CN217367470U - Water purifier - Google Patents

Abstract

A water purifier comprises a heating tank and a water path switching device, wherein the water path switching device comprises a first state and a second state, the water path switching device is responsible for discharging steam in the heating tank in the first state, and the water path switching device is responsible for discharging hot water and steam in the heating tank in the second state. Simultaneously, the heating tank is always in a full water state, water in the tank is isolated from air, and the water in the tank can be ensured to be in an antibacterial state under the states of high temperature and positive pressure. And the switching and discharging of two paths of steam and hot water are realized during the switching of one water path, so that devices are reduced, and resources are saved.

Description

Water purifier

Technical Field

The application relates to the field of household water purification, in particular to a water purifier.

Background

Along with the popularization of the water purifier, the use demand of a user on the water purifier is higher and higher, and a hot water purifying and heating integrated machine capable of discharging hot water brings new use experience to the user. In the integrative machine of net heat, the heating tank can produce steam at the heating in-process, so, can set up a steam valve alone in the water purifier and be used for controlling the emission of steam, and heating tank itself needs hot water, and heating tank must set up the heating valve, and the water that gets into heating tank itself after the filter core filters in addition can set up the water intaking valve, and the setting of these valves makes the components and parts of water purifier increase, the increase cost. In addition, the water replenishing of the heating tank in the general water purifier is realized by setting a certain liquid level through a water level detection device, and the water replenishing is started when the water level is lower than the liquid level, but if the water level detection device breaks down, the heating tank is dried, so that the potential safety hazard is caused.

SUMMERY OF THE UTILITY MODEL

The application provides a water purifier can set up a valve and realize steam and hydrothermal two switching out, need not additionally set up water level detection device simultaneously, can realize full jar heating, and full jar goes out water, and the water in the heating jar is isolated with the air, guarantees to keep high pressure, antibiotic state in the heating jar all the time.

The application provides a water purifier, which comprises a heating tank, wherein the heating tank comprises a water inlet pipe, a water outlet pipe and a water path conversion device, the water path conversion device comprises a water inlet, a first water outlet and a second water outlet, the water inlet is connected with the water outlet end of the water outlet pipe, the water path conversion device comprises a first state and a second state, and when the water path conversion device is in the first state, the water inlet is communicated with the first water outlet; when the waterway conversion device is in the second state, the water inlet is communicated with the second water outlet, the water in the water inlet pipe is pressed into the heating tank, the water in the heating tank is squeezed into the water outlet pipe, and the water flows out through the second water outlet.

In this application, water route conversion equipment includes first state and second state, and when heating jar was in the heating state, water route conversion equipment was in first state, and the water inlet on the water route conversion equipment links to each other with first delivery port, and at this moment first delivery port is steam outlet, and the steam that produces in the heating jar enters into water route conversion equipment from the water inlet in to discharge from first delivery port. When the waterway conversion device is in a second state, the water inlet on the waterway conversion device is connected with the second water outlet, the second water outlet is a hot water outlet, and steam in the heating tank enters the waterway conversion device along with hot water from the water inlet and is discharged from the second water outlet. The arrangement of the water path switching device can realize the discharge of steam and hot water in different working modes of the heating tank, and the switching and discharge problems of two paths of steam and hot water can be realized only by one device, thereby reducing the arrangement of the device.

Further, work as after the water purifier is electrified for the first time, the heating jar remains the full water state all the time, the heating jar includes the roof, the outlet pipe set up in the roof, just the end of intaking of outlet pipe with the medial surface of roof flushes.

After the water purifier is electrified for the first time, the heating tank is always kept in a full water state, and when a user executes a water taking function, the supercharging device can add water into the heating tank while the user takes water. Therefore, the heating tank can be ensured to be in a full water state when being heated without arranging a water level detection device in the heating tank, and the dry burning phenomenon can be prevented. The heating tank is always in a full water state, so that the heating tank is guaranteed not to contain air, and bacteria are not easy to breed. Meanwhile, the pressure of the pressurizing device is directly applied to the water outlet of the heating tank, so that a water outlet pump and devices can be reduced. In addition, if the end of intaking of the outlet pipe of heating tank stretches into in the heating tank, then because the heating tank is the mode of operation that full jar goes out water, the water that is located in the heating tank between the portion of stretching into of outlet pipe and the roof can't directly get rid of the jar outside, and the water after the heating can be because the temperature height is located the upper portion of heating tank, this section water that stretches into between part and the roof at the outlet pipe belongs to the higher hot water of temperature, and the outlet pipe stretches into the water of part below probably to be the mixed water of the water after the heating and cold water, this also can lead to the outlet pipe temperature of water outflow not enough. In addition, if there is the difference in height at the end of intaking of outlet pipe and play water end, also can lead to the emergence of siphonage to can drop the surface of water in the heating tank to the position that the outlet pipe stretches into, can't guarantee the full water state in the heating tank. And the inlet end of the outlet pipe of the internal heating jar flushes with the medial surface of roof in this application, and such setting both can avoid producing siphon phenomenon and can guarantee to flow out hot water again. The heating tank is always in a full water state, when the heating tank is in a heating state, the temperature in the heating tank rises and is in a positive pressure state, and the heating tank is in an antibacterial state. When the heating tank is in the water outlet state, the heating tank is also in the state of being isolated from the air, so that when the heating tank is in the heating state or the water outlet state, the whole tank body is in a high-temperature and antibacterial state.

Furthermore, the inlet tube passes the roof and stretches into towards the bottom of heating jar, there is the interval between the play water end of inlet tube and the bottom of heating jar.

Stretch into the heating tank with the inlet tube in, cold water gets into the back from the inlet tube, can dash hot tank bottom earlier according to hydraulic effect, then slowly upwards creep along with the increase of water yield again, and such setting can guarantee that cold water can not directly dash top or top in the heating tank pipe, the phenomenon of going out cold water when preventing this hot water that goes out.

Furthermore, the filter element, the supercharging device and the water path component are included, the water outlet end of the supercharging device is connected with the water inlet end of the filter element, the water path component comprises a first water outlet connector and a second water outlet connector, the first water outlet connector is connected with the first water outlet, and the second water outlet connector is connected with the second water outlet.

The booster pump pressurizes the water inlet end of the filter element, water enters the filter element for filtering, and the filtered water also enters the hot tank under the pressure action of the booster device. The water path assembly is provided with a first water outlet connector and a second water outlet connector, the first water outlet connector is connected with a first water outlet of the water path conversion device, the first water outlet is a steam outlet of the heating tank in the heating process, and the first water outlet connector is a steam discharge connector which is arranged corresponding to the steam outlet of the heating tank. The second water outlet joint is connected with a second water outlet of the waterway conversion device, the second water outlet is a hot water outlet of the heating tank, and the second water outlet joint is a hot water discharge joint which is arranged corresponding to the hot water outlet of the heating tank. The steam discharge joint and the hot water discharge joint are respectively arranged to prevent hot water from escaping when steam is discharged in the heating process, and the safety accidents are effectively inhibited.

Furthermore, a check structure is arranged between the first water outlet joint and the first water outlet, and when the waterway conversion device is in the first state, the water inlet is in one-way communication with the first water outlet joint.

First water outlet joint is steam discharge port, and the steam that produces in the heating tank heating process enters into first water outlet joint from first delivery port, then outside following first water outlet joint discharge machine, sets up contrary structure of ending between first water outlet joint and first delivery port, prevents that steam can flow the condition, guarantees steam discharge's one-way conduction.

Furthermore, the water outlet device further comprises a water outlet faucet, wherein the water outlet faucet comprises a hot water pipeline, and the hot water pipeline is communicated with the second water outlet joint.

The water outlet faucet comprises a hot water pipeline, the hot water pipeline is communicated with the second water outlet joint, and when hot water is discharged from the water outlet faucet, steam can enter the hot water pipeline along with the hot water and is discharged from the water outlet faucet.

Furthermore, the filter core, the water route subassembly with heat jar and vertically set up in the water purifier, just the water route subassembly is located the filter core with heat between the jar, first water connectors with the second water connectors is located the side setting of water route subassembly.

Furthermore, the waterway assembly comprises a joint setting area, the first water outlet joint and the second water outlet joint are located in the joint setting area, a water purifying joint, a waste water joint and a raw water joint are further arranged in the joint setting area, and the water inlet and outlet end parts of the filter element are arranged on the same side of the joint setting area.

The water route subassembly sets up the district including connecting, connects the avris setting that the district lies in the water route subassembly that sets up, will connect the top that sets up district, the business turn over water end of filter core, heating jar and all set to the one side that lies in the water purifier, makes things convenient for the pipe connection between water route subassembly, filter core and the heating jar.

Further, the heating tank comprises a bottom wall, a heating body is arranged in the heating tank, and the heating body is coiled on the bottom wall.

Furthermore, the outer side of the bottom wall is provided with oppositely arranged support frames, the bottom wall is provided with a sewage draining exit, and the sewage draining exit is positioned between the opposite support frames.

Drawings

FIG. 1 is an assembled structure view of a filter element, a waterway assembly and a heating tank on a bracket according to the present application;

FIG. 2 is an assembly view of the filter element, the waterway assembly and the heating tank on the bracket at another angle in the present application;

FIG. 3 is a schematic view of a heating tank of the present application;

FIG. 4 is a cross-sectional view of a heating tank of the present application;

FIG. 5 is a cross-sectional view of a heating tank from another angle of the present application;

FIG. 6 is a structural diagram of the waterway conversion device according to the present application;

FIG. 7 is a cross-sectional view of the waterway conversion device of the present application;

FIG. 8 is an assembled view of the waterway assembly, filter element and heating tank of the present application;

1 heating tank, 11 inlet tubes, 12 outlet pipes, 13 roof, 131 installation positions, 14 diapalls, 141 support frame, 142 drain, 15 heating members, 2 water route conversion equipment, 21 water inlet, 22 first delivery port, 23 second delivery port, 24 first runner, 25 second runner, 3 supercharging device, 31 play water end, 32 end of intaking, 4 filter cores, 5 water route subassemblies, 51 first water connectors, 52 second water connectors, 53 joint setting areas, 54 water purification connectors, 55 waste water connectors, 56 raw water connectors, 57 component mounting areas, 6 supports, 7 contrary structures that stop.

Detailed Description

The application provides a water purifier can set up a valve and realize steam and hydrothermal two switching out, need not additionally set up water level detection device simultaneously, can realize full jar heating, full jar play water, and water in the heating jar is isolated with the air, guarantees to keep high pressure, antibiotic state in the heating jar all the time.

As shown in fig. 1-7, the present application provides a water purifier, which includes a heating tank 1, the heating tank 1 includes a water inlet pipe 11 and a water outlet pipe 12, the heating tank 1 includes a heating state and a water outlet state, and a water path switching device 2, the water path switching device 2 includes a water inlet 21, a first water outlet 22 and a second water outlet 23, the water inlet 21 is connected to the water outlet end of the water outlet pipe 12, the water path switching device 2 includes a first state and a second state, and a pressure boosting device 3, the water outlet end 31 of the pressure boosting device 3 is communicated with the water inlet end of the water inlet pipe 11, when the heating tank is in the heating state, the water path switching device is in the first state, and the water inlet is communicated with the first water outlet; when the heating tank is in the water outlet state, the water path conversion device is in the second state, the water inlet is communicated with the second water outlet, the pressurizing device starts to work, water in the water inlet pipe is pressed into the heating tank, water in the heating tank is squeezed into the water outlet pipe, and the water flows out through the second water outlet.

The heating tank comprises a heating state and a water outlet state, the waterway conversion device comprises a first state and a second state, when the heating tank is in the heating state, the heating tank can generate steam in the heating process, the waterway conversion device is in the first state, a water inlet on the waterway conversion device is connected with the first water outlet, at the moment, the first water outlet is a steam outlet, and the steam generated in the heating tank enters the waterway conversion device from the water inlet and is discharged from the first water outlet. When the heating tank is in a water outlet state, the waterway conversion device is in a second state, the water inlet on the waterway conversion device is connected with the second water outlet, the second water outlet is a hot water outlet, and steam in the heating tank enters the waterway conversion device along with hot water from the water inlet and is discharged from the second water outlet. The arrangement of the water path switching device can realize the discharge of steam and hot water in different working modes of the heating tank, and the switching and discharge problems of two paths of steam and hot water can be realized only by one device, thereby reducing the arrangement of the device. When the heating tank is drained, the supercharging device presses water into the heating tank through the water inlet pipe to supplement cold water, the water quantity in the heating tank is always kept sufficient, and the dry burning phenomenon caused by water shortage can not occur.

When the water purifier is electrified for the first time, the heating tank is always kept in a full water state, the heating tank 1 comprises a top wall 13, the water outlet pipe 12 is arranged on the top wall 13, and the water inlet end of the water outlet pipe 12 is flush with the inner side surface of the top wall 13.

After the water purifier is electrified for the first time, the heating tank is always kept in a full water state, and when a user executes a water taking function, the supercharging device can add water into the heating tank while the user takes water. Therefore, the heating tank can be ensured to be in a full water state when being heated without arranging a water level detection device in the heating tank, and the dry burning phenomenon can be prevented. The heating tank is always in a full water state, so that the heating tank is guaranteed not to contain air, and bacteria are not easy to breed. Meanwhile, the pressure of the pressurizing device is directly applied to the water outlet of the heating tank, so that a water outlet pump and devices can be reduced. In addition, if the end of intaking of the outlet pipe of heating tank stretches into in the heating tank, then because the heating tank is the mode of operation that full jar goes out water, the water that is located in the heating tank between the portion of stretching into of outlet pipe and the roof can't directly get rid of the jar outside, and the water after the heating can be in the upper portion of heating tank because the temperature is high, stretch into this section water between part and the roof at the outlet pipe and belong to the higher hot water of temperature, and the outlet pipe stretches into the water of part below probably to be the mixed water of the water after the heating and cold water, and this water temperature that also can lead to the outlet pipe to flow is not enough. In addition, if there is the difference in height in the end of intaking and the play water end of outlet pipe, also can lead to the emergence of siphonage to can inhale the water in the heating jar and discharge in the outlet pipe, the surface of water falls to the position that the outlet pipe stretches into the end of intaking in the jar in the heating jar, can't guarantee the full water state in the heating jar. And the water inlet end of the water outlet pipe of the heating tank in the application is flushed with the inner side surface of the top wall, so that the arrangement can avoid the siphon phenomenon and ensure the outflow of hot water. The heating tank is always in a full water state, when the heating tank is in a heating state, the temperature in the heating tank rises and is in a positive pressure state, and the heating tank is in an antibacterial state. When the heating tank is in the water outlet state, the heating tank is also in the state of being isolated from the air, so that when the heating tank is in the heating state or the water outlet state, the whole tank body is in a high-temperature and antibacterial state.

The inlet tube 11 passes the roof 13 orientation the bottom of heating jar 1 stretches into, the play water end of inlet tube 11 with there is the interval bottom of heating jar 1. Stretch into the heating tank with the inlet tube in, cold water gets into the back from the inlet tube, can dash hot tank bottom earlier according to hydraulic effect, then slowly upwards creep along with the increase of water yield again, and such setting can guarantee that cold water can not directly dash top or top in the heating tank pipe, the phenomenon of going out cold water when preventing this hot water that goes out.

Still include filter core 4 and water route subassembly 5, supercharging device 3's play water end with the end that intakes of filter core 4 links to each other, water route subassembly 5 includes first water connectors 51 and second water connectors 52, first water connectors 51 with first delivery port 22 links to each other, second water connectors 52 with second delivery port 23 links to each other.

The water inlet end of the filter element is pressurized by the pressurizing device, water enters the filter element for filtering, and the filtered water also enters the hot tank under the pressure action of the pressurizing device. The water path assembly is provided with a first water outlet connector and a second water outlet connector, the first water outlet connector is connected with a first water outlet of the water path conversion device, the first water outlet is a steam outlet of the heating tank in the heating process, and the first water outlet connector is a steam discharge connector which is arranged corresponding to the steam outlet of the heating tank. The second water outlet joint is connected with a second water outlet of the waterway conversion device, the second water outlet is a hot water outlet of the heating tank, and the second water outlet joint is a hot water discharge joint which is arranged corresponding to the hot water outlet of the heating tank. The steam discharge joint and the hot water discharge joint are respectively arranged to prevent hot water from escaping when steam is discharged in the heating process, and the safety accidents are effectively inhibited.

A non-return structure 7 is arranged between the first water outlet joint 51 and the first water outlet 22, and when the waterway conversion device 2 is in the first state, the water inlet 21 is in one-way communication with the first water outlet joint 51. First water connectors is steam discharge port, and the steam that produces among the heating tank heating process enters into first water connectors from first delivery port, then outside first water connectors discharge, sets up contrary structure between first water connectors and first delivery port, prevents that the steam meeting from flowing the condition, guarantees steam discharge's one-way conduction.

And the water outlet faucet comprises a hot water pipeline which is communicated with the second water outlet joint 52. The water outlet faucet comprises a hot water pipeline, the hot water pipeline is communicated with the second water outlet joint, and when hot water is discharged from the water outlet faucet, steam can enter the hot water pipeline along with the hot water and is discharged from the water outlet faucet.

The filter core 4 the water route subassembly 5 with heat jar 1 and vertically set up in the water purifier, just the water route subassembly 5 is located the filter core 4 with heat between the jar 1, first water connectors 51 with second water connectors 52 is located the side setting of water route subassembly 5. The waterway assembly 5 comprises a joint setting area 53, the first water outlet joint 51 and the second water outlet joint 52 are positioned in the joint setting area 53, a water purifying joint 54, a waste water joint 55 and a raw water joint 56 are further arranged in the joint setting area 53, and the water inlet end and the water outlet end of the filter element 4 are arranged on the same side of the joint setting area 53. The water route subassembly sets up the district including connecting, connects the avris setting that the district lies in the water route subassembly that sets up, will connect the top that sets up district, the business turn over water end of filter core, heating jar and all set to the one side that lies in the water purifier, makes things convenient for the pipe connection between water route subassembly, filter core and the heating jar.

The heating tank 1 comprises a bottom wall 14, a heating body 15 is arranged in the heating tank 1, and the heating body 15 is spirally arranged on the bottom wall 14. The outer side of the bottom wall 14 is provided with opposite support frames 141, the bottom wall 14 is provided with a sewage draining outlet 142, and the sewage draining outlet 142 is positioned between the opposite support frames 141.

The water purifier includes support 6, is equipped with on support 6 and adds hot pot installing zone, filter core installing zone and water route unit mount district, adds hot pot installing zone and filter core installing zone and is located the relative both ends of support 6, and water route unit mount district sets up between hot pot installing zone and filter core installing zone, is equipped with the installation space of devices such as booster pump, power adapter in the below of water route unit mount district. As shown in fig. 1 and 2, the water path component 5 is a water path plate, the water path component 5 is provided with a joint installation area 53 and a component installation area 57, the joint installation area 53 is arranged at the side of the water path component, the joint installation area 53 and the water inlet and outlet ends of the filter element 4 are arranged at the same end of the heating tank 1, and the water path component is arranged in the middle of the support, so that the water path component is used as a central device for connecting the filter element and the hot tank, the joint of the water inlet and outlet ends of the filter element, the water inlet pipe of the heating tank and the water outlet pipe can be respectively arranged close to the joint installation area of the water path component, and the heating tank and the pipeline connection between the filter element and the water path component are facilitated.

As shown in fig. 3, 4 and 5, the top wall 13 of the heating tank 1 is provided with a water inlet pipe 11, a water outlet pipe 12 and a mounting position 131, in this application, the waterway conversion device 2 is a switching valve, and the waterway conversion device 2 is mounted on the mounting position 131. The bottom wall 14 of the heating tank 1 is provided with a sewage discharge outlet 142, and support frames 141, the support frames 141 are used for mounting and supporting the heating tank 1 in the bracket 6, in this application, the number of the support frames 141 is two, and the sewage discharge outlet 142 is positioned between the two support frames 141. The setting of drain 142 can the regular evacuation heating tank in water, prevents that the inside water retention time overlength of heating tank and the in-tank material that produces from corroding scheduling problem and appearing. The end of intaking of inlet tube 11 flushes mutually with the inboard terminal surface of roof 13, and outlet pipe 12 stretches into inside heating jar 1, and there is the interval between the end of intaking of outlet pipe 12 and the inside diapire of heating jar 1. The water outlet pipe is not arranged to extend into the heating tank, so that the water in the heating tank is prevented from being pumped out due to the occurrence of siphonage. The bottom of hot jar is directly sent into cold water to the stretching into of inlet tube, prevents to appear cold water because receive hydraulic effect directly towards the top in the heating jar, and the condition of going out cold water takes place when effectively preventing hot water.

As shown in fig. 6 and 7, in the present application, the waterway conversion device is a switching valve, a water inlet channel, a first flow channel 24 and a second flow channel 25 are arranged in the waterway conversion device 2, the water inlet channel communicates with the first flow channel 24 and the second flow channel 25, a blocking piece and an elastic piece are further arranged in the waterway conversion device 2, a part of the blocking piece is arranged in the water inlet channel, and the blocking piece can alternatively block the first flow channel and the second flow channel under the action of the elastic piece. When the blocking piece blocks the second flow passage, the waterway conversion device is in a first state, the water inlet 21 is communicated with the first water outlet 22, at the moment, the heating tank is in a heating state, and steam flows out of the first water outlet 22 through the first flow passage 24. When the blocking piece blocks the first flow passage, the waterway conversion device is in the second state, the water inlet 21 is communicated with the second water outlet 23, at the moment, the heating tank is in the water outlet state, and steam flows out of the second water outlet 23 along with hot water through the second flow passage 25.

As shown in fig. 8, the waterway assembly 5, the filter element 4, and the heating tank 1 are installed as shown. After the water purifier was first powered on, heating tank 1 was in full water state all the time, relied on supercharging device to give the filter core pressurization filtration, and the pure water after the filter core filtration passes through the water route subassembly transfer. When the user gets water, the booster pump is directly opened, then judges whether the user gets hot water or cold water, and when the user needs cold water, the water after the filtration can directly flow out from the water purification joint of the waterway assembly, and when the user needs hot water, the cold water after the filtration firstly enters into the hot tank, then extrudes the hot water in the hot tank and transports the tap through the hot water pipeline for the user to use.

Claims (10)

1. A water purifier is characterized by comprising

A heating tank, which comprises a water inlet pipe and a water outlet pipe,

the waterway conversion device comprises a water inlet, a first water outlet and a second water outlet, the water inlet is connected with the water outlet end of the water outlet pipe, the waterway conversion device comprises a first state and a second state,

when the waterway switching device is in the first state,

the water inlet is communicated with the first water outlet;

when the waterway conversion device is in the second state, the water inlet is communicated with the second water outlet, water in the water inlet pipe enters the heating tank, the water in the heating tank is sent into the water outlet pipe, and the water flows out through the second water outlet.

2. The water purifier of claim 1, wherein the heating tank is always kept in a full water state after the water purifier is powered on for the first time, the heating tank comprises a top wall, the water outlet pipe is arranged on the top wall, and the water inlet end of the water outlet pipe is flush with the inner side surface of the top wall.

3. The water purifier of claim 2, wherein the inlet tube extends through the top wall toward the bottom of the heating tank, and the outlet end of the inlet tube is spaced from the bottom of the heating tank.

4. The water purifier of claim 1, further comprising a filter element, a pressurizing device and a waterway assembly, wherein the water outlet end of the pressurizing device is connected with the water inlet end of the filter element, the waterway assembly comprises a first water outlet connector and a second water outlet connector, the first water outlet connector is connected with the first water outlet, and the second water outlet connector is connected with the second water outlet.

5. The water purifier of claim 4, wherein a check structure is disposed between the first water outlet connector and the first water outlet, and when the waterway switching device is in the first state, the water inlet is in one-way communication with the first water outlet connector.

6. The water purifier of claim 4, further comprising a water outlet tap, the water outlet tap comprising a hot water line, the hot water line in communication with the second water outlet fitting.

7. The water purifier of claim 4, wherein the filter element, the water path assembly and the heating tank are longitudinally disposed within the water purifier, the water path assembly is disposed between the filter element and the heating tank, and the first and second water outlets are disposed at sides of the water path assembly.

8. The water purifier of claim 7, wherein the waterway assembly comprises a connector arrangement area, the first water outlet connector and the second water outlet connector are located in the connector arrangement area, a water purification connector, a waste water connector and a raw water connector are further arranged in the connector arrangement area, and the water inlet and outlet ends of the filter element are arranged on the same side as the connector arrangement area.

9. The water purifier according to any one of claims 1 to 8, wherein the heating tank comprises a bottom wall, and a heating body is arranged in the heating tank and is coiled on the bottom wall.

10. The water purifier as recited in claim 9, wherein the outer side of the bottom wall is provided with oppositely arranged support frames, the bottom wall is provided with a sewage draining exit, and the sewage draining exit is positioned between the oppositely arranged support frames.

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