TWM445005U - Auto-sensing type disposal compressing refrigerated chamber - Google Patents

Description

Automatic inductive waste compression refrigerator

The present invention provides an automatic inductive waste compression refrigerator, in particular to a processing device capable of compressing and refrigerating waste, relating to a storage tank and a compression unit for disposing waste in a housing, in particular for controlling a compression unit in the housing Sensor.

According to the current high-rise buildings and dense population density, the amount of garbage generated every day tends to increase. As environmental awareness becomes more and more important, the way of treating garbage has always been every country or city. Urgent solutions and urgent problems are needed.
It is also known that in general, communities, residential buildings, corporate office buildings, schools, etc., most of them have a lot of garbage storage bins or garbage storage bins in one concentration to collect all discarded garbage for treatment and classification. However, the general The garbage storage tank or the storage box is only a large accommodating space, and at most, there is a cover body for shielding; therefore, when the garbage is accumulated and stored for a long time, it is easy to produce sewage and bad odor due to fermentation. Especially in the summer time, under the exposure of the sun, in addition to the odor caused by the garbage itself and the secondary pollution caused by the sewage, it is more likely to affect the surrounding or working environment of the home due to the breeding of mosquitoes and flies.
Furthermore, although there is a so-called garbage classification, if the garbage such as Baote bottles, iron-aluminum cans, and cartons are not compressed, they are directly thrown into the garbage storage bin or the garbage storage bin, which is likely to cause waste in the storage space and The increase in the cost of clearing garbage. Therefore, how to eliminate the above problems is the technical difficulty point that the creators of the case want to solve.

The purpose of the present invention is to overcome the above-mentioned prior art, the garbage is not directly compressed into the garbage storage box or the garbage storage bin, and the waste of the storage space and the cost of cleaning the garbage are easily increased, and the garbage is long. The accumulation and storage of time is easy to ferment, produce sewage and foul odor, causing secondary pollution of the environment, and breeding mosquitoes and flies to affect the surrounding and working environment of the home.
In order to achieve the above objectives, the creation of the automatic inductive waste compression refrigerator includes:
a casing having a side inlet for supplying waste and an inlet and outlet;
a storage bin is disposed in the housing, the input port is connected to the storage tub, so that waste can fall into the storage tub;
a compression unit, disposed in the casing and located at an opposite end of the storage tank, having a compact that can press and release the waste in the storage tank along a linear path;
a vibration unit disposed in the casing and located at the bottom of the storage tub, capable of shaking the storage tub to make the waste in the storage tub be flat;
An inventory sensor is disposed in the housing and located on the side of the storage tub, and is electrically connected to the compression unit and the vibration unit, and the inventory sensor can sense whether the inventory of the waste in the storage bucket reaches one a preset height, when the sensing waste stock reaches the preset height for the first time, causing the vibration unit to shake the storage bucket, and when the preset height is reached for the second time, the compression unit drives the compaction block Pressing the waste in the storage tank; and a refrigerating unit, disposed on the inner wall of the casing, has a cold air discharge end connecting the interior of the casing, the storage tub and the compression unit, and the refrigeration unit supplies cold air to the convection via the discharge end The inside of the casing, between the storage tub and the compression unit, keeps the waste in the storage tank at a low temperature.
According to the above, the recyclable waste such as a bottle, a can or an aluminum thin bag can be put into the storage tank through the input port, and when the stock sensor senses that the waste stock in the storage bin has reached the preset height, The compression unit drives the compact to compress the waste in the storage tank from top to bottom, reducing the volume of the waste.
During the period, the refrigeration unit is used to provide cold air to all corners of the casing, so that the temperature of the cold air in each corner of the casing is evenly distributed, so that the waste in the storage tank is kept at a low temperature to prevent waste from being polluted, causing odor and breeding. Mosquitoes cause secondary pollution of the environment.
Accordingly, in order to achieve waste reduction and environmental sanitation.
The following is a detailed description of the specific implementation of this creation:
The refrigerating unit is disposed on the inner wall of the top of the casing, so that the cold air is evenly distributed from the top to the bottom in the casing.
There is a water collecting tray below the storage tank, which can take up the sewage generated by the waste in the storage tank, and the water collecting tray has a drainage pipe extending to the outside, which can discharge the accumulated sewage in the water collecting tray to the outside.
The storage tub has a storage tank, and the bottom of the storage tank forms an inclined surface.
Compared with the prior art, this creation uses the stock sensor to continuously sense the waste inventory, and automatically judges the timing of compressing the waste by the compression unit, and uses the refrigeration unit to keep the waste at a low temperature; thus, it can reduce garbage or waste. The volume of the object itself increases the storage capacity, and the compressed garbage or waste is caused by low temperature without causing odor or breeding of mosquitoes and flies to cause secondary pollution, thereby achieving waste reduction, environmental protection, saving manpower and keeping the surrounding environment clean. The purpose.
However, in order to clearly and fully disclose the present invention, and to illustrate the preferred embodiment, the detailed description of the embodiments will be described as follows:

Referring to FIG. 1 , a perspective view of a preferred embodiment of the present invention is disclosed, and the automatic induction waste compression refrigerator of the present invention is described with reference to FIG. 2 , which comprises a casing 1 , a storage bucket 2 , and a compression unit 3 . a vibration unit 6, a stock sensor 4, and a refrigeration unit 5; wherein:
The housing 1 has an accommodating chamber 10 therein, and at least one waste input port 11 and an inlet and outlet 12 that communicate with the accommodating chamber 10 are disposed on the outer side of the housing 1. The input port 11 can supply waste for storage. In the chamber 10, the inlet and outlet 12 can supply cleaning personnel into and out of the accommodating chamber 10.
The input port 11 is provided with a cover plate 13 which can open and close the input port 11 (as shown in FIG. 3 and FIG. 4). The doorway 12 is provided with a door panel 14 which can open and close the inlet and outlet 12 ( As shown in Figure 7).
The storage tub 2 is disposed inside the accommodating chamber 10 of the casing 1 and is located below the input port 11 . The storage tub 2 has a storage slot 21 open upward, and the input port 11 communicates with the storage bucket 2 . The tank 21 allows waste to enter the accommodating chamber 10 via the inlet port 11 and into the storage tank 21 of the storage tub 2.
The compression unit 3 is disposed at the top of the accommodating chamber 10 of the casing 1 and is located at an opposite end of the storage tank 21 of the storage tub 2. The compression unit 3 has a cylinder rod 31 having at least one hydraulic cylinder at the bottom. A pressure block 32 is coupled to the top end of the cylinder rod 31. The cylinder rod 31 can reciprocally move the pressure block 32 up and down along a linear path, and the pressure block 32 is pressed down and the waste in the storage tank 21 of the storage tank 2 is released. (As shown in Figure 5).
The vibration unit 6 is disposed at the bottom of the housing 10 of the housing 1 and is located at the bottom of the storage tub 2. The vibration unit 6 includes a vibration motor, and the bottom of the storage bucket 2 can contact the vibration unit 6 or be placed on the vibration unit 6. The vibration unit 6 is caused to shake the storage tub 2, so that the waste in the storage tub 2 slides downward and is flattened by shaking.
The storage sensor 4 is disposed in the accommodating chamber 10 of the housing 1 and is located on the near side of the slot 22 of the storage slot 21 of the storage tub 2, and is electrically connected to the compression unit 3 and the vibration unit 6. The inventory sensor 4 is capable of sensing whether the inventory of the waste in the storage tub 2 reaches a predetermined height, and the inventory sensor 4 senses that the amount of waste in the storage bucket 2 reaches the preset height for the first time. The vibration unit 4 is caused to shake the storage tub 2, and when the preset height is reached for the second time, the compression unit 3 is caused to urge the pressing block 32 to press the waste in the storage tub 2.
In the implementation, a counter can be integrated into the inventory sensor 4 to count the number of times the inventory sensor 4 senses that the waste inventory reaches a preset height, and the counter returns to the preset height when the second time is reached. Zero, to recount; the preset height refers to the height position in the storage tank 21 below the notch 22, flush with the notch 22 or above the notch 22. In this embodiment, it may be near the notch 22.
The stock sensor 4 has a corresponding transmitting element 41 and a receiving element 42. When the waste in the storage tank 21 is accumulated to the notch 22, the waste located in the notch 22 of the storage tank 21 can block the receiving component 42 from receiving. The signal from the transmitting component 41 causes the stock sensor 4 to sense that the waste stock in the storage tub 2 is full, and the compact 32 of the compressing unit 3 presses the waste in the storage tub 2.
The refrigerating unit 5 is disposed on the inner wall of the top of the accommodating chamber 10 of the casing 1, and includes a compressor, a condenser, a fan, and the like, and the refrigerating unit 5 has a storage compartment 10 communicating with the casing 1 and a storage tub. 2 and the cold air discharge end 51 of the compression unit 3 (as shown in FIG. 2 and FIG. 6), the refrigeration unit 5 supplies cold air to the accommodation chamber 10 of the casing 1 through the discharge end 51, and the cold air is evenly distributed from the top to the bottom. The cold air converges between the inside of the accommodating chamber 10 of the casing 1 and between the storage tub 2 and the compression unit 3, so that the temperature of the cold air in each corner of the casing 1 is evenly distributed, and the waste in the storage tub 2 is kept at a low temperature.
In addition, the storage bucket 2, the compression unit 3, and the inventory sensor 4 can also be implemented as a complex array to increase the amount of garbage storage or garbage classification.
By the above-mentioned component composition, the user can implement the creation, and the user can put the garbage and the waste into the storage tank 21 of the storage tub 2 through the input port 11 one by one; during this period, the waste in the storage tub 2 is kept by the refrigeration unit 5 In the low temperature state, the stock sensor 4 continuously senses whether the stock of waste in the storage tub 2 reaches a preset height.
When the stock sensor 4 senses that the amount of waste in the storage tub 2 reaches the preset height for the first time, the shock unit 4 temporarily shakes the storage tub 2, so that the waste in the storage tub 2 slides downward by shaking. The garbage and waste in the storage tank 21 are leveled, and the waste stock is lower than the preset height.
When the stock sensor 4 senses that the waste stock in the storage tank 2 reaches the preset height for the second time, the cylinder rod 31 of the compression unit 3 drives the pressure block 32 to move down into the storage tank 21, causing the pressure block to be pressed. 32 compressing the waste in the storage tank 21 from top to bottom, so that the waste stock is lower than the preset height; the waste in the storage tank 21 is compressed by the compact 32 of the compression unit 3, and then stored in the storage tank 2 Inside.
By the above, the recyclable waste such as a bottle, a can or an aluminum thin bag can be put into the storage tub 2 through the input port 11, and the stock sensor 4 senses that the waste stock in the storage tub 2 has reached the preset. At the height, the compression unit 3 is driven to press the compact 32 from the top to the bottom to compress the waste in the storage tank 2, so as to reduce the volume of the garbage or the waste itself, especially the large-capacity resource such as the PET bottle or the carton. The object, in turn, increases the storage capacity of the storage bin 2 and reduces the number of garbage removals.
The refrigeration unit 5 is used to provide cold air to the inner corners of the casing 1 so that the temperature of the cold air in each corner of the casing 1 is evenly distributed, so that the garbage or kitchen waste stored in the storage tank 2 can be refrigerated to prevent garbage or The kitchen waste produces a foul odor and breeds mosquitoes that cause environmental pollution.
It is worth mentioning that the vibration unit 6 shakes the storage tub 2 to make the garbage and waste in the storage tank 21 flat, which can increase the storage amount of garbage and waste.
When the storage capacity of the storage tub 2 is full, the clearing personnel can carry out the storage tub 2 through the inlet and outlet 12 on the side of the casing 1 to facilitate dumping of the compressed garbage or waste in the storage tub 2. Accordingly, in order to achieve waste reduction and environmental sanitation.
Further implementations of this creation are further described below:
In order to collect the sewage generated by the waste in the storage tank 2, a plurality of water leakage holes 23 are formed at the bottom of the storage tank 2, and a water collecting tray 7 is disposed below the water leakage hole 23 of the storage tank 2, and the water collecting tray 7 can pass through the water leakage hole. 23 The sewage generated by the waste in the storage tank 2 is taken; the end of the water collecting tray 7 is provided with a drain pipe 71 extending to the outside, and the sewage accumulated in the water collecting tray 7 can be discharged to the outside.
The bottom of the tank of the storage tank 21 can also form an upwardly inclined surface 24, which can guide the sewage generated by the waste to flow to the bottom of the storage tank 21 and flow into the leak hole 23.
Compared with the prior art, the present invention uses the stock sensor 4 to continuously sense the waste inventory, and automatically determines the timing at which the compression unit 3 compresses the waste, and uses the refrigeration unit 5 to keep the waste in a low temperature state; thus, it is possible to reduce The volume of garbage or waste itself increases the storage capacity, and the compressed garbage or waste will cause secondary pollution due to low temperature without causing odor or breeding of mosquitoes and flies, so as to achieve waste reduction, environmental protection, labor saving and maintenance. The purpose of the surrounding environment is clean.
In summary, it is only a preferred embodiment of the present invention, and is not intended to limit the present invention; any equivalent modification or replacement that is not done in the spirit of the present disclosure should be included in the patent application described later. Within the scope.

1‧‧‧shell
10‧‧‧ housing room
11‧‧‧ Input
12‧‧‧ Entrance
13‧‧‧ Cover
14‧‧‧ Door panel
2‧‧‧ storage bucket
21‧‧‧ storage tank
22‧‧‧ notch
23‧‧‧ leaking holes
24‧‧‧ sloped surface
3‧‧‧Compression unit
31‧‧‧Cylinder rod
32‧‧‧Clamps
4‧‧‧ stock sensor
41‧‧‧Transmission components
42‧‧‧ receiving components
5‧‧‧Refrigeration unit
51‧‧‧ discharge end
6‧‧‧Vibration unit
7‧‧‧Water collecting tray
71‧‧‧Drainage pipe

Figure 1 is a perspective view of a preferred embodiment of the present invention;
Figure 2 is a side cross-sectional view of Figure 1;
Figure 3 is a perspective view of a use state of Figure 1;
Figure 4 is a partial enlarged cross-sectional view of Figure 2;
Figure 5 is a cross-sectional view showing a state of use of Figure 4;
Figure 6 is a perspective view of another use state of Figure 1;
Fig. 7 is a perspective view showing still another use state of Fig. 1.

1‧‧‧shell

11‧‧‧ Input

12‧‧‧ Entrance

13‧‧‧ Cover

14‧‧‧ Door panel

2‧‧‧ storage bucket

21‧‧‧ storage tank

3‧‧‧Compression unit

31‧‧‧Cylinder rod

32‧‧‧Clamps

5‧‧‧Refrigeration unit

6‧‧‧Vibration unit

Claims (5)

An automatic inductive waste compression refrigerator comprising:
a casing having a side inlet for supplying waste and an inlet and outlet;
a storage bin is disposed in the housing, the input port is connected to the storage tub, so that waste can fall into the storage tub;
a compression unit, disposed in the casing and located at an opposite end of the storage tank, having a compact that can press and release the waste in the storage tank along a linear path;
a vibration unit disposed in the casing and located at the bottom of the storage tub, capable of shaking the storage tub to make the waste in the storage tub be flat;
An inventory sensor is disposed in the housing and located on the side of the storage tub, and is electrically connected to the compression unit and the vibration unit, and the inventory sensor can sense whether the inventory of the waste in the storage bucket reaches one a preset height, when the sensing waste stock reaches the preset height for the first time, causing the vibration unit to shake the storage bucket, and when the preset height is reached for the second time, the compression unit drives the compaction block Pressing the waste in the storage tank; and a refrigerating unit, disposed on the inner wall of the casing, has a cold air discharge end connecting the interior of the casing, the storage tub and the compression unit, and the refrigeration unit supplies cold air to the convection via the discharge end The inside of the casing, between the storage tub and the compression unit, keeps the waste in the storage tank at a low temperature. The automatic induction waste compression refrigerator according to claim 1, wherein the refrigeration unit is disposed on an inner wall of the top of the casing. The automatic inductive waste compression refrigerator according to claim 1, wherein a water collecting tray is disposed under the storage tank to receive sewage generated by the waste in the storage tank. The automatic induction waste compression refrigerator according to claim 3, wherein the water collection tray has a drain pipe extending to the outside. The automatic inductive waste compression refrigerator according to claim 1, wherein the storage tub has a storage tank, and the bottom of the storage tank forms an inclined surface.