CN113306062B - Lateral wall shunting powder puff foaming processing apparatus - Google Patents

Abstract

The invention relates to the field of powder puff, in particular to a side wall shunting type powder puff foaming treatment device. The technical problem to be solved by the invention is as follows: provides a side wall shunting type puff foaming treatment device. The technical scheme of the invention is as follows: a side wall shunting type powder puff foaming treatment device comprises a charging system, a shaking system, a flow guide system, a first mounting side frame, a first electric slide rail, a first electric slide seat, a discharging spray head, a second mounting side frame, a rack, an operation control screen and the like; the first support frame plate is connected with the electric conveyor belt. The invention realizes the standard inclined feeding operation, the continuous feeding operation of the powder puff liquid raw material, and the special flow guide design is adopted in the continuous feeding process, so that the powder puff liquid raw material can not be scattered to the outer side of the mould cylinder in the continuous feeding process, the waste of the powder puff liquid raw material is reduced, and the liquid raw material is shaken after the feeding is finished, so that the inclined viscous liquid raw material is horizontally aligned.

Description

Lateral wall shunting powder puff foaming processing apparatus

Technical Field

The invention relates to the field of powder puff, in particular to a side wall shunting type powder puff foaming treatment device.

Background

The powder puff is one of makeup tools, and the powder puff is contained in a common powder scattering box and a common powder cake box, is mostly made of cotton and velvet materials and is used for dipping foundation and decorating makeup.

At present, in the prior art, in the powder puff processing process, powder puff raw materials are firstly obtained through foaming, when the powder puff liquid raw materials are foamed, the powder puff liquid raw materials need to be added into a small foaming cylinder through a spray pipe for foaming, the small foaming cylinder is often placed in a rectangular arrangement, in the moving continuous feeding process through the spray pipe, when the spray pipe passes through the position between two small foaming cylinders, due to the fact that the moving speed of the spray pipe is high, a valve of the spray pipe cannot be closed instantly, feeding of the liquid raw materials cannot be stopped timely, part of the liquid raw materials can be scattered on the outer side of the foaming cylinder, waste of the raw materials is caused, and part of the raw materials are adhered on the outer side of the foaming cylinder, so that use of the foaming cylinder is affected.

In order to solve the problems, a side wall shunting type puff foaming treatment device is provided.

Disclosure of Invention

In order to overcome the defects that in the prior art, in the powder puff processing process, firstly, powder puff raw materials are obtained through foaming, when the powder puff liquid raw materials are foamed, the powder puff liquid raw materials need to be added into a small foaming cylinder through a spray pipe for foaming, the small foaming cylinder is often placed in a rectangular arrangement mode, in the moving continuous feeding process through the spray pipe, when the spray pipe passes through the position between two small foaming cylinders, because the moving speed of the spray pipe is high, a valve of the spray pipe cannot be closed instantly, the liquid raw materials cannot stop feeding in time, part of the liquid raw materials can be scattered on the outer side of the foaming cylinder, the raw materials are wasted, and part of the raw materials are adhered on the outer side of the foaming cylinder, the use of the foaming cylinder is influenced, because of the production requirement, the foaming cylinder is kept to be inclined in the feeding process, and after the foaming cylinder is horizontally arranged right after the feeding is finished, the liquid raw materials in the foaming cylinder can become sticky and are difficult to be horizontally arranged right, the technical problems to be solved are that: provides a side wall shunting type puff foaming treatment device.

The technical scheme of the invention is as follows: a side wall shunting type powder puff foaming treatment device comprises a first support frame plate, an electric conveyor belt, a second support frame plate, a portal frame, a charging system, a shaking and scattering system, a flow guide system, a first installation side frame, a first electric slide rail, a first electric slide seat, a blanking spray head, a second installation side frame, a rack and an operation control screen; the first support frame plate is connected with the electric conveyor belt; the electric conveyor belt is connected with the second support frame plate; the lower part of the portal frame is connected with the first support frame plate through bolts; the lower part of the portal frame is connected with a second support frame plate through bolts; the lower part of the charging system is connected with an electric conveyor belt; the shaking and scattering system is connected with the charging system; the diversion system is connected with the portal frame; the lower part of the first mounting side frame is connected with a second support frame plate through a bolt; the first electric slide rail is connected with the first installation side frame through a bolt; the first electric sliding seat is connected with the first electric sliding rail in a sliding manner; the blanking sprayer is inserted with the first electric sliding seat; the lower part of the second mounting side frame is connected with the first support frame plate through bolts; the second mounting side frame is connected with the first electric slide rail through bolts; the lower part of the rack is connected with the first support frame plate through bolts; the operation control screen is connected with the portal frame.

Optionally, the charging system comprises a bearing bottom plate, a first limit slide rail, a second limit slide rail, a first limit slide seat, a second limit slide seat, a slide bearing plate, an elastic telescopic rod, a rotating shaft rod, a die frame plate, a limit slide groove rail, a limit slide block, a first electric lifting rod, a connecting shaft seat, a connecting seat and an insertion charging foaming cylinder; the lower part of the bearing bottom plate is connected with an electric conveyor belt; the upper part of the bearing bottom plate is connected with a shaking and scattering system; the lower part of the first limiting slide rail is connected with the bearing bottom plate through a bolt; the lower part of the second limiting slide rail is connected with the bearing bottom plate through a bolt; the first limiting sliding seat is connected with the first limiting sliding rail in a sliding manner; the second limiting sliding seat is in sliding connection with the second limiting sliding rail; the lower part of the sliding bearing plate is connected with a first limiting sliding seat through a bolt; the lower part of the sliding bearing plate is connected with a second limiting sliding seat through a bolt; the elastic telescopic rod is connected with the sliding bearing plate; the elastic telescopic rod is connected with the bearing bottom plate; the rotating shaft lever is connected with the sliding bearing plate; the mould frame plate is rotationally connected with the rotating shaft lever; the lower part of the limiting sliding groove rail is fixedly connected with the sliding bearing plate; the limiting slide block is in sliding connection with the limiting chute rail; the lower part of the first electric lifting rod is connected with a limiting slide block through a bolt; the lower part of the connecting shaft seat is connected with a first electric lifting rod; the connecting seat is rotationally connected with the connecting shaft seat; the upper part of the connecting seat is connected with a die frame plate; inserted into the lower part of the charging foaming cylinder and inserted into the mould frame plate.

Optionally, the sloshing system comprises a flat gear, a first bevel gear, a second bevel gear, a first rotating shaft, a first bearing frame column, a first driving wheel, a second rotating shaft, a second bearing frame column, a third bearing frame column and a triangular cam column; the flat gear is rotationally connected with the bearing bottom plate; the axle center of the first bevel gear is fixedly connected with the flat gear; the second bevel gear is meshed with the first bevel gear; the first rotating shaft rod is fixedly connected with the second bevel gear; the lower part of the first bearing frame column is connected with the bearing bottom plate through a bolt; the first bearing frame column is rotationally connected with the first rotating shaft rod; the axle center of the first driving wheel is fixedly connected with the first rotating shaft rod; the outer ring surface of the second driving wheel is in transmission connection with the first driving wheel through a belt; the outer surface of the second rotating shaft rod is fixedly connected with a second driving wheel; the lower part of the second bearing frame column is connected with the bearing bottom plate through bolts; the second bearing frame column is rotationally connected with the second rotating shaft rod; the lower part of the third bearing frame column is connected with the bearing bottom plate through bolts; the third bearing frame column is rotationally connected with the second rotating shaft rod; the axle center of the cam post is fixedly connected with the second rotating shaft rod.

Optionally, the diversion system comprises a second electric lifting rod, a mounting plate, a mounting frame, a first mounting bar, a first special-shaped diversion plate, a second electric sliding rail, a second electric sliding seat, a connecting and fixing column, a second mounting bar and a second special-shaped diversion plate; the second electric lifting rod is connected with the portal frame through a bolt; the upper part of the mounting plate is connected with a second electric lifting rod through a bolt; the upper part of the mounting square frame is connected with a mounting plate through a bolt; welding the first mounting bar with the mounting frame; the first special-shaped guide plate is inserted into the first mounting strip; the second electric slide rail is connected with the mounting frame through bolts; the second electric sliding seat is in sliding connection with the second electric sliding rail; the upper part of the connecting fixing column is connected with a second electric sliding seat through a bolt; the upper part of the second mounting strip is fixedly connected with the connecting and fixing column; the second special-shaped guide plate is spliced with the second mounting bar.

Optionally, the first special-shaped guide plate comprises a first lateral arc-shaped guide channel plate, a splitter plate and a second lateral arc-shaped guide channel plate; the lower part of the first lateral arc-shaped diversion canal plate is connected with a first mounting strip; the splitter plate is fixedly connected with the first lateral arc-shaped diversion canal plate; the second lateral arc-shaped diversion canal plate is fixedly connected with the splitter plate; the second lateral arc-shaped diversion canal plate is connected with the first mounting bar below.

Compared with the prior art, the invention has the advantages that: the method comprises the following steps of firstly obtaining a powder puff raw material through foaming in the prior art, adding the powder puff liquid raw material into a small foaming cylinder through a spray pipe for foaming when the powder puff liquid raw material is foamed, wherein the small foaming cylinder is usually arranged in a rectangular shape, and in the process of moving and continuously feeding through the spray pipe, when the spray pipe passes through the position between two small foaming cylinders, because the moving speed of the spray pipe is high, a valve of the spray pipe cannot be closed instantly, so that the liquid raw material cannot stop feeding in time, part of the liquid raw material can be scattered outside the foaming cylinder, the raw material is wasted, part of the raw material is adhered outside the foaming cylinder, the use of the foaming cylinder is influenced, because the production requirement is that the foaming cylinder is kept to be inclined in the feeding process, and after the foaming cylinder is horizontally arranged right after feeding is finished, the liquid raw material in the foaming cylinder can become viscous and is difficult to horizontally position.

The charging system, the shaking and scattering system and the flow guide system are designed, when in use, the inserted charging foaming cylinder is firstly fixed in the charging system, the flow guide system is controlled to place a plurality of first special-shaped flow guide plates at the top of the inserted charging foaming cylinder, then the electric conveyor belt is controlled to be switched on to operate, further the electric conveyor belt drives the charging system to move integrally, namely, after the first line is inserted into the charging foaming cylinder to move to the lower part of the discharging nozzle, the electric conveyor belt is controlled to stop moving, at the moment, the external feeding pipe is controlled to start to convey powder puff foaming raw materials to the discharging nozzle, then the puff foaming raw materials are downwards sprayed out from the discharging nozzle to the inside of the inserted charging foaming cylinder in the charging system, then the first electric slide rail is controlled to drive the first electric slide seat to move, namely, the first electric slide seat drives the discharging nozzle to move, the method comprises the steps of feeding arrayed inserted charging foaming barrels, after the feeding of a first row is completed, controlling an electric conveyor belt to move to enable a second row to insert the charging foaming barrels to move to the position below a discharging nozzle at the moment, then controlling a first electric sliding rail to drive a first electric sliding seat to move reversely, namely, the first electric sliding seat drives the discharging nozzle to feed the second row to insert the charging foaming barrels, then sequentially inserting a plurality of rows of the charging foaming barrels to complete the charging, controlling the electric conveyor belt to drive a charging system to move through a rack after the charging is completed, further driving a shaking system to move by the rack, namely, driving the shaking system to insert the charging foaming barrels to shake, enabling the inserted charging foaming barrels to shake, namely, ensuring that viscous raw materials inserted into the charging foaming barrels can be horizontally aligned, and completing the automatic inclination operation of a die.

(III), realized the reinforced operation of standard slope, to the continuous feed operation of powder puff liquid raw materials, through special water conservancy diversion design at continuous feed in-process, make continuous feed in-process powder puff liquid raw materials can not unrestrained to the mould section of thick bamboo outside, reduced the waste of powder puff liquid raw materials to rocking after reinforced the completion, make the sticky liquid raw materials level normal effect of slope.

Drawings

FIG. 1 is a first perspective view of the present invention;

FIG. 2 is a second perspective view of the present invention;

FIG. 3 is a schematic view of a first perspective of the charging system of the present invention;

FIG. 4 is a schematic view of a second perspective of the charging system of the present invention;

FIG. 5 is a schematic perspective view of a portion of the charging system of the present invention;

FIG. 6 is a schematic perspective view of a sloshing system according to the present invention;

FIG. 7 is a schematic perspective view of a diversion system of the present invention;

fig. 8 is a schematic view of a first shaped baffle configuration of the present invention.

The parts are numbered as follows: 1: first support frame plate, 2: electric conveyor belt, 3: second support frame plate, 4: gantry, 5: charging system, 6: slosh system, 7: flow guiding system, 8: first mounting side frame, 9: first electric slide rail, 10: first electric carriage, 11: unloading shower nozzle, 12: second mounting side frame, 13: rack, 14: operation control screen, 501: load floor, 502: first limit slide rail, 503: second limiting slide rail, 504: first spacing slide, 505: second limiting slide seat, 506: sliding carrier plate, 507: elastic telescopic rod, 508: rotating shaft, 509: mold frame plate, 5010: spacing chute rail, 5011: limiting slide block, 5012: first electric lifter, 5013: engagement shaft seat, 5014: connecting socket, 5015: inserting a charging foaming cylinder, 601: flat gear, 602: first bevel gear, 603: second bevel gear, 604: first spindle shaft, 605: first pedestal post, 606: first driving wheel, 607: second transmission wheel, 608: second spindle shaft, 609: second bearing frame column, 6010: third bearing frame column, 6011: triangular cam post, 701: second electric lifter, 702: mounting plate, 703: installation block, 704: first mounting bar, 705: first shaped baffle, 706: second motorized slide, 707: second electric carriage, 708: engagement fixing column, 709: second mounting bar, 7010: second shaped baffle, 70501: first lateral arc flow guide channel plate, 70502: splitter plate, 70503: a second lateral arc diversion canal plate.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Example 1

A side wall shunting type powder puff foaming treatment device is shown in figures 1-8 and comprises a first support frame plate 1, an electric conveyor belt 2, a second support frame plate 3, a portal frame 4, a charging system 5, a shaking and scattering system 6, a flow guide system 7, a first installation side frame 8, a first electric slide rail 9, a first electric slide seat 10, a blanking spray head 11, a second installation side frame 12, a rack 13 and an operation control screen 14; the first support frame plate 1 is connected with the electric conveyor belt 2; the electric conveyor belt 2 is connected with the second support frame plate 3; the lower part of the portal frame 4 is connected with the first support frame plate 1 through bolts; the lower part of the portal frame 4 is connected with the second support frame plate 3 through bolts; the lower part of the charging system 5 is connected with the electric conveyor belt 2; the shaking and scattering system 6 is connected with the charging system 5; the diversion system 7 is connected with the portal frame 4; the lower part of the first mounting side frame 8 is connected with the second support frame plate 3 through bolts; the first electric slide rail 9 is connected with the first mounting side frame 8 through bolts; the first electric sliding seat 10 is connected with the first electric sliding rail 9 in a sliding manner; the blanking spray head 11 is inserted into the first electric sliding seat 10; the lower part of the second mounting side frame 12 is connected with the first support frame plate 1 through bolts; the second mounting side frame 12 is bolted to the first electric slide rail 9; the lower part of the rack 13 is connected with the first support frame plate 1 through a bolt; the operation control panel 14 is connected to the gantry 4.

The working steps are as follows: when the side wall shunting type powder puff foaming treatment device is used, the device is stably fixed to a working plane, then a power supply is connected externally, an operation control screen 14 is opened manually, the device is controlled to operate through the operation control screen 14, then a feeding nozzle 11 is connected externally with a feeding pipe, then an insertion charging foaming cylinder 5015 is fixed inside a charging system 5, a guide system 7 is controlled to place a plurality of first special-shaped guide plates 705 at the top of the insertion charging foaming cylinder 5015, then an electric conveyor belt 2 is controlled to be connected for operation, and further the electric conveyor belt 2 drives a charging system 5 to move integrally, namely after the first insertion charging foaming cylinder 5015 moves below the feeding nozzle 11, the electric conveyor belt 2 is controlled to stop moving, at the moment, an external feeding pipe is controlled to start to convey powder puff foaming raw materials to the feeding nozzle 11, then the powder puff foaming raw materials are sprayed downwards from the feeding nozzle 11 to the inside the insertion charging foaming cylinder 5015 inside the charging system, then the first electric slide rail 9 is controlled to drive the first electric slide base 10 to move, namely, the first electric slide base 10 drives the charging cylinder 50111 to move, and then the first charging cylinder 5015 drives the electric foaming cylinder 5 to move, and then the first charging system drives the charging cylinder 5 to move, and then the first charging cylinder 5 to drive the charging system to move, and the first charging system to drive the charging foaming cylinder 5 to move, and then the first charging system to drive a first charging system to move, and then the charging system to drive a second foaming cylinder 5 to move, and then the charging system to move, and control a first charging system to drive a first charging system to move, and shake a charging system to drive a second foaming cylinder 5 to shake, the charging foaming barrel 5015 is shaken to ensure that the viscous raw material inserted into the charging foaming barrel 5015 can be horizontally aligned, so that the automatic inclination operation of the die is completed, the standard inclination charging operation is realized, the continuous charging operation of the powder puff liquid raw material is realized, and the special flow guide design is adopted in the continuous charging process, so that the powder puff liquid raw material cannot be scattered to the outer side of the die barrel in the continuous charging process, the waste of the powder puff liquid raw material is reduced, and the shaking is performed after the charging is completed, so that the inclined viscous liquid raw material is horizontally aligned.

The charging system 5 comprises a bearing bottom plate 501, a first limit slide rail 502, a second limit slide rail 503, a first limit slide carriage 504, a second limit slide carriage 505, a slide bearing plate 506, an elastic telescopic rod 507, a rotating shaft rod 508, a mold frame plate 509, a limit slide groove rail 5010, a limit slide block 5011, a first electric lifting rod 5012, an engagement shaft seat 5013, a connecting seat 5014 and an inserted charging foam cylinder 5015; the lower part of the bearing bottom plate 501 is connected with the electric conveyor belt 2; the upper part of the bearing bottom plate 501 is connected with a shaking and scattering system 6; the lower part of the first limit slide rail 502 is connected with the bearing bottom plate 501 through bolts; the lower part of the second limiting slide rail 503 is connected with the bearing bottom plate 501 through bolts; the first limiting slide carriage 504 is connected with the first limiting slide rail 502 in a sliding manner; the second limiting slide seat 505 is in sliding connection with the second limiting slide rail 503; the lower part of the sliding bearing plate 506 is connected with the first limiting sliding seat 504 through a bolt; the lower part of the sliding bearing plate 506 is connected with a second limiting sliding base 505 through bolts; the elastic telescopic rod 507 is connected with the sliding bearing plate 506; the elastic expansion link 507 is connected with the bearing bottom plate 501; the rotating shaft 508 is connected to the sliding carrier 506; the mold frame plate 509 is rotatably connected to the rotating shaft 508; the lower part of the limiting sliding chute rail 5010 is fixedly connected with the sliding bearing plate 506; the limiting sliding block 5011 is in sliding connection with the limiting sliding groove rail 5010; the lower part of the first electric lifting rod 5012 is connected with a limiting slide block 5011 through a bolt; the lower part of the connecting shaft seat 5013 is connected with a first electric lifting rod 5012; connecting seat 5014 is rotatably connected with connecting shaft seat 5013; the upper part of the connecting seat 5014 is connected with a die frame plate 509; inserted beneath the feed foam cartridge 5015 is a plug-in connection with the die frame plate 509.

Firstly, a plurality of inserting and feeding foaming cylinders 5015 are inserted into a mould frame plate 509, then a flow guide system 7 is controlled to place a plurality of first special-shaped flow guide plates 705 and second special-shaped flow guide plates 7010 above the corresponding inserting and feeding foaming cylinders 5015, then three first electric lifting rods 5012 are controlled to extend upwards, then the first electric lifting rods 5012 drive a connecting shaft seat 5013 and a connecting seat 5014 to move upwards, namely the connecting seat 5014 drives the mould frame plate 509 to rotate upwards around a rotating shaft rod 508, further the mould frame plate 509 drives a plurality of inserting and feeding foaming cylinders 5015 and a plurality of first special-shaped flow guide plates 705 and second special-shaped flow guide plates 7010 above the mould frame plate to incline, then the electric conveyor belt 2 is controlled to drive the feeding system 5 to move, namely the first row of inserting and feeding foaming cylinders 5015 are driven to move to the lower part of a discharging nozzle 11, then the electric conveyor belt 2 is controlled to stop moving, at the moment, an external feeding pipe is controlled to start to convey powder foaming raw materials to the discharging nozzle 11, then, powder puff foaming raw materials are downwards sprayed from a discharging nozzle 11 to the inside of an inserting charging foaming cylinder 5015 in a charging system 5, then a first electric slide rail 9 is controlled to drive a first electric slide seat 10 to move, namely the first electric slide seat 10 drives the discharging nozzle 11 to move, the arranged inserting charging foaming cylinders 5015 are charged, after the first row of charging is completed, an electric conveyor belt 2 is controlled to move to enable a second row of inserting charging foaming cylinders 5015 to move to the lower part of the discharging nozzle 11, then the first electric slide rail 9 is controlled to drive the first electric slide seat 10 to move reversely, namely the first electric slide seat 10 drives the discharging nozzle 11 to charge the second row of inserting charging foaming cylinders 5015, then a plurality of rows of inserting charging foaming cylinders 5015 are sequentially inserted to complete charging, when the discharging nozzle 11 passes through the position between the two inserting charging foaming cylinders 5015 in the charging process, because the liquid raw material of the blanking nozzle 11 can not be cut off in time, the material of the blanking nozzle 11 is collected by the first special-shaped guide plate 705 or the second special-shaped guide plate 7010 which is inserted between the two feeding foaming cylinders 5015 and reenters the two feeding foaming cylinders 5015, the waste of the liquid raw material is avoided, the material is collected by the first special-shaped guide plate 705 in the process that the blanking nozzle 11 moves, the second row of inserted feeding foaming cylinders 5015 moves to the lower part of the blanking nozzle 11 in the process that the electric conveyor belt 2 moves, the liquid raw material is collected by the second special-shaped guide plate 7010, then the third row and the fourth row are sequentially fed, when the electric conveyor belt 2 is controlled to drive the feeding system 5 to move through the rack 13 after the feeding is completed, at the moment, the three first electric lifting rods 5012 are controlled to shrink downwards to reset, the feeding foaming cylinders 5015 become horizontal, then the rack 13 drives the shaking system 6 to shake the inserted feeding foaming cylinders 5015, the viscous raw material inserted into the feeding foaming cylinders 5015 can be horizontally positioned, and the feeding operation can be completed.

The slosh-scattering system 6 comprises a flat gear 601, a first bevel gear 602, a second bevel gear 603, a first rotating shaft rod 604, a first bearing support column 605, a first driving wheel 606, a second driving wheel 607, a second rotating shaft rod 608, a second bearing support column 609, a third bearing support column 6010 and a triangular cam column 6011; the flat gear 601 is rotationally connected with the bearing bottom plate 501; the axle center of the first bevel gear 602 is fixedly connected with the flat gear 601; the second bevel gear 603 meshes with the first bevel gear 602; the first rotating shaft rod 604 is fixedly connected with the second bevel gear 603; the lower part of the first bearing frame column 605 is connected with the bearing bottom plate 501 through bolts; the first bearing frame column 605 is rotationally connected with the first rotating shaft 604; the axle center of the first driving wheel 606 is fixedly connected with the first rotating shaft rod 604; the outer ring surface of the second transmission wheel 607 is in transmission connection with the first transmission wheel 606 through a belt; the outer surface of the second rotating shaft lever 608 is fixedly connected with the second transmission wheel 607; the lower part of the second bearing frame column 609 is connected with the bearing bottom plate 501 through bolts; a second bearing support 609 is rotatably connected to a second spindle 608; the lower part of the third bearing frame column 6010 is connected with the bearing bottom plate 501 through bolts; the third carrier leg beam 6010 is rotationally coupled to the second pivot rod 608; the axis of the cam column 6011 is fixedly connected to the second spindle rod 608.

When the charging system 5 drives the shaking and scattering system 6 to pass through the rack 13, at this time, the flat gear 601 is meshed and rolls on the inner side of the rack 13, then the rack 13 drives the flat gear 601 to rotate, then the flat gear 601 drives the first bevel gear 602 to rotate, further the first bevel gear 602 drives the second bevel gear 603 to rotate, further the second bevel gear 603 drives the first rotating shaft rod 604 to rotate, further the first rotating shaft rod 604 drives the first driving wheel 606 to rotate, then the first driving wheel 606 drives the second driving wheel 607 to rotate, further the second driving wheel 607 drives the second rotating shaft rod 608 to rotate, further the second rotating shaft rod 608 drives the triangular cam column 6011 to rotate, namely the triangular cam column 6011 rotates to impact the sliding bearing plate 506, namely the sliding bearing plate 506 slides on the surfaces of the first limiting slide rail 502 and the second limiting slide rail 503 through the first limiting slide carriage 504 and the second limiting slide carriage 505 respectively, meanwhile, the three elastic telescopic rods 507 contract and rebound in real time, the sliding bearing plate 506 is controlled to reset, further the reciprocating shaking of the sliding bearing plate 506 drives the charging barrel 5 to shake, thereby ensuring that the viscous raw material can be horizontally foamed and the viscous raw material can be horizontally foamed.

The diversion system 7 comprises a second electric lifting rod 701, a mounting plate 702, a mounting frame 703, a first mounting bar 704, a first special-shaped diversion plate 705, a second electric sliding rail 706, a second electric sliding seat 707, a linking fixing column 708, a second mounting bar 709 and a second special-shaped diversion plate 7010; the second electric lifting rod 701 is in bolted connection with the portal frame 4; the upper part of the mounting plate 702 is connected with a second electric lifting rod 701 through a bolt; the upper part of the mounting frame 703 is connected with the mounting plate 702 through bolts; the first mounting bar 704 is welded with the mounting frame 703; the first special-shaped guide plate 705 is spliced with the first mounting bar 704; the second electric slide rail 706 is connected with the mounting frame 703 through a bolt; the second electric sliding base 707 is connected with the second electric sliding rail 706 in a sliding manner; the upper part of the connecting and fixing column 708 is connected with a second electric sliding seat 707 through a bolt; the upper part of the second mounting bar 709 is fixedly connected with the connecting and fixing column 708; the second special-shaped guide plate 7010 is inserted into the second mounting bar 709.

After a plurality of charging foam cylinders 5015 are inserted into a mold frame plate 509, a second electric lifting rod 701 is controlled to extend downwards, that is, the second electric lifting rod 701 is controlled to extend, the second electric lifting rod 701 drives a mounting plate 702, a mounting frame 703, a first mounting bar 704, a first special-shaped guide plate 705, a second electric sliding rail 706, a second electric sliding seat 707, a linking fixing column 708, the second mounting bar 709 and a second special-shaped guide plate 7010 to descend, then the corresponding first special-shaped guide plate 705 and the second special-shaped guide plate 7010 fall on the top end of the corresponding charging foam cylinder 5015, and then the first special-shaped guide plate 705 and the second special-shaped guide plate 7010 are intercepted after contacting the charging foam cylinders 5015, and then the first special-shaped guide plate 705 and the second special-shaped guide plate 7010 which are originally plugged with the first mounting bar 704 and the second mounting bar 709 are no longer plugged and fixed, that is, that the first special-shaped guide plate 7010 and the second special-shaped guide plate 7010 are connected, are placed and fixed above the plurality of charging foam cylinders 5015, then the second special-shaped guide plate 7010 is controlled to move, and the second electric sliding seat 7010 is controlled to move from the second special-shaped guide plate 7010, and then the second special-shaped guide plate 7010 is controlled to move, and the second special-controlled by a system to move, and a second electric guide plate 7010 system to move.

The first special-shaped guide plate 705 comprises a first lateral arc-shaped guide channel plate 70501, a splitter plate 70502 and a second lateral arc-shaped guide channel plate 70503; the lower part of the first lateral arc-shaped diversion canal plate 70501 is connected with a first mounting bar 704; the flow distribution plate 70502 is fixedly connected with the first lateral arc-shaped flow guide channel plate 70501; the second lateral arc-shaped diversion canal plate 70503 is fixedly connected with the splitter plate 70502; the lower part of the second lateral arc-shaped diversion trench plate 70503 is connected with a first mounting bar 704.

Namely, the first lateral arc-shaped diversion canal plate 70501, the diversion plate 70502 and the second lateral arc-shaped diversion canal plate 70503 are bridged between two inserted feeding foam cylinders 5015, when the diversion plate 70502 is positioned between the two inserted feeding foam cylinders 5015, when the feeding nozzle 11 passes through the diversion plate 70502, when the feeding nozzle 11 is positioned at one side of the first lateral arc-shaped diversion canal plate 70501, the liquid raw material is intercepted by the diversion plate 70502 and flows into the first inserted feeding foam cylinder 5015 through the first lateral arc-shaped diversion canal plate 70501, and when the feeding nozzle 11 is positioned at one side of the second lateral arc-shaped diversion canal plate 70503, the liquid raw material is intercepted by the diversion plate 70502 and flows into the second inserted feeding foam cylinder 5015 through the second lateral arc-shaped diversion canal plate 70503, so that the waste and the scattering of the raw material during the movement of the feeding nozzle 11 are avoided.

The above description is only an example of the present invention and is not intended to limit the present invention. All equivalents which come within the spirit of the invention are therefore intended to be embraced therein. Details not described herein are well within the skill of those in the art.

Claims (3)

1. A side wall shunting type puff foaming treatment device comprises a first support frame plate, an electric conveyor belt, a second support frame plate, and is characterized by further comprising a portal frame, a charging system, a shaking and scattering system, a flow guide system, a first installation side frame, a first electric slide rail, a first electric slide seat, a blanking spray head, a second installation side frame, a rack and an operation control screen; the first support frame plate is connected with the electric conveyor belt; the electric conveyor belt is connected with the second support frame plate; the lower part of the portal frame is connected with the first support frame plate through bolts; the lower part of the portal frame is connected with a second support frame plate through bolts; the lower part of the charging system is connected with an electric conveyor belt; the shaking and scattering system is connected with the charging system; the diversion system is connected with the portal frame; the lower part of the first mounting side frame is connected with a second support frame plate through a bolt; the first electric slide rail is connected with the first installation side frame through a bolt; the first electric sliding seat is connected with the first electric sliding rail in a sliding manner; the blanking spray head is inserted into the first electric sliding seat; the lower part of the second mounting side frame is connected with the first support frame plate through bolts; the second mounting side frame is connected with the first electric sliding rail through a bolt; the lower part of the rack is connected with the first support frame plate through bolts; the operation control screen is connected with the portal frame;

the flow guide system comprises a second electric lifting rod, a mounting plate, a mounting frame, a first mounting bar, a first special-shaped flow guide plate, a second electric sliding rail, a second electric sliding seat, a connecting and fixing column, a second mounting bar and a second special-shaped flow guide plate; the second electric lifting rod is connected with the portal frame through a bolt; the upper part of the mounting plate is connected with a second electric lifting rod through a bolt; the upper part of the mounting square frame is connected with a mounting plate through a bolt; welding the first mounting bar with the mounting frame; the first special-shaped guide plate is spliced with the first mounting bar; the second electric slide rail is connected with the mounting frame through bolts; the second electric sliding seat is in sliding connection with the second electric sliding rail; the upper part of the connecting fixing column is connected with a second electric sliding seat through a bolt; the upper part of the second mounting strip is fixedly connected with the connecting and fixing column; the second special-shaped guide plate is spliced with the second mounting bar;

the first special-shaped guide plate comprises a first lateral arc-shaped guide canal plate, a splitter plate and a second lateral arc-shaped guide canal plate; the lower part of the first lateral arc-shaped diversion canal plate is connected with a first mounting strip; the splitter plate is fixedly connected with the first lateral arc-shaped diversion canal plate; the second lateral arc-shaped diversion canal plate is fixedly connected with the splitter plate; the lower part of the second lateral arc-shaped diversion canal plate is connected with the first mounting bar.

2. The side wall diversion type puff foaming treatment device as claimed in claim 1, wherein: the charging system comprises a bearing bottom plate, a first limit slide rail, a second limit slide rail, a first limit slide seat, a second limit slide seat, a sliding bearing plate, an elastic telescopic rod, a rotating shaft rod, a die frame plate, a limit slide groove rail, a limit slide block, a first electric lifting rod, a connecting shaft seat, a connecting seat and an insertion charging foaming cylinder; the lower part of the bearing bottom plate is connected with an electric conveyor belt; the upper part of the bearing bottom plate is connected with a shaking and scattering system; the lower part of the first limiting slide rail is connected with the bearing bottom plate through a bolt; the lower part of the second limiting slide rail is connected with the bearing bottom plate through a bolt; the first limiting sliding seat is connected with the first limiting sliding rail in a sliding manner; the second limiting sliding seat is in sliding connection with the second limiting sliding rail; the lower part of the sliding bearing plate is connected with a first limiting sliding seat through a bolt; the lower part of the sliding bearing plate is connected with a second limiting sliding seat through a bolt; the elastic telescopic rod is connected with the sliding bearing plate; the elastic telescopic rod is connected with the bearing bottom plate; the rotating shaft lever is connected with the sliding bearing plate; the mould frame plate is rotationally connected with the rotating shaft lever; the lower part of the limiting sliding groove rail is fixedly connected with the sliding bearing plate; the limiting slide block is in sliding connection with the limiting chute rail; the lower part of the first electric lifting rod is connected with a limiting slide block through a bolt; the lower part of the connecting shaft seat is connected with a first electric lifting rod; the connecting seat is rotatably connected with the connecting shaft seat; the upper part of the connecting seat is connected with a die frame plate; inserted into the lower part of the charging foaming cylinder and inserted into the mould frame plate.

3. The side wall divided type puff foaming treatment device as claimed in claim 2, wherein: the shaking and scattering system comprises a flat gear, a first bevel gear, a second bevel gear, a first rotating shaft rod, a first bearing frame column, a first driving wheel, a second rotating shaft rod, a second bearing frame column, a third bearing frame column and a triangular cam column; the flat gear is rotationally connected with the bearing bottom plate; the axle center of the first bevel gear is fixedly connected with the flat gear; the second bevel gear is meshed with the first bevel gear; the first rotating shaft rod is fixedly connected with the second bevel gear; the lower part of the first bearing frame column is connected with the bearing bottom plate through bolts; the first bearing frame column is rotationally connected with the first rotating shaft rod; the axle center of the first driving wheel is fixedly connected with the first rotating shaft rod; the outer ring surface of the second driving wheel is in transmission connection with the first driving wheel through a belt; the outer surface of the second rotating shaft rod is fixedly connected with a second driving wheel; the lower part of the second bearing frame column is connected with the bearing bottom plate through bolts; the second bearing frame column is rotationally connected with the second rotating shaft rod; the lower part of the third bearing frame column is connected with the bearing bottom plate through bolts; the third bearing frame column is rotationally connected with the second rotating shaft rod; the axle center of the cam post is fixedly connected with the second rotating shaft rod.

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