CN217547974U - Mop bucket of separation of decontaminating - Google Patents

Abstract

The utility model discloses a mop bucket with the functions of cleaning and separating, which comprises a bucket body, wherein a bucket cover is arranged on the bucket body, a mop penetrating port for a flat mop to penetrate into the bucket body is arranged on the bucket cover, and an extruder is arranged at one side of the mop penetrating port; the mop bucket also comprises a water spraying part for spraying water towards the flat mop, and a water pumping device which is driven by the flat mop and used for taking water from the clear water bin and conveying the water to the water spraying part; the water pumping device is also connected with a water outlet, when the water pumping device is in a working state, the water spraying part sprays water to the flat mop when the water outlet is cut off, and when the water outlet is communicated, the water spraying part does not spray water to the flat mop; a lifting water tank is movably arranged in the barrel body, and when the lifting water tank is positioned at a first position, the water outlet is cut off; when the lifting water tank is positioned at the second position, the water outlet is communicated. The utility model discloses a valve that the setting was acted as by the lift basin for dull and stereotyped mop can accomplish in a mop wearing mouth and wash or wring out and need not unnecessary operation.

Description

Mop bucket of separation of decontaminating

Technical Field

The utility model belongs to the cleaning products field, concretely relates to use clear water to wash clean water separation mop bucket of dull and stereotyped mop all the time.

Background

The utility model patent of patent No. 201820203603.5 discloses a exempt from to wash flat and drag bucket and flat drag. The flat mop bucket is used for cleaning and wiping a flat mop, the flat mop comprises a mop head and a wiper arranged on one surface of the mop head, the flat mop bucket comprises a bucket body and a water smoothing mechanism used for wiping the flat mop wiper, and the bucket body is provided with a water pump, an air pump, a water-air mixing mechanism and a control mechanism; the control mechanism is used for controlling whether the horizontal mop moves up and down relative to the water smoothing mechanism and establishes a link with the work of the water pump and the air pump. The utility model discloses a drag flatly and smooth with reciprocating relatively of water mechanism can drive water pump and air pump and carry water and gas to the wiper and wash after water-gas mixing mechanism mixes, and clean dynamics is more powerful. The utility model discloses simple structure, small, convenient operation are laborsaving, use less amount of water can drag to the tie effectively to wash, avoid the problem that sewage splashes among the cleaning process, have solved the old and weak crowd simultaneously and have been difficult for mentioning the problem of removing the tie and drag the bucket, and customer's experience is felt better.

The above patent mainly discloses that the water pump is driven to pump water by the up-and-down movement of the mop for cleaning the mop, but when the mop is cleaned, the water smoothing mechanism is transversely moved rightwards in the guide groove by rotating the adjusting screw handle until the second rack of the mop is not meshed with the first gearwheel, so that the water pump and the air pump cannot be driven by the up-and-down movement of the mop relative to the water smoothing mechanism, and the water can only be scraped by the up-and-down movement of the mop relative to the water smoothing mechanism. That is, the adjusting screw handle needs to be operated twice each time the flat mop is cleaned, there is inconvenience in operation, and there is room for further improvement to make the mop bucket easier to use.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: aiming at the defects in the prior art, the mop bucket is provided, which can realize the cleaning and the squeezing of the flat mop in one mop wearing opening, and a user can complete the whole cleaning and squeezing operation by only pushing and pulling the flat mop up and down without additional operation.

In order to realize the purpose of the utility model, the following technical proposal is adopted to realize: a mop bucket with a dirt cleaning and separating function comprises a bucket body provided with a clean water bin, wherein a bucket cover is arranged on the bucket body, a mop penetrating port through which a flat mop penetrates into the bucket body is formed in the bucket cover, and an extruder for extruding, cleaning and/or extruding and dehydrating the flat mop is arranged on one side of the mop penetrating port;

the mop bucket also comprises a water spraying part for spraying water towards the flat mop and a water pumping device for taking water from the clean water bin and conveying the water to the water spraying part;

the flat mop can drive the water pumping device to work when moving upwards and/or downwards in the mop penetration;

the water pumping device is also connected with a water outlet, when the water pumping device is in a working state, the water spraying part sprays water to the flat mop when the water outlet is cut off, and when the water outlet is conducted, the water spraying part does not spray water to the flat mop;

the water outlet is directly or indirectly cut off when the lifting water tank is positioned at the first position; when the lifting water tank is positioned at the second position, the water outlet is directly or indirectly communicated;

the water pumping device is also connected with a water injection port, and when the water pumping device is in a working state, the water injection port injects water into the lifting water tank;

when the water quantity in the lifting water tank is smaller than a set value, the lifting water tank is located at a first position, and the water spraying component sprays water to clean the flat mop; and when the water quantity in the lifting water tank is greater than a set value, the lifting water tank moves to a second position, and the water spraying component does not spray water.

As a preferable scheme: the lifting water tank is provided with a slow release drain hole, and the flow of the water injection port is larger than that of the slow release drain hole when the water pumping device is in a working state, so that the water quantity in the lifting water tank is gradually increased;

the lifting water tank is also connected with a resetting part, and the resetting part enables the lifting water tank to be positioned at the first position under the condition that no water exists or to be returned to the first position from the second position under the condition that the water quantity is gradually reduced.

As a preferable scheme: the water pumping device comprises a first water pumping device and a second water pumping device, and the water spraying part and the water outlet are connected with the water outlet of the first water pumping device; the height of the water spraying part is larger than that of the water outlet, or the water outlet resistance of the water spraying part is larger than that of the water outlet, so that the water spraying part does not spray water to the flat mop when the water outlet is in a conducting state.

As a preferable scheme: when the water pumping device is in a working state and the water outlet is in a conducting or stopping state, the water filling ports all discharge water.

As a preferable scheme: a positioning assembly is arranged between the lifting water tank and the barrel body or the barrel cover, the positioning assembly enables the water quantity in the lifting water tank to be gradually increased and still be positioned at the first position when the water quantity is smaller than a set quantity, and the lifting water tank moves from the first position to the second position after the water quantity in the lifting water tank exceeds the set quantity.

As a preferable scheme: the positioning component is a pair of buckle and bayonet structure, or a pair of two magnets or a magnet and a magnetic conduction piece which are tightly attracted by magnetic force.

As a preferable scheme: the barrel cover is connected with a vertically arranged fourth water outlet pipe connected with the water outlet end of the water pumping device, and the water outlet is formed in the side wall of the fourth water outlet pipe; the lifting water tank is provided with a sliding switch tube which is sleeved on the outer wall of the fourth water outlet tube in a sliding manner, and when the lifting water tank is positioned at the first position, the sliding switch tube blocks the water outlet; when the lifting water tank is located at the second position, the sliding switch pipe and the water outlet are staggered.

As a preferable scheme: the water flowing out of the water outlet is injected into the lifting water tank.

As a preferable scheme: the mop bucket also comprises a linkage component, and the linkage component enables the water pumping device and the flat mop inserted in the mop penetration to form transmission connection.

As a preferable scheme: the lower end of the barrel cover is provided with a mounting frame, and the linkage component and the water pumping device are both mounted on the mounting frame.

Compared with the prior art, the beneficial effects of the utility model are that: through setting up the water filling port is toward lift basin water injection gradually at the pumping device during operation for the lift basin removes the second position by the primary importance, thereby makes the outlet switch to the on-state by the off-state, and then makes the water spray part have the first stage of water spray and the second stage that does not spray water, thereby makes dull and stereotyped mop only need wear the mouth at the mop and continuously reciprocate, alright accomplish in proper order wash and crowded dry work flow, and is easy and simple to handle, and the user need not extra operation and can accomplish the cleanness to dull and stereotyped mop.

Drawings

Fig. 1 and 2 are schematic structural views of the mop bucket and the flat mop of the present invention.

Fig. 3 is a schematic view of the disassembled structure of the mop bucket of the present invention.

Fig. 4 is a schematic structural view of the middle barrel body of the present invention.

Fig. 5 and 6 are schematic structural views of the mounting bracket and components mounted on the mounting bracket.

Fig. 7 is a schematic view showing an assembled structure of the tub cover and components connected thereto.

Fig. 8 is an exploded view of the water pumping device.

Fig. 9 is a schematic sectional view of the mop bucket of the present invention.

Fig. 10 is an enlarged view of the structure of part a of fig. 9.

FIG. 11 is a schematic view of the elevating water tank in a first position.

Fig. 12 is an enlarged view of the structure of the portion B of fig. 11.

FIG. 13 is a schematic view of the elevating basin in a second position.

Fig. 14 is a schematic view of the flat mop in a cleaning state.

1. A barrel body; 101. a clear water bin; 102. cleaning and squeezing the bin; 103. a sewage bin;

11. a handle; 12. a first bayonet; 13. a second bayonet;

2. a barrel cover; 201. a mop penetration opening; 202. a water adding port; 20. a mounting frame; 21. a first buckle; 22. a second buckle; 23. a first magnet; 24. a magnet mounting post;

3. a water spray member;

4. a linkage member; 41. a driven wheel; 42. a driving wheel; 43. rotating the transmission member;

5a, a first water pumping device; 5b, a second water pumping device;

501. a first water outlet pipe; 502. a second water outlet pipe; 503. a third water outlet pipe; 504. a fourth water outlet pipe; 505. a water outlet;

51. a water pump housing; 511. a piston cylinder; 512. a water outlet pipeline; 513. a water outlet one-way valve; 52. a bottom cover; 521. a water inlet one-way valve; 53. a piston body; 531. a piston rod body; 54. a water outlet pipe body;

6. lifting the water tank; 60. a return spring; 61. a sliding switch tube; 62. a slow release drain hole; 63. a second magnet; 64. a guide tube;

7. an extruder;

9. a flat mop; 90. a mop head; 91. a drive rack; 92. a wipe; 93. a rotary joint; 94. a mop rod.

Detailed Description

Example 1

According to fig. 1 to 14, the present embodiment provides a mop bucket with separated dirt cleaning, which includes a bucket body 1 provided with a clean water bin 101, a bucket cover 2 is provided on the bucket body, a mop penetrating port 201 for a flat mop to penetrate into the bucket body is provided on the bucket cover, and an extruder 7 for extruding, cleaning and/or squeezing and dewatering the flat mop is provided on one side of the mop penetrating port. In this embodiment, the squeezer is a blade-like scraper that is fixedly or rotatably or slidably mounted on the lid.

As shown in fig. 1, 2 and 14, the flat mop includes a mop head 90 in the form of an elongated rectangular flat plate, and a mop rod 94 connected to the mop head at a central position on the upper end thereof by a swivel joint 93. The rotary joint is respectively connected with the mop head and the mop rod in a rotating mode, the lower end face of the mop head is detachably connected with a wiping object 92, and the mop head can rotate relative to the mop rod to a state approximately parallel to the mop rod as shown in fig. 14, so that the mop head can be vertically inserted into a mop penetration hole to be cleaned.

The mop bucket also comprises a water spraying part 3 for spraying water towards the flat mop and a water pumping device for taking water from the clean water bin and conveying the water to the water spraying part. The water emitting member has water emitting holes for emitting water toward the wiper on the mop head. The water pumping device is a piston water pump or a diaphragm pump or a centrifugal pump and other common water pump structures.

The flat mop can drive the water pumping device to work when moving upwards and/or downwards in the mop penetration. Specifically, the mop bucket further comprises a linkage part 4, and the linkage part enables the water pumping device and the flat mop inserted in the mop penetration to form transmission connection. The lower end of the barrel cover is provided with a mounting frame 20, and the linkage component and the water pumping device are both mounted on the mounting frame. Therefore, no other parts are arranged in the barrel body after the barrel cover is taken down from the barrel body, and the barrel body is convenient to clean.

The water pumping device comprises a water pump shell 51, the water pump shell comprises a piston cylinder 511 which is communicated up and down and a water outlet pipeline 512 which is integrally connected with the side wall of the piston cylinder, and a water outlet one-way valve 513 is arranged in the water outlet pipeline. The lower end of the piston cylinder is connected with a bottom cover 52, the bottom cover 52 communicates the water inlet end of the water outlet one-way valve with the inside of the piston cylinder, and the bottom cover is internally provided with a water inlet one-way valve 521. A piston body 53 is arranged in the piston cylinder in a sliding mode, and the piston body 53 is connected with a piston rod body 531. The upper end of the water outlet pipeline is connected with a water outlet pipe body 54, and the upper end of the connecting pipe body 54 is relatively fixed with the mounting frame.

The linkage part comprises a driven wheel 41 and a driving wheel 42 which are rotatably arranged on the mounting frame, and a rotary transmission piece 43 which is coaxially and fixedly connected with the driving wheel, the driving wheel is in meshing transmission with the driven wheel, and the upper end of the piston rod body is rotatably connected with the rotary transmission piece at a position deviating from the rotation center, so that the rotary motion of the rotary transmission piece can be converted into the reciprocating motion of the piston body.

The mop head is provided with a driving rack 91 along the length direction, and the driving rack is in meshed transmission connection with the driven wheel when the mop head moves up and down in the mop penetrating range.

The water pumping device is also connected with a water outlet 505, and when the water pumping device is in a working state, the water spraying component sprays water to the flat mop when the water outlet is cut off, namely the mop head can be cleaned when moving up and down in the mop penetration; when the water outlet is communicated, the water spraying part does not spray water to the flat mop, namely, the mop head can be scraped dry when moving up and down in the mop penetration.

A lifting water tank 6 is movably arranged in the barrel body, the lifting water tank can be positioned at a first position (shown in figure 12) and a second position (shown in figure 13) which are different in height, the first position is higher than the second position, and when the lifting water tank is positioned at the first position, the water outlet is directly or indirectly cut off; when the lifting water tank is positioned at the second position, the water outlet is directly or indirectly communicated.

The first position and the second position may be a certain height position having a specific height relative to the bottom of the barrel body, or may refer to a section of height interval, as shown in fig. 13, in the process that the lifting water tank moves downward until the drain opening is exposed and then continues to move downward, the drain opening is still in a conducting state, that is, the second position refers to a section of height interval in the process that the lifting water tank moves from the drain opening to the lower limit position.

Specifically, a vertically arranged fourth water outlet pipe 504 connected with the water outlet end of the water pumping device is connected to the barrel cover or the mounting frame, the fourth water outlet pipe is connected with the water outlet pipe body through a second water outlet pipe, and the water outlet 505 is arranged on the side wall of the fourth water outlet pipe; the lifting water tank is provided with a sliding switch pipe 61 which is sleeved on the outer wall of the fourth water outlet pipe in a sliding manner, and when the lifting water tank is positioned at the first position, the sliding switch pipe blocks the water outlet; when the lifting water tank is located at the second position, the sliding switch pipe and the water outlet are staggered. The water flowing out of the water outlet is injected into the lifting water tank.

In other embodiments, the lifting sink can be rotatably connected to the lid or the mounting bracket via a lever, and both ends of the lever are respectively connected to the lifting sink and the valve body, so that the water outlet can be located at a position far from the lifting sink, i.e., the water outlet can be located close to the water outlet tube.

The water pumping device is also connected with a water injection port, and when the water pumping device is in a working state, the water injection port faces the lifting water tank for injecting water. When the water pumping device is in a working state and the water outlet is in a conducting or stopping state, the water filling ports all discharge water.

In this embodiment, the two water pumping devices include a first water pumping device 5a and a second water pumping device 5b, and the first water pumping device 5a and the second water pumping device 5b are in transmission connection with the same linkage component or are in transmission connection with one linkage component respectively. The second water outlet pipe is connected with the water outlet pipe body of the first water pumping device, and the water spraying part is connected with the water outlet pipe body of the first water pumping device through the first water outlet pipe 501. The water injection port is connected with the water outlet pipe body of the second water pumping device.

In order to make the water spraying part not spray water when the water outlet is conducted, in the embodiment, the second water outlet pipe is arranged lower than the first water outlet pipe, and meanwhile, the height of the water spraying part is larger than that of the water outlet, so that when the water outlet is conducted, all or most of the water pumped by the first water pumping device flows out of the water outlet.

In other embodiments, a flow-resisting device such as a pressure-limiting valve can be arranged in the first water outlet pipe to increase the communication pressure, and all or most of the pumped water of the first water pumping device can flow out of the water outlet when the water outlet is communicated. That is, the water discharge resistance of the water discharge member is greater than the water discharge resistance of the water discharge opening, so that the water discharge member does not discharge water to the flat mop when the water discharge opening is in a conduction state.

In other embodiments, the water outlet pipes of the first water pumping device and the second water pumping device can be connected in parallel, i.e. the water filling port, the water discharging port and the water spraying part are communicated with the water outlet pipes of the two water pumping devices.

When the water quantity in the lifting water tank is smaller than a set value, the lifting water tank is located at a first position, and the water spraying component sprays water to clean the flat mop; and when the water quantity in the lifting water tank is greater than a set value, the lifting water tank moves to a second position, and the water spraying component does not spray water.

Further, in order to clean the flat mop each time, the mop bucket can automatically return to the initial state so as to clean the flat mop next time. The lifting water tank is provided with a slow release drain hole 62, the slow release drain hole can drain water in the upgrading water tank, and the aperture of the slow release drain hole should satisfy the following conditions: when the water pumping device is in a working state, the flow of the water injection port is larger than that of the slow-release drain hole, so that the water quantity in the lifting water tank is gradually increased.

In addition, the lifting water tank is also connected with a reset component, the reset component in the embodiment is a reset spring 60, and the reset component enables the lifting water tank to be positioned at the first position under the condition that no water exists or to be reset to the first position from the second position under the condition that the water quantity is gradually reduced. In other embodiments, the restoring member may also be a bungee cord.

A positioning assembly is arranged between the lifting water tank and the barrel body or the barrel cover, the positioning assembly enables the water quantity in the lifting water tank to be gradually increased and still be positioned at the first position when the water quantity is smaller than a set quantity, and the lifting water tank moves from the first position to the second position after the water quantity in the lifting water tank exceeds the set quantity.

In this embodiment, the positioning assembly is two magnets which are arranged in pairs and are attracted tightly by magnetic force, namely a first magnet 23 and a second magnet 63, the first magnet is arranged at the lower end of the magnet mounting column 24, and the upper end of the magnet mounting column is fixedly connected with the mounting frame. A guide pipe 64 which is in sliding sleeve connection with the magnet mounting column is arranged in the lifting water tank, and the second magnet is fixed at the bottom of the guide pipe.

In other embodiments, the positioning assembly may also be a pair of a snap and a bayonet structure, or a magnet and a magnetic conductor.

Additionally, be equipped with the baffle of two vertical settings in the staving, two baffles divide into clear water storehouse 101, washing wringing storehouse 102 and sewage storehouse 103 in with the staving, the pumping unit is located the clear water storehouse, the position that corresponds the clear water storehouse on the bung is equipped with water filling port 202, wash wringing storehouse and be located the mop and wear a mouthful below, the sewage storehouse is located the drainage end below of squeezer, and the squeezer is followed and is crowded down water whole or most inflow on the wiper in the sewage storehouse.

The staving lateral wall still is connected with handle 11, the bung is located clear water storehouse one end lateral wall and is equipped with first buckle 21, and the bilateral symmetry that is located sewage storehouse one end is equipped with two second buckles 22, the staving lateral wall is equipped with first bayonet socket 12 corresponding the position of first buckle, and the position that corresponds the second buckle is equipped with second bayonet socket 13. The second buckle is an elastic buckle, and can be separated from the second bayonet by pressing, so that the barrel cover can be conveniently disassembled and assembled relative to the barrel body.

When the flat mop is cleaned, sufficient water is firstly added into the clean water bin through the water adding port, the mop head is rotated to a state approximately parallel to the mop rod as shown in fig. 14, the mop head is inserted into the mop penetration port and moves up and down, in the process, the mop head drives the driven wheel 41 to rotate through the driving rack 91, and then the rotating transmission piece 43 drives the piston rod body and the piston body to reciprocate relative to the piston barrel, because the water discharging port in the initial state is in a cut-off state, water pumped by the first water pumping device is sprayed onto the wiping objects from the water spraying port of the water spraying part, and the wiping objects with water move up and down relative to the squeezer, so that cleaning is realized;

along with the continuous work of first pump water installation and second pump water installation, the water yield in the lift basin increases gradually, when the water yield in the lift basin surpassed the setting value (the whole weight of lift basin promptly surpassed the magnetic field suction of first magnet and second magnet, and reset spring's during primary importance elasticity), then the lift basin is moved by primary importance toward the second place, make the outlet switch on, the outlet switches on the back, the whole or most of water of first pump water installation pump water is flowed by the outlet, the water jet is no longer toward the wiper water spray, when the mop head reciprocates in the mop wearing mouth relative squeezer this moment, then water on the wiper is extruded gradually by the squeezer and is realized wiping the dry of scraping of thing.

Claims (10)

1. A mop bucket with a dirt cleaning and separating function comprises a bucket body provided with a clean water bin, wherein a bucket cover is arranged on the bucket body, a mop penetrating port for a flat mop to penetrate into the bucket body is formed in the bucket cover, and an extruder for extruding, cleaning and/or extruding and dewatering the flat mop is arranged on one side of the mop penetrating port; the method is characterized in that: the mop bucket also comprises a water spraying part for spraying water towards the flat mop, and a water pumping device for taking water from the clean water bin and conveying the water to the water spraying part; the flat mop can drive the water pumping device to work when moving upwards and/or downwards in the mop penetration; the water pumping device is also connected with a water outlet, when the water pumping device is in a working state, the water spraying part sprays water to the flat mop when the water outlet is cut off, and when the water outlet is switched on, the water spraying part does not spray water to the flat mop; the water outlet is closed when the lifting water tank is positioned at the first position; when the lifting water tank is positioned at the second position, the water outlet is communicated; the water pumping device is also connected with a water injection port, and when the water pumping device is in a working state, the water injection port injects water into the lifting water tank; when the water quantity in the lifting water tank is smaller than a set value, the lifting water tank is located at a first position, and the water spraying component sprays water to clean the flat mop; and when the water quantity in the lifting water tank is greater than a set value, the lifting water tank moves to a second position, and the water spraying component does not spray water.

2. A mop bucket for decontamination and separation as defined in claim 1, further comprising: the lifting water tank is provided with a slow release drain hole, and the flow of the water injection port is larger than that of the slow release drain hole when the water pumping device is in a working state, so that the water quantity in the lifting water tank is gradually increased; the lifting water tank is also connected with a resetting part, and the resetting part enables the lifting water tank to be positioned at the first position under the condition that no water exists or to be returned to the first position from the second position under the condition that the water quantity is gradually reduced.

3. A dirt separation mop bucket as defined in claim 1 further including: the water pumping device comprises a first water pumping device and a second water pumping device, and the water spraying part and the water outlet are connected with a water outlet of the first water pumping device; the height of the water spraying part is larger than that of the water outlet, or the water outlet resistance of the water spraying part is larger than that of the water outlet, so that the water spraying part does not spray water to the flat mop when the water outlet is in a conduction state.

4. A trash separated mop bucket according to claim 3 or 2 further characterized by: when the water pumping device is in a working state and the water outlet is in a conducting or stopping state, the water outlets all discharge water.

5. A trash separated mop bucket according to claim 1 or 2 further characterized by: a positioning assembly is arranged between the lifting water tank and the barrel body or the barrel cover, the positioning assembly enables the water quantity in the lifting water tank to be gradually increased and still be positioned at the first position when the water quantity is smaller than a set quantity, and the lifting water tank moves from the first position to the second position after the water quantity in the lifting water tank exceeds the set quantity.

6. A trash separated mop bucket according to claim 5 further comprising: the positioning component is a pair of buckle and bayonet structure, or a pair of two magnets or a magnet and a magnetic conduction piece which are tightly attracted by magnetic force.

7. A trash separation mop bucket as in claim 1 or 2 or 3 further characterized by: the barrel cover is connected with a vertically arranged fourth water outlet pipe connected with the water outlet end of the water pumping device, and the water outlet is formed in the side wall of the fourth water outlet pipe; the lifting water tank is provided with a sliding switch pipe which is sleeved on the outer wall of the fourth water outlet pipe in a sliding manner, and when the lifting water tank is positioned at the first position, the sliding switch pipe blocks the water outlet; when the lifting water tank is located at the second position, the sliding switch pipe and the water outlet are staggered.

8. A trash separated mop bucket according to claim 7 further comprising: the water flowing out of the water outlet is injected into the lifting water tank.

9. A dirt separation mop bucket as defined in claim 1 further including: the mop bucket also comprises a linkage component, and the linkage component enables the water pumping device and the flat mop inserted in the mop penetration to form transmission connection.

10. A mop bucket for decontamination and separation as defined in claim 9, wherein: the lower end of the barrel cover is provided with a mounting frame, and the linkage component and the water pumping device are both mounted on the mounting frame.

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