranged on the surface of the pull rod 555.

Through adopting above-mentioned technical scheme, drive spacing post 554 and break away from activated carbon adsorption net 54 through pulling pull rod 555 to compress spacing spring 556, make slider 551 can separate with locating lever 552, and then take out activated carbon adsorption net 54 from fixed cover 52, so that change activated carbon adsorption net 54.

Specifically, the upper end of the limiting column 554 is provided with a clamping block 553, and a clamping groove is arranged below the limiting column 554.

By adopting the technical scheme, the limiting column 554 is prevented from rebounding after being separated from the active carbon adsorption net 54 through the clamping block 553 at the upper end of the limiting column 554 and the clamping groove below the limiting column 554.

This embodiment is used: after the device is used, air in the squeezing pipe 1 is pumped out through the suction fan 53, the pumped air is adsorbed by the activated carbon adsorption net 54, peculiar smell in the squeezing pipe 1 is prevented from floating into the air, the environment is protected, the air in the squeezing pipe 1 is pumped out, then outside air enters the squeezing pipe 1, the air flow rate is accelerated, air drying is carried out in the squeezing pipe 1, the situation that the squeezing blades 4 are rusted due to the fact that the squeezing pipe 1 is in a wet state for a long time is prevented, when the adsorption of the activated carbon adsorption net 54 needs to be replaced, the pull rod 555 is pulled to drive the limiting column 554 to be separated from the activated carbon adsorption net 54, the limiting spring is compressed, then the pull rod 555 is rotated to drive the limiting column 554 to rotate, the limiting column 554 is rotated to drive the clamping block 553 to be clamped into the clamping groove, the limiting column 554 is rebounded after being separated from the activated carbon adsorption net 54, the sliding block 551 can be separated from the positioning rod 552, and then the activated carbon adsorption net 54 is taken out from the fixing sleeve 52, so that the activated carbon adsorption net 54 can be replaced.

Example 2

The present embodiment is different from embodiment 1 in that: specifically, the heat dissipation assembly 7 includes an absorber plate 71, a heat dissipation column 72, a cooling water tank 73, a heat conduction sleeve 74, a heat dissipation fan 75, a water pipe 76, and a circulation pump 77, wherein the absorber plate 71 is disposed at one end of the power motor 6, the heat dissipation column 72 is disposed at one side of the absorber plate 71, the cooling water tank 73 is disposed at one end of the heat dissipation column 72 away from the absorber plate 71, the circulation pump 77 is disposed above the cooling water tank 73, the water pipe 76 is disposed at one end of the circulation pump 77, the heat conduction sleeve 74 is disposed on the surface of the water pipe 76, and the heat dissipation fan 75 is disposed inside the heat conduction sleeve 74.

By adopting the above technical scheme, the heat generated by the power motor 6 is absorbed by the heat absorbing plate 71, and is transferred to the heat dissipation column 72, the cooling water in the cooling water tank 73 rapidly absorbs the heat on the heat dissipation column 72, so that the heat of the power motor 6 can be rapidly transferred to the cooling water, the cooling water in the cooling water tank 73 is fed into the water pipe 76 by the circulating pump 77 and flows back, the cooling water in the water pipe 76 is cooled by the cooling fan 75 in the heat conduction sleeve 74, so that the cooling water in the cooling water tank 73 is always kept at a low temperature, and the heat dissipation effect of the power motor 6 is ensured.

Specifically, a dust screen is disposed above the heat dissipation fan 75, and a fixing bolt is disposed between the dust screen and the heat conduction sleeve 74.

By adopting the above technical scheme, dust is prevented from falling into the heat dissipation fan 75 by the dust screen above the heat dissipation fan 75 and the fixing bolt between the dust screen and the heat conduction sleeve 74.

In use, the present embodiment: in the working process of the power motor 6, heat generated by the power motor 6 is absorbed through the heat absorbing plate 71 and transferred to the heat dissipation column 72, the cooling water in the cooling water tank 73 rapidly absorbs heat on the heat dissipation column 72, so that the heat of the power motor 6 can be rapidly transferred to the cooling water, the cooling water in the cooling water tank 73 is fed into the water pipe 76 through the circulating pump 77 and flows back, the cooling water in the water pipe 76 is cooled through the cooling fan 75 in the heat conduction sleeve 74, so that the cooling water in the cooling water tank 73 is always kept at a low temperature, the heat dissipation effect of the power motor 6 is ensured, and the service life of the power motor 6 is prolonged.

The utility model discloses well suction fan 53 is the prior art that has disclosed, and the model of chooseing for use is YX-21D-A1.

The utility model discloses well radiator fan 75 is the existing technique of disclosing, and the model of chooseing for use is 109S025UL.

The utility model discloses well circulating pump 77 is the existing technique of disclosing, and the model of chooseing for use is CDLF16-20.

The utility model provides a motor power 6's structure and theory of use have disclosed in the broken squeezer of organic waste that chinese patent application number is 201922376949.2 discloses, and motor power 6 extrudes the water in the organic waste through driving the organic waste who extrudees blade 4 rotation after to the breakage.

The utility model discloses a theory of operation and use flow: the utility model discloses when crushing and squeezing device carries out crushing and squeezing to organic waste, throw into crushing case 2 from inlet pipe 3 earlier organic waste, organic waste gets into and squeezes pipe 1 after being broken by broken axle, then drive extrusion blade 4 through motor power 6 and rotate and squeeze the organic waste after the breakage, squeeze out the water pressure in the organic waste, the organic waste after squeezing is discharged through the bundling pipe, in motor power 6 working process, absorb the heat that motor power 6 produced through absorber plate 71, and transmit the heat to heat dissipation column 72, the heat on the heat dissipation column 72 is absorbed fast to the cooling water in cooling water tank 73, make the heat of motor power 6 can transfer for the cooling water fast, and send the cooling water in cooling water tank 73 into behind raceway 76 through circulating pump 77 and flow back, cool down to the cooling water in raceway 76 through radiator fan 75 in heat conduction sleeve 74, so that the cooling water in the cooling water tank 73 is always kept at a lower temperature, the heat dissipation effect of the power motor 6 is ensured, the service life of the power motor 6 is prolonged, after the device is used, air in the squeezing tube 1 is pumped out through the suction fan 53, the pumped air is adsorbed by the activated carbon adsorption net 54, the peculiar smell in the squeezing tube 1 is prevented from floating into the air, the environment is protected, after the air in the squeezing tube 1 is pumped out, the outside air enters the squeezing tube 1, the air flow rate is accelerated, the inside of the squeezing tube 1 is dried, the phenomenon that the squeezing blades 4 are rusted due to the long-term wet state in the squeezing tube 1 is prevented, when the adsorption of the activated carbon adsorption net 54 needs to be replaced, the pull rod 555 is pulled to drive the limit column 554 to be separated from the activated carbon adsorption net 54 and compress the limit spring 556, then the pull rod 555 is rotated to drive the limit column 554 to rotate, the limit column 554 rotates to drive the fixture block to be clamped into the clamping groove, the stopping post 554 is rebounded after being separated from the activated carbon adsorption net 54, so that the sliding block 551 can be separated from the positioning rod 552, and the activated carbon adsorption net 54 can be taken out from the fixing sleeve 52, so as to replace the activated carbon adsorption net 54.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides an organic waste crushing squeezes device, includes and squeezes pipe (1), its characterized in that: the utility model discloses a crushing machine, including squeezing pipe (1), squeezing the top of pipe (1) and being provided with broken case (2), the upper end of broken case (2) is provided with inlet pipe (3), the inside of squeezing pipe (1) is provided with extrusion blade (4), the upper end of squeezing pipe (1) is provided with air-dries adsorption component (5), the one end of squeezing pipe (1) is provided with motor power (6), the one end of motor power (6) is provided with radiator unit (7).

2. The organic waste crushing and pressing device according to claim 1, wherein: air-dry adsorption component (5) including filter screen (51), fixed cover (52), suction fan (53), active carbon adsorption net (54) and spacing subassembly (55), wherein, the upper end of squeezing pipe (1) is provided with filter screen (51), the top of filter screen (51) is provided with suction fan (53), the surface of suction fan (53) is provided with fixed cover (52), the top of suction fan (53) is provided with active carbon adsorption net (54), be provided with spacing subassembly (55) between active carbon adsorption net (54) and fixed cover (52).

3. The organic waste crushing and pressing device according to claim 2, wherein: the limiting assembly (55) comprises a sliding block (551), a positioning rod (552), a limiting column (554), a pull rod (555) and a limiting spring (556), wherein the sliding block (551) is arranged on two sides of the activated carbon adsorption net (54), the positioning rod (552) is arranged inside the sliding block (551), the limiting column (554) is arranged on one side of the sliding block (551), the pull rod (555) is arranged at one end of the limiting column (554), and the limiting spring (556) is arranged on the surface of the pull rod (555).

4. The organic waste crushing and pressing device according to claim 3, wherein: a clamping block (553) is arranged at the upper end of the limiting column (554), and a clamping groove is arranged below the limiting column (554).

5. The organic waste crushing and pressing device according to claim 1, wherein: the heat dissipation assembly (7) comprises a heat absorption plate (71), a heat dissipation column (72), a cooling water tank (73), a heat conduction sleeve (74), a heat dissipation fan (75), a water conveying pipe (76) and a circulating pump (77), wherein the heat absorption plate (71) is arranged at one end of the power motor (6), the heat dissipation column (72) is arranged on one side of the heat absorption plate (71), the cooling water tank (73) is arranged at one end, away from the heat absorption plate (71), of the heat dissipation column (72), the circulating pump (77) is arranged above the cooling water tank (73), the water conveying pipe (76) is arranged at one end of the circulating pump (77), the heat conduction sleeve (74) is arranged on the surface of the water conveying pipe (76), and the heat dissipation fan (75) is arranged inside the heat conduction sleeve (74).

6. The organic waste crushing and pressing device according to claim 5, wherein: a dust screen is arranged above the heat dissipation fan (75), and a fixing bolt is arranged between the dust screen and the heat conduction sleeve (74).

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