CN111437942A - Garbage disposal device with crushing function - Google Patents

Abstract

The invention is suitable for the field of garbage disposal, and provides a garbage disposal device with a crushing function, which comprises: a crushing chamber; a crushing mechanism is arranged in the crushing chamber; the crushing mechanism comprises a first crushing assembly and a second crushing assembly; the cooling assembly is used for cooling the crushing mechanism; the switch assembly is used for controlling the operation and the stop of the cooling assembly; and the crankshaft connecting rod component is used for driving the switch component to be opened and closed continuously. The crushing mechanism provided by the invention has high crushing efficiency; and the problem of damage caused by overheating of the crushing assembly is avoided by arranging the cooling assembly.

Description

Garbage disposal device with crushing function

Technical Field

The invention belongs to the field of garbage treatment, and particularly relates to a garbage treatment device with a crushing function.

Background

Along with the development and progress of social and human production activities, the generated garbage also increases year by year. In the process of treating garbage, the crushing is a step of frequent use and heavy proportion. However, the existing crushing mechanism has the problems of low crushing efficiency and easy damage caused by overheating of the crushing assembly. Therefore, there is a need to develop a garbage disposal apparatus having high crushing efficiency and a crushing assembly that is not easily damaged by overheating.

Disclosure of Invention

The embodiment of the invention aims to provide a garbage treatment device with a crushing function, and aims to solve the problems that the crushing efficiency is low and a crushing assembly is easy to overheat and damage in the garbage crushing process.

The embodiment of the invention is realized in such a way that the garbage treatment device with the crushing function comprises a crushing chamber, a feeding hole and a discharging hole, and the garbage treatment device further comprises:

a crushing mechanism; the crushing mechanism is arranged in the crushing chamber; the crushing mechanism comprises a first crushing assembly and a second crushing assembly; the first crushing assembly and the second crushing assembly rotate in opposite directions;

a drive assembly; the driving assembly is connected with the first crushing assembly;

the cooling assembly is used for cooling the crushing mechanism;

the switch assembly is used for controlling the operation and the stop of the cooling assembly;

a crankshaft connecting rod assembly; when the crushing mechanism carries out crushing operation, the crankshaft connecting rod assembly drives the switch assembly to carry out reciprocating switch operation.

Preferably, the first size reduction assembly comprises:

a first drive shaft; one end of the first transmission shaft penetrates through the crushing chamber;

at least one set of first crushing blades; the first crushing blade is arranged on the first transmission shaft;

a second driven gear; the second driven gear is arranged at one end of the first transmission shaft.

Preferably, the drive assembly comprises:

the first driven gear is used for driving the first transmission shaft to rotate; the first driven gear is arranged at one end, far away from the second driven gear, of the first transmission shaft;

the driving gear is used for driving the first driven gear to rotate; the driving gear is meshed with the first driven gear;

the motor is used for driving the driving gear to rotate; the driving gear is connected with the motor.

Preferably, the second size reduction assembly comprises:

a second drive shaft; the second transmission shaft is rotatably arranged in the crushing chamber;

the third driven gear is used for driving the second transmission shaft to rotate; the third driven gear is arranged on the second transmission shaft; the third driven gear is meshed with the second driven gear;

at least one set of second crushing blades; the second crushing blade is arranged on the second transmission shaft; the second crushing blades and the first crushing blades are arranged at intervals.

Preferably, the cooling assembly comprises:

the cooling pipe is used for cooling the first transmission shaft and the second transmission shaft; the first transmission shaft and the second transmission shaft are both hollow structures; the cooling pipes are arranged inside the first transmission shaft and the second transmission shaft;

a liquid inlet pipe; the liquid inlet pipe is communicated with one end of the cooling pipe;

a liquid outlet pipe; the liquid outlet pipe is communicated with one end of the cooling pipe, which is far away from the liquid inlet pipe;

a pump for delivering a cooling fluid; the pump is arranged on the liquid inlet pipe.

Preferably, the cooling assembly comprises:

a baffle plate for controlling the circulation of the cooling liquid; the baffle plate is arranged in the liquid inlet pipe;

a fixed block; the fixed block is arranged in the liquid inlet pipe; the two fixing blocks are respectively positioned on the opposite sides of different surfaces of the baffle plate;

an elastic member; two elastic pieces are arranged; one end of the elastic piece is fixedly arranged on the baffle, and the other end of the elastic piece is fixedly arranged on the fixed block;

an on-off valve; the switch valve is fixedly arranged on the baffle; the switch valve is provided with an inclined block;

the first connecting rod is used for controlling the blocking piece to open and close in a reciprocating manner; the first connecting rod is movably arranged on the inclined block.

Preferably, the crankshaft connecting rod assembly includes:

a fourth driven gear; the fourth driven gear is fixedly arranged on one side of the first transmission shaft penetrating through the crushing chamber;

a fifth driven gear; the fifth driven gear is fixedly arranged on the crushing chamber; the fifth driven gear is meshed with the fourth driven gear;

a second link; the second connecting rod is movably arranged at the eccentric position of the fifth driven gear;

a third link; the second connecting rod is movably arranged on the first connecting rod;

the sliding block is used for driving the first connecting rod to reciprocate; the sliding block is arranged at one end, far away from the second connecting rod, of the third connecting rod; the sliding block is connected with the first connecting rod;

a guide rail; the sliding block is arranged on the guide rail; the slide reciprocates on the guide track when the first size reduction assembly is in operation.

According to the garbage treatment device with the crushing function, the first crushing assembly and the second crushing assembly are arranged, so that garbage can be crushed under the combined action, and the crushing efficiency of the garbage is improved. In addition, the cooling pipes are arranged inside the first crushing assembly and the second crushing assembly, so that the first crushing assembly and the second crushing assembly can be cooled, and are not easy to damage due to overheating.

Drawings

Fig. 1 is a schematic structural diagram of a garbage disposal apparatus with a shredding function according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of a crankshaft connecting rod assembly provided in accordance with an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a switch assembly according to an embodiment of the present invention;

in the drawings: 1. a feed inlet; 2. a crushing chamber; 3. a motor; 4. a driving gear; 5. a first driven gear; 6. a first drive shaft; 7. a first crushing blade; 8. a second driven gear; 9. a third driven gear; 10. a second drive shaft; 11. a second crushing blade; 12. a crankshaft connecting rod assembly; 121. a fourth driven gear; 122. a fixing member; 123. a fifth driven gear; 124. a second link; 125. a third link; 126. a slider; 127. a guide rail; 13. a switch assembly; 131. a first link; 132. an on-off valve; 133. a sloping block; 134. a fixed block; 135. an elastic member; 136. a baffle plate; 14. a pump; 15. a liquid inlet pipe; 16. a cooling tube; 17. a liquid outlet pipe; 18. and (4) a discharge port.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "inside", "outside", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1, a structure of a garbage disposal apparatus with a shredding function according to an embodiment of the present invention includes:

the device comprises a crushing chamber 2, a feed port 1 and a discharge port 18, wherein the crushing chamber 2 is communicated with the feed port 1 and the discharge port 18;

a crushing mechanism; the crushing mechanism is arranged in the crushing chamber 2; the crushing mechanism comprises a first crushing assembly and a second crushing assembly; the first crushing assembly and the second crushing assembly rotate in opposite directions;

a drive assembly; the driving assembly is connected with the first crushing assembly;

the cooling assembly is used for cooling the crushing mechanism;

the switch assembly 13 is used for controlling the operation and the stop of the cooling assembly;

a crankshaft connecting rod assembly 12; when the crushing mechanism performs crushing operation, the crankshaft connecting rod assembly 12 drives the switch assembly 13 to perform reciprocating opening and closing operation.

In one embodiment of the present invention, the pulverizing chamber 2 may adopt a thick-walled box structure. This novel example has improved the crushing efficiency to rubbish through the rotation of first crushing unit and second crushing unit opposite direction. In actual operation, first crushing subassembly can drive bent axle link assembly 12 and carry out reciprocating motion, and bent axle link assembly 12 drives switch module 13 and constantly opens and shuts, and the cooling module is cooled down the processing to first crushing subassembly and second crushing subassembly thereupon, prevents its overheat damage.

As shown in fig. 1, as a preferred embodiment of the present invention, the first pulverizing assembly comprises:

a first transmission shaft 6; one end of the first transmission shaft 6 penetrates through the crushing chamber 2;

at least one set of first crushing blades 7; the first crushing blade 7 is arranged on the first transmission shaft 6;

a second driven gear 8; the second driven gear 8 is provided at one end of the first transmission shaft.

Specifically, the first transmission shaft 6 drives the first crushing blade 7 to crush the garbage; the first transmission shaft 6 drives the second driven gear 8 to rotate.

As shown in fig. 1, as a preferred embodiment of the present invention, the driving assembly includes:

the first driven gear 5 is used for driving the first transmission shaft 6 to rotate; the first driven gear 5 is arranged at one end of the first transmission shaft 6 far away from the second driven gear 8;

the driving gear 4 is used for driving the first driven gear 5 to rotate; the driving gear 4 is meshed with the first driven gear 5;

the motor 3 is used for driving the driving gear 4 to rotate; the driving gear 4 is connected with the motor 3.

Specifically, the motor 3 drives the driving gear 4 to rotate, the driving gear 4 drives the first driven gear 5 to rotate, and the first driven gear 5 rotates to drive the first transmission shaft 6 to rotate.

As shown in fig. 1, as a preferred embodiment of the present invention, the second pulverizing assembly comprises:

a second transmission shaft 10; the second transmission shaft 10 is rotatably arranged in the crushing chamber 2;

the third driven gear 9 is used for driving the second transmission shaft 10 to rotate; the third driven gear 9 is arranged on the second transmission shaft 10; the third driven gear 9 is meshed with the second driven gear 8;

at least one set of second crushing blades 11; the second crushing blade 11 is arranged on the second transmission shaft 10; the second crushing blades 11 are arranged at intervals from the first crushing blades 7.

Specifically, a plurality of groups of the first crushing assembly and the second crushing assembly can be arranged; the second driven gear 8 drives the third driven gear 9 to rotate, the third driven gear 9 drives the second transmission shaft 10 to rotate in a direction opposite to that of the first transmission shaft 6, and the second transmission shaft 10 and the second crushing blade 11 crush the garbage.

As shown in fig. 1, as a preferred embodiment of the present invention, the cooling module includes:

the cooling pipe 16 is used for cooling the first transmission shaft 6 and the second transmission shaft 10; the first transmission shaft and the second transmission shaft are both hollow structures; the cooling pipe 16 is arranged inside the first transmission shaft 6 and the second transmission shaft 10;

a liquid inlet pipe 15; the liquid inlet pipe 15 is communicated with one end of the cooling pipe 16;

a liquid outlet pipe 17; the liquid outlet pipe 17 is communicated with one end of the cooling pipe 16 far away from the liquid inlet pipe 15;

a pump 14 for delivering a cooling liquid; the pump 14 is disposed on the liquid inlet pipe 15.

Specifically, the cooling liquid may be cooling water. The pump 14 continuously conveys the cooling liquid to enter the liquid inlet pipe 15; the cooling liquid enters the cooling pipe 16 from the liquid inlet pipe 15, the cooling liquid entering the cooling pipe 16 cools the first transmission shaft 6 and the second transmission shaft 10 which are operated, and then the cooling liquid flows out from the liquid outlet pipe 17.

As shown in fig. 3, the switch assembly 13, as a preferred embodiment of the present invention, includes:

a baffle 136 for controlling the flow of the cooling liquid; the baffle plate 136 is arranged inside the liquid inlet pipe 15;

a fixed block 134; the fixed block 134 is fixedly arranged in the liquid inlet pipe 15; two fixing blocks 134 are arranged and are respectively positioned on the opposite sides of different surfaces of the blocking piece 136;

an elastic member 135; two elastic pieces 135 are provided; one end of the elastic element 135 is fixedly arranged on the blocking piece 136, and the other end is fixedly arranged on the fixing block 134;

an on-off valve 132; the switch valve 132 is fixedly arranged on the baffle plate 136; an inclined block 133 is arranged on the switch valve 132;

the first connecting rod 131 is used for controlling the blocking piece 136 to open and close in a reciprocating manner; the first link 131 is movably disposed on the inclined block 133.

Specifically, the elastic member 135 may be a spring. When the first connecting rod 131 makes reciprocating linear motion, because the first connecting rod 131 is movably connected with the inclined block 133, the switch valve 132 can continuously swing back and forth under the action of the inclined block 133, the baffle 136 is continuously opened and closed, and the cooling liquid is continuously input into the liquid inlet pipe 15; when the first link 131 stops moving, the flap 136 is restored to the closed state by the elastic member 135.

As shown in fig. 2, the crankshaft connecting rod assembly 12 includes, as a preferred embodiment of the present invention:

a fourth driven gear 121; the fourth driven gear 121 is fixedly arranged at one side of the first transmission shaft 6 penetrating through the crushing chamber 2;

a fifth driven gear 123; the fifth driven gear 123 is fixedly provided on the pulverization chamber 2; the fifth driven gear 123 meshes with the fourth driven gear 121;

a second link 124; the second connecting rod 124 is movably arranged at the eccentric position of the fifth driven gear 123;

a third link 125; the second connecting rod 124 is movably arranged on the first connecting rod 131;

the sliding block 126 is used for driving the first connecting rod 131 to reciprocate; the sliding block 126 is arranged at one end of the third connecting rod 125 far away from the second connecting rod 124; the slider 126 is connected with the first link 131;

a guide rail 127; the slide block 126 is arranged on the guide rail 127; as the first size reduction assembly operates, the slide 126 reciprocates on the guide 127.

Specifically, the fourth driven gear is fixed to the first transmission shaft 6 by a fixing member 122, and the fourth driven gear is hollow, and the liquid inlet pipe 15 passes through the fourth driven gear. When the first transmission shaft 6 rotates, the fourth driven gear 121 is driven to rotate, the fourth driven gear 12 drives the fifth driven gear 123 to rotate, and the slider 126 reciprocates on the guide rail 127 under the action of the second connecting rod 124 and the third connecting rod 125, so as to drive the switch assembly 13 to be continuously opened and closed.

In actual operation, the first crushing assembly and the second crushing assembly rotate in opposite directions, so that the crushing efficiency of garbage is improved; when the first crushing assembly rotates, the slider 126 of the crankshaft connecting rod assembly 12 is driven to reciprocate, and the slider 126 is connected with the first connecting rod 131 to drive the switch assembly 13 to be opened and closed continuously. At this time, the coolant enters the cooling pipe 16 under the action of the pump 14, and cools and reduces the temperature of the first transmission shaft 6 and the second transmission shaft 10, so as to avoid overheating and damage of the first transmission shaft and the second transmission shaft. When the first and second crushing assemblies stop rotating, the switch assembly 13 is closed by the elastic member 135, and the cooling liquid does not enter the cooling pipe 16 any more.

As shown in fig. 1, as a preferred embodiment of the present invention, the garbage disposal apparatus further includes a feeding port 1 and a discharging port 18.

Specifically, the positions of the inlet port 1 and the outlet port 18 may be set according to the position of the cooling pipe 16, so as to avoid obstructing the operation of the cooling pipe 16.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (7)

1. The utility model provides a refuse treatment device with shredding function, is including smashing the room, its characterized in that, refuse treatment device still includes:

a crushing mechanism; the crushing mechanism is arranged in the crushing chamber; the crushing mechanism comprises a first crushing assembly and a second crushing assembly; the first crushing assembly and the second crushing assembly rotate in opposite directions;

a drive assembly; the driving assembly is connected with the first crushing assembly;

the cooling assembly is used for cooling the crushing mechanism;

the switch assembly is used for controlling the operation and the stop of the cooling assembly;

a crankshaft connecting rod assembly; when the crushing mechanism carries out crushing operation, the crankshaft connecting rod assembly drives the switch assembly to carry out reciprocating switch operation.

2. A waste disposal device with shredding function as claimed in claim 1, wherein said first shredding means comprises:

a first drive shaft; one end of the first transmission shaft penetrates through the crushing chamber;

at least one set of first crushing blades; the first crushing blade is arranged on the first transmission shaft;

a second driven gear; the second driven gear is arranged at one end of the first transmission shaft.

3. A waste disposal device with shredding function as set forth in claim 2, wherein said drive assembly comprises:

the first driven gear is used for driving the first transmission shaft to rotate; the first driven gear is arranged at one end, far away from the second driven gear, of the first transmission shaft;

the driving gear is used for driving the first driven gear to rotate; the driving gear is meshed with the first driven gear;

the motor is used for driving the driving gear to rotate; the driving gear is connected with the motor.

4. A waste disposal device with shredding function as claimed in claim 2, wherein said second shredding means comprises:

a second drive shaft; the second transmission shaft is rotatably arranged in the crushing chamber;

the third driven gear is used for driving the second transmission shaft to rotate; the third driven gear is arranged on the second transmission shaft; the third driven gear is meshed with the second driven gear;

at least one set of second crushing blades; the second crushing blade is arranged on the second transmission shaft; the second crushing blades and the first crushing blades are arranged at intervals.

5. A waste disposal device with shredding function as claimed in claim 4, wherein said cooling module comprises:

the cooling pipe is used for cooling the first transmission shaft and the second transmission shaft; the first transmission shaft and the second transmission shaft are both hollow structures; the cooling pipes are arranged inside the first transmission shaft and the second transmission shaft;

a liquid inlet pipe; the liquid inlet pipe is communicated with one end of the cooling pipe;

a liquid outlet pipe; the liquid outlet pipe is communicated with one end of the cooling pipe, which is far away from the liquid inlet pipe;

a pump for delivering a cooling fluid; the pump is arranged on the liquid inlet pipe.

6. A waste disposal device with shredding function as claimed in claim 5, wherein said switch assembly comprises:

a baffle plate for controlling the circulation of the cooling liquid; the baffle plate is arranged in the liquid inlet pipe;

a fixed block; the fixed block is arranged in the liquid inlet pipe; the two fixing blocks are respectively positioned on the opposite sides of different surfaces of the baffle plate;

an elastic member; two elastic pieces are arranged; one end of the elastic piece is fixedly arranged on the baffle, and the other end of the elastic piece is fixedly arranged on the fixed block;

an on-off valve; the switch valve is fixedly arranged on the baffle; the switch valve is provided with an inclined block;

the first connecting rod is used for controlling the blocking piece to open and close in a reciprocating manner; the first connecting rod is movably arranged on the inclined block.

7. The garbage disposal apparatus with shredding function according to claim 6, wherein said crankshaft connecting rod assembly comprises:

a fourth driven gear; the fourth driven gear is fixedly arranged on one side of the first transmission shaft penetrating through the crushing chamber;

a fifth driven gear; the fifth driven gear is fixedly arranged on the crushing chamber; the fifth driven gear is meshed with the fourth driven gear;

a second link; the second connecting rod is movably arranged at the eccentric position of the fifth driven gear;

a third link; the second connecting rod is movably arranged on the first connecting rod;

the sliding block is used for driving the first connecting rod to reciprocate; the sliding block is arranged at one end, far away from the second connecting rod, of the third connecting rod; the sliding block is connected with the first connecting rod;

a guide rail; the slider is arranged on the guide rail.

Images