CN204710656U - Automatic glue application structure and use the automatic glue spreaders of this automatic glue application structure - Google Patents

Abstract

The utility model discloses a kind of automatic glue application structure and uses the automatic glue spreaders of this automatic glue application structure, automatic glue spreaders comprises body, carrier, bearing guide rail, carrying motor and automatic glue application structure, and automatic glue application structure comprises sleeve pipe, impeller, mounting head and drives module.Described outside of sleeve is installed with quill gear; Described impeller comprises screw rod, be connected to the rotary body of screw rod upper end and be installed in the rotary body gear of rotary body upper end; Described mounting head to be installed in sleeve pipe and to be threaded connection with described screw rod lower end; Described driving module comprises gear module and gear motor, described gear module coordinates to make rotary body realize Double-directional rotary with rotary body gear, described gear module coordinates with quill gear, to make sleeve pipe single direction rotation, and then drive mounting head single direction rotation, by the speed discrepancy of rotary body gear and quill gear, mounting head is axially stretched out along sleeve pipe or is retracted and make mounting head stretch out sleeve pipe compared to the displacement of front once generation single direction rotation at every turn.

Description

Automatic glue application structure and use the automatic glue spreaders of this automatic glue application structure

Technical field

The utility model relates to a kind of automatic glue application structure, especially relates to a kind ofly being applicable to the automatic glue application structure of lipstick glue and using the automatic glue spreaders of this automatic glue application structure.

Background technology

Current automatic glue spreaders is made up of mechanical system, treatment system, dynamical system, sensing and detecting system and executive component system, wherein, executive component system is generally utilize a motor forward and backward to control, glue in lipstick sebific duct rotates on materials such as being applied to paper, plastics, timber by mechanism's original paper by the speed discrepancy of collocation gear ratio automatically, after smearing again in automatic retraction lipstick sebific duct.The common action of lipstick glue own utilizes screw rod rotation forces mounting head, and then axially stretching out sebific duct makes gluing to make mounting head, if but the same direction of gluing action, glue can be made to be uneven smearing, to produce the glue that overflows.

Utility model content

For solving the problems referred to above that prior art exists, the purpose of this utility model be the deficiency that exists for above-mentioned prior art and provide a kind of and smear evenly, without the glue that overflows automatic glue application structure and use the automatic glue spreaders of this automatic glue application structure.

For achieving the above object, the utility model provides a kind of automatic glue application structure, and comprise sleeve pipe, impeller, mounting head and drive module, wherein, described outside of sleeve is installed with quill gear; Described impeller comprises the screw rod be installed in sleeve pipe, is connected to screw rod upper end and exceeds the rotary body of cannula tip and be installed in the rotary body gear of rotary body upper end; Described mounting head to be installed in sleeve pipe and to be threaded connection with described screw rod lower end, described mounting head be limited in relative state without spin between sleeve pipe; Described driving module comprises the gear motor of gear module and driven wheel module, described gear module coordinates to make rotary body realize Double-directional rotary with rotary body gear, and then drive described mounting head to move axially along sleeve pipe by screw rod, described gear module coordinates with quill gear, to make sleeve pipe single direction rotation, and then drive mounting head single direction rotation, by the speed discrepancy of rotary body gear and quill gear, mounting head is axially stretched out along sleeve pipe or is retracted and make mounting head stretch out sleeve pipe compared to the displacement of front once generation single direction rotation at every turn.

As further improvement, described internal surface of sleeve pipe is inwardly convexly equipped with some fins, the fin that described mounting head periphery corresponds to described sleeve pipe is concaved with the groove that some axis run through mounting head, described fin active card is held in groove, described screw rod coordinates when rotating with mounting head, fin is limited in groove, and then mounting head is moved axially along sleeve pipe.

As further improvement, described gear module comprises the rotary body driving wheel of a driven rotary body gear and the sleeve pipe driving wheel of a drive quill gear, described rotary body driving wheel and common with the one respectively driven wheel of sleeve pipe driving wheel engage each other, described driven wheel drives by gear motor, described sleeve pipe driving wheel and a ratchet coaxial rotation.

As further improvement, described rotary body driving wheel and rotary body gear engage each other, and described ratchet and a travelling gear engage each other, and this travelling gear and described quill gear engage each other.

As further improvement, described gear module also includes a brake, and described brake coordinates with ratchet, to ensure that ratchet keeps idle running on non-drive direction.

For achieving the above object, the utility model provides a kind of automatic glue spreaders, comprises body, carrier, bearing guide rail, carrying motor and automatic glue application structure.Described bearing guide rail is installed on body, and described bearing guide rail initiating terminal and tail end are respectively equipped with a home sensor and calibrating sensors, to sense carrier respectively at original position and remote location.Described carrying motor drives carrier to slide along bearing guide rail.Described automatic glue application structure is installed on described carrier, and described automatic glue application structure comprises sleeve pipe, impeller, mounting head further and drives module, and described outside of sleeve is installed with quill gear; Described impeller comprises the screw rod be installed in sleeve pipe, is connected to screw rod upper end and exceeds the rotary body of cannula tip and be installed in the rotary body gear of rotary body upper end; Described mounting head to be installed in sleeve pipe and to be threaded connection with described screw rod lower end, described mounting head be limited in relative state without spin between sleeve pipe; Described driving module comprises the gear motor of gear module and driven wheel module, described gear module coordinates to make rotary body realize Double-directional rotary with rotary body gear, and then drive described mounting head to move axially along sleeve pipe by screw rod, described gear module coordinates with quill gear, to make sleeve pipe single direction rotation, and then drive mounting head single direction rotation, by the speed discrepancy of rotary body gear and quill gear, mounting head is axially stretched out along sleeve pipe or is retracted and make mounting head stretch out sleeve pipe compared to the displacement of front once generation single direction rotation at every turn.

The utility model is relative to the beneficial effect of prior art, the automatic glue application structure of the utility model automatic glue spreaders coordinates to make rotary body realize Double-directional rotary with rotary body gear due to described gear module, described gear module coordinates with quill gear to make sleeve pipe realize single direction rotation, by the speed discrepancy of rotary body gear and quill gear, and then drive mounting head axially to stretch out along sleeve pipe or retract and make mounting head stretch out sleeve pipe compared to front once single direction rotation at an angle at every turn, thus reach and smear evenly, without the object of excessive glue.

Accompanying drawing explanation

Fig. 1 is the stereogram that the utility model automatic glue spreaders is positioned at initial position.

Fig. 2 is positioned at the stereogram of remote location for automatic glue spreaders shown in Fig. 1.

The automatic glue application structure that Fig. 3 is automatic glue spreaders shown in Fig. 1 and the stereogram of guide wheel device.

The stereogram of the automatic glue application structure that Fig. 4 is automatic glue spreaders shown in Fig. 1.

Fig. 5 is for the structure of automatic glue application shown in Fig. 4 is containing the stereogram of shell and gear motor.

Fig. 6 is the top view of the structure of automatic glue application shown in Fig. 5.

Fig. 7 is the three-dimensional exploded view of the structure of automatic glue application shown in Fig. 5.

Fig. 8 is for the structure of automatic glue application shown in Fig. 6 is along the profile of VIII line.

[main element symbol description]

Automatic glue spreaders 100

Body 10 bearing guide rail 20

Home sensor 21 calibrating sensors 22

Carrier 30 carries motor 40

Automatic glue application structure 50 shell 51

Sleeve pipe 52 quill gear 521

Fin 522 impeller 53

Screw rod 531 rotary body 532

Rotary body gear 533 mounting head 54

Lipstick glue 541 groove 542

Gear motor 551 rotary body driving wheel 552

Sleeve pipe driving wheel 553 driven wheel 554

Ratchet 555 travelling gear 556

Brake 557 guide wheel device 60

Coated article 70.

Detailed description of the invention

By describing technology contents of the present utility model, structural feature in detail, realized object and effect, accompanying drawing is coordinated to be explained in detail below in conjunction with embodiment.

Refer to Fig. 1 and Fig. 2, a kind of automatic glue spreaders 100 of the present utility model, comprise body 10, bearing guide rail 20, carrier 30, carrying motor 40 and automatic glue application structure 50.

Refer to Fig. 1 and Fig. 2, described bearing guide rail 20 is installed on body 10, and described bearing guide rail 20 initiating terminal and tail end are respectively equipped with a home sensor 21 and calibrating sensors 22, to sense carrier 30 respectively at original position and remote location.

Refer to Fig. 1 to Fig. 8, described carrier 30 is driven by carrying motor 40 and slides along bearing guide rail 20, described automatic glue application structure 50 is installed on described carrier 30, and described automatic glue application structure 50 comprises shell 51, sleeve pipe 52, impeller 53, mounting head 54 and drives module (figure does not mark).

Refer to Fig. 1 to Fig. 4, described shell 51 is installed in described sleeve pipe 52, impeller 53, mounting head 54 and drives outside module, and described automatic glue application structure 50 is fixed on described carrier 30 by shell 51.

Refer to Fig. 5 to Fig. 8, be installed with quill gear 521 outside described sleeve pipe 52, described sleeve pipe 52 inwall is inwardly convexly equipped with some fins 522.

Refer to Fig. 5 to Fig. 8, described impeller 53 comprises the screw rod 531 be installed in sleeve pipe 52, is connected to screw rod 531 upper end and exceeds the rotary body 532 at sleeve pipe 52 top and be installed in the rotary body gear 533 of rotary body 532 upper end.

Refer to Fig. 7 and Fig. 8, described mounting head 54 to be installed in sleeve pipe 52 and to be threaded connection with described screw rod 531 lower end, described mounting head 54 is equiped with lipstick glue 541, the fin 522 that described mounting head 54 periphery corresponds to described sleeve pipe 52 is concaved with the groove 542 that some axis run through mounting head 54, described fin 522 active card is held in groove 542, described screw rod 531 coordinates when rotating with mounting head 54, fin 522 is limited in groove 542, and then mounting head 54 is moved axially along sleeve pipe 52, described mounting head 54 be limited in relative state without spin between sleeve pipe 52.

Refer to Fig. 3 to Fig. 7, described driving module comprises the gear motor 551 of gear module (figure does not mark) and driven wheel module, described gear module coordinates with rotary body gear 533 to make rotary body 532 realize Double-directional rotary, and then drive described mounting head 54 to move axially along sleeve pipe 52 by screw rod 531, described gear module coordinates with quill gear 521, to make sleeve pipe 52 single direction rotation, and then drive mounting head 54 single direction rotation.

Refer to Fig. 3 to Fig. 7, described gear module comprises the rotary body driving wheel 552 of a driven rotary body gear 533 and the sleeve pipe driving wheel 553 of a drive quill gear 521, described rotary body driving wheel 552 driven wheel 554 common with respectively with sleeve pipe driving wheel 553 engages each other, and described driven wheel 554 drives by described gear motor 551.Concrete, described rotary body driving wheel 552 engages each other with rotary body gear 533, described sleeve pipe driving wheel 553 and ratchet 555 coaxial rotation, described ratchet 555 and a travelling gear 556 engage each other, and this travelling gear 556 engages each other with described quill gear 521.Refer to Fig. 4 to Fig. 6, in the present embodiment, the transmission direction of described ratchet 555 is counterclockwise, when stretching out mounting head 54 gluing, the rotation direction of described driven wheel 554 is clockwise, described ratchet 555 engages each other with described travelling gear 556, and then makes described quill gear 521 and travelling gear 556 engagement rotation, thus drives mounting head 54 to be rotated counterclockwise.

Refer to Fig. 5 to Fig. 7, described gear module also includes a brake 557, described brake 557 coordinates with ratchet 555, to ensure that ratchet 555 keeps idle running on non-drive direction, concrete, when described sleeve pipe driving wheel 553 rotates counterclockwise, ratchet 555 and described brake 557 engage each other rotation, when described sleeve pipe driving wheel 553 rotates clockwise, described ratchet 555 by the restriction of brake 557, and then ensures that ratchet 555 is in idling conditions.

Refer to Fig. 2 and Fig. 3, described carrier 30 is also equiped with a guide wheel device 60, this guide wheel device 60 is fixedly connected with the shell 51 of described automatic glue application structure 50, and guides described automatic glue application structure 50 gluing on coated article 70.

Refer to Fig. 1 and Fig. 2, the utility model automatic glue spreaders 100 also comprises control system (not shown), this control system controls described carrying motor 40 by the sensing result of described home sensor 21 and calibrating sensors 22 and drives carrier 30 to slidably reciprocate between home sensor 21 and calibrating sensors 22, control gear motor 551 driven gear module work simultaneously.

Refer to Fig. 1, when the utility model automatic glue spreaders 100 does not work, described carrier 30 is positioned at original position, and described gear motor 551 does not work, and the mounting head 54 of described automatic glue application structure 50 is placed in described sleeve pipe 52.

Refer to Fig. 1 to Fig. 8, when the utility model automatic glue spreaders 100 works:

Described carrying motor 40 drives carrier 30 to slide into remote location in bearing guide rail 20, described calibrating sensors 22 pairs of carriers 30 sense and by signal transmission give described control system, described control system control gear motor 551 drives described driven wheel 554 to rotate clockwise, and described driven wheel 554 driven rotary body driving wheel 552 is rotated counterclockwise with sleeve pipe driving wheel 553.Wherein, described rotary body driving wheel 552 engages each other with rotary body gear 533, and to make rotary body gear 533 rotate clockwise, and then driven rotary body 532 rotates clockwise with screw rod 531; Described ratchet 555 coaxially rotates counterclockwise with sleeve pipe driving wheel 553, rotate clockwise to make the intermeshing travelling gear 556 with ratchet 555, and then to drive and the intermeshing quill gear 521 of travelling gear 556 rotates counterclockwise, thus described sleeve pipe 52 is rotated counterclockwise.Now, be held in groove 542 by described fin 522 active card, the coordinating and gear module driven rotary body gear 533 and the speed discrepancy of quill gear 521 of screw rod 531 and mounting head 54, be rotated counterclockwise while making mounting head 54 axis stretch out sleeve pipe 52.

After described mounting head 54 is pushed out, carrying motor 40 drives carrier 30 to slide to original position in bearing guide rail 20, and described guide wheel device 60 guides described automatic glue application structure 50 to carry out gluing on coated article 70.

After gluing completes, original position got back to by described carrier 30, described home sensor 21 pairs of carriers 30 sense and by signal transmission to control system, described control system control gear motor 551 drives described driven wheel 554 to rotate counterclockwise, and described driven wheel 554 driven rotary body driving wheel 552 rotates clockwise with sleeve pipe driving wheel 553.Wherein, described rotary body driving wheel 552 engages each other with rotary body gear 533, and to make rotary body gear 533 rotate counterclockwise, and then driven rotary body 532 rotates counterclockwise with screw rod 531; The described ratchet 555 coaxial with sleeve pipe driving wheel 553 is by the braking action of brake 557, and in idling conditions, and then travelling gear 556 cannot rotate, and namely quill gear 521 keeps motionless.Now, be held in groove 542 by described fin 522 active card and the coordinating of screw rod 531 and mounting head 54, make mounting head 54 axial retraction sleeve pipe 52.

In the present embodiment, the automatic glue application structure 50 of the utility model automatic glue spreaders 100 adopts mounting head 54 when stretching out mounting head 54 to move axially and single direction rotation, and during retraction mounting head 54, mounting head 54 only moves axially.Meanwhile, mounting head 54 when stretching out mounting head 54 also can be adopted only to move axially, and during retraction mounting head 54, mounting head 54 moves axially and single direction rotation.Other makes mounting head 54 stretch out the mode of sleeve pipe 52 compared to front once single direction rotation at an angle at every turn, within the protection domain all dropping on the utility model automatic glue spreaders 100.

In sum, the automatic glue application structure 50 of the utility model automatic glue spreaders 100 coordinates to make rotary body 532 realize Double-directional rotary with rotary body gear 533 by described gear module, described gear module coordinates with quill gear 521 to make sleeve pipe 52 realize single direction rotation, by the speed discrepancy of rotary body gear 533 with quill gear 521, and then drive mounting head 54 axially to stretch out along sleeve pipe 52 or retract and make mounting head 54 stretch out sleeve pipe 52 compared to front once compared to front once single direction rotation at an angle at every turn, thus reach and smear evenly, without the object of excessive glue.

Claims (10)

1. an automatic glue application structure, is characterized in that: comprise sleeve pipe, impeller, mounting head and drive module, wherein, described outside of sleeve is installed with quill gear, described impeller comprises the screw rod be installed in sleeve pipe, is connected to screw rod upper end and exceeds the rotary body of cannula tip and be installed in the rotary body gear of rotary body upper end, described mounting head to be installed in sleeve pipe and to be threaded connection with described screw rod lower end, described mounting head be limited in relative state without spin between sleeve pipe, described driving module comprises the gear motor of gear module and driven wheel module, described gear module coordinates to make rotary body realize Double-directional rotary with rotary body gear, and then drive described mounting head to move axially along sleeve pipe by screw rod, described gear module coordinates with quill gear, to make sleeve pipe single direction rotation, and then drive described mounting head single direction rotation, by the speed discrepancy of described rotary body gear and described quill gear, described mounting head is axially stretched out along sleeve pipe or is retracted and make described mounting head stretch out described sleeve pipe at every turn and once produces single direction rotation displacement compared to front.

2. automatic glue application structure as claimed in claim 1, it is characterized in that: described internal surface of sleeve pipe is inwardly convexly equipped with some fins, the fin that described mounting head periphery corresponds to described sleeve pipe is concaved with the groove that some axis run through mounting head, described fin active card is held in groove, described screw rod coordinates when rotating with mounting head, described fin is limited in groove, and then described mounting head is moved axially along sleeve pipe.

3. automatic glue application structure as claimed in claim 1, it is characterized in that: described gear module comprises the rotary body driving wheel of a driven rotary body gear and the sleeve pipe driving wheel of a drive quill gear, described rotary body driving wheel and common with the one respectively driven wheel of sleeve pipe driving wheel engage each other, described driven wheel drives by gear motor, described sleeve pipe driving wheel and a ratchet coaxial rotation.

4. automatic glue application structure as claimed in claim 3, it is characterized in that: described rotary body driving wheel and rotary body gear engage each other, described ratchet and a travelling gear engage each other, and this travelling gear and described quill gear engage each other.

5. automatic glue application structure as claimed in claim 3, is characterized in that: described gear module also includes a brake, and described brake coordinates with ratchet, to ensure that ratchet keeps idle running on non-drive direction.

6. an automatic glue spreaders, it is characterized in that: comprise body, carrier, bearing guide rail, carrying motor and automatic glue application structure, wherein, described bearing guide rail is installed on body, described bearing guide rail initiating terminal and tail end are respectively equipped with a home sensor and calibrating sensors, to sense carrier respectively at original position and remote location, described carrying motor drives carrier to slide along bearing guide rail, described automatic glue application structure is installed on described carrier, described automatic glue application structure comprises sleeve pipe further, impeller, mounting head and driving module, described outside of sleeve is installed with quill gear, described impeller comprises the screw rod be installed in sleeve pipe, be connected to screw rod upper end and exceed the rotary body of cannula tip and be installed in the rotary body gear of rotary body upper end, described mounting head to be installed in sleeve pipe and to be threaded connection with described screw rod lower end, described mounting head be limited in relative state without spin between sleeve pipe, described driving module comprises the gear motor of gear module and driven wheel module, described gear module coordinates to make rotary body realize Double-directional rotary with rotary body gear, and then drive described mounting head to move axially along sleeve pipe by screw rod, described gear module coordinates with quill gear, to make described sleeve pipe single direction rotation, and then drive described mounting head single direction rotation, by the speed discrepancy of described rotary body gear and described quill gear, described mounting head is axially stretched out along sleeve pipe or is retracted and make described mounting head stretch out sleeve pipe at every turn and once produces single direction rotation displacement compared to front.

7. automatic glue spreaders as claimed in claim 6, it is characterized in that: described internal surface of sleeve pipe is inwardly convexly equipped with some fins, the fin that described mounting head periphery corresponds to described sleeve pipe is concaved with the groove that some axis run through mounting head, described fin active card is held in groove, described screw rod coordinates when rotating with mounting head, described fin is limited in described groove, and then described mounting head is moved axially along sleeve pipe.

8. automatic glue spreaders as claimed in claim 6, it is characterized in that: described gear module comprises the rotary body driving wheel of a driven rotary body gear and the sleeve pipe driving wheel of a drive quill gear, described rotary body driving wheel and common with the one respectively driven wheel of sleeve pipe driving wheel engage each other, described driven wheel drives by gear motor, described sleeve pipe driving wheel and a ratchet coaxial rotation.

9. automatic glue spreaders as claimed in claim 8, it is characterized in that: described rotary body driving wheel and rotary body gear engage each other, described ratchet and a travelling gear engage each other, and this travelling gear and described quill gear engage each other.

10. automatic glue spreaders as claimed in claim 8, is characterized in that: described gear module also includes a brake, and described brake coordinates with ratchet, to ensure that ratchet keeps idle running on non-drive direction.