CN212164843U - Domestic fungus drying system - Google Patents

Abstract

The utility model discloses an edible mushroom drying system relates to food stoving technical field, and its technical scheme main points are: the device comprises a drying room, an air supply layer, a hot air device, an air supply pipeline, a drying chamber, a hollow partition plate, a plurality of air supply nozzles, a transferring drying rack, an exhaust pipeline, a PCL controller, a touch operation display screen and a power supply device; the transferring drying rack comprises a rectangular frame and a plurality of drying nets; the drying net comprises a first net plate and a second net plate which is rotatably connected with the end part of the first net plate; a retaining ring is arranged at the end part of the first screen plate far away from the second screen plate; the end part of the second screen plate far away from the first screen plate is provided with a locking fastener matched with the retaining ring; two side edges of the second screen plate adjacent to the end part of the first screen plate are provided with baffle plates. This domestic fungus drying system need not carry out frequent manual adjustment to the material at the stoving in-process, and can prevent that the material from dropping from the drying screen and causing the condition of material loss to take place, can carry out even stoving to the material, and oven-dry mass and drying efficiency height.

Description

Domestic fungus drying system

Technical Field

The utility model relates to a food stoving technical field, more specifically say, it relates to an edible mushroom drying system.

Background

The edible fungi refers to edible mushroom (large-scale fungus) with large fruiting body, and is commonly called mushroom. More than 350 kinds of edible fungi are known in China, wherein more of the edible fungi belong to the subphylum basidiomycotina, and the common edible fungi comprise: lentinus Edodes, straw mushroom, Agaricus campestris, Auricularia, Tremella, Hericium Erinaceus, caulis Bambusae in Taeniam, Tricholoma matsutake, Russula vinifera, Ganoderma, Cordyceps, truffle, herba Epimedii, and Boletus edulis; a few belong to the subdivision ascomycotina, among which are: morchella, saddle fungus, truffle, etc. It is not only suitable for large-scale fungi for human consumption. The edible fungus is edible mushroom; the mushroom is a large fungus which can form large fleshy (or colloid) fruiting bodies or sclerotium tissues and can be eaten or used by people.

The edible fungi in China are abundant in resources and are one of the earliest countries for cultivating and utilizing the edible fungi. After being picked, the edible fungi need to be dried and put into a plastic bag for storage after being drained, so that the edible fungi can be conveniently stored. The traditional method for dehydrating the edible fungi is natural drying or heating baking, which not only has low efficiency but also has uncontrollable process and ensures the color and quality of the edible fungi. Therefore, in order to improve the working efficiency, the drying equipment for edible fungi is required.

At present, the in-process of drying to the material of domestic fungus drying equipment among the prior art needs to carry out frequent manual adjustment to the material, and easily drops on the drying screen at manual adjustment material stoving in-process material, and the material loss is big, and the material is dried inhomogeneously, and oven-dry mass and drying efficiency are low.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an edible mushroom drying system, this edible mushroom drying system need not carry out frequent manual adjustment to the material at the stoving in-process, and can prevent that the material from dropping the condition that causes the material loss from the drying screen and taking place, can carry out even stoving to the material, and oven-dry mass and drying efficiency are high.

The above technical purpose of the present invention can be achieved by the following technical solutions: an edible fungus drying system comprises a drying room, wherein an air supply layer surrounding the inner wall of the drying room is arranged in the drying room; the top of the drying room is provided with a hot air device; the air outlet end of the hot air device is connected with an air supply pipeline, and the end part of the air supply pipeline is communicated with the inside of the air supply layer; the drying room is internally provided with a hollow clapboard which divides an inner chamber of the drying room into a plurality of drying rooms, and the hollow clapboard is communicated with the air supply layer; a plurality of air supply nozzles are arranged on the air supply layer and the side wall of the hollow partition plate at intervals; a transferring drying rack is arranged in the drying chamber; the top end in the drying room is provided with an exhaust pipeline with the end part positioned in the drying room; the outer side wall of the drying room is provided with a PCL controller, a touch operation display screen and a power supply device, wherein the touch operation display screen and the power supply device are connected with the PLC controller; the transferring drying rack comprises a rectangular frame and a plurality of drying nets arranged in the rectangular frame at intervals, and the drying nets are detachably connected with the rectangular frame; the drying net comprises a first net plate and a second net plate which is rotatably connected with the end part of the first net plate; a retaining ring is arranged at the end part of the first screen plate far away from the second screen plate; the end part of the second screen plate, which is far away from the first screen plate, is provided with a locking fastener matched with the retaining ring; and two side edges of the second screen plate adjacent to the end part of the first screen plate are provided with baffle plates.

By adopting the technical scheme, in the process of drying edible fungi, firstly, the cleaned edible fungi with water drained are uniformly laid on the top surface of the second screen plate, then the first screen plate is covered on the top surface of the second screen plate, the end parts of the first screen plate and the second screen plate are connected and locked through the retaining ring and the locking fastener, a drying basket is conveniently formed through the barrier plate, the first screen plate and the second screen plate, the edible fungi are fixed in the space between the first screen plate and the second screen plate, and the edible fungi are prevented from falling off the drying basket in the drying process to cause loss; then the drying net is detachably fixed on the rectangular frame of the transfer drying rack, and the transfer drying rack is transferred into a drying chamber for drying; the hot air device is convenient to generate hot air meeting the requirement of the drying temperature of the edible fungi, the hot air is transmitted to the air supply layer through the air supply pipeline, then the hot air is blown into the drying chamber through the air supply nozzle, and the edible fungi on the drying net on the conveying drying rack are dried by the hot air; the redundant hot air in the drying chamber is conveniently discharged from the drying chamber through the exhaust pipeline; the working state of the hot air device is convenient to control through the PLC and the touch operation display screen, so that the drying work is convenient to control; the power supply device is convenient for supplying power to the drying system; this domestic fungus drying system need not carry out frequent manual adjustment to the material at the stoving in-process, and can prevent that the material from dropping from the drying screen and causing the condition of material loss to take place, can carry out even stoving to the material, and oven-dry mass and drying efficiency height.

The utility model discloses further set up to: the hot air device comprises an air blower, a heating shell connected with the air outlet end of the air blower and an electric heating ring located in the heating shell, the air supply pipeline is connected with the air outlet end of the heating shell, and the air blower, the electric heating ring and the power supply device are connected with the PLC.

By adopting the technical scheme, the hot air device consisting of the blower, the heating shell and the heating ring is convenient for generating hot air required by drying edible fungi; when edible fungi are dried, drying parameters are set through operating the touch control display screen, a control instruction is sent to the PLC according to the set drying parameters, the PLC sends a control instruction to the air blower and the electric heating ring according to the control instruction, and the air blower and the electric heating ring are controlled to work.

The utility model discloses further set up to: the air outlet end of the exhaust pipeline is connected with a dehumidifier, and the dehumidifier is fixedly connected with the top end of the drying room; and the air outlet end of the dehumidifier is connected with the air inlet end of the air blower.

By adopting the technical scheme, the excessive hot air exhausted from the drying chamber through the cabinet exhaust pipeline is conveniently dehumidified and dried by the dehumidifier; the air outlet end of the dehumidifier is connected with the air inlet end of the air blower, and the discharged redundant hot air is recycled through the air blower, so that the hot air recycling is realized, the hot air utilization rate is improved, the energy consumption is reduced, and the drying cost is reduced.

The utility model discloses further set up to: the surface of the second screen plate is detachably connected with a plurality of spacing bars with the same interval.

Through adopting above-mentioned technical scheme, through the space stop bar, be convenient for separate the second otter board surface for a plurality of spaces to be convenient for separate the domestic fungus of laying on second otter board surface, thereby be convenient for the even stoving of domestic fungus.

The utility model discloses further set up to: an arc-shaped air guide plate is arranged at the top end inside the drying chamber; the arc-shaped air guide plate is provided with a plurality of exhaust holes; and the bottom ends of the two end parts of the arc-shaped air guide plate are connected with a liquid collecting box.

By adopting the technical scheme, the arc-shaped air guide plate and the plurality of exhaust holes in the arc-shaped air guide plate are convenient for guiding redundant hot air in the drying chamber and are matched with the exhaust pipe to be exhausted out of the drying chamber; through the liquid collecting box, the water condensed from the water vapor evaporated in the edible fungus drying process can be conveniently collected.

The utility model discloses further set up to: and liquid discharge holes are formed in the two end parts of the arc-shaped air guide plate and are communicated with the inside of the liquid collecting box.

Through adopting above-mentioned technical scheme, through the outage, be convenient for with the water conservancy diversion to the header tank that the steam coagulation that passes through arc air guide plate becomes.

The utility model discloses further set up to: the central axis of the drying net is superposed with the horizontal line of the middle points of the space between the air supply nozzles.

By adopting the technical scheme, the central axis of the drying net coincides with the horizontal line of the middle point of the space between the air supply nozzles, so that hot air sprayed by the air supply nozzles can pass through the top surface and the bottom surface of the drying net, thereby simultaneously drying the top surface and the bottom surface of the edible fungi by hot air, and being convenient for improving the drying efficiency of the edible fungi.

The utility model discloses further set up to: the inside bottom of rectangular frame and inside top all are equipped with temperature-detecting device, temperature-detecting device is connected with the PLC controller.

Through adopting above-mentioned technical scheme, through temperature-detecting device, be convenient for detect the temperature of transporting stoving frame top and bottom to with the temperature information real-time transmission who detects to the PLC controller, the PLC controller receives this temperature information and carries out analysis and processing to this temperature information, then with this temperature information transmission to the enterprising line display of touch control display screen, thereby can real time monitoring stoving condition in the stoving room, be convenient for adjust stoving work according to the stoving condition.

To sum up, the utility model discloses following beneficial effect has: the drying basket is conveniently formed by the barrier plate, the first screen plate and the second screen plate, and the edible fungi are fixed in the space between the first screen plate and the second screen plate, so that the edible fungi are prevented from falling off the drying basket in the drying process to cause loss; then the drying net is detachably fixed on the rectangular frame of the transfer drying rack, and the transfer drying rack is transferred into a drying chamber for drying; the hot air device is convenient to generate hot air meeting the requirement of the drying temperature of the edible fungi, the hot air is transmitted to the air supply layer through the air supply pipeline, then the hot air is blown into the drying chamber through the air supply nozzle, and the edible fungi on the drying net on the conveying drying rack are dried by the hot air; the redundant hot air in the drying chamber is conveniently discharged from the drying chamber through the exhaust pipeline; the working state of the hot air device is convenient to control through the PLC and the touch operation display screen, so that the drying work is convenient to control; the power supply device is convenient for supplying power to the drying system; this domestic fungus drying system need not carry out frequent manual adjustment to the material at the stoving in-process, and can prevent that the material from dropping from the drying screen and causing the condition of material loss to take place, can carry out even stoving to the material, and oven-dry mass and drying efficiency height.

Drawings

Fig. 1 is a schematic structural diagram in an embodiment of the present invention;

FIG. 2 is a schematic structural view of an arc-shaped air guide plate in an embodiment of the present invention;

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

fig. 4 is a block diagram of the embodiment of the present invention.

In the figure: 1. a drying room; 2. a gas supply layer; 3. a gas supply duct; 4. a drying chamber; 5. a hollow partition plate; 6. a gas supply nozzle; 7. a transferring and drying rack; 8. an exhaust duct; 9. a PCL controller; 10. touch operation of the display screen; 11. a power supply device; 12. a rectangular frame; 13. drying the net; 14. a first screen plate; 15. a second screen plate; 16. a retaining ring; 17. a fastener; 18. a blocking plate; 19. a blower; 20. a heating housing; 21. an electrical heating ring; 22. a dehumidifier; 23. a spacer bar; 24. an arc-shaped air guide plate; 25. an exhaust hole; 26. a liquid collection tank; 27. a drain hole; 28. a temperature detection device.

Detailed Description

The present invention will be described in further detail with reference to the accompanying fig. 1-4.

Example (b): an edible fungus drying system is shown in figures 1 to 4 and comprises a drying room 1, wherein an air supply layer 2 surrounding the inner wall of the drying room 1 is arranged in the drying room 1. The top of the drying room 1 is fixedly provided with a hot air device. The air outlet end of the hot air device is connected with an air supply pipeline 3, and the end part of the air supply pipeline 3 is communicated with the inside of the air supply layer 2. The drying room 1 is internally and fixedly connected with a hollow clapboard 5 which divides the inner room of the drying room 1 into a plurality of drying rooms 4, and the hollow clapboard 5 is communicated with the air supply layer 2. A plurality of air supply nozzles 6 are arranged on the side walls of the air supply layer 2 and the hollow clapboard 5 at intervals. A transferring drying rack 7 is arranged in the drying chamber 4. The top end of the inside of the drying room 1 is provided with an exhaust duct 8 with the end part positioned inside the drying chamber 4. The outer side wall of the drying room 1 is fixedly provided with a PCL controller 9, a touch operation display screen 10 connected with the PLC controller and a power supply device 11. The transferring drying rack 7 comprises a rectangular frame 12 and a plurality of drying nets 13 arranged in the rectangular frame 12 at intervals, and the drying nets 13 are detachably connected with the rectangular frame 12. The drying wire 13 includes a first screen 14 and a second screen 15 rotatably connected to an end of the first screen 14. The end of first web 14 remote from second web 15 is welded with a retaining ring 16. The end of the second web 15 remote from the first web 14 is fixedly mounted with a catch member 17 which mates with a retaining ring 16. Two side edges of the second net plate 15 adjacent to the end of the first net plate 14 are fixedly provided with baffle plates 18.

In the present embodiment, the power supply device 11 is commercial power. The power supply device 11, the PLC controller, the hot air device and the touch operation display screen 10 are connected by a circuit in the prior art. A plurality of connecting and fixing parts (not marked in the figure) are fixedly welded on the side wall of the rectangular frame 12 at intervals, a connecting rod (not marked in the figure) matched with the connecting and fixing parts is fixedly welded on the side wall of the drying net 13, and the drying net 13 can be detachably fixed on the rectangular frame 12 through the connecting and fixing parts and the connecting rod. In the process of drying the edible fungi, firstly, the cleaned edible fungi with water drained are uniformly laid on the top surface of the second screen plate 15, then the first screen plate 14 is covered on the top surface of the second screen plate 15, the end parts of the first screen plate 14 and the second screen plate 15 are connected and locked through the retaining ring 16 and the locking fastener 17, a drying net 13 basket is conveniently formed through the barrier plate 18, the first screen plate 14 and the second screen plate 15, the edible fungi are fixed in the space between the first screen plate 14 and the second screen plate 15, and the edible fungi are prevented from falling from the drying net 13 in the drying process to cause loss. Then, the drying net 13 is detachably fixed on the rectangular frame 12 of the transferring drying rack 7, and the transferring drying rack 7 is transferred into the drying chamber 4 for drying. Through hot air device, be convenient for produce the hot-blast that satisfies domestic fungus stoving temperature requirement to transmit to air feed layer 2 through air supply line 3, then blow in hot-blast drying chamber 4 through air feed shower nozzle 6 with hot-blast, carry out hot-blast stoving to the domestic fungus on the dry net 13 on the fortune drying rack 7. The exhaust duct 8 facilitates the discharge of the excessive hot air in the drying chamber 4 from the drying chamber 4. Through the PLC controller and the touch operation display screen 10, the working state of the hot air device is convenient to control, and therefore the drying work is convenient to control. The drying system is conveniently powered by the power supply device 11. This domestic fungus drying system need not carry out frequent manual adjustment to the material at the stoving in-process, and can prevent that the material from dropping from drying net 13 and causing the condition of material loss to take place, can carry out even stoving to the material, and oven-dry mass and drying efficiency are high.

The hot air device comprises an air blower 19, a heating shell 20 connected with the air outlet end of the air blower 19 and an electric heating ring 21 positioned in the heating shell 20, the air supply pipeline 3 is connected with the air outlet end of the heating shell 20, and the air blower 19 and the electric heating ring 21 are connected with the power supply device 11 and the PLC.

In this embodiment, the hot air required for drying the edible fungi is generated by the hot air device composed of the blower 19, the heating case 20 and the heating ring. When the edible fungi are dried, the drying parameters are set through operating the touch control display screen, a control command is sent to the PLC according to the set drying parameters, the PLC sends a control command to the air blower 19 and the electric heating ring 21 according to the control command, and the air blower 19 and the electric heating ring 21 are controlled to work.

The air outlet end of the exhaust pipeline 8 is connected with a dehumidifier 22, and the dehumidifier 22 is fixedly connected with the top end of the drying room 1. The air outlet end of the dehumidifier 22 is connected with the air inlet end of the blower 19.

In the present embodiment, the excessive hot air discharged from the drying chamber 4 through the cabinet exhaust duct 8 is dehumidified and dried by the dehumidifier 22. The air outlet end of the dehumidifier 22 is connected with the air inlet end of the air blower 19, and the discharged redundant hot air is repeatedly utilized through the air blower 19, so that the hot air circulation utilization is convenient to realize, the hot air utilization rate is improved, the energy consumption is reduced, and the drying cost is reduced.

The surface of the second net plate 15 is detachably connected with a plurality of spacing bars 23 with the same spacing.

In this embodiment, through spacer 23, be convenient for separate second otter board 15 surface for a plurality of spaces to be convenient for separate the domestic fungus of laying on second otter board 15 surface, thereby be convenient for the even stoving of domestic fungus.

An arc-shaped air guide plate 24 is fixedly arranged at the top end inside the drying chamber 4. The arc-shaped air guide plate 24 is provided with a plurality of air exhaust holes 25. The bottom ends of the two end parts of the arc-shaped air guide plate 24 are connected with a liquid collecting tank 26.

In this embodiment, the arc-shaped air guide plate 24 and the plurality of air exhaust holes 25 on the arc-shaped air guide plate 24 are used for guiding the redundant hot air in the drying chamber 4 and exhausting the redundant hot air out of the drying chamber 4 by matching with the exhaust pipe. The water condensed from the water vapor evaporated during the process of drying the edible fungi is conveniently collected by the liquid collecting tank 26.

Liquid discharge holes 27 are formed at two end parts of the arc-shaped air guide plate 24, and the liquid discharge holes 27 are communicated with the inside of the liquid collecting box 26.

In this embodiment, the condensed water from the water vapor passing through the arc-shaped air guide plate 24 is guided into the header tank 26 through the drain holes 27.

The central axis of the drying net 13 coincides with the horizontal line of the midpoint of the spacing between the air supply jets 6.

In this embodiment, the central axis of the drying net 13 coincides with the horizontal line of the middle point of the space between the air supply nozzles 6, so that the hot air sprayed from the air supply nozzles 6 can pass through the top and bottom surfaces of the drying net 13, thereby drying the top and bottom surfaces of the edible fungi by hot air, and facilitating the improvement of the drying efficiency of the edible fungi.

Temperature-detecting devices 28 are mounted at the bottom end and the top end inside the rectangular frame 12, and the temperature-detecting devices 28 are connected with the PLC.

In this embodiment, through temperature-detecting device 28, be convenient for detect the temperature of transporting drying rack 7 top and bottom to with the temperature information real-time transmission who detects to the PLC controller, the PLC controller receives this temperature information and carries out analysis and processing to this temperature information, then shows this temperature information transmission to the last line display of touch control display screen, thereby can real time monitoring the stoving condition in the drying chamber 4, be convenient for adjust stoving work according to the stoving condition.

The working principle is as follows: in the process of drying the edible fungi, firstly, the cleaned edible fungi with water drained are uniformly laid on the top surface of the second screen plate 15, then the first screen plate 14 is covered on the top surface of the second screen plate 15, the end parts of the first screen plate 14 and the second screen plate 15 are connected and locked through the retaining ring 16 and the locking fastener 17, a drying net 13 basket is conveniently formed through the barrier plate 18, the first screen plate 14 and the second screen plate 15, the edible fungi are fixed in the space between the first screen plate 14 and the second screen plate 15, and the edible fungi are prevented from falling from the drying net 13 in the drying process to cause loss. Then, the drying net 13 is detachably fixed on the rectangular frame 12 of the transferring drying rack 7, and the transferring drying rack 7 is transferred into the drying chamber 4 for drying. Through hot air device, be convenient for produce the hot-blast that satisfies domestic fungus stoving temperature requirement to transmit to air feed layer 2 through air supply line 3, then blow in hot-blast drying chamber 4 through air feed shower nozzle 6 with hot-blast, carry out hot-blast stoving to the domestic fungus on the dry net 13 on the fortune drying rack 7. The exhaust duct 8 facilitates the discharge of the excessive hot air in the drying chamber 4 from the drying chamber 4. Through the PLC controller and the touch operation display screen 10, the working state of the hot air device is convenient to control, and therefore the drying work is convenient to control. The drying system is conveniently powered by the power supply device 11. This domestic fungus drying system need not carry out frequent manual adjustment to the material at the stoving in-process, and can prevent that the material from dropping from drying net 13 and causing the condition of material loss to take place, can carry out even stoving to the material, and oven-dry mass and drying efficiency are high.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications to the present embodiment without inventive contribution as required after reading the present specification, but all of them are protected by patent laws within the scope of the claims of the present invention.

Claims (8)

1. The utility model provides an edible mushroom drying system which characterized by: the drying room comprises a drying room (1), wherein an air supply layer (2) surrounding the inner wall of the drying room (1) is arranged in the drying room (1); the top of the drying room (1) is provided with a hot air device; the air outlet end of the hot air device is connected with an air supply pipeline (3), and the end part of the air supply pipeline (3) is communicated with the inside of the air supply layer (2); the drying room (1) is internally provided with a hollow partition plate (5) for dividing the inner chamber of the drying room (1) into a plurality of drying rooms (4), and the hollow partition plate (5) is communicated with the air supply layer (2); a plurality of air supply nozzles (6) are arranged on the side walls of the air supply layer (2) and the hollow partition plate (5) at intervals; a transferring drying rack (7) is arranged in the drying chamber (4); an exhaust pipeline (8) with the end part positioned in the drying chamber (4) is arranged at the top end in the drying chamber (1); the outer side wall of the drying room (1) is provided with a PCL controller (9), a touch operation display screen (10) and a power supply device (11), wherein the touch operation display screen is connected with the PLC controller; the transfer drying rack (7) comprises a rectangular frame (12) and a plurality of drying nets (13) arranged in the rectangular frame (12) at intervals, and the drying nets (13) are detachably connected with the rectangular frame (12); the drying net (13) comprises a first net plate (14) and a second net plate (15) rotatably connected with the end part of the first net plate (14); a retaining ring (16) is arranged at the end part of the first screen plate (14) far away from the second screen plate (15); the end part of the second screen plate (15) far away from the first screen plate (14) is provided with a locking fastener (17) matched with the retaining ring (16); and two side edges of the second screen plate (15) adjacent to the end part of the first screen plate (14) are respectively provided with a blocking plate (18).

2. The edible fungus drying system of claim 1, wherein: the hot air device comprises an air blower (19), a heating shell (20) connected with the air outlet end of the air blower (19) and an electric heating ring (21) located in the heating shell (20), an air supply pipeline (3) is connected with the air outlet end of the heating shell (20), and the air blower (19), the electric heating ring (21) are connected with a power supply device (11) and a PLC (programmable logic controller).

3. The edible fungus drying system of claim 2, wherein: the air outlet end of the exhaust pipeline (8) is connected with a dehumidifier (22), and the dehumidifier (22) is fixedly connected with the top end of the drying room (1); the air outlet end of the dehumidifier (22) is connected with the air inlet end of the blower (19).

4. The edible fungus drying system of claim 1, wherein: the surface of the second screen plate (15) is detachably connected with a plurality of spacing bars (23) with the same interval.

5. The edible fungus drying system of claim 1, wherein: an arc-shaped air guide plate (24) is arranged at the top end inside the drying chamber (4); the arc-shaped air guide plate (24) is provided with a plurality of exhaust holes (25); the bottom ends of the two end parts of the arc-shaped air guide plate (24) are connected with a liquid collecting box (26).

6. The edible fungus drying system of claim 5, wherein: and liquid discharge holes (27) are formed in two end parts of the arc-shaped air guide plate (24), and the liquid discharge holes (27) are communicated with the inside of the liquid collecting box (26).

7. The edible fungus drying system of claim 1, wherein: the central axis of the drying net (13) is coincident with the horizontal line of the middle points of the distance between the air supply nozzles (6).

8. The edible fungus drying system of claim 1, wherein: the temperature detection device is characterized in that the bottom end and the top end inside the rectangular frame (12) are both provided with a temperature detection device (28), and the temperature detection device (28) is connected with a PLC (programmable logic controller).

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