CN211883674U - Dish washer filter equipment based on micro-nano explodes gas - Google Patents

Abstract

The utility model discloses a dish washer filter equipment based on micro-nano explodes gas relates to dish washer technical field, including cylinder body and the filter unit that is used for holding washing liquid, this filter unit passes through the inlet tube intercommunication cylinder body inner chamber, this filter unit have micro-nano bubble generator through third pipe connection, and this micro-nano bubble generator is connected with out the water unit, should go out the water unit include with the fourth pipeline that micro-nano bubble generator connects and the gas release subassembly that dissolves of being connected with the fourth pipeline other end, should dissolve gas release subassembly and arrange bottom in the cylinder body. The utility model discloses a to the washing liquid filtration that contains residue and oil slick, reduce the detergent use amount to blow gas through the washing liquid of micro-nano bubble generator after filtering, the washing liquid after blowing gas can be cleaned the tableware, has accomplished the tableware washing and to the filterable cyclic process of washing liquid, can carry out slagging-off oil strain and clean tableware to washing liquid effectively.

Description

Dish washer filter equipment based on micro-nano explodes gas

Technical Field

The utility model relates to a dish washer technical field, in particular to dish washer filter equipment based on micro-nano explodes gas.

Background

At present, household dish washing machines all use a water spray cleaning mode, however, on one hand, the common Chinese tableware is difficult to clean due to the problem of the water spray angle of the water spray type dish washing machines, on the other hand, the cleaning effect is always bad and satisfactory due to the fact that the contact time of cleaning liquid and the tableware is short after the cleaning liquid is sprayed, meanwhile, the special dish washing powder used by the household dish washing machines is very expensive, and the use cost is high. In view of this, the water spray type dishwasher has not been popularized in the domestic countries.

Another type of water immersion dishwasher has not been put to use at home for a variety of reasons, one of which is: when the dish washer uses the water liquid to wash the soaking type tableware, because the surface of the tableware can be accompanied by a large amount of food residue, the food residue enters into the water to be washed along with the tableware and can float in the water, and the current filtering device can not meet the requirement. Yet another reason is: such a dishwasher based on ultrasonic waves has not been widely used in domestic life in China due to noise problems, the possibility of potential harm of ultrasonic waves to human bodies, and unsatisfactory cleaning effects.

Disclosure of Invention

An object of the utility model is to provide a dish washer filter equipment based on micro-nano explodes gas can avoid the surplus residue of meal on the tableware and oil slick to the secondary pollution of tableware at clean in-process, can also be favorable to improving the clean effect of dish washer to the tableware simultaneously, reduces the use amount of chemical detergent.

The technical scheme adopted for solving the technical problems is as follows:

dish washer filter equipment based on micro-nano explodes gas, including cylinder body and the filter unit that is used for holding washing liquid, this filter unit passes through the inlet tube intercommunication cylinder body inner chamber, this filter unit have micro-nano bubble generator through third pipe connection, and this micro-nano bubble generator is connected with out the water unit, this water unit include with the fourth pipeline that micro-nano bubble generator connects and the gas release subassembly that dissolves that is connected with this fourth pipeline other end, should dissolve gas release subassembly and arrange bottom in the cylinder body.

As a further improvement of the technical scheme, the filtering unit comprises a water inlet cavity and a water outlet cavity which are communicated with each other, and the water inlet cavity is provided with a filtering material.

As a further improvement of the above technical solution, the filter unit further comprises a filter tank with an open upper end, the water inlet chamber and the water outlet chamber are arranged in the filter tank, and the filter material comprises a coarse filter screen and a fine filter screen located below the coarse filter screen.

As a further improvement of the technical scheme, an oil-water separation pool is arranged between the water inlet cavity and the water outlet cavity, and is provided with an oil storage box which is connected with an oil discharge valve.

As a further improvement of the above technical solution, the filter unit further comprises a closed container, the water inlet chamber is arranged at the upper part of the closed container, the water outlet chamber is arranged at the lower part of the closed container, and the water inlet chamber comprises a water storage chamber communicated with the water inlet pipe and a filter material chamber communicated with the water storage chamber.

As a further improvement of the above technical scheme, the micro-nano bubble generator comprises an air buffer tank, a gas-liquid mixing pump connected with the third pipeline, and a jet device connected with a water outlet of the gas-liquid mixing pump, the air buffer tank is respectively connected with a gas inlet of the gas-liquid mixing pump and a gas inlet of the jet device, and a water outlet of the jet device is connected with the water outlet unit.

As a further improvement of the above technical solution, the dissolved air releasing assembly includes an intercommunicating pipeline and a dissolved air releaser connected to the intercommunicating pipeline, the dissolved air releaser includes an inlet pipe and an outlet pipe connected to the inlet pipe, a tapered inlet cavity is formed inside the inlet pipe, an outlet cavity communicated with the inlet cavity is formed inside the outlet pipe, and a tapered protrusion is arranged on an inner wall of the outlet pipe toward the inlet cavity.

As a further improvement of the above technical solution, the washing machine further comprises a rotation driving device for driving the washing liquid to flow, wherein the rotation driving device comprises a first motor arranged below the cylinder body, a speed reducer connected with the first motor through a transmission mechanism, and a water-stirring wheel connected with an output end of the speed reducer, and the water-stirring wheel is arranged between the bottom wall of the cylinder body and the dissolved air releasing assembly.

As a further improvement of the above technical solution, the water-stirring wheel includes a first disc and a plurality of ribs arranged on the first disc, each of the ribs is in a shape of a ridge or a propeller blade, each of the ribs is in a shape of a C or an S along a radial direction of the first disc, and the plurality of ribs are uniformly distributed on the first disc along a circumference.

As a further improvement of the technical scheme, the bowl rack device further comprises a bowl rack soaked in washing liquid and a vibration driving device for driving the bowl rack to do linear reciprocating motion, wherein the vibration driving device comprises a second motor and a sine mechanism, the second motor and the sine mechanism are arranged outside the side wall of the cylinder body, the sine mechanism comprises a second disc, a convex block, a shifting fork and a horizontal transmission rod, the second disc is arranged on an output shaft of the second motor, the convex block is arranged at the edge of the second disc, an open slot of the convex block is sleeved with the shifting fork, and the horizontal transmission rod is vertically connected with the shifting fork and is connected with the bowl rack through a plurality.

The utility model has the advantages that: the utility model discloses a washing liquid in the filter unit filtration cylinder body, micro-nano bubble generator lets in micro-nano bubble to the washing liquid after filtering, the washing liquid that contains micro-nano bubble releases a large amount of micro-nano bubbles after dissolving the gas release subassembly, micro-nano bubble slowly rises afterwards and reachs the tableware surface, the shock wave that part micro-nano bubble broke the production on the tableware surface cleans the tableware, but part micro-nano bubble adsorbs the greasy dirt and the oily dirt of carrying rises to washing liquid surface and makes it become the oil slick, the washing liquid that contains residue and oil slick lets in the filter unit once more through the inlet tube and filters. The utility model discloses a wash liquid to containing residue and oil slick filters, reduces the detergent use amount to explode gas through micro-nano bubble generator to the wash liquid after filtering, the wash liquid after exploding gas can be cleaned the tableware, the utility model discloses accomplish the dish washing and to the filterable cyclic process of wash liquid, can carry out slagging-off oil strain and clean tableware to wash liquid effectively.

Drawings

In order to more clearly illustrate the technical solution in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly described below. It is clear that the described figures represent only some embodiments of the invention, not all embodiments, and that a person skilled in the art can also derive other designs and figures from these figures without inventive effort.

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

fig. 2 is a schematic structural diagram of a second embodiment of the present invention;

FIG. 3 is a schematic view of a first configuration of a filter unit according to the present invention;

FIG. 4 is a schematic view of a second configuration of a filter unit according to the present invention;

FIG. 5 is a schematic view of a third configuration of the filter unit of the present invention;

FIG. 6 is a schematic view of a fourth configuration of a filter unit according to the present invention;

FIG. 7 is a schematic view of a first configuration of a filter unit according to the present invention;

FIG. 8 is a schematic structural view of a dissolved air releasing assembly according to the present invention;

FIG. 9 is a cross-sectional view of the dissolved air releaser of the present invention;

FIG. 10 is a schematic view of a first embodiment of the dissolved air releaser of the present invention;

FIG. 11 is a schematic view of a second construction of the dissolved air releaser of the present invention;

fig. 12 is a schematic structural diagram of the micro-nano bubble generator of the present invention.

Detailed Description

The conception, the specific structure, and the technical effects produced by the present invention will be clearly and completely described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the features, and the effects of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and other embodiments obtained by those skilled in the art without inventive labor based on the embodiments of the present invention all belong to the protection scope of the present invention. In addition, all the coupling/connection relationships mentioned herein do not mean that the components are directly connected, but mean that a better coupling structure can be formed by adding or reducing coupling accessories according to specific implementation conditions.

Fig. 1, fig. 3 to fig. 12 show the utility model discloses a first embodiment, a micro-nano explodes dish washer filter equipment of gas, including cylinder body 12 and the filter unit 2 that is used for holding washing liquid, cylinder body 12 is placed in the shell 11 of dish washer, and filter unit 2 passes through inlet tube intercommunication cylinder body 12 inner chamber, and wherein the inlet tube is including the first drain pipe 81 and the second drain pipe 82 on intercommunication cylinder body 12 inner chamber upper portion of intercommunication cylinder body 12 inner chamber bottom. Two sludge suction ports are formed through the first and second water discharge pipes 81 and 82, the sludge suction port located at the bottom of the inner cavity of the cylinder body 12 sucks the washing liquid containing the precipitated sludge, and the sludge suction port located at the upper portion of the inner cavity of the cylinder body 12 sucks the washing liquid containing the floating sludge and the floating oil, and then removes the sludge through the filter unit, and the position of the sludge suction port of the second water discharge pipe 82 is preferably a washing liquid water line. The filtering unit 2 is connected with a micro-nano bubble generator 7 through a third pipeline 83, the micro-nano bubble generator 7 is connected with a water outlet unit, the water outlet unit comprises a fourth pipeline 84 connected with the micro-nano bubble generator 7 and a dissolved air release assembly 3 connected with the other end of the fourth pipeline 84, and the dissolved air release assembly 3 is arranged at the bottom of the cylinder body 12.

The micro-nano bubble generator 7 comprises an air buffer tank 72, a gas-liquid mixing pump 71 connected with the third pipeline 83 and a jet device 73 connected with a water outlet of the gas-liquid mixing pump 71, the air buffer tank 72 is respectively connected with a gas inlet of the gas-liquid mixing pump 71 and a gas inlet of the jet device 73, and a water outlet of the jet device 73 is connected with a water outlet unit. The gas-liquid mixing pump 71 is further connected with a fifth pipeline 85, tap water can be introduced into the fifth pipeline 85, a second control valve 87 is arranged on the fifth pipeline 85, and a first control valve 86 is arranged on the third pipeline 83.

Referring to fig. 3, showing a first structure of the filter unit 2, the filter unit 2 includes a water inlet chamber 21 and a water outlet chamber 23 which are communicated with each other, the water inlet chamber 21 is provided with a filter material 25, the filter unit 2 further includes a filter tank having an upper end opened, and the water inlet chamber 21 and the water outlet chamber 23 are provided in the filter tank and the filter tank is provided below the cylinder body 12. Meanwhile, an oil-water separation pool 22 is arranged between the water inlet cavity 21 and the water outlet cavity 23, the lower portion of the water inlet cavity 21 is communicated with the lower portion of the oil-water separation pool 22, the water outlet cavity 23 is communicated with the oil-water separation pool 22 through a water level control channel, specifically, the lower portion of the water level control channel is communicated with the oil-water separation pool 22, the upper portion of the water level control channel is communicated with the water outlet cavity 23, and the third pipeline 83 is communicated with the water outlet cavity. An oil storage box 29 is provided above the oil-water separation tank 22, and an oil drain valve is connected to the oil storage box 29. The filter unit 25 comprises a coarse filter screen 251 and a fine filter screen 252 situated thereunder. The washing liquid containing the residue or the oil is introduced into the inlet chamber 21 through the inlet pipe, filtered by the coarse filtering screen 251 and the fine filtering screen 252, and then introduced into the oil-water separation tank 22 from the lower portion of the inlet chamber 21. In the oil-water separation tank 22, the oil will float on the surface of the cleaning liquid, i.e. the floating oil, and flow into the oil storage box 29 along the side wall thereof, and the oil can be discharged through the oil discharge valve. The washing liquid will flow into the water level control channel from the lower part of the oil-water separation tank 22, and then overflow to the water outlet chamber 23 from the upper part of the water level control channel. Further, the water inlet pipe is provided with a water level control valve 24, when the water level of the water inlet chamber 21 reaches a limit value, a switch of the water level control valve 24 is touched to close a flow opening thereof, so as to prevent the washing liquid of the water inlet chamber 21 from overflowing or the washing liquid of the cylinder 12 from being too little, and the limit value of the water level of the water inlet chamber 21 is preferably set to a position of a horizontal plane along the sidewall of the oil storage box 29.

With reference to fig. 4, a second configuration of the filtering unit 2 is shown, differing from the first configuration in that: the filtering tank is arranged above the cylinder body 12, namely the highest position of the water inlet pipe is higher than the water level of the washing liquid in the cylinder body 12, the washing liquid can not freely flow to the water inlet chamber 21 by gravity, a water level control valve 24 is not needed, but a water pump 26 is arranged on the water inlet pipe, meanwhile, the water pump 26 is provided with a water level control ball valve 27 for controlling the opening and closing state of the water pump, once the water level of the water inlet chamber 21 reaches a set upper limit value, a ball on the water level control ball valve 27 floats upwards, the water pump 26 is closed, and the washing liquid in the water inlet chamber 21 is prevented from overflowing.

Referring to fig. 5, a third structure of the filtering unit 2 is shown, the filtering unit 2 includes a water inlet chamber 21 and a water outlet chamber 23 which are communicated with each other, the water inlet chamber 21 is provided with a filtering material 25, the filtering unit 2 further includes a closed container, the water inlet chamber 21 is arranged at the upper part of the closed container, the water outlet chamber 23 is arranged at the lower part of the closed container, a water pump 26 is also required to be arranged at the water inlet pipe, and the water inlet chamber 21 includes a water storage chamber 211 communicated with the water inlet pipe and a filtering material chamber 212 communicated with the water storage chamber 211. Filter material 25 arranges in filter media room 212, filter material 25 includes at least one filter belt subassembly, every filter bag subassembly includes basket and arranges the filter bag in this basket, the inner wall of basket is hugged closely to the surface of filter bag, the basket outer wall communicates with play water cavity 23, the fixed orifices that can imbed the basket has been arranged to the diapire of reservoir chamber 211, the top and the reservoir chamber 211 diapire fixed connection of basket, adopt this kind of sack formula to filter, can design into the container lid that can open and close with the top of closed container, convenient cleaning or change filter bag, closed container still sets up the manometer 28 of observable reservoir chamber 211 internal pressure.

With reference to fig. 6, a fourth configuration of the filtering unit 2 is shown, differing from the third configuration by: the filter material 25 is different, the filter material 25 comprises at least one filter element assembly, the water inlet of the filter element assembly is communicated with the water storage chamber 211, the water outlet of the filter element assembly is communicated with the water outlet chamber 23, each filter element assembly comprises a hollow sleeve and a filter element filled in the hollow sleeve, and the filter element can be selected from various filter element structures such as a ceramic filter element, a glass fiber filter element activated carbon filter element, a textile fiber winding filter element and a polypropylene melt-blown filter element.

The utility model discloses a washing liquid in the filtration cylinder body 12 of filter unit 2, micro-nano bubble generator 7 lets in micro-nano bubble to the washing liquid after filtering, the washing liquid that contains micro-nano bubble releases a large amount of micro-nano bubbles after dissolving gas release subassembly 3, micro-nano bubble slowly rises afterwards and reachs the tableware surface, the shock wave that part micro-nano bubble broke the production on the tableware surface cleans the tableware, but part micro-nano bubble adsorbs greasy dirt and carries oily dirt to rise to washing liquid surface and make it become the oil slick, the washing liquid that contains residue and oil slick lets in filter unit 2 once more through the inlet tube and filters, the washing of tableware and the filterable cyclic process of washing liquid have been accomplished, can carry out slagging-off oil strain and clean tableware to washing liquid effectively.

Further, the dissolved air releasing assembly 3 comprises an intercommunicating pipeline 32 and a dissolved air releaser 31 connected with the intercommunicating pipeline 32, and a groove matched with the dissolved air releasing assembly 3 can be preferably arranged on the bottom wall of the inner cavity of the cylinder body 12, so that the inner cavity of the cylinder body 12 is smoother and more beautiful. Referring to fig. 7, the communicating pipe 32 includes three circular pipes having inner diameters sequentially increased from inside to outside, and the circular pipes are connected to each other by a plurality of connecting pipes. The circular ring pipe can be changed according to the shape of the dishwasher cylinder, and can be designed into a square ring pipe with reference to fig. 8. Still further, referring to fig. 9 to 11, the dissolved air releaser 31 includes an inlet pipe 311 and an outlet pipe 312 connected to the inlet pipe 311, wherein a tapered inlet cavity is formed inside the inlet pipe 311, an outlet cavity communicated with the inlet cavity is formed inside the outlet pipe 312, and a tapered protrusion 313 is arranged on the inner wall of the outlet pipe 312 facing the inlet cavity. Fig. 10 shows the dissolved air releaser 31 of first kind of structure, specifically designs outlet pipe 312 into to form by four branch pipe cross connection, is the rice word form or is the octapod form, and fig. 11 shows the dissolved air releaser 31 of second kind of structure, the utility model discloses the dissolved air releaser 31 that preferred fig. 10 shows, the washing liquid that contains micro-nano bubble is behind the inlet tube 311 of dissolved air releaser 31, and the velocity of water is accelerated to outlet pipe 312 that flows to the rice word form or is the octapod form through toper lug 313, releases more, the micro-nano bubble of density.

In the first embodiment of the present invention, the dishwasher further comprises a rotation driving device for driving the flowing of the washing liquid, the rotation driving device comprises a first motor 51 disposed below the cylinder body 12, a speed reducer 52 connected with the first motor 51 through a transmission mechanism and a water-stirring wheel 53 connected with the output end of the speed reducer 52, the water-stirring wheel 53 is disposed between the bottom wall of the cylinder body 12 and the dissolved air releasing component 3, the water-stirring wheel 53 comprises a first disk and a plurality of ribs disposed on the first disk, each rib is in the shape of a ridge or a propeller blade, each rib is in the shape of a C or an S along the radial direction of the first disk, and the plurality of ribs are uniformly distributed on the first disk along the circumference. The washing liquid is driven to flow by the water stirring wheel 53, so that tableware can collide with more micro-nano bubbles, and the cleaning effect is greatly improved.

Fig. 2 shows a second exemplary embodiment of the invention, which differs from the first exemplary embodiment in that: the bowl racks 13 soaked in the washing liquid are driven to do linear reciprocating motion by a vibration driving device instead of a rotation driving device, the vibration driving device comprises a second motor 61 arranged outside the side wall of the cylinder body 12 and a sine mechanism, the sine mechanism comprises a second disc arranged on an output shaft of the second motor 61, a convex block arranged at the edge of the second disc, a shifting fork 62 with an opening groove sleeved on the convex block and a horizontal transmission rod 63 vertically connected with the shifting fork 62, and the horizontal transmission rod 63 is connected with the bowl racks 13 through a plurality of vertical rods 64. A pair of supporting seats 65 are symmetrically arranged on the upper part of the side wall of the cylinder body 12, each supporting seat 65 is provided with a bearing hole, and the horizontal transmission rod 63 penetrates through each bearing hole and can freely slide in the bearing hole. By adopting the vibrating dish rack 13, the tableware collides with more bubbles in the moving process of the dish rack 13, and the cleaning effect can be greatly improved.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the gist of the present invention within the scope of knowledge possessed by those skilled in the art.

Claims (10)

1. Dish washer filter equipment based on micro-nano explodes gas, its characterized in that: including cylinder body (12) and the filter unit (2) that are used for holding washing liquid, this filter unit (2) communicate through the inlet tube cylinder body (12) inner chamber, this filter unit (2) are connected with micro-nano bubble generator (7) through third pipeline (83), and this micro-nano bubble generator (7) are connected with out the water unit, this water unit include with fourth pipeline (84) that micro-nano bubble generator (7) are connected and dissolve gas release subassembly (3) of being connected with this fourth pipeline (84) other end, should dissolve gas release subassembly (3) and arrange bottom in cylinder body (12).

2. The dishwasher filtering apparatus based on micro-nano aeration according to claim 1, characterized in that: the filter unit (2) comprises a water inlet chamber (21) and a water outlet chamber (23) which are communicated with each other, and a filter material (25) is arranged in the water inlet chamber (21).

3. The dishwasher filtering apparatus based on micro-nano aeration according to claim 2, characterized in that: the filter unit (2) further comprises a filter tank with an upper end opened, the water inlet chamber (21) and the water outlet chamber (23) are arranged in the filter tank, and the filter material (25) comprises a coarse filter screen (251) and a fine filter screen (252) positioned below the coarse filter screen.

4. The dishwasher filtering apparatus based on micro-nano aeration according to claim 3, characterized in that: an oil-water separation pool (22) is arranged between the water inlet chamber (21) and the water outlet chamber (23), an oil storage box (29) is arranged in the oil-water separation pool (22), and the oil storage box (29) is connected with an oil discharge valve.

5. The dishwasher filtering apparatus based on micro-nano aeration according to claim 2, characterized in that: the filter unit (2) further comprises a closed container, the water inlet chamber (21) is arranged on the upper portion of the closed container, the water outlet chamber (23) is arranged on the lower portion of the closed container, and the water inlet chamber (21) comprises a water storage chamber (211) communicated with the water inlet pipe and a filter material chamber (212) communicated with the water storage chamber (211).

6. The dishwasher filtering apparatus based on micro-nano aeration according to any one of claims 1 to 5, characterized in that: the micro-nano bubble generator (7) comprises an air buffer tank (72), a gas-liquid mixing pump (71) connected with a third pipeline (83) and a jet aerator (73) connected with a water outlet of the gas-liquid mixing pump (71), wherein the air buffer tank (72) is respectively connected with a gas inlet of the gas-liquid mixing pump (71) and a gas inlet of the jet aerator (73), and a water outlet of the jet aerator (73) is connected with a water outlet unit.

7. The dishwasher filtering apparatus based on micro-nano aeration according to claim 6, characterized in that: the dissolved air releasing assembly (3) comprises an intercommunicating pipeline (32) and a dissolved air releasing device (31) connected with the intercommunicating pipeline (32), the dissolved air releasing device (31) comprises an inlet pipe (311) and an outlet pipe (312) connected with the inlet pipe (311), a conical inlet cavity is formed inside the inlet pipe (311), an outlet cavity communicated with the inlet cavity is formed inside the outlet pipe (312), and a conical convex block (313) is arranged on the inner wall of the outlet pipe (312) towards the inlet cavity.

8. The dishwasher filtering apparatus based on micro-nano aeration according to claim 6, characterized in that: the washing machine further comprises a rotary driving device for driving the washing liquid to flow, the rotary driving device comprises a first motor (51) arranged below the cylinder body (12), a speed reducer (52) connected with the first motor (51) through a transmission mechanism and a water-shifting wheel (53) connected with the output end of the speed reducer (52), and the water-shifting wheel (53) is arranged between the bottom wall of the cylinder body (12) and the dissolved air releasing component (3).

9. The dishwasher filtering apparatus based on micro-nano aeration according to claim 8, characterized in that: the water stirring wheel (53) comprises a first disc and a plurality of convex ribs arranged on the first disc, each convex rib is in a ridge shape or a propeller blade shape, each convex rib is in a C shape or an S shape along the radial direction of the first disc, and the plurality of convex ribs are uniformly distributed on the first disc along the circumference.

10. The dishwasher filtering apparatus based on micro-nano aeration according to claim 6, characterized in that: still including soaking bowl frame (13) at washing liquid and the vibration drive arrangement who drives this bowl frame (13) straight reciprocating motion, this vibration drive arrangement is including installing second motor (61) and the sinusoidal mechanism of cylinder body (12) lateral wall outside, this sinusoidal mechanism is including installing second motor (61) epaxial second disc of output, arrange at the lug at this second disc edge, its open slot cover shift fork (62) and the horizontal transfer line (63) of connecting this shift fork (62) perpendicularly at this lug, this horizontal transfer line (63) are connected through a plurality of vertical poles (64) bowl frame (13).

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