KR101332765B1 - Disposal apparatus of food waste materials - Google Patents

Abstract

According to the present invention, when the food waste is discarded through the inlet while the cover is opened by the ejector card, the weight of the food waste is automatically measured and the weight information of the food waste is transmitted to the management room system through the communication network to receive the food waste. Based on the quantity information, it is possible to impose a reasonable cost according to the amount of food waste discharged, and the cooling tube installed in the condenser can be formed into a structure that can increase the moving speed of the refrigerant, thereby greatly improving cooling efficiency. Disclosed is a food waste treatment apparatus.

Description

Food Waste Disposal Device {DISPOSAL APPARATUS OF FOOD WASTE MATERIALS}

According to the present invention, when the food waste is discarded through the inlet while the cover is opened by the ejector card, the weight of the food waste is automatically measured, and the weight information of the food waste is transmitted to the management room server through the communication network to receive the food waste. Based on the quantity information, it is possible to impose a reasonable cost according to the amount of food waste discharged, and the cooling tube installed in the condenser can be formed into a structure that can increase the moving speed of the refrigerant, thereby greatly improving cooling efficiency. To a food waste treatment device.

In accordance with the implementation of the food waste pay-as-you-go system, when disposing of food waste, the general residential area disposes of food in a food-only bag, and the clean house puts food waste in a food waste container. In addition, more than 50 households are installing food waste treatment devices at certain places to treat food waste.

As an example of such a food waste treatment device, Korean Patent Registration No. 1124217 describes, “It can be collected directly from the place where food waste is generated and fermented and processed by environment-friendly microorganisms to prevent environmental pollution and reduce carbon generation. It is possible to contribute significantly to the fermentation and decomposition of microorganisms, no odor is generated, no purification device is required, and no food waste collection vehicle is required, which not only reduces the cost of processing food waste, but also has a simple structure and maintenance. It is possible to reduce the cost and to be recycled as fertilizer or solid fuel. The cover is installed to be opened and closed to input food waste, and when the cover is opened, the microbial carrier pre-injected the food waste injected through the inlet is opened. A fermentation cracking tank which is fermented and cracked by; The first partition wall is installed vertically at a specific height from the bottom of the fermentation cracking tank so that the fermentation cracking byproducts fermented in the fermentation cracking tank are passed. Aging and disintegration tank to simultaneously and decompose; A second partition wall is installed vertically at a specific height from the bottom of the maturation tank at a certain length away from the first partition wall so that the aged cracking by-products are passed in the maturation tank, and the fermentation cracking by-products passed over the second compartment wall. Receiving and decomposing and at the same time storing the decomposition completion tank; A shaft having both ends rotatably supported by a bearing through the fermentation cracking tank, the aged cracking tank and the cracking completion tank; A pair of first stirring blades installed on an outer circumferential surface of the shaft to fermentally decompose the food waste introduced into the fermentation digestion tank to stir the food waste and microorganisms stored in the fermentation digestion tank; A second stirring blade which is installed on the outer circumferential surface of the shaft and stirs the unfermented by-products and microorganisms in the fermentation digestion tank so as to ripen the unfermented by-products stored in the fermentation digestion tank after being passed from the fermentation digestion tank; A third stirring blade installed on an outer circumferential surface of the shaft to stir the undecomposed byproducts and microorganisms stored in the decomposing tank so as to decompose the undecomposed byproducts stored in the decomposing tank to decompose; A drive motor installed in the machine room and generating a driving force upon application of power; Power transmission means for transmitting a driving force output from the driving motor to the shaft to rotate the shaft; A suction pipe installed in the fermentation cracking tank and the aging cracking tank and formed with a plurality of through holes to suck high temperature and high humidity air; When the microorganisms in the fermentation cracking tank, the aged cracking tank and the cracking completion tank fermentally crack or ferment the food waste, and at the same time, the power is applied to the protrusion to maintain the temperature in the fermentation cracking tank, the cracking cracking tank and the cracking cracking tank. A heat medium storage tank provided with a heater radiating heat; A condenser for receiving heat from the fermentation cracking tank and the ripening cracking tank sucked from the suction pipe and exchanging heat by cooling with a refrigerant flowing through the refrigerant pipe installed therein; A blower which receives the air discharged from the air discharge pipe of the condenser and blows it into the pipe; A first branch pipe blown by the blower and branched from the pipe to supply air having a temperature dropped through the pipe to the decomposition completion tank; The second branch pipe which is blown by the blower and branched from the pipe to block the leakage of warmth in the fermentation cracking tank, the maturation cracking tank and the decomposition completion tank and to block the internal odor generated during fermentation and ripening. A plurality of nozzles are formed at regular intervals in order to form an air curtain by receiving horizontally introduced air from the upper part of the fermentation cracking tank to form an air curtain, and having an air curtain ejection pipe installed on the upper part of the fermentation cracking tank. And a heat medium storage tank is gradually reduced in size as it descends into a fermentation cracking tank, a aging cracking tank and a completion tank. The technology related to the patent has been filed and disclosed by the applicant.

However, the conventional manufacturing equipment for fertilizers and solid combustion fuels using food waste does not have a separate device for checking the information on the amount of food waste generated by each generation put into the fermentation cracker, so the cost according to the weight of food waste There was a difficulty in imposing.

In addition, the apparatus for producing fertilizer and solid combustion fuel using food waste is spirally wound in a funnel-shaped housing and the housing, and is introduced through a refrigerant introduction unit to receive high temperature and high humidity air sucked through a suction pipe to heat and heat it. A refrigerant pipe for discharging the refrigerant through the refrigerant discharge unit, an air discharge pipe for discharging air having a temperature exchanged inside the refrigerant pipe, and a condensate discharge pipe installed at the lower portion of the housing to discharge condensed water, which is formed on the outer circumferential surface of the refrigerant pipe, to the outside And a cover configured to seal the opening of the housing. However, the refrigerant pipe inside the condenser is formed as one integral pipe connected integrally, and as the moving distance of the refrigerant moving along the refrigerant pipe becomes longer, the circulation speed of the refrigerant decreases, resulting in low cooling efficiency and longer operation time. Problems such as an increase in the amount of electricity used occurred.

In order to solve the above-mentioned problem, the present invention is to discard the food waste through the inlet in the state that the cover is opened by the contact method of the ejector card, the weight of the food waste is automatically measured and the weight information of this food waste through the management network through the communication network Based on the information on the amount of food waste received and sent to the system, it is possible to impose a reasonable cost according to the amount of food waste discharged and to form the structure of the refrigerant pipe installed inside the condenser to increase the speed of refrigerant movement. The purpose is to provide a food waste treatment apparatus that can greatly improve the cooling efficiency.

In order to achieve the above object, the present invention provides a fermentation and decomposition tank for fermenting and decomposing the food waste introduced through the inlet at the time of opening the cover by the microorganism carrier injected in advance; A condenser that receives the high temperature and high humidity air in the fermentation cracking tank and the ripening cracking tank sucked from the suction pipe and heats it by a refrigerant flowing through the refrigerant pipe installed therein to discharge the air whose temperature has fallen; Contacting the ejector card in the LCD window installed on the outside of the food waste treatment device, the cover installed in the fermentation cracker is opened and closed, and the cover opening and closing device for measuring the weight of the food waste to impose a reasonable cost according to the food waste discharge; It provides a food waste treatment apparatus, characterized in that configured to include.

In addition, the LCD window is a reader for reading the information of the ejector card containing the information of the food waste ejector, the ejector card is preferably an electronic tag providing information of the food waste ejector.

In addition, when food waste is put into the fermentation cracker, when the ejector card is contacted with the LCD window, the cover is automatically opened so that the food waste can be put into the fermentation cracker, and the food waste is put into the fermentation cracker. The cover is closed when the ejector card is in contact, and after the cover is closed, the weight of the food waste displayed on the LCD window is checked, and when the ejector card is contacted with the third LCD window, the discharge process of the food waste is preferably completed.

In addition, the cover opening and closing device is a cover for opening and closing the opening so that food waste can be introduced into the fermentation cracking tank; As a guide to stably feed the food waste into the fermentation cracking tank, a hopper installed inside the inlet; A connecting lever connecting the rotating shaft installed under the cover back and the cover back to open and close the cover by rotating the rotating shaft; One end is connected to the first motor by the power transmission means, and the ejector card contacts the LCD window to discard the food waste while the cover is closed, the cover is rotated about the lower end of the connecting lever by the drive of the first motor. A rotating shaft for opening the cover; An opening door which is installed inside the hopper, one end of which is connected to the operation shaft to open and close the internal passage of the hopper by a rotation operation of the operation shaft; A weighing apparatus for measuring a weight of food waste placed on the opening door while the opening door is closed; An operation shaft having one end connected to the second motor by a power transmission means to rotate the door to open and close the passage of the hopper by a rotation operation by the driving of the second motor; It is preferably configured to include; proximity sensor that is installed on the rotating shaft or the operating shaft.

In addition, the weighing device includes an outer frame formed in a shape surrounding the hopper; Load cell guides supporting the load cells and installed in the outer frame by the number of load cells; A load cell guide plate having one end connected to an upper end of the load cell and the other end connected to a side of the hopper; If one side is connected to the load cell guide and the top is connected to one end of the load cell guide plate, and the food waste put into the hopper is placed in the door, the hopper is lowered by the weight of the food waste and the load cell guide plate connected to the hopper is It is preferably configured to include; a load cell for measuring the food weight by pressing the upper end to display the measured weight in the LCD window.

In addition, when the ejector card is contacted with the primary LCD window to feed the food waste into the fermentation cracker, the first motor that receives the signal rotates the rotating shaft so that the cover opens automatically. When the ejector card contacts the car's LCD window, the first motor that receives the signal rotates the rotating shaft to close the cover automatically.The food waste falls on the opening and closing door, and the weight of the food waste is measured by the load cell. The weight of is displayed on the LCD window. After checking the food waste weight displayed on the LCD window, if you touch the ejector card on the third LCD window, the weight information of the food waste is transmitted to the management server and the second motor that receives the signal Rotate and open the door to allow food waste to fall into the fermentation cracker. After the dropping of the waste is completed, the second motor preferably rotates the operation shaft to the reverse rotation so that the door is closed.

In addition, the packing structure is installed on the lower edge of the cover is installed on the lower edge of the cover is formed with a first convex projection is convex downward along the outer edge to the second contact protrusion of the lower packing along the inner edge of the first pressing projection An upper packing in which an upwardly concave first contact groove of a corresponding shape is formed; It is to be installed below the cover contact portion corresponding to the upper packing, the upper edge of the upper packing is coupled to the first pressing projection of the second packing groove corresponding to the first pressing projection of the upper packing correspondingly formed and the The lower packing is characterized in that the lower packing is formed on the edge where the first close contact groove is formed, the second convex upwardly convex protrusion corresponding to the first close contact groove of the upper packing.

In addition, the first and second pressing protrusions of the upper packing and the lower packing may be formed into a spherical shape, and the first and second close contact grooves of the upper packing and the lower packing may be formed of spherical grooves corresponding to the first and second pressing protrusions of the spherical shape. Do.

In addition, the refrigerant pipe is a refrigerant introduction pipe into which the refrigerant enters as one tube; A multi-pipe section in which a plurality of individual pipes formed of a plurality of pipes are installed so that refrigerant may be injected respectively; Refrigerant discharge pipe for discharging the refrigerant having a heat exchange as one tube; A plurality of first pipes installed between the refrigerant introduction pipe and the individual pipes, each of the first branch pipes corresponding to each of the individual pipes, and a plurality of first pipes connected to the first branch pipe; It is installed between the refrigerant introduction pipe and the plurality of first pipes, the second branch pipe which is divided into a plurality of branches corresponding to the first connection pipe of each first pipe and the second one connected to the refrigerant introduction pipe while connecting them as one. A second pipe consisting of a connecting pipe; A plurality of third pipes installed between the refrigerant discharge pipe and the individual pipes, each of the third branch pipes branched into a plurality of branch pipes corresponding to each of the individual pipes, and a third connecting pipe connected to the third pipe; It is installed between the refrigerant discharge pipe and the plurality of third pipes, the fourth branch pipe branched into a plurality of branches corresponding to the third connection pipe of each third pipe and the fourth connection pipe connected to the refrigerant discharge pipe at one end thereof. It is preferably configured to include a; fourth pipe consisting of.

In addition, the first compartment wall is installed vertically at a specific height from the bottom of the fermentation tank so that the fermentation by-products fermented in the fermentation tank are passed. Aging digestion tank to receive and age at the same time; A second compartment wall is installed vertically at a specific height from the bottom of the maturation tank so that the maturation by-products aged in the maturation tank flow over the first compartment wall, and a second compartment is installed vertically at a specific height. Receiving and decomposing and at the same time decomposing completion tank; A shaft having both ends rotatably supported by a bearing through a fermentation cracking tank, a maturing cracking tank and a decomposition cracking tank; A pair of first stirring blades installed on an outer circumferential surface of the shaft to ferment and decompose food waste put into the fermentation digestion tank to stir the food waste and microorganisms stored in the fermentation digestion tank; A second stirring blade installed on an outer circumferential surface of the shaft to stir the unfermented by-products and microorganisms in the fermentation digestion tank so as to mature the unfermented by-products stored in the fermentation digestion tank after being passed from the fermentation digestion tank; A third stirring blade installed on an outer circumferential surface of the shaft to stir the undecomposed by-products and microorganisms stored in the decomposing tank so as to decompose the undecomposed by-products stored in the decomposing tank to decompose; A drive motor installed in the machine room and generating a driving force upon application of power; A power transmission member for transmitting a driving force output from the driving motor to the shaft to rotate the shaft; A suction pipe installed in the fermentation cracking tank and the aging cracking tank and formed with a plurality of through holes to suck high temperature and high humidity air; When the microorganisms in the fermentation cracking tank, the aged cracking tank and the cracking completion tank fermentally crack or ferment the food waste, and at the same time, the power is applied to the protrusion to maintain the temperature in the fermentation cracking tank, the cracking cracking tank and the cracking cracking tank. A heat medium storage tank having a heater radiating heat; A blower that receives the air discharged from the air discharge pipe of the condenser and blows it into the pipe; A first branch pipe blown by a blower and branched from the pipe to supply air having a temperature dropped through the pipe into the decomposition tank; The second branch pipe which is blown by a blower and branched from the pipe to block the leakage of warmth in the fermentation cracking tank, the maturation cracking tank and the completion tank at the same time, and to block the odor inside the fermentation and maturing. A plurality of nozzles are formed at regular intervals in order to form an air curtain by receiving the air is introduced through the temperature is dropped in the horizontal direction from the top of the fermentation cracking tank, the air curtain spout pipe installed on the inside of the fermentation cracking tank; It is preferable to include.

According to the treatment device for food waste according to the present invention, when the food waste is discarded through the inlet while the cover is opened by the contact method of the ejector card, the weight of the food waste is automatically measured and the weight information of the food waste is communicated through a communication network. Based on the information about the amount of food waste sent to the management room server and received by the management room server, a reasonable cost according to the food waste discharge can be automatically charged.

In addition, the cooling tube installed inside the condenser can be formed into a structure that can increase the moving speed of the refrigerant, thereby greatly improving the cooling efficiency. Can be completely blocked.

1 is a right side view with the outer wall removed according to an embodiment of the invention.
2 is a plan view of the upper portion removed according to an embodiment of the present invention.
3 is a cross-sectional view taken along the line AA in accordance with an embodiment of the present invention.
4 is a cross-sectional view taken along line BB according to an embodiment of the present invention.
Figure 5 is a side view of the cover opening and closing apparatus according to an embodiment of the present invention.
6 is a rear view of the cover opening and closing apparatus according to the embodiment of the present invention.
7 is a front view of the cover opening and closing apparatus according to the embodiment of the present invention.
8 is a plan view of the cover opening and closing apparatus according to the embodiment of the present invention.
9 is an enlarged view of a packing structure according to an embodiment of the present invention.
10 is a plan view of a condenser in accordance with an embodiment of the present invention.
11 is an enlarged view of a refrigerant pipe according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings will be described the configuration of the food waste treatment apparatus according to the present invention.

1 is a right side view with the outer wall removed according to an embodiment of the present invention, FIG. 2 is a plan view with the top removed according to an embodiment of the present invention, FIG. 3 is a cross-sectional view taken along line AA according to an embodiment of the present invention, and FIG. 4 is a cross-sectional view taken along line BB according to an embodiment of the present invention.

As shown in Figures 1 to 4, the present invention receives the fermentation digestion tank 10 for fermenting and decomposing the input food waste, and the hot and humid air in the fermentation digestion tank 10 sucked from the suction pipe 58 therein When the ejector card contacts the condenser 70 which discharges the air whose temperature dropped by the heat exchange action of the refrigerant circulating along the installed refrigerant pipe 72, and the LCD window 300 installed at the outer end of the food waste treatment apparatus, fermentation decomposition is performed. The cover 210 installed in the tank 10 is opened and closed, and is divided into a cover opening and closing device using RFID (Radio Frequency Identification) technology that measures a weight of food waste and imposes a reasonable cost according to food waste discharge.

Here, the cover opening and closing device, the packing structure of the cover 210, the remaining structure other than the condenser 70, which is a feature of the technical configuration of the present invention, the patent applicant No. 1124217 "Fertilizer and solid combustion using food waste" Fuel production apparatus ”.

Specifically, the fermentation digestion tank 10, the maturation digestion tank 20 and the decomposition completion tank 30, the inner peripheral surface thereof is formed in an arc shape, such as a semicircle, the length of the fermentation digestion tank 10 is formed the longest, The length of the decomposition completion tank 30 is formed to be the shortest. The length of the aging decomposition tank 30 is formed of the intermediate length of the length of the fermentation decomposition tank 10 and the length of the decomposition completion tank (30). Accordingly, the length of the first stirring blade 42 is the longest, the length of the third stirring blade 46 is the shortest, and the length of the second stirring blade 44 is the length of the first stirring blade 42 and the third. It is formed in the middle of the length of the stirring blade 46.

In the fermentation cracking tank 10 and the aging cracking tank 20, the suction pipe 58 made up of a plurality of through-holes (58a) is installed to suck the high temperature and high humidity air.

The fermentation digestion tank 10, the maturation digestion tank 20, and the decomposition completion tank 30 are provided with a heat medium storage tank 60 at these lower portions. The heat medium storage tank 60 is formed to gradually shrink as it descends into the fermentation cracking tank 10, the aging cracking tank 20, and the cracking completion tank 30.

A discharge pipe 63 for discharging the heat medium to the outside is installed in the lower protrusion 60a of the heat medium storage tank 60. The discharge pipe 63 is provided with a heat medium discharge valve 63a for controlling the external discharge of the heat medium stored in the heat medium storage tank 60. In addition, the heater 62 is provided in the protrusion 60a to radiate heat when power is applied.

An injection pipe 64 for replenishing the heat medium in the heat medium storage tank 60 is provided at an upper side of the heat medium storage tank 60, and the heat pipe replenishment for controlling the heat medium replenishment in the heat medium storage tank 60 is provided at the injection tube 64. A valve 64a is provided, and a heat medium flow meter 65 made of a transparent tube is installed between the discharge pipe 63 and the injection pipe 64 so as to check the amount of the heat medium stored in the heat medium storage tank 60.

The lower portion of the fermentation cracking tank 10 is further provided with a water injection valve 10b for intermittently injecting water into the lower portion so as to clean the inside. The cover 210 of the fermentation and decomposition tank 10 may be formed with a through hole so as to connect the pipe of the food inlet unit not shown.

The aging decomposition tank 20 is further provided with a first inspection window 22 which can be opened and closed at the bottom so that the inside can be observed and the residual fermentation by-products inside can be sucked out and taken out. The decomposition completion tank 30 may be inspected inside, and at the same time, a second inspection window 32 is formed to be opened and closed at the lower portion so as to suck the decomposition by-product stored therein to the outside.

The drive motor 50 may use a geared motor or a motor to which the speed reducer 51 is attached to reduce the rotation speed. The power transmission member 55 includes a drive sprocket 55a provided on the shaft 50a of the drive motor 50, a driven sprocket 55b provided on one side of the shaft 40, a drive sprocket 55a and a driven sprocket ( 55b) is composed of a chain (55c) for transmitting the driving force output from the drive motor 50 to the shaft (40).

The air curtain blowoff pipe 90 is installed in the upper portion of the fermentation digestion tank 10 and is installed under the cover 210 covering the opening of the fermentation digestion tank 10. The support frame 4 serves to support the bearings 40a and 40b, respectively.

The packing member 19 is a machine room in which food waste and microorganisms stored in the fermentation cracking tank 10 are formed by the inner wall 11 and the outer wall 11a through the inner wall 11 of the fermentation cracking tank 10. It is provided in the outer peripheral surface of the shaft 40 so as to prevent the leak to (12).

The packing member 39 is a space 21b in which the decomposed by-products stored in the decomposing tank 30 are formed by the inner wall 21 and the outer wall 21a through the inner wall 21 of the decomposing tank 30. It is installed on the outer circumferential surface of the shaft 40 to prevent leakage to the furnace.

Next, the configuration of the cover opening and closing device, the packing structure of the cover 210, the condenser 70, which is the biggest feature in the technical configuration of the present invention.

5 is a side view of the cover opening and closing device according to an embodiment of the present invention, Figure 6 is a rear view of the cover opening and closing device according to an embodiment of the present invention, Figure 7 is a front view of the cover opening and closing device according to an embodiment of the present invention. 8 is a plan view of the cover opening and closing apparatus according to the embodiment of the present invention.

As shown in Figure 5 to 8, the cover opening and closing device is a cover 210 for opening and closing the inlet, hopper 220 for guiding the food waste into the fermentation and decomposition tank 10 stably, and the cover Connection lever 230 for connecting the cover 210 to open and close the 210, the rotary shaft 240 is connected to the connection lever 230 to open and close the cover 210 by the rotation operation, and the hopper 220 Open and close door 250 is installed inside the opening and closing the hopper 220, the weighing device 260 for measuring the weight of food waste, and is connected to one end of the opening and closing door 250 by a rotation operation The operation shaft 270 is configured to open and close the 250.

Specifically, the cover 210 is installed on the upper surface of the fermentation cracking tank 10 in response to the fermentation cracking tank 10 and serves to open and close the inlet so that food waste can be introduced into the fermentation cracking tank 10. . As illustrated by the arrow of FIG. 5, the cover 210 is opened while being rotated upward by the rotation operation of the rotation shaft 240.

The hopper 220, which is installed in the inlet, provides a passage through which food waste can stably fall into the fermentation cracking tank 10. The opening and closing door 250 that can open and close the passage is installed at an approximately intermediate point of the internal passage of the hopper 220.

Connection lever 230, one end is connected to the back of the cover 210 and the other end is connected to the rotary shaft 240 installed on the bottom of the cover 210, the cover by the rotation operation of the rotary shaft 240 ( 210 allows the rotation axis 240 to be opened and closed about the rotation shaft 240.

The rotary shaft 240 is installed below the cover 210 and has one end connected to the first motor 291 by a power transmission means 280 such as a chain and rotated by driving of the first motor 291. When the power transmission means 280 is transmitted to the cover 210 while the forward and reverse rotation. Specifically, the rotation operation of the rotary shaft 240 is in contact with the ejector card to the LCD window 300 installed on the outer end of the food waste processing apparatus of the present invention as shown in Figure 1 in order for the ejector to discard food waste in the closed state (210). When the first motor 291 is driven when the rotary shaft 240 rotates, the cover 210 is rotated and opened.

Here, the LCD window 300 may be a reader for reading the information of the ejector card containing the information of the food waste ejector, the ejector card may be an electronic tag for providing information of the food waste ejector.

Opening and closing door 250, which serves to open and close the passage inside the hopper 220, one end is connected to the operating shaft 270, as shown in the arrow of Figure 5 by the rotation operation of the operating shaft (270) operating shaft ( 270 is rotated downward to open the food waste to fall into the fermentation cracking tank 10 along the inner passage of the hopper 220.

The weighing device 260 is a device for measuring the weight of food waste placed on the opening and closing door 250 in a state where the opening and closing door 250 is closed. The weighing device 260 connects the outer frame 261 that is installed outside the hopper 220, the load cell guide 262 that is installed inside the outer frame 261, and the load cell 264 and the hopper 220. And a load cell guide plate 263 and a load cell 264.

For reference, the load cell has a deformation proportional to the stress when the load is applied to the load button, and the electric current of the strain gauge changes according to the deformation, so that the current flowing changes and converts it into a digital electrical signal to display the load directly as a number. Device.

Specifically, the outer frame 261 is installed in a form surrounding the hopper 220, and the upper end is installed in a state in which the hopper 220 is spaced apart from each other. In this case, the outer frame 261 may be a cylindrical structure that is installed on the left and right sides of the hopper 220 or the cylindrical hopper 220.

The load cell guide 262 connects the outer frame 261 and the load cell 264. The load cell guide 262 is installed corresponding to the number of installation of the load cell 264 inside the outer frame 261 so as to connect the outer frame 261 and the load cell 264.

The load cell guide plate 263 connects the load cell guide 262 and the hopper 220, one end of which is connected to the top of the load cell 264, and the other end of which is connected to the side of the hopper 220.

The load cell 264 has one side connected to the load cell guide 262 and the upper end connected to the load cell guide plate 263.

Therefore, when the food waste introduced into the hopper 220 is placed in the opening and closing door 250, the load cell guide plate 263 connected to the hopper 220 and the load cell guide plate 263 is lowered by the weight of the food waste. (264) The upper end is pressed and the weight of the food waste is measured so that the measured weight is displayed on the LCD window 300 and the information is sent to the management room server.

Meanwhile, the proximity angle sensor is installed at one end of the rotation shaft 240 or the operation shaft 270 to drive the first and second motors 291 and 292 according to the signal of the proximity angle sensor to rotate the rotation shaft 240 and the operation shaft 270. Rotating) may control the opening and closing operation of the cover 210 and the opening and closing door 250.

Next, a packing structure installed at a portion contacting the bottom of the cover 210 will be described. 9 is an enlarged view of a packing structure according to an embodiment of the present invention.

As shown in FIG. 9, the packing structure includes an upper packing 510 installed on the cover 210 and a lower packing 520 installed below the cover 210 in close contact with the cover 210.

In detail, the upper packing 510 is installed along the bottom edge of the cover 210, and a first pressing protrusion 511 is formed to be convex downward along the outer edge thereof, and is formed along the inner edge of the first pressing protrusion 511. A first contact groove 512 concave upward is provided.

The lower packing 520 is installed below the cover 210 corresponding to the upper packing 510, and the first pressing protrusion 511 and the first close contact groove 512 of the upper packing 510. On the contrary, the second close contact groove 521 is formed to be concave down along the bottom edge, and the second pressing protrusion 522 is convex upward along the inner edge thereof.

Therefore, when the cover 210 is closed, the first pressing protrusion 511 of the upper packing 510 is fitted in correspondence with the second contact groove 521 of the lower packing 520, and the first packing protrusion of the lower packing 520 is closed. The two pressing protrusions 522 are fitted to correspond to the first contact grooves 512 of the upper packing 510.

The first and second pressing protrusions 511 and 522 of the upper packing 510 and the lower packing 520 are formed into spherical protrusions, and corresponding to the first and second of the upper packing 510 and the lower packing 520. The close contact grooves 512 and 522 are formed as spherical grooves so that the close contact effects can be placed.

As described above, the packing structure installed at the lower edge of the cover 210 according to the present invention fits the first pressing protrusion 511 formed on the upper packing 510 and the second close contact groove 521 formed on the lower packing 520. Primary sealing is performed, and the secondary sealing is performed by fitting the second pressing protrusion 522 formed on the lower packing 520 and the first contact groove 512 formed on the upper packing 510. The effect is perfect so there is no fear of odor leaking out of the device with the cover 210 closed.

10 is a plan view of a condenser according to an embodiment of the present invention. As shown in the condenser 70 is installed in a rectangular shape inside the food waste treatment apparatus of the present invention. The condenser 70 lowers the temperature of the hot and humid air generated in the process of fermentation and decomposing and decomposing the food waste in the aging decomposition tank 20 and the decomposition completion tank 30 through heat exchange. Discharge through the air discharge pipe (73).

Next, the structure of the refrigerant pipe 72 installed in the condenser 70 will be described. 11 is an enlarged view of a refrigerant pipe according to an embodiment of the present invention.

As shown in FIG. 11, the refrigerant pipe 72 is installed inside the condenser 70. The coolant tube 72 includes a multi-pipe portion 727, a refrigerant introduction pipe 725 installed at one side of the multi-pipe portion 727, a refrigerant discharge pipe 726 provided at the other side of the multi-pipe portion 727, and a refrigerant. A first pipe installed between the inlet pipe 725 and the individual pipe 727a of the multi-pipe part 727, a second pipe installed between the refrigerant introduction pipe 725 and the plurality of first pipes, and a refrigerant discharge pipe ( The third pipe is provided between the 726 and the individual pipe 727a of the multi-pipe section 727, and the fourth pipe is installed between the refrigerant discharge pipe 726 and the plurality of third pipes.

Specifically, the refrigerant introduction pipe 725 is installed on one side of the multi-pipe part 727 made up of a plurality of individual pipes 727a and consists of one tube and is a tube into which the refrigerant enters.

The refrigerant discharge pipe 726 is installed on the other side of the multi-pipe part 727 made up of a plurality of individual pipes 727a and consists of one pipe and discharges the refrigerant with heat exchange.

The first pipe is installed between the refrigerant introduction pipe 725 and the individual pipe 727a of the multi-pipe part 727, and the first branch pipe 721a is divided into a plurality of individual pipes 727a. ) And a first connecting pipe 721b connected thereto.

The second pipe is installed between the refrigerant introduction pipe 725 and the plurality of first pipes, and the second branch pipe 722a is divided into a plurality of branches corresponding to the first connection pipes 721b of the first pipes. It is composed of a second connecting pipe 722b connected to the one end and connected to the refrigerant introduction pipe 725.

The third pipe is installed between the refrigerant discharge pipe 726 and the individual pipe 727a of the multi-pipe part 727, and the third branch pipe 723a branched into a plurality of individual pipes 727a in correspondence with each of the individual pipes 727a. It is composed of a third connecting pipe (723b) connected to one.

The fourth pipe is installed between the refrigerant discharge pipe 726 and the plurality of third pipes, and the fourth branch pipe 724a branched into a plurality of branches corresponding to the third connection pipes 723b of each third pipe and one of them. It is composed of a fourth connecting pipe 724b connected to one end of the refrigerant discharge pipe 726 while being connected.

Conventional refrigerant pipes are made of one pipe of a sand or zig-zag shape, and thus the heat exchange effect is low, such as a decrease in the cooling efficiency of the refrigerant due to a slow circulation speed of the refrigerant, resulting in a long operation time of the device and a large amount of electricity use.

However, in the refrigerant pipe 72 according to the present invention, the individual pipes 727a constituting the multi pipe part 727 are formed in a multi structure, and the refrigerant introduced into the refrigerant introduction pipe 725 passes through each individual pipe 727a. Since the refrigerant is rapidly circulated through the refrigerant discharge pipe 726, the cooling efficiency of the refrigerant is improved, thereby reducing the operating time of the food waste treating apparatus according to the present invention and significantly reducing the electricity use time. The life of the waste disposal device can be significantly extended.

With reference to the accompanying drawings will be described a food waste treatment process of the food waste treatment apparatus according to the present invention.

5 to 8 when the ejector contacts the ejector card to the primary LCD window 300 to inject food waste into the fermentation and decomposition tank 10, the first motor 291 receives a signal to rotate the rotary shaft 240 And the cover 210 is opened automatically. If the discharger contacts the ejector card in the secondary LCD window 300 after the food waste is put in the open state of the cover 210, the first motor 291 that receives the signal rotates the rotating shaft 240 in reverse and the cover 210 ) Closes automatically.

As the food waste falls on the opening and closing door 250, the weight of the food waste is measured by the load cell 264, and the weight of the measured food waste is displayed on the LCD window 300. After checking the food waste weight displayed on the LCD window 300, when the discharger contacts the ejector card on the third LCD window 300, the weight information of the food waste is transmitted to the management room server and based on the received information about the amount of food waste received. Reasonable costs may be imposed for food waste emissions.

In response to this, the second motor 292 received the signal rotates the operating shaft 270 to open and close the door 250 so that the food waste falls into the fermentation and decomposition tank 10 along the hopper 220 inner passage. After completion of dropping the food waste, the second motor 292 closes the door 250 by causing the operating shaft 270 to reverse rotation.

Here, the odor inside the food waste treating apparatus of the present invention is not discharged to the outside by the packing structure installed at the close contact portion of the cover 210, so that the environment around the food waste treating apparatus of the present invention can be maintained comfortably.

As shown in FIG. 9, when the cover 210 is closed, the first pressing protrusion 511 formed on the upper packing 510 is coupled to correspond to the second contact groove 521 formed on the lower packing 520, and the lower packing 520. The second pressing protrusion 522 formed in the first coupling is formed by the first pressing protrusion 511 such that the second pressing projection 511 is coupled to correspond to the first contact groove 512 formed in the upper packing 510 and the second pressing protrusion The secondary blocking is made by 522 so that the odor can be completely blocked.

2 and 3, the hot and humid air sucked through the plurality of through holes 58a formed in the suction pipe 58 installed on the fermentation cracking tank 10 and the aged cracking tank 20 passes through the condenser 70. While cooling. Specifically, a low temperature refrigerant is supplied through the refrigerant introduction pipe 725 of the refrigerant pipe 72 installed in the condenser 70 to be discharged to the refrigerant discharge pipe 726. In the fermentation cracking tank (10), fermentation cracking tank (20) and decomposition completion tank 30, the hot and humid air generated during the fermentation cracking, maturation and decomposition of food waste in the temperature drops the air temperature is dropped Is discharged through the air discharge pipe (73) of the condenser (70).

The air whose temperature is discharged through the air discharge pipe 73 of the condenser 70 flows along the pipe 82 by driving the blower 80, and the air whose temperature which flows through the pipe 82 is dropped is the pipe 82. Each hole of the air curtain blowoff pipe 90 supplied to the disassembly tank 30 through the first split pipe 82a branched from the pipe and connected to the second split pipe 82b branched from the pipe 82. The air curtain (c) is ejected through the 90a to open the cover 210 installed on the fermentation cracking tank 10, and when the food waste is introduced into the fermentation cracking tank 10, the fermentation cracking tank 10 is aged. The temperature inside the decomposition tank 20 and the decomposition completion tank 30 is prevented from being released to the outside, and the humidity inside the fermentation decomposition tank 10, the aged decomposition tank 20 and the decomposition completion tank 30 is external. Leave to be released.

On the other hand, in the case of providing a condensate discharge pipe in the lower condenser 70, the water may be discharged to the outside of the refrigerant pipe 72 formed by heat exchange while passing through the condenser 70.

As shown in FIG. 11, the refrigerant pipe 72 is formed of a multi-structure of individual pipes 727a of the multi-pipe part 727. Each of the individual pipes 727a is not a pipe to which the refrigerant introduced into the refrigerant introduction pipe 725 is connected. Since the refrigerant is rapidly circulated, the cooling efficiency of the refrigerant is improved, thereby reducing the operating time of the food waste treating apparatus according to the present invention and significantly reducing the use time of the food waste treating apparatus according to the present invention. We can greatly extend.

Once again to explain the operation of the present invention, when the food waste is put into the fermentation cracking tank 10, when the discharge card is contacted with the LCD window 300 installed first, the food waste can be put into the fermentation cracking tank 10. The cover 210 is automatically opened so that the food waste is fed into the fermentation and decomposition tank 10, and then the cover 210 is closed when the ejector card contacts the secondary LCD window 300, and the cover 210 is closed. After confirming the food waste weight displayed on the LCD window 300 and contacting the ejector card to the third LCD window 300, the discharge process of the food waste is terminated.

As described above, the food waste treating apparatus according to the present invention transmits the weight information of the food waste to the management room server through the communication network by contacting the ejector card with the LCD window 300. Based on the information on the amount of food waste, the reasonable costs for food waste emissions can be automatically charged.

Of course, in the food waste treatment apparatus according to the present invention, the method for treating food waste is made in the same manner as in Korean Patent Registration No. 1124217, to which the applicant is entitled.

That is, as the drive motor 50 is rotated and the drive sprocket 50a of the power transmission member 55 installed on the shaft 50a of the drive motor 50 is rotated, the driving force is driven through the chain 55c by the driven sprocket 55b. The first to third stirring blades 42, 44, 46 installed on the shaft 40 rotate as the shaft 40 is rotated.

Next, the microorganism is introduced into the fermentation and decomposition tank 10 when the predetermined temperature of about 70 ° C. and the humidity of about 60% set by the moisture controller are reached. Subsequently, when the food waste is introduced, as the shaft 40 is rotated, the first to third stirring blades 42, 44, and 46 installed on the shaft 40 are rotated to stir the fermentation and decomposition of the food waste while stirring the microorganism and the food waste. Is done.

Food waste may be added as much as the processing capacity of the fermentation cracking tank 10, and the by-products fermented and cracked in the fermentation cracking tank 10 may be the first to third stirring blades 42, 44, and 46 installed on the shaft 40. If the first partition wall 20a provided between the fermentation cracking tank 10 and the maturation cracking tank 20 is rotated by the rotation of the bar, the tank passes over the first partition wall 20a to the ripening cracking tank 20. The fermented by-products passed to the aging decomposition tank 20 are aged in the aging decomposition tank 20, and the by-products aged in the aging decomposition tank 20 are separated between the aging decomposition tank 20 and the decomposition completion tank 30. The second partition wall 30a is installed in the decomposing tank 30 and is decomposed again in the decomposing tank 30. When the by-product decomposed in the decomposition completion tank 30 exceeds a predetermined amount, the hose is pushed through the second inspection window 32 installed below the decomposition completion tank 30 to be sucked and used as a fertilizer or processed and used as fuel. have.

At this time, since the first inspection window 22 is installed in the aging decomposition tank 20, the state of the food waste fermented in the fermentation decomposition tank 10 can be observed.

On the other hand, when a problem occurs in the heat medium storage tank 60 to discharge the heat medium stored in the heat medium storage tank 60 to the outside, as shown in Figure 4, the discharge pipe installed in the lower protrusion (60a) of the heat medium storage tank 60 The heat medium discharge valve 63a of (63) is opened and discharged.

When the heat medium stored in the heat medium storage tank 60 is insufficient, the heat medium is injected after opening the heat medium supplement valve 64a provided in the heat medium injection pipe 64. When it is desired to check the amount of the heat medium stored in the heat medium storage tank 60, the heat medium flow meter 65 made of a transparent material connected between the discharge pipe 63 and the heat medium injection pipe 64 is observed.

While the preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, it is to be understood that the invention is not limited to the details of the illustrated embodiments, but various modifications and changes may be made without departing from the scope of the present invention. Accordingly, the scope of the present invention should be defined by the following claims.

70: condenser 72: refrigerant pipe 210: cover
220: hopper 230: connecting lever 240: rotary shaft
250: opening and closing door 260: weighing device 261: outer frame
262: load cell guide 263: load cell guide plate 264: load cell
270: operating shaft 280: power transmission means 291: first motor
292: second motor 300: LCD window 510: upper packing
511: first pressing projection 512: first contact groove 520: lower packing
521: second contact groove 522: second pressing projection 721a: first branch pipe
721b: first connector 722a: second branch pipe 722b: second connector
723a: third branch engine 723b: third connector 724a: fourth branch engine
724b: fourth connector 725: refrigerant introduction pipe 726: refrigerant discharge pipe
727: multiple tube 727a: individual hall

Claims (10)

A fermentation cracking tank for fermenting and decomposing food waste introduced through an inlet when the cover is opened with a microorganism carrier previously injected; A condenser that receives the high temperature and high humidity air in the fermentation cracking tank and the ripening cracking tank sucked from the suction pipe and heats it by a refrigerant flowing through the refrigerant pipe installed therein to discharge the air whose temperature has fallen; Contacting the ejector card in the LCD window installed on the outside of the food waste treatment device, the cover installed in the fermentation cracker is opened and closed, and the cover opening and closing device for measuring the weight of the food waste to impose a reasonable cost according to the food waste discharge; Including,
The LCD window is a reader that reads the information of the ejector card containing the food waste ejector. The ejector card is an electronic tag providing the information of the food waste ejector.
When the food waste is put into the fermentation cracker, if the ejector card is contacted with the first installed LCD window, the cover automatically opens to feed the food waste into the fermentation cracker, and after the food waste is put into the fermentation tank, the ejector card is placed in the second LCD window. If you touch, the cover is closed. After closing the cover, check the weight of food waste displayed on the LCD window and touch the ejector card on the third LCD window to end the food waste discharge process.
The cover opening and closing device, the cover for opening and closing the inlet so that food waste into the fermentation tank; As a guide to stably feed the food waste into the fermentation cracking tank, a hopper installed inside the inlet; A connecting lever connecting the rotating shaft installed under the cover back and the cover back to open and close the cover by rotating the rotating shaft; One end is connected to the first motor by the power transmission means, and the ejector card contacts the LCD window to discard the food waste while the cover is closed, the cover is rotated about the lower end of the connecting lever by the drive of the first motor. A rotating shaft for opening the cover; An opening door which is installed inside the hopper, one end of which is connected to the operation shaft to open and close the internal passage of the hopper by a rotation operation of the operation shaft; A weighing apparatus for measuring a weight of food waste placed on the opening door while the opening door is closed; An operation shaft having one end connected to the second motor by a power transmission means to rotate the door to open and close the passage of the hopper by a rotation operation by the driving of the second motor; A proximity angle sensor installed on a rotating shaft or an operating shaft;
Weighing apparatus, the outer frame is formed in a shape surrounding the hopper; Load cell guides supporting the load cells and installed in the outer frame by the number of load cells; A load cell guide plate having one end connected to an upper end of the load cell and the other end connected to a side of the hopper; If one side is connected to the load cell guide and the top is connected to one end of the load cell guide plate, and the food waste put into the hopper is placed in the door, the hopper is lowered by the weight of the food waste and the load cell guide plate connected to the hopper is It comprises a load cell for measuring the weight of the food by pressing the top of the load to display the measured weight in the LCD window;
When the ejector card is contacted with the primary LCD window to feed the food waste into the fermentation cracker, the first motor that receives the signal rotates the rotating shaft to open the cover automatically. When the ejector card touches the window, the signaled first motor rotates the rotating shaft in reverse to automatically close the cover.The food waste falls on the door, and the weight of the food waste is measured by the load cell. Is displayed on the LCD window, and after checking the weight of the food waste displayed on the LCD window, if you touch the ejector card on the third LCD window, the weight information of the food waste is transmitted to the management room server and the second motor that receives the signal rotates the operating shaft. Open the door to let food waste fall into the fermentation tank and dispose of food After the dropping completed, the second motor is operated in reverse rotation axis and the opening and closing door is closed,
The packing structure installed at the lower edge of the cover is installed at the lower edge of the cover, and the first pressing protrusion is formed to be convex downward along the outer edge thereof, and the second pressing protrusion of the lower packing is formed along the inner edge of the first pressing protrusion. An upper packing in which a first concave groove is formed to be concave upward; It is to be installed below the cover contact portion corresponding to the upper packing, the upper edge of the upper packing is coupled to the first pressing projection of the second packing groove corresponding to the first pressing projection of the upper packing correspondingly formed and the And a lower packing formed at an edge at which the first close contact groove is located, a second convex upward protrusion corresponding to the first close contact groove of the upper packing.
Further, the first and second pressing protrusions of the upper packing and the lower packing are formed into a spherical shape, and the first and second close contact grooves of the upper packing and the lower packing are formed into spherical grooves corresponding to the first and second pressing protrusions of the spherical shape,
The refrigerant pipe includes a refrigerant introduction pipe into which a refrigerant enters as one pipe; A multi-pipe section in which a plurality of individual pipes formed of a plurality of pipes are installed so that refrigerant may be injected respectively; Refrigerant discharge pipe for discharging the refrigerant having a heat exchange as one tube; A plurality of first pipes installed between the refrigerant introduction pipe and the individual pipes, each of the first branch pipes corresponding to each of the individual pipes, and a plurality of first pipes connected to the first branch pipe; It is installed between the refrigerant introduction pipe and the plurality of first pipes, the second branch pipe which is divided into a plurality of branches corresponding to the first connection pipe of each first pipe and the second one connected to the refrigerant introduction pipe while connecting them as one. A second pipe consisting of a connecting pipe; A plurality of third pipes installed between the refrigerant discharge pipe and the individual pipes, each of the third branch pipes branched into a plurality of branch pipes corresponding to each of the individual pipes, and a third connecting pipe connected to the third pipe; It is installed between the refrigerant discharge pipe and the plurality of third pipes, the fourth branch pipe branched into a plurality of branches corresponding to the third connection pipe of each third pipe and the fourth connection pipe connected to the refrigerant discharge pipe at one end thereof. Food waste treatment apparatus comprising a; fourth pipe consisting of. delete delete delete delete delete delete delete delete delete

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