CN112590192A

CN112590192A - Plastic packaging assembly device for wooden mop rod production

Info

Publication number: CN112590192A
Application number: CN202011379796.8A
Authority: CN
Inventors: 程英奇
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-12-01
Filing date: 2020-12-01
Publication date: 2021-04-02

Abstract

The invention relates to the field of production and assembly, in particular to a plastic packaging assembly device for wooden mop rod production. The technical problem is as follows: provides a plastic packaging assembly device for wooden mop rod production. The technical scheme is as follows: a plastic packaging assembly device for wooden mop rod production comprises a high-temperature tightening system, a cap system, a side support plate and the like; the cap system is connected with the side support plate. The invention also takes manual operation as the main conventional method in the process of jumping out of the wooden mop rod for processing; the most common production flow: screwing threads on the surface of a wood stick, sleeving a layer of plastic film on the wood stick, performing thermal contraction on the plastic film, and sleeving one end of the wood stick with a plastic protective cap to form a process; a large amount of manpower is needed to be consumed in the whole process, and the working efficiency is improved; the current situation that an automatic processing device for the production of the wooden mop rod cannot be found in the prior art is changed.

Description

Plastic packaging assembly device for wooden mop rod production

Technical Field

The invention relates to the field of production and assembly, in particular to a plastic packaging assembly device for wooden mop rod production.

Background

The mop refers to a long-handle cleaning tool for scrubbing the ground; in the production process of the wooden mop, the mop rod is usually processed firstly; the method mainly comprises the steps of carrying out manual operation during the treatment of the wooden mop rod, wherein the most common production mode is to carry out surface screw thread on a wooden rod, then sleeve the wooden rod with a layer of plastic film, then carry out thermal contraction on the plastic film, and finally sleeve one end of the wooden rod with a plastic protective cap; the whole process needs a great deal of manpower and has extremely low working efficiency; the device which can automatically process the production of the wooden mop rod and improve the production efficiency cannot be found in the prior art.

Disclosure of Invention

In order to overcome the defects that in the production process of the wooden mop, the mop rod is usually processed firstly; the method mainly comprises the steps of carrying out manual operation during the treatment of the wooden mop rod, wherein the most common production mode is to carry out surface screw thread on a wooden rod, then sleeve the wooden rod with a layer of plastic film, then carry out thermal contraction on the plastic film, and finally sleeve one end of the wooden rod with a plastic protective cap; the whole process needs a great deal of manpower and has extremely low working efficiency; the production automation that can be with wooden mop pole is handled, improves production efficiency's shortcoming of device can't be found in prior art, and the technical problem is: provides a plastic packaging assembly device for wooden mop rod production.

The technical scheme is as follows: a plastic packaging assembly device for wooden mop rod production comprises a controller, a clamping and conveying system, a thread generating system, a high-temperature tightening system, a cap system and a side supporting plate; the controller is connected with the high-temperature tightening system; the clamping and conveying system is connected with the thread generating system; the clamping conveying system is connected with the side supporting plate; the thread generating system is connected with the high-temperature tightening system; the thread generating system is connected with the side supporting plate; the high-temperature tightening system is connected with the cap system; the cap system is connected with the side support plate.

Further, the clamping and conveying system comprises a first electric slide rail, a first clamping plate, a first electric push rod, a first connecting rod, a second electric push rod, a third connecting rod, a fourth connecting rod, a second clamping plate, a first fixing plate, a first hydraulic rod and a second hydraulic rod; the first electric slide rail is connected with the first fixing plate through a bolt; the first electric sliding rail is in sliding connection with the first clamping plate; two ends of the first clamping plate are respectively connected with the first electric push rod and the second electric push rod through bolts; two ends of the first clamping plate are respectively and rotatably connected with the first connecting rod and the third connecting rod; two ends of the first clamping plate are respectively and rotatably connected with the second connecting rod and the fourth connecting rod; the first electric push rod is connected with the first connecting rod; the first connecting rod is rotatably connected with the second clamping plate; the second connecting rod is rotatably connected with the second clamping plate; the second electric push rod is connected with the third connecting rod; the third connecting rod is rotatably connected with the second clamping plate; the fourth connecting rod is rotatably connected with the second clamping plate; the first fixing plate is respectively connected with the first hydraulic rod and the second hydraulic rod through bolts; the first hydraulic rod is connected with the thread generating system; the second hydraulic rod is connected with the thread generating system.

Further, the thread generating system comprises a first chute plate, a spring, a supporting assembly, a first fixed supporting frame, a blanking assembly, a third electric push rod, a fourth electric push rod, a first push plate, a first driving wheel, a second driving wheel, a first gear, an internal thread sleeve, a third driving wheel, a second gear, a fourth driving wheel, a third gear, a fifth driving wheel, a fourth gear, a sixth driving wheel and a fifth gear; the first chute plate is welded with the side supporting plate; the first chute plate is connected with the high-temperature tightening system; ten groups of springs are arranged inside the first sliding groove plate; the first chute plate is in sliding connection with the supporting component; the spring is connected with the supporting component; the supporting component is connected with the blanking component in a sliding manner; the blanking assembly is welded with the first fixed support frame; the first fixed support frame is respectively connected with the third electric push rod and the fourth electric push rod through bolts; the first fixed support frame is connected with the high-temperature tightening system; the first fixed support frame is welded with the side support plate; two ends of one side of the first push plate are respectively connected with the third electric push rod and the fourth electric push rod; a first push plate, wherein a first driving wheel is arranged above the first driving wheel; the first push plate is rotatably connected with the internal thread sleeve; the first driving wheel is connected with the cap system; the outer ring surface of the first driving wheel is in transmission connection with the second driving wheel through a belt; the second driving wheel is fixedly connected with the first gear through a rotating shaft; the first gear is respectively meshed with the two groups of internal thread sleeves; the outer ring surface of the second driving wheel is in transmission connection with a third driving wheel through a belt; the third driving wheel is fixedly connected with the second gear through a rotating shaft; the second gear is respectively meshed with the two groups of internal thread sleeves; the outer ring surface of the third driving wheel is in transmission connection with the fourth driving wheel through a belt; the fourth driving wheel is fixedly connected with the third gear through a rotating shaft; the third gear is respectively meshed with the two groups of internal thread sleeves; the outer ring surface of the fourth driving wheel is in transmission connection with the fifth driving wheel through a belt; the fifth driving wheel is fixedly connected with the fourth gear through a rotating shaft; the fourth gear is respectively meshed with the two groups of internal thread sleeves; the outer ring surface of the fifth driving wheel is fixedly connected with the sixth driving wheel through a belt; the sixth driving wheel is fixedly connected with the fifth gear through a rotating shaft; the fifth gear is respectively meshed with the two groups of internal thread sleeves.

Further, the high-temperature tightening system comprises an insulation can, a second electric slide rail, a first heat transfer pipe and a second heat transfer pipe; the insulation can is connected with the cap system; the heat preservation box is welded with the first chute plate; the heat preservation box is welded with the first fixed support frame; the heat preservation box is connected with the second electric slide rail through bolts; the heat insulation box is welded with the first heat transmission pipe; the heat preservation box is welded with the second heat transmission pipe.

Further, the cap system comprises a motor, a transmission shaft, a seventh transmission wheel, a first bevel gear, a second bevel gear, a hexagonal rotating shaft, a sixth gear, a seventh gear, a first rotating shaft, a first supporting plate, a fifth electric push rod, a second push plate, an eighth gear, a second rotating shaft, a third clamping plate, a fourth clamping plate, a sliding rod and a portal frame; the motor is connected with the side supporting plate through bolts; the motor is fixedly connected with the transmission shaft; the transmission shaft is fixedly connected with the seventh transmission wheel and the first bevel gear in sequence; the transmission shaft is rotatably connected with the side supporting plate through a bracket; the first bevel gear is meshed with the second bevel gear; the second bevel gear is fixedly connected with the hexagonal rotating shaft; the hexagonal rotating shaft is fixedly connected with the sixth gear through a shaft sleeve; the hexagonal rotating shaft is rotationally connected with the second push plate through a shaft sleeve; the hexagonal rotating shaft is rotationally connected with the portal frame; the sixth gear is meshed with the seventh gear; the seventh gear is fixedly connected with the first rotating shaft; the first rotating shaft is fixedly connected with the first supporting plate; the first rotating shaft is rotatably connected with the portal frame; a fifth electric push rod is arranged on one side of the first rotating shaft; the fifth electric push rod is connected with the second push plate; the fifth electric push rod is connected with the portal frame; an eighth gear is arranged below the first rotating shaft; the eighth gear is fixedly connected with the second rotating shaft; two ends of the second rotating shaft are respectively connected with the third clamping plate and the fourth clamping plate in a rotating mode; the second rotating shaft is rotatably connected with the portal frame; two ends of the sliding rod are respectively connected with the third clamping plate and the fourth clamping plate in a sliding manner; the sliding rod is welded with the portal frame; welding the portal frame and the heat preservation box; and welding the portal frame and the side supporting plate.

Furthermore, one side of the supporting component is in sliding connection with the blanking component through ten groups of ejector pins, and the connecting plate behind the ejector pins is a wedge-shaped plate.

Furthermore, ten groups of blanking circular tubes are arranged on the blanking assembly at equal intervals.

Further, the outer surface of the internal thread sleeve is provided with gear teeth.

Furthermore, the outer surface of the second rotating shaft is symmetrically provided with bidirectional threads.

The beneficial effects are that: 1. the invention designs a clamping conveying system, and the wood bar is clamped and released to complete the spiral thread, the film shrinkage and the capping operation of the wood bar in a matching way;

2. the invention designs a thread generating system, and realizes the thread screwing operation at one end of a wood stick through the accurate positioning of the wood stick;

3. the invention designs a high-temperature tightening system, creates a continuous high-temperature environment, and realizes the thermal contraction of the thin film on the surface of the wood stick;

4. the invention designs a cap system to realize the installation of a protective cap on one end of a wood rod, thereby completing the manufacture of the whole wooden mop rod;

5. the invention also takes manual operation as the main conventional method in the process of jumping out of the wooden mop rod for processing; the most common production flow: screwing threads on the surface of a wood stick, sleeving a layer of plastic film on the wood stick, performing thermal contraction on the plastic film, and sleeving one end of the wood stick with a plastic protective cap to form a process; a large amount of manpower is needed to be consumed in the whole process, and the working efficiency is improved; the current situation that an automatic processing device for the production of the wooden mop rod cannot be found in the prior art is changed.

Drawings

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

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

FIG. 3 is a schematic perspective view of a first embodiment of the clamping and conveying system of the present invention;

FIG. 4 is a schematic perspective view of a second embodiment of the clamping conveyor system of the present invention;

FIG. 5 is a schematic perspective view of a first thread forming system according to the present invention;

FIG. 6 is a schematic perspective view of a second thread forming system of the present invention;

FIG. 7 is a schematic side view of the thread forming system of the present invention;

FIG. 8 is a schematic view of a partial internal structure of the thread generating system of the present invention;

FIG. 9 is a schematic perspective view of a first alternative high temperature compaction system according to the present invention;

fig. 10 is a schematic perspective view of a first capping system according to the present invention;

fig. 11 is a schematic perspective view of a second capping system in accordance with the present invention;

FIG. 12 is an enlarged view of the structure of the present invention at G.

Part names and serial numbers in the figure: 1_ controller, 2_ gripper conveyor system, 3_ thread generating system, 4_ high temperature tightening system, 5_ capping system, 6_ side support plate, 201_ first electric slide, 202_ first clamp plate, 203_ first electric push rod, 204_ first link, 205_ second link, 206_ second electric push rod, 207_ third link, 208_ fourth link, 209_ second clamp plate, 2010_ first fixed plate, 2011_ first hydraulic rod, 2012_ second hydraulic rod, 301_ first chute plate, 302_ spring, 303_ support component, 304_ first fixed support frame, 305_ blanking component, 306_ third electric push rod, 307_ fourth electric push rod, 308_ first push plate, 309_ first drive wheel, 3010_ second drive wheel, 3011_ first gear, 3012_ internal thread sleeve, 3013_ third drive wheel, 3014_ second gear, 3015_ fourth gear, 3016_ third drive wheel, 3017_ fifth transmission wheel, 3018_ fourth gear, 3019_ sixth transmission wheel, 3020_ fifth gear, 401_ incubator, 402_ second electric slide, 403_ first heat transfer tube, 404_ second heat transfer tube, 501_ motor, 502_ transmission shaft, 503_ seventh transmission wheel, 504_ first bevel gear, 505_ second bevel gear, 506_ sixth rotating shaft, 507_ sixth gear, 508_ seventh gear, 509_ first rotating shaft, 5010_ first support plate, 5011_ fifth electric push rod, 5012_ second push plate, 5013_ eighth gear, 5014_ second rotating shaft, 5015_ third splint, 5016_ fourth splint, 5017_ slide bar, 5018_ gantry.

Detailed Description

The technical scheme of the invention is further explained by combining the attached drawings.

Example 1

A plastic packaging assembly device for wood mop rod production is shown in figures 1-12 and comprises a controller 1, a clamping and conveying system 2, a thread generating system 3, a high-temperature tightening system 4, a cap system 5 and a side supporting plate 6; the controller 1 is connected with the high-temperature tightening system 4; the clamping and conveying system 2 is connected with the thread generating system 3; the clamping and conveying system 2 is connected with a side supporting plate 6; the thread generating system 3 is connected with the high-temperature tightening system 4; the thread generating system 3 is connected with the side supporting plate 6; the high-temperature tightening system 4 is connected with the cap system 5; the cap system 5 is connected to a side support plate 6.

The working steps are as follows: before the device is operated, the device is fixed at a stable position where a wooden mop rod is produced; switching on a power supply, controlling the controller 1 to start the device, checking the running transmission condition among the systems, closing the device after confirming no errors, and externally connecting the device with a hot steam conveying device; manually putting a group of wood sticks subjected to film sleeving into the device, controlling the controller 1 to start the device again, and completing the screwing, film shrinkage and capping operations of the wood sticks in a matching manner by clamping and releasing the wood sticks through the clamping and conveying system 2; the cap system 5 drives the thread generating system 3 to realize the spiral thread operation at one end of the wood stick through the accurate positioning of the wood stick; the high-temperature compaction system 4 utilizes the principle that the plastic film is heated to shrink to produce a hot atmosphere so as to realize compaction of the plastic film on the surface of the wood bar; the cap system 5 connected with the side supporting plate 6 operates to realize the installation of a protective cap on one end of the wooden stick, thereby completing the manufacture of the whole wooden mop rod; the invention also takes manual operation as the main conventional method in the process of jumping out of the wooden mop rod for processing; the most common production flow: screwing threads on the surface of a wood stick, sleeving a layer of plastic film on the wood stick, performing thermal contraction on the plastic film, and sleeving one end of the wood stick with a plastic protective cap to form a process; a large amount of manpower is needed to be consumed in the whole process, and the working efficiency is improved; the current situation that an automatic processing device for the production of the wooden mop rod cannot be found in the prior art is changed.

The clamping and conveying system 2 comprises a first electric slide rail 201, a first clamping plate 202, a first electric push rod 203, a first connecting rod 204, a second connecting rod 205, a second electric push rod 206, a third connecting rod 207, a fourth connecting rod 208, a second clamping plate 209, a first fixing plate 2010, a first hydraulic rod 2011 and a second hydraulic rod 2012; the first electric slide rail 201 is connected with the first fixing plate 2010 through bolts; the first electric slide rail 201 is connected with the first clamping plate 202 in a sliding manner; two ends of the first clamping plate 202 are respectively connected with a first electric push rod 203 and a second electric push rod 206 through bolts; two ends of the first clamping plate 202 are respectively connected with the first connecting rod 204 and the third connecting rod 207 in a rotating way; two ends of the first clamping plate 202 are respectively connected with the second connecting rod 205 and the fourth connecting rod 208 in a rotating way; the first electric push rod 203 is connected with the first connecting rod 204; the first connecting rod 204 is rotatably connected with the second clamping plate 209; the second connecting rod 205 is rotatably connected with the second clamping plate 209; the second electric push rod 206 is connected with the third connecting rod 207; the third connecting rod 207 is rotatably connected with the second clamping plate 209; the fourth connecting rod 208 is rotatably connected with a second clamping plate 209; the first fixing plate 2010 is respectively bolted with a first hydraulic rod 2011 and a second hydraulic rod 2012; the first hydraulic rod 2011 is connected with the thread generating system 3; the second hydraulic ram 2012 is connected to the thread generating system 3.

Manually putting the wooden stick with the film coating completed between the first clamping plate 202 and the second clamping plate 209, wherein the first clamping plate 202 and the second clamping plate 209 are in a tight fit state due to the length setting between the first connecting rod 204 and the second connecting rod 205, the length setting between the third connecting rod 207 and the fourth connecting rod 208; then the first electric push rod 203 pulls the first connecting rod 204 to drive the first clamping plate 202 to rotate, meanwhile, the second electric push rod 206 pulls the third connecting rod 207 to drive the second clamping plate 209 to rotate, the second connecting rod 205 and the fourth connecting rod 208 start to rotate along with the second clamping plate 209, so that the first clamping plate 202 and the second clamping plate 209 are close to and contact with each other, and the wood stick can slide down from between the first clamping plate 202 and the second clamping plate 209 and is supported by the thread generating system 3; the first electric slide rail 201 which is in bolted connection with the first fixing plate 2010 can drive the wooden stick to be matched with the thread generating system 3 to complete thread generation on the outer surface of the wooden stick through the operation of the first hydraulic rod 2011 and the second hydraulic rod 2012; when the first hydraulic rod 2011 and the second hydraulic rod 2012 run to enable the first electric sliding rail 201 to be in seamless rail joint with the second electric sliding rail 402 in the high-temperature tightening system 4, the transverse movement of the wooden rod can be completed; the system is used for clamping and releasing the wooden stick and completing the operation of screwing threads, film shrinkage and capping of the wooden stick in a matching manner.

The thread generating system 3 comprises a first chute plate 301, a spring 302, a support assembly 303, a first fixed support frame 304, a blanking assembly 305, a third electric push rod 306, a fourth electric push rod 307, a first push plate 308, a first driving wheel 309, a second driving wheel 3010, a first gear 3011, an internal thread sleeve 3012, a third driving wheel 3013, a second gear 3014, a fourth driving wheel 3015, a third gear 3016, a fifth driving wheel 3017, a fourth gear 3018, a sixth driving wheel 3019 and a fifth gear 3020; the first chute plate 301 is welded with the side supporting plate 6; the first chute plate 301 is connected with the high-temperature tightening system 4; ten groups of springs 302 are arranged inside the first chute plate 301; the first chute plate 301 is connected with the support component 303 in a sliding manner; the spring 302 is connected with the support assembly 303; the supporting component 303 is connected with the blanking component 305 in a sliding manner; the blanking assembly 305 is welded with the first fixed support frame 304; the first fixed support frame 304 is respectively connected with a third electric push rod 306 and a fourth electric push rod 307 through bolts; the first fixed support frame 304 is connected with the high-temperature tightening system 4; the first fixed support frame 304 is welded with the side support plate 6; two ends of one side of the first push plate 308 are respectively connected with the third electric push rod 306 and the fourth electric push rod 307; a first push plate 308, a first driving wheel 309 is arranged above the first driving wheel 309; the first push plate 308 is rotatably connected with the internal thread sleeve 3012; the first driving wheel 309 is connected with the cap system 5; the outer ring surface of the first driving wheel 309 is in transmission connection with a second driving wheel 3010 through a belt; the second driving wheel 3010 is fixedly connected with the first gear 3011 through a rotating shaft; the first gear 3011 is engaged with two sets of internal thread sleeves 3012 respectively; the outer ring surface of the second driving wheel 3010 is in transmission connection with a third driving wheel 3013 through a belt; the third driving wheel 3013 is fixedly connected with the second gear 3014 through a rotating shaft; the second gear 3014 is engaged with two sets of internal thread bushings 3012 respectively; the outer ring surface of the third driving wheel 3013 is in transmission connection with the fourth driving wheel 3015 through a belt; the fourth driving wheel 3015 is fixedly connected to the third gear 3016 through a rotating shaft; the third gear 3016 is engaged with two sets of internal thread sleeves 3012 respectively; the outer ring surface of the fourth driving wheel 3015 is in transmission connection with the fifth driving wheel 3017 through a belt; the fifth driving wheel 3017 is fixedly connected to the fourth gear 3018 through a rotating shaft; the fourth gear 3018 is engaged with two sets of internal thread sleeves 3012 respectively; the outer ring surface of the fifth driving wheel 3017 is fixedly connected with the sixth driving wheel 3019 through a belt; the sixth driving wheel 3019 is fixedly connected to the fifth gear 3020 through a rotating shaft; the fifth gear 3020 is engaged with the two sets of internally threaded sleeves 3012, respectively.

The wooden stick slipping off from the clamping and conveying system 2 slips off from the circular blanking pipe on the blanking component 305 and is propped against the ejector pin on the supporting component 303, then the clamping and conveying system 2 operates to clamp the wooden stick, the third electric push rod 306 and the fourth electric push rod 307 on the first fixed supporting frame 304 operate to push the first push plate 308, the first push plate 308 finishes pushing the supporting component 303, so that the supporting component 303 compresses the spring 302 and slides on the first sliding chute plate 301, the ejector pin in the supporting component 303 is enabled to exit from the blanking component 305, and the wooden stick can pass through the circular blanking pipe in the blanking component 305; then, the cap system 5 drives the first driving wheel 309 to drive the second driving wheel 3010 to rotate, so as to realize power transmission between systems; the second driving wheel 3010 drives the first gear 3011 to engage with the two groups of internal thread sleeves 3012 through a rotating shaft, the internal thread sleeves 3012 start to rotate, and the two groups of internal thread sleeves 3012 complete the thread screwing operation on two wood rods in the process of clamping and pressing down the clamping and conveying system 2; in the same way, the second transmission wheel 3010 transmits the third transmission wheel 3013 to drive the second gear 3014 to rotate through the rotating shaft, the second gear 3014 is engaged with the two groups of internal thread sleeves 3012, the internal thread sleeves 3012 start to rotate, and the two groups of internal thread sleeves 3012 complete the screwing operation on two wood bars in the process of clamping and pressing down the clamping and conveying system 2; the third driving wheel 3013 drives the fourth driving wheel 3015 to drive the third gear 3016 to rotate through the rotating shaft, the third gear 3016 is meshed with the two groups of internal thread sleeves 3012, the internal thread sleeves 3012 start to rotate, and in the process of clamping and pressing down the clamping and conveying system 2, the two groups of internal thread sleeves 3012 complete the thread screwing operation on two wood bars; the fourth driving wheel 3015 drives the fifth driving wheel 3017 to drive the fourth gear 3018 to rotate through the rotating shaft, the fourth gear 3018 is meshed with the two groups of internal thread sleeves 3012, the internal thread sleeves 3012 start to rotate, and in the process of clamping and pressing down the clamping and conveying system 2, the two groups of internal thread sleeves 3012 complete the thread screwing operation on two wood bars; the fifth driving wheel 3017 drives the sixth driving wheel 3019 to drive the fifth gear 3020 to rotate through the rotating shaft, the fifth gear 3020 is engaged with the two groups of internal thread sleeves 3012, the internal thread sleeves 3012 start to rotate, and in the process of clamping and pressing down the clamping and conveying system 2, the two groups of internal thread sleeves 3012 complete the thread screwing operation on two wood sticks, so that the thread screwing operation of one group of ten wood sticks is realized; the system realizes the spiral thread operation at one end of the wooden stick through the accurate positioning of the wooden stick.

The high-temperature tightening system 4 comprises an incubator 401, a second electric slide rail 402, a first heat transfer pipe 403 and a second heat transfer pipe 404; the insulation can 401 is connected with the cap system 5; the heat insulation box 401 is welded with the first chute plate 301; the heat insulation box 401 is welded with the first fixed support frame 304; the heat insulation box 401 is connected with a second electric slide rail 402 through bolts; the heat insulation box 401 is welded with the first heat transfer pipe 403; the heat insulating box 401 is welded to the second heat transfer pipe 404.

After the thread screwing operation is completed, the clamping and conveying system 2 conveys the wood stick with the screwed thread; when first hydraulic stem 2011 and second hydraulic stem 2012 run for when first electronic slide rail 201 and the seamless rail that connects of the electronic slide rail 402 of second in the high temperature contracts system 4, first electronic slide rail 201 and the electronic slide rail 402 of second carry the stick to insulation can 401 in the clamping state, because external hot steam conveyor carries out the flow of hot steam through first defeated heat pipe 403 and second defeated heat pipe 404, an environment that lasts high temperature has been built in insulation can 401, the realization carries out the heat shrink to the film on stick surface.

The cap system 5 comprises a motor 501, a transmission shaft 502, a seventh transmission wheel 503, a first bevel gear 504, a second bevel gear 505, a six-edge rotating shaft 506, a sixth gear 507, a seventh gear 508, a first rotating shaft 509, a first supporting plate 5010, a fifth electric push rod 5011, a second push plate 5012, an eighth gear 5013, a second rotating shaft 5014, a third clamping plate 5015, a fourth clamping plate 5016, a sliding rod 5017 and a portal frame 5018; the motor 501 is connected with the side supporting plate 6 through bolts; the motor 501 is fixedly connected with the transmission shaft 502; the transmission shaft 502 is fixedly connected with a seventh transmission wheel 503 and a first bevel gear 504 in sequence; the transmission shaft 502 is rotatably connected with the side supporting plate 6 through a bracket; the first bevel gear 504 is meshed with the second bevel gear 505; the second bevel gear 505 is fixedly connected with the hexagonal rotating shaft 506; the hexagonal rotating shaft 506 is fixedly connected with a sixth gear 507 through a shaft sleeve; the hexagonal rotating shaft 506 is rotatably connected with the second push plate 5012 through a shaft sleeve; the hexagonal rotating shaft 506 is in rotating connection with the portal frame 5018; the sixth gear 507 is meshed with the seventh gear 508; the seventh gear 508 is fixedly connected to the first shaft 509; the first rotating shaft 509 is fixedly connected with the first supporting plate 5010; the first rotating shaft 509 is rotatably connected with the portal frame 5018; a fifth electric push rod 5011 is arranged on one side of the first rotating shaft 509; the fifth electric push rod 5011 is connected with the second push plate 5012; the fifth electric push rod 5011 is connected with the portal frame 5018; an eighth gear 5013 is arranged below the first rotating shaft 509; the eighth gear 5013 is fixedly connected with the second rotating shaft 5014; two ends of the second rotating shaft 5014 are respectively screwed with the third clamping plate 5015 and the fourth clamping plate 5016; the second rotating shaft 5014 is in rotating connection with the portal frame 5018; two ends of the sliding rod 5017 are respectively in sliding connection with the third clamping plate 5015 and the fourth clamping plate 5016; the sliding rod 5017 is welded with the portal frame 5018; the portal frame 5018 is welded with the heat preservation box 401; the gantry 5018 is welded to the side support plate 6.

After the thermal shrinkage of the film is completed, the clamping and conveying system 2 realizes a return stroke, and the wood stick is released again, so that the wood stick is supported by the thread generating system 3; then, the motor 501 drives the transmission shaft 502 to rotate, the transmission shaft 502 drives the seventh transmission wheel 503 and the first bevel gear 504 to rotate, and the seventh transmission wheel 503 is responsible for power transmission among systems; the first bevel gear 504 is meshed with the second bevel gear 505 to drive the six-edged rotating shaft 506 to rotate, the six-edged rotating shaft 506 drives the sixth gear 507 to be meshed with the seventh gear 508, the seventh gear 508 drives the first rotating shaft 509 to rotate and drive the first supporting plate 5010, so that the protective cap on the first supporting plate 5010 is turned over and positioned to one end of the wood stick, then the fifth electric push rod 5011 pushes the second push plate 5012 to drive the sixth gear 507 connected with the six-edged rotating shaft 506 through a shaft sleeve to be meshed with the eighth gear 5013, and the eighth gear 5013 rotates and stands still; the eighth gear 5013 obtains power to rotate to drive the second rotating shaft 5014 to rotate, and due to the special arrangement of the second rotating shaft 5014, the third clamping plate 5015 and the fourth clamping plate 5016 slide on the sliding rod 5017 and approach to each other to clamp the first supporting plate 5010; then the wood bar is clamped again by the clamping and conveying system 2, the fifth electric push rod 5011 pulls the second push plate 5012 to drive the sixth gear 507 connected with the six-edged rotating shaft 506 through the shaft sleeve to be meshed with the seventh gear 508, the motor 501 drives the transmission shaft 502 to rotate reversely, the return stroke of the first supporting plate 5010 is realized, the protective cap is fixed with the wood bar, the separation of the protective cap from the first supporting plate 5010 is realized, and finally the third clamping plate 5015 and the fourth clamping plate 5016 return stroke is realized, so that the final manufacturing of the wooden mop rod is completed; the system realizes the installation of the protective cap on one end of the wooden stick, thereby completing the manufacture of the whole wooden mop rod.

One side of the supporting component 303 is slidably connected with the blanking component 305 through ten groups of ejector pins, and the connecting plate behind the ejector pins is a wedge-shaped plate.

The setting of thimble realizes the support of stick, and the release of the thimble of being convenient for realizes carrying out the screw thread operation with the stick in the setting of cooperation wedge-shaped plate.

Ten groups of blanking circular tubes are equidistantly arranged on the blanking assembly 305.

The rotation of the internal thread sleeve 3012 is convenient to realize, and the screwing operation of the wood stick is completed.

The outer surface of the internal thread sleeve 3012 is provided with gear teeth.

The batch work is convenient to realize, and the work efficiency is improved.

The outer surface of the second rotating shaft 5014 is symmetrically provided with bidirectional threads.

The third clamping plate 5015 and the fourth clamping plate 5016 can be moved close to and away from each other, and clamping and releasing can be completed.

It should be understood that this example is only for illustrating the present invention and is not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and such equivalents may fall within the scope of the present invention as defined in the appended claims.

Claims

1. A plastic packaging assembly device for wooden mop rod production comprises a controller (1) and a side supporting plate (6); the device is characterized by also comprising a clamping and conveying system (2), a thread generating system (3), a high-temperature tightening system (4) and a cap system (5); the controller (1) is connected with the high-temperature tightening system (4); the clamping and conveying system (2) is connected with the thread generating system (3); the clamping conveying system (2) is connected with the side supporting plate (6); the thread generating system (3) is connected with the high-temperature tightening system (4); the thread generating system (3) is connected with the side supporting plate (6); the high-temperature compression system (4) is connected with the cap system (5); the cap system (5) is connected with the side supporting plate (6).

2. The plastic packaging assembly device for wood mop rod production according to claim 1, wherein the clamping and conveying system (2) comprises a first electric slide rail (201), a first clamp plate (202), a first electric push rod (203), a first connecting rod (204), a second connecting rod (205), a second electric push rod (206), a third connecting rod (207), a fourth connecting rod (208), a second clamp plate (209), a first fixing plate (2010), a first hydraulic rod (2011) and a second hydraulic rod (2012); the first electric slide rail (201) is connected with the first fixing plate (2010) through bolts; the first electric sliding rail (201) is in sliding connection with the first clamping plate (202); two ends of the first clamping plate (202) are respectively connected with a first electric push rod (203) and a second electric push rod (206) through bolts; two ends of the first clamping plate (202) are respectively and rotatably connected with the first connecting rod (204) and the third connecting rod (207); two ends of the first clamping plate (202) are respectively and rotatably connected with the second connecting rod (205) and the fourth connecting rod (208); the first electric push rod (203) is connected with the first connecting rod (204); the first connecting rod (204) is rotatably connected with the second clamping plate (209); the second connecting rod (205) is rotatably connected with the second clamping plate (209); the second electric push rod (206) is connected with the third connecting rod (207); the third connecting rod (207) is rotatably connected with the second clamping plate (209); the fourth connecting rod (208) is rotatably connected with the second clamping plate (209); the first fixing plate (2010) is respectively in bolted connection with the first hydraulic rod (2011) and the second hydraulic rod (2012); the first hydraulic rod (2011) is connected with the thread generating system (3); the second hydraulic rod (2012) is connected to the thread forming system (3).

3. The plastic packaging assembly device for wood mop rod production according to claim 2, wherein the thread generating system (3) comprises a first chute plate (301), a spring (302), a support assembly (303), a first fixed support frame (304), a blanking assembly (305), a third electric push rod (306), a fourth electric push rod (307), a first push plate (308), a first driving wheel (309), a second driving wheel (3010), a first gear (3011), an internal thread sleeve (3012), a third driving wheel (3013), a second gear (3014), a fourth driving wheel (3015), a third gear (3016), a fifth driving wheel (3017), a fourth gear (3018), a sixth driving wheel (3019) and a fifth gear (3020); the first chute plate (301) is welded with the side supporting plate (6); the first chute plate (301) is connected with the high-temperature tightening system (4); ten groups of springs (302) are arranged inside the first chute plate (301); the first chute plate (301) is in sliding connection with the supporting component (303); the spring (302) is connected with the supporting component (303); the supporting component (303) is in sliding connection with the blanking component (305); the blanking assembly (305) is welded with the first fixed support frame (304); the first fixed support frame (304) is respectively in bolt connection with a third electric push rod (306) and a fourth electric push rod (307); the first fixed support frame (304) is connected with the high-temperature tightening system (4); the first fixed support frame (304) is welded with the side support plate (6); two ends of one side of the first push plate (308) are respectively connected with a third electric push rod (306) and a fourth electric push rod (307); a first push plate (308), wherein a first driving wheel (309) is arranged above the first driving wheel (309); the first push plate (308) is rotatably connected with the internal thread sleeve (3012); the first driving wheel (309) is connected with the cap system (5); the outer ring surface of the first driving wheel (309) is in transmission connection with a second driving wheel (3010) through a belt; the second transmission wheel (3010) is fixedly connected with the first gear (3011) through a rotating shaft; the first gear (3011) is engaged with two sets of internal thread sleeves (3012) separately; the outer ring surface of the second driving wheel (3010) is in transmission connection with a third driving wheel (3013) through a belt; the third driving wheel (3013) is fixedly connected with the second gear (3014) through a rotating shaft; the second gear (3014) is engaged with two sets of internal thread sleeves (3012) separately; the outer ring surface of the third driving wheel (3013) is in transmission connection with a fourth driving wheel (3015) through a belt; the fourth transmission wheel (3015) is fixedly connected with the third gear (3016) through a rotating shaft; the third gear (3016) is engaged with two sets of internal thread sleeves (3012) separately; the outer ring surface of the fourth driving wheel (3015) is in transmission connection with a fifth driving wheel (3017) through a belt; the fifth driving wheel (3017) is fixedly connected with the fourth gear (3018) through a rotating shaft; the fourth gear (3018) is engaged with two sets of internal thread sleeves (3012) separately; the outer ring surface of the fifth driving wheel (3017) is fixedly connected with the sixth driving wheel (3019) through a belt; the sixth driving wheel (3019) is fixedly connected with the fifth gear (3020) through a rotating shaft; the fifth gear (3020) is respectively meshed with the two groups of internal thread sleeves (3012).

4. The plastic packaging assembly device for the wood mop rod production according to claim 3, wherein the high-temperature compression system (4) comprises an incubator (401), a second electric slide rail (402), a first heat transfer pipe (403) and a second heat transfer pipe (404); the insulation can (401) is connected with the cap system (5); the heat preservation box (401) is welded with the first chute plate (301); the heat preservation box (401) is welded with the first fixed support frame (304); the heat preservation box (401) is connected with a second electric slide rail (402) through bolts; the heat insulation box (401) is welded with the first heat transfer pipe (403); the heat insulation box (401) is welded with the second heat transfer pipe (404).

5. The plastic packaging assembly device for the wood mop rod production according to claim 4, wherein the cap system (5) comprises a motor (501), a transmission shaft (502), a seventh transmission wheel (503), a first bevel gear (504), a second bevel gear (505), a six-edged rotating shaft (506), a sixth gear (507), a seventh gear (508), a first rotating shaft (509), a first supporting plate (5010), a fifth electric push rod (5011), a second push plate (5012), an eighth gear (5013), a second rotating shaft (5014), a third clamping plate (5015), a fourth clamping plate (5016), a sliding rod (5017) and a portal frame (5018); the motor (501) is connected with the side supporting plate (6) through bolts; the motor (501) is fixedly connected with the transmission shaft (502); the transmission shaft (502) is fixedly connected with a seventh transmission wheel (503) and a first bevel gear (504) in sequence; the transmission shaft (502) is rotationally connected with the side supporting plate (6) through a bracket; the first bevel gear (504) is meshed with the second bevel gear (505); the second bevel gear (505) is fixedly connected with the hexagonal rotating shaft (506); the hexagonal rotating shaft (506) is fixedly connected with a sixth gear (507) through a shaft sleeve; the hexagonal rotating shaft (506) is rotationally connected with the second push plate (5012) through a shaft sleeve; the hexagonal rotating shaft (506) is in rotating connection with the portal frame (5018); the sixth gear (507) is meshed with the seventh gear (508); the seventh gear (508) is fixedly connected with the first rotating shaft (509); the first rotating shaft (509) is fixedly connected with a first supporting plate (5010); the first rotating shaft (509) is in rotating connection with the portal frame (5018); a fifth electric push rod (5011) is arranged on one side of the first rotating shaft (509); the fifth electric push rod (5011) is connected with the second push plate (5012); the fifth electric push rod (5011) is connected with the portal frame (5018); an eighth gear (5013) is arranged below the first rotating shaft (509); the eighth gear (5013) is fixedly connected with the second rotating shaft (5014); two ends of the second rotating shaft (5014) are respectively screwed with the third clamping plate (5015) and the fourth clamping plate (5016); the second rotating shaft (5014) is in rotating connection with the portal frame (5018); two ends of the sliding rod (5017) are respectively in sliding connection with the third clamping plate (5015) and the fourth clamping plate (5016); the sliding rod (5017) is welded with the portal frame (5018); the portal frame (5018) is welded with the heat preservation box (401); the portal frame (5018) is welded with the side supporting plate (6).

6. The plastic packaging assembly device for wooden mop rod production according to claim 5, wherein one side of the supporting component (303) is slidably connected with the blanking component (305) through ten groups of ejector pins, and the connecting plate behind the ejector pins is a wedge-shaped plate.

7. The plastic package assembly device for wood mop rod production according to claim 6, wherein ten sets of blanking circular tubes are equidistantly arranged on the blanking assembly (305).

8. The plastic package assembly device for wood mop rod production according to claim 7, wherein gear teeth are arranged on the outer surface of the internal thread sleeve (3012).

9. The plastic package assembly device for the wood mop rod production according to claim 8, wherein the outer surface of the second rotating shaft (5014) is symmetrically provided with bidirectional threads.