CN204737060U - Covering membrane machine - Google Patents

Abstract

The utility model provides a covering membrane machine, especially, it is equipped with a feeding mechanism on the board to refer in particular to, this feeding mechanism is equipped with a plurality of material seats of putting at a conveyer belt, should put to be equipped with on the material seat to supply holding lipstick pen, the storage tank of similar tubular products such as eyeliner, and fix by the motor and rotate all material seats of putting on the conveyer belt, let lipstick pen on the storage tank, similar tubular products such as eyeliner can be according to the preface aversion that fixes forward, this board is equipped with a feed mechanism in top corresponding to feeding mechanism or both sides position department according to the preface, a glued membrane roll -up with cut the mechanism, a glued membrane coating machine constructs, a rotary column mechanism, a covering membrane machine constructs, a positioning mechanism, a rotary mechanism, a thermal contraction mechanism, let the glued membrane can follow the roll -up, cut, the diolame, covering membrane, the location, rotation and the whole process of heating, reach the production model of full automation and consistent operation.

Description

Covering machine

Technical field

Covering machine provided by the utility model, the automatic coating being mainly applied to the similar tubular products such as Lipstick holder, eyeliner is technical.

Background technology

Please consult shown in Fig. 1: be the coating schematic perspective view of existing Lipstick holder.The similar tubular productss such as existing Lipstick holder 2, eyeliner; it is on probation in order to the similar tubular productss such as Lipstick holder 2, eyeliner will be avoided arbitrarily opened by people; and in order to the object of the similar tubular productss such as protection Lipstick holder 2, eyeliner will be reached; generally all can at the glued membrane 3 of the outside coated layer of transparent of the similar tubular products such as Lipstick holder 2, eyeliner; the mode of recycling heating; allow this one deck glued membrane 3 produce thermal contraction, be coated on the similar tubular products such as Lipstick holder 2, eyeliner tightly outside.

But, the similar tubular products coating operations such as existing Lipstick holder, eyeliner, general is all use artificial mantle mode, whole production process, not only time-consumingly to take a lot of work, and cannot accurately control in the quality of mantle, easily cause the situation that defective products increases, for it had both deposited the problem and blemish waiting to overcome solution.

Summary of the invention

The present inventor is engaged in manufacture, the design of Related product at present, accumulates practical experience for many years and gains in depth of comprehension, for the problem and blemish that the existing artificial mantle mode of tradition had both been deposited, drops into innovation and the spirit of improvement energetically, completes a kind of covering machine.

Deal with problems applied technological means and effect against existing technologies of the utility model is:

A kind of covering machine, comprising: a feeding mechanism, a feed mechanism, a glued membrane furling mechanism, a glued membrane cut and film coating mechanism, a rotary column mechanism, a mantle mechanism, a detent mechanism, a rotating mechanism, a thermal contraction mechanism; Wherein:

This feeding mechanism is provided with one in board side and puts hopper, this width putting hopper is just suitable with the length of workpiece, this inside Stackable putting hopper holds multiple workpiece, this exit of putting bottom hopper is provided with a runner, the surrounding face of this runner is provided with the groove of multiple semicircular in shape, as the use holding workpiece, this is put the opposite side place access node being connected runner bottom hopper and is provided with an adjustable slant board, the middle of this adjustable slant board is provided with one first air cylinder, adjustable slant board is driven to change angle up and down by this first air cylinder, thus by the workpiece put in hopper towards in the direction set of runner, the center of this runner is provided with one first motor, rotated by this first motor driving runner, by the workpiece one in groove, next rotates away in order thus, the front place of this runner is provided with a fixing swash plate, can for the multiple workpiece of arrangement on this fixing swash plate, the top place of this fixing swash plate lower is provided with one first support body, this first support body is provided with one second and 1 the 3rd air cylinder corresponding to first of being arranged in fixing swash plate lowest part with second location of workpiece place, this second and the 3rd is provided with a gate and a casting die below air cylinder, this fixing swash plate side corresponds to first and is provided with two infradred sensors with second location of workpiece place, respond to workpiece by this two infradred sensor and whether arrive location, and notify second and the 3rd air cylinder one on next according to the result of induction, on one, coordination once, first casting die is driven to push down second workpiece downwards by the 3rd air cylinder, upwards gate is opened again by the second air cylinder, unit one is allowed freely to drop down onto feed mechanism, again by the downward closed shutter of the second air cylinder, casting die is upwards driven to decontrol second workpiece by the 3rd air cylinder again, allow multiple workpiece automatically can move forward a position along with the gradient of fixing swash plate,

This feed mechanism is provided with a load-transfer device, this load-transfer device outer is arranged with multiplely puts material seat, each this put material seat and be provided with a V-shaped storage tank, this storage tank can supply an accommodating workpiece, this load-transfer device is provided with one second motor, fixed by this second motor and allly on rotational conveyance band put material seat, allow and put material seat workpiece all on storage tank and can sequentially to fix forward displacement;

The rear position place that the retracting of this glued membrane and cutting mechanism correspond to feed mechanism at board is provided with one second support body, this furling mechanism place above the second support body is provided with a rolling wheel, this rolling wheel can be the flat banded glued membrane of hollow for retracting one volume, the below of this rolling wheel is provided with multiple idle pulley and two and presents, the propelling sheave that lower configured in parallel and opposite sense rotate, propelling sheave above this is provided with one the 3rd motor, by the 3rd motor driving upper and lower two propelling sheaves, glued membrane is sent into cutting mechanism, this cutting mechanism is being provided with a platform corresponding to upper and lower two propelling sheave places, the top place of this platform is provided with an actuator, a left side below this actuator, right both sides are provided with two rolled-up stocks, two elastic elements are provided with between this actuator and two rolled-up stocks, this two rolled-up stock is allowed to have elasticity when suppressing glued membrane, centre below this actuator is provided with a cutting knife, the centre of this platform corresponds to cutting knife place and is provided with a gap, the top of this actuator is provided with one the 4th air cylinder, when glued membrane sends into platform by upper and lower two propelling sheaves, namely a left side for actuator is driven by the 4th air cylinder, right two rolled-up stocks first push down glued membrane, glued membrane is cut to the length suitable with workpiece again by the cutting knife of centre, supply the glued membrane needed for workpiece mantle thus,

This glued membrane film coating mechanism corresponds to the retracting of above-mentioned glued membrane at board and is provided with a triframe body with the platform place of cutting mechanism, the top of this triframe body is provided with a horizontal slide rail and a cross slide, this cross slide is provided with one the 5th air cylinder, cross slide left and right sidesing shifting is driven by the 5th air cylinder, this cross slide corresponds on the glued membrane of platform, lower place is provided with 2 first suckers, this 2 first sucker driven by one the 6th air cylinder, first hold gum cover by 2 first suckers towards centre, again towards the opening pulling open gum cover up and down, cross slide is moved to the left again by the 5th air cylinder, thus gum cover is inserted in mantle bar, the glued membrane that this cross slide corresponds to platform is left, right place is provided with two molds, this two molds is provided with the die cavity of two semicirculars in shape, this two molds is driven by one the 7th air cylinder and is closure state and open configuration, when this gum cover is inserted in mantle bar, this two molds closes immediately, two die cavitys are utilized to be coated on by gum cover in mantle bar,

This rotary column mechanism is provided with rotary column at the rear position place at load-transfer device first job station, the below of this rotary column is provided with one the 4th motor, to be fixed rotation rotary column with anticlockwise direction by the 4th motor, this rotary column is allowed all to do the rotation of 90 degree each time, this rotary column three circumferentially, twelve-hour, nine o'clock and six o'clock direction be provided with four outwardly directed mantle bars, this mantle bar is provided with one and is inserted in end in cone-shaped, a location terrace edge is provided with in the middle of this mantle bar, as the use of location glued membrane, the cover die bar of this rotary column in three direction corresponds to glued membrane film coating mechanism, by this glued membrane film coating mechanism glued membrane is coated in this cover tringle, the twelve-hour direction place that this board is corresponding to rotary column is provided with an infradred sensor, respond to mantle bar by this infradred sensor and whether arrive location, and notify that the 4th motor fixes rotation rotary column, the peripheral place, nine o'clock direction that this board is corresponding to rotary column is provided with one the 4th support body, the axle center place corresponding to mantle bar above 4th support body is provided with a glued membrane positioning set, this glued membrane positioning set is provided with one the 8th air cylinder, glued membrane positioning set left and right sidesing shifting is driven by the 8th air cylinder, by glued membrane ejection to the terrace edge place, location of mantle bar, this rotary column corresponds to mantle mechanism at the cover die bar in six o'clock direction, by this mantle mechanism by glued membrane from cover tringle migration be set in workpiece,

The anterior position place that this mantle mechanism is corresponding to load-transfer device first job station is provided with a block, the upper limb place that this block corresponds to workpiece head end surface is provided with a portable bar, this portable bar is provided with one the 9th air cylinder, portable bar is driven to be shifted by before and after the 9th air cylinder, the rear position place that this mantle mechanism is corresponding to load-transfer device first job station is provided with a material lift part, the top of this material lift part is provided with the recessed edge of a semicircular in shape, the internal diameter of this hemicycle emargination is suitable with the external diameter of workpiece, the below of this material lift part is provided with 1 the tenth air cylinder, material lift part is driven to be shifted up and down by the tenth air cylinder, the top position place that this mantle mechanism is corresponding to load-transfer device first job station is provided with one the 5th support body, 5th support body is provided with always to slide rail and directly to slide, this is directly provided with 1 the 11 air cylinder to the front of slide, driven by the 11 air cylinder and be directly shifted before and after slide, this is directly provided with 1 the 12 air cylinder to the below of slide, 12 air cylinder is provided with a set of membrane and 2 second suckers, cover membrane and 2 second suckers are driven to be shifted up and down by the 12 air cylinder, the below of this cover membrane is provided with a semicircular in shape cambered surface, the internal diameter of this semicircle cambered surface is suitable with the external diameter of workpiece, when this load-transfer device will put material seat fix be displaced to mantle mechanism place time, first drive portable bar backward by the 9th air cylinder, by workpiece ejection to mantle bar place, material lift part is upwards driven again by the tenth air cylinder, the tail end of workpiece is slightly upwards lifted, the tail end of workpiece is allowed to tilt an angle, glued membrane is facilitated to be inserted in, driven backward by the 11 air cylinder again and be directly shifted to slide, cover membrane and 2 second suckers are driven to be shifted downwards by the 12 air cylinder again, the semicircle cambered surface of this cover membrane and 2 second suckers are allowed to fit in the film surface of mantle bar, directly be shifted to slide by the 11 air cylinder brought forward again, utilize the semicircle cambered surface of this cover membrane and 2 second suckers by the glued membrane of mantle bar forward slippage be set in outer workpiece, utilize block to be resisted against the end of workpiece head simultaneously,

This detent mechanism is provided with 2 the 13 air cylinders in the front and rear sides position of load-transfer device second workstation, the two ends end to end that this 2 the 13 location air cylinder corresponds to workpiece are provided with two locationss, when load-transfer device will put material seat fix be displaced to two locations places time, namely by this 2 the 13 location air cylinder drive two locationss to push in workpiece by sheathed glued membrane;

This rotating mechanism is before load-transfer device the 3rd workstation, position, rear both sides is provided with two elevating brackets, this two elevating bracket is located to be provided with multiple belt pulley respectively corresponding to the workpiece putting material seat end to end, this belt pulley is by multiple idle pulley, two drive belts and 2 the 5th motors driven, the plurality of belt pulley is provided with multiple axostylus axostyle and roller, the plurality of roller is equidirectional rotation, the below of this two elevating bracket is provided with 2 the 14 air cylinders, when load-transfer device will put material seat fix be displaced to rotating mechanism place time, first upwards drive the plural roller of two elevating brackets to be upwards lifted away from by workpiece by this 2 the 14 air cylinder and put material seat, and do clws and rotate forward, two elevating brackets are driven downwards again by this 2 the 14 lifting air cylinder pressure, this workpiece is allowed to come back in the storage tank putting groove seat,

This thermal contraction mechanism corresponds to rotating mechanism position and is provided with temperature booster above load-transfer device the 3rd workstation, when load-transfer device will put material seat fix be displaced to temperature booster place time, first by this rotating mechanism above-mentioned workpiece is upwards lifted away from and puts material seat, and do clws and rotate forward, by this temperature booster, thermal contraction is produced to glued membrane homogeneous heating again, allow glued membrane be coated on surface of the work, the discharging the swash plate finally workpiece completing mantle operation being delivered to board opposite side by load-transfer device again discharges collection one by one.

According to the utility model one embodiment, this workpiece is tubular products.

According to the utility model one embodiment, this workpiece is Lipstick holder or eyeliner.

According to the utility model one embodiment, the hopper front of putting of this feeding mechanism uses transparent material.

According to the utility model one embodiment, this rotary column mechanism is provided with a profile groove at end level of the being inserted in place of mantle bar, this rotary column whether also sheathed glued membrane in the profile groove being provided with a detection mantle bar between glued membrane film coating mechanism and mantle mechanism, if detect and be also arranged with glued membrane, then this covering machine decommissions immediately, to get rid of the detecting device of the glued membrane in mantle bar.

Covering machine of the present utility model, allow glued membrane can from furling, cut, coating, mantle, location, rotation and the whole process of heating, reach the production model of full automation and one-stop operation, the production efficiency of product and the fraction defective reducing product can be improved, there is the enhancement in effect.

Accompanying drawing explanation

Fig. 1: the coating schematic perspective view of existing Lipstick holder.

Fig. 2: master of the present utility model looks three-dimensional combination schematic diagram.

Fig. 3: rear perspective combination schematic diagram of the present utility model.

Fig. 4: top plan view combination schematic diagram of the present utility model.

Fig. 5: the continuous illustrative view one of the utility model feeding mechanism and feed mechanism.

Fig. 6: the continuous illustrative view two of the utility model feeding mechanism and feed mechanism.

Fig. 7: the illustrative view of the retracting of the utility model glued membrane and cutting mechanism.

Fig. 8: the utility model glued membrane furls, cuts and combine schematic diagram with the solid of film coating mechanism.

Fig. 9: the utility model glued membrane furls, cuts the continuous illustrative view one with film coating mechanism.

Figure 10: the utility model glued membrane furls, cuts the continuous illustrative view two with film coating mechanism.

Figure 11: the utility model glued membrane furls, cuts the continuous illustrative view three with film coating mechanism.

Figure 12: the utility model glued membrane furls, cuts the continuous illustrative view four with film coating mechanism.

Figure 13: the utility model glued membrane furls, cuts the continuous illustrative view five with film coating mechanism.

Figure 14: the utility model glued membrane furls, cuts the continuous illustrative view six with film coating mechanism.

The B portion generalized section of Figure 15: Figure 10.

The D portion generalized section of Figure 16: Figure 11.

The F portion generalized section of Figure 17: Figure 13.

Figure 18: the solid of the utility model rotary column mechanism and mantle mechanism combines schematic diagram.

Figure 19: the continuous illustrative view one of the utility model rotary column mechanism.

Figure 20: the continuous illustrative view two of the utility model rotary column mechanism.

Figure 21: the continuous illustrative view three of the utility model rotary column mechanism.

Figure 22: the continuous illustrative view one of the utility model mantle mechanism.

Figure 23: the continuous illustrative view two of the utility model mantle mechanism.

Figure 24: the continuous illustrative view three of the utility model mantle mechanism.

Figure 25: the continuous illustrative view four of the utility model mantle mechanism.

Figure 26: the continuous illustrative view one of the utility model detent mechanism.

Figure 27: the continuous illustrative view two of the utility model detent mechanism.

Figure 28: the continuous illustrative view one of the utility model rotating mechanism.

Figure 29: the continuous illustrative view two of the utility model rotating mechanism.

Figure 30: the continuous illustrative view three of the utility model rotating mechanism.

Figure 31: the continuous illustrative view four of the utility model rotating mechanism.

The M portion generalized section of Figure 32: Figure 29.

Figure 33: the utility model completes the discharging action schematic diagram of coating.

[nomenclature]

1 board

2 workpiece

2 ' unit one

2 〞 second workpiece

3 glued membranes

10 feeding mechanisms

11 put hopper

12 runners

13 grooves

14 adjustable slant boards

15 fixing swash plates

16 gates

17 casting dies

20 feed mechanisms

21 load-transfer devices

22 put material seat

23 storage tanks

30 glued membrane retracting and cutting mechanisms

31 rolling wheels

32 idle pulleys

Propelling sheave on 33

34 times propelling sheaves

35 platforms

36 actuators

37 rolled-up stocks

38 cutting knife

40 glued membrane film coating mechanisms

41 horizontal slide rails

42 cross slides

43 first suckers

44 moulds

441 die cavitys

50 rotary column mechanisms

51 rotary columns

52 mantle bars

521 are inserted in end

522 profile grooves

53 location terrace edges

54 glued membrane positioning sets

55 detecting devices

60 mantle mechanisms

61 blocks

62 portable bars

63 material lift parts

64 is straight to slide rail

65 is straight to slide

66 cover membrane

661 semicircle cambered surfaces

67 second suckers

70 detent mechanisms

71 locationss

80 rotating mechanisms

81 elevating brackets

82 belt pulleys

83 idle pulleys

84 drive belts

85 axostylus axostyles

86 rollers

90 thermal contraction mechanisms

91 temperature boosters

92 discharging swash plates

B1 infradred sensor

B2 infradred sensor

B3 infradred sensor

S elastic element

A1 first air cylinder

A2 second air cylinder

A3 the 3rd air cylinder

A4 the 4th air cylinder

A5 the 5th air cylinder

A6 the 6th air cylinder

A7 the 7th air cylinder

A8 the 8th air cylinder

A9 the 9th air cylinder

A10 the tenth air cylinder

A11 the 11 air cylinder

A12 the 12 air cylinder

A13 the 13 air cylinder

A14 the 14 air cylinder

M1 first motor

M2 second motor

M3 the 3rd motor

M4 the 4th motor

M5 the 5th motor

L1 first support body

L2 second support body

L3 triframe body

L4 the 4th support body

L5 the 5th support body

Detailed description of the invention

Being easy to the function and benefit of understanding structure content of the present utility model in depth and can reach for making those skilled in the art, hereby enumerating a specific embodiment, and coordinate accompanying drawing to introduce in detail to be described as follows:

A kind of covering machine, please consult shown in Fig. 2 and Fig. 3: master of the present utility model looks, rear perspective combination schematic diagram.Shown in Fig. 4: top plan view combination schematic diagram of the present utility model.

The utility model covering machine mainly comprises: feeding mechanism 10, feed mechanism 20, glued membrane retracting and detent mechanism 70, rotating mechanism 80, thermal contraction mechanism 90 of mantle mechanism 60, of cutting mechanism 30, glued membrane film coating mechanism 40, rotary column mechanism 50; Wherein:

This feeding mechanism 10 is provided with one in board 1 side and puts hopper 11, this width putting hopper 11 is just suitable with the length of workpiece 2, this workpiece 2 can be Lipstick holder, the similar tubular products such as eyeliner, this inside Stackable putting hopper 11 holds multiple workpiece 2, the front of this feeding mechanism 10 can use transparent material, staff can be known see the workpiece 2 putting hopper 11 inside whether stacked arrangement is appropriate, this exit of putting bottom hopper 11 is provided with a runner 12, the surrounding face of this runner 12 is provided with the groove 13 of multiple semicircular in shape, accommodation one workpiece 2 can be supplied in this each groove 13, this is put the opposite side place pivot joint being connected runner 12 bottom hopper 11 and is provided with an adjustable slant board 14, the middle of this adjustable slant board 14 is provided with one first air cylinder A1, adjustable slant board 14 is driven to change angle up and down by this first air cylinder A1, thus by the workpiece 2 put in hopper 11 towards in the direction set of runner 12, the center of this runner 12 is provided with one first motor M1, runner 12 is driven to rotate by this first motor M1, by the workpiece 2 one in groove 13, next rotates away in order thus, the front place of this runner 12 is provided with a fixing swash plate 15, can for the multiple workpiece 2 of arrangement on this fixing swash plate 15, the top place of this fixing swash plate 15 lower is provided with one first support body L1, this first support body L1 is provided with one second air cylinder A2 and the 3rd air cylinder A3 corresponding to the unit one 2 ' and second workpiece 2 〞 position being arranged in fixing swash plate 15 lowest part, gate 16 and a casting die 17 is provided with below this second air cylinder A2 and 1 the 3rd air cylinder A3, this fixing swash plate 15 side corresponds to unit one 2 ' and second workpiece 2 〞 position is provided with two infradred sensor B1, B2, by this two infradred sensor B1, B2 responds to unit one 2 ' and whether second workpiece 2 〞 arrives location, and notify that the second air cylinder A2 and the 3rd air cylinder A3 mono-is on next according to the result of induction, on one, coordination once, first casting die 17 is driven to push down second workpiece 2 〞 downwards by the 3rd air cylinder A3, gate 16 is upwards opened again by the second air cylinder A2, unit one 2 ' is allowed freely to drop down onto feed mechanism 20 (as shown in Figure 5), again by the downward closed shutter 16 of the second air cylinder A2, casting die 17 is upwards driven to decontrol second workpiece 2 〞 by the 3rd air cylinder A3 again, allow multiple workpiece 2 automatically can move forward a position (as shown in Figure 6) along with the gradient of fixing swash plate 15,

This feed mechanism 20 is provided with a load-transfer device 21, this load-transfer device 21 outer is arranged with multiplely puts material seat 22, this each put material seat 22 and be provided with a V-shaped storage tank 23, this storage tank 23 can supply an accommodating workpiece 2, this load-transfer device 21 is provided with one second motor M2, fixed by this second motor M2 and allly on rotational conveyance band 21 put material seat 22, allow and put material seat 22 workpiece 2 all on storage tank 23 and can sequentially to fix forward displacement;

The rear position place that the retracting of this glued membrane corresponds to feed mechanism 10 with cutting mechanism 30 at board 1 is provided with one second support body L2, this furling mechanism place above the second support body L2 is provided with a rolling wheel 31, this rolling wheel 31 can be the flat banded glued membrane 3 of hollow for retracting one volume, the below of this rolling wheel 31 is provided with multiple idle pulley 32 and two and presents, the propelling sheave 33 that lower configured in parallel and opposite sense rotate, 34, propelling sheave 33 above this is provided with one the 3rd motor M3, upper and lower two propelling sheaves 33 are driven by the 3rd motor M3, glued membrane 3 is sent into cutting mechanism (as shown in Figure 7) by 34, this cutting mechanism is corresponding to upper and lower two propelling sheaves 33, 34 places are provided with a platform 35, the top place of this platform 35 is provided with an actuator 36, a left side below this actuator 36, right both sides are provided with two rolled-up stocks 37, two elastic element S are provided with between these actuator 36 and two rolled-up stocks 37, this two rolled-up stock 37 is allowed to have elasticity when suppressing glued membrane 3, centre below this actuator 36 is provided with a cutting knife 38, the centre of this platform 35 corresponds to cutting knife 38 place and is provided with a gap 351, the top of this actuator 36 is provided with one the 4th air cylinder A4, when glued membrane 3 is by about two propelling sheaves 33, during 34 feeding platform 35, namely a left side for actuator 36 is driven by the 4th air cylinder A4, right two rolled-up stocks 37 first push down glued membrane 3, glued membrane 3 is cut to the length (as shown in Figure 9) suitable with workpiece 2 again by the cutting knife 38 of centre, supply the glued membrane 3 needed for workpiece 2 mantle thus,

Please consult shown in Fig. 8: the solid combination schematic diagram of the utility model glued membrane film coating mechanism.This glued membrane film coating mechanism 40 corresponds to the retracting of above-mentioned glued membrane at board 1 and is provided with a triframe body L3 with platform 35 place of cutting mechanism 30, the top of this triframe body L3 is provided with horizontal slide rail 41 and a cross slide 42, this cross slide 42 is provided with one the 5th air cylinder A5, cross slide 42 left and right sidesing shifting is driven by the 5th air cylinder A5, this cross slide 42 corresponds on the glued membrane 3 of platform 35, lower place is provided with 2 first suckers 43, this 2 first sucker 43 driven by one the 6th air cylinder A6, first hold gum cover 3 (as Figure 10 by 2 first suckers 43 towards centre, shown in Figure 15), again towards pulling open the opening of gum cover 3 up and down (as Figure 11, shown in Figure 16), cross slide 42 is moved to the left again by the 5th air cylinder A5, thus gum cover 3 is inserted in mantle bar 52 (as Figure 12, Figure 13, shown in Figure 14), the glued membrane 3 that this cross slide 42 corresponds to platform 35 is left, right place is provided with two molds 44, this two molds 44 is provided with the die cavity 441 of two semicirculars in shape, this two molds 44 is driven by one the 7th air cylinder A7 and is closure state and open configuration, when this gum cover 3 is inserted in mantle bar 52, this two molds 44 is closed (as Figure 13 immediately, shown in Figure 17), two die cavitys 441 are utilized to be coated in mantle bar 52 by gum cover 3,

Please consult shown in Figure 18: the solid of the utility model rotary column mechanism and mantle mechanism combines schematic diagram.This rotary column mechanism 50 is provided with rotary column 51 at the rear position place at load-transfer device 21 first job station, the below of this rotary column 51 is provided with one the 4th motor M4, by the 4th motor M4 with anticlockwise direction fix rotate rotary column 51, this rotary column 51 is allowed all to do the rotation (as shown in figure 19) of 90 degree each time, this rotary column 51 three circumferentially, twelve-hour, nine o'clock and six o'clock direction be provided with four outwardly directed mantle bars 52, this mantle bar 52 is provided with one and is inserted in end 521 in cone-shaped, this level place of being inserted in end 521 is provided with a profile groove 522, a location terrace edge 53 is provided with in the middle of this mantle bar 52, as the use of location glued membrane 3, this rotary column 51 corresponds to glued membrane film coating mechanism 40 at the cover tringle 52 in three direction, by this glued membrane film coating mechanism 40 glued membrane 3 is coated in this cover tringle 52, the twelve-hour direction place that this board 1 is corresponding to rotary column 51 is provided with an infradred sensor B3, respond to mantle bar 52 by this infradred sensor B3 and whether arrive location, and notify the 4th motor M4 fix rotate rotary column 51, the peripheral place, nine o'clock direction that this board 1 is corresponding to rotary column 51 is provided with one the 4th support body L4, the axle center place corresponding to mantle bar 52 above 4th support body L4 is provided with a glued membrane positioning set 54, this glued membrane positioning set 54 is provided with one the 8th air cylinder A8, glued membrane positioning set 54 left and right sidesing shifting is driven by the 8th air cylinder A8, by glued membrane 3 ejection to location terrace edge 53 place (as shown in figure 20) of mantle bar 52, this rotary column 51 corresponds to mantle mechanism 60 at the cover tringle 52 in six o'clock direction, by this mantle mechanism 60 by glued membrane 3 from cover tringle 52 migration be set in workpiece 2, this rotary column 51 four direction be also provided with detecting device 55, whether also sheathed glued membrane 3 (as shown in figure 21) is detected in the profile groove 522 of mantle bar 52 by this detecting device 55, if detect and be also arranged with glued membrane 3, machine decommissions immediately, by personnel, the glued membrane 3 in mantle bar 52 is got rid of,

The anterior position place that this mantle mechanism 60 is corresponding to load-transfer device 21 first job station is provided with a block 61, the upper limb place that this block 61 corresponds to workpiece 2 head end is provided with a portable bar 62, this portable bar 62 is provided with one the 9th air cylinder A9, portable bar 62 is driven to be shifted by before and after the 9th air cylinder A9, the rear position place that this mantle mechanism 60 is corresponding to load-transfer device 21 first job station is provided with a material lift part 63, the top of this material lift part 63 is provided with the recessed edge 631 of a semicircular in shape, the internal diameter of this hemicycle emargination 631 is suitable with the external diameter of workpiece 2, the below of this material lift part 63 is provided with 1 the tenth air cylinder A10, material lift part about 63 is driven to be shifted by the tenth air cylinder A10, the top position place that this mantle mechanism 60 is corresponding to load-transfer device 21 first job station is provided with one the 5th support body L5, 5th support body L5 is provided with always to slide rail 64 and directly to slide 65, this is directly provided with 1 the 11 air cylinder A11 to the front of slide 65, straight displacement before and after slide 65 is driven by the 11 air cylinder A11, this is directly provided with 1 the 12 air cylinder A12 to the below of slide 65, 12 air cylinder A12 is provided with a set of membrane 66 and 2 second suckers 67, cover membrane 66 and 2 second suckers about 67 are driven to be shifted by the 12 air cylinder A12, the below of this cover membrane 66 is provided with a semicircular in shape cambered surface 661, the internal diameter of this semicircle cambered surface 661 is suitable with the external diameter of workpiece 2, when this load-transfer device 21 will put material seat 22 fix be displaced to 60 place of mantle mechanism time, first drive portable bar 62 backward by the 9th air cylinder A9, by workpiece 2 ejection to mantle bar 52 place (as Figure 22, shown in Figure 23), material lift part 63 is upwards driven again by the tenth air cylinder A10, the tail end of workpiece 2 is slightly upwards lifted, the tail end of workpiece 2 is allowed to tilt an angle, glued membrane 3 is facilitated to be inserted in, cover membrane 66 and 2 second suckers 67 are driven to be shifted downwards by the 12 air cylinder A12 again, the semicircle cambered surface 661 of this cover membrane 66 and 2 second suckers 67 are allowed to fit in glued membrane 3 surface (as shown in figure 24) of mantle bar 52, directly be shifted to slide 65 by the 11 air cylinder A11 brought forward again, utilize the semicircle cambered surface 661 of this cover membrane 66 and 2 second suckers 67 by the glued membrane 3 of mantle bar 52 forward slippage be set in workpiece 2 outside (as shown in figure 25), utilize block 61 to be resisted against the end of workpiece 2 head simultaneously,

This detent mechanism 70 is provided with 2 the 13 air cylinder A13 in the front and rear sides position of load-transfer device 21 second workstations, the two ends end to end that this 2 the 13 location air cylinder A13 corresponds to workpiece 2 are provided with two locationss 71, when load-transfer device 21 will put material seat 22 fix be displaced to two locations 71 places time (as shown in figure 26), namely drive two locationss 71 that sheathed glued membrane 3 is pushed (as shown in figure 27) in workpiece 2 by this 2 the 13 location air cylinder A13;

This rotating mechanism 80 is before load-transfer device 21 the 3rd workstation, position, rear both sides is provided with two elevating brackets 81, this two elevating bracket 81 corresponds to two two workpiece 2 putting material seat 22 and is respectively equipped with all around totally eight belt pulleys 82 in place end to end, these eight belt pulleys 82 are by multiple idle pulley 83, two drive belts 84 and 2 the 5th motor M5 driven, these eight belt pulleys 82 are provided with eight axostylus axostyles 85 and eight rollers 86, these eight rollers 86 are in equidirectional rotation, the below of this two elevating bracket 81 is provided with 2 the 14 air cylinder A14, when load-transfer device 21 will put material seat 22 fix be displaced to rotating mechanism 80 place time, first upwards drive eight rollers 86 of two elevating brackets 81 that two workpiece 2 are upwards lifted away from two by this 2 the 14 air cylinder A14 and put material seat 22 (as shown in figure 28), and do clws respectively and rotate forward (as shown in figure 29), two elevating brackets 81 are driven downwards again by this 2 the 14 lifting air cylinder pressure A14, allowing this two workpiece 2 come back to two puts in two storage tanks 23 of groove seat 22 (as shown in figure 30), and repeat above-mentioned action (as shown in figure 31),

This thermal contraction mechanism 90 corresponds to rotating mechanism 80 position and is provided with two temperature boosters 91 above load-transfer device 21 the 3rd workstation, when load-transfer device 21 will put material seat 22 fix be displaced to two temperature booster 91 places time, first by this rotating mechanism 80 above-mentioned, two workpiece 2 are upwards lifted away from two and put material seat 22, and do clws and rotate forward, by this two temperature booster 91, thermal contraction (as shown in figure 32) produces to two glued membrane 3 homogeneous heatings again, allow two glued membranes 3 can be coated on two workpiece 2 surfaces, the last discharging swash plate 92 workpiece 2 completing mantle operation being delivered to board 1 opposite side by load-transfer device 21 again discharges collection (as shown in figure 33) one by one.

Comprehensive above-mentioned institute is old, the utility model is to provide a kind of covering machine, to manufacture and repeatedly after operational testing through the present inventor is actual, confirm the function and benefit that really can reach desired by the utility model, simultaneously again in the streets there is no the first invention of information at present, there is the value in industry, really met the establishment main idea of utility model patent practicality and progressive, whence, according to the regulation of patent law, proposes the application of utility model patent to an ancient unit of weight office.

Claims (5)

1. a covering machine, comprising: a feeding mechanism, a feed mechanism, a glued membrane furling mechanism, a glued membrane cut and film coating mechanism, a rotary column mechanism, a mantle mechanism, a detent mechanism, a rotating mechanism, a thermal contraction mechanism; Wherein:

This feeding mechanism is provided with one in board side and puts hopper, this width putting hopper is just suitable with the length of workpiece, this inside Stackable putting hopper holds multiple workpiece, this exit of putting bottom hopper is provided with a runner, the surrounding face of this runner is provided with the groove of multiple semicircular in shape, as the use holding workpiece, this is put the opposite side place pivot joint being connected runner bottom hopper and is provided with an adjustable slant board, the middle of this adjustable slant board is provided with one first air cylinder, this adjustable slant board is driven to change angle up and down by this first air cylinder, thus by the workpiece put in hopper towards in the direction set of runner, the center of this runner is provided with one first motor, rotated by this first motor driving runner, by the workpiece one in groove, next rotates away in order thus, the front place of this runner is provided with a fixing swash plate, can for the multiple workpiece of arrangement on this fixing swash plate, the top place of this fixing swash plate lower is provided with one first support body, this first support body is provided with one second and 1 the 3rd air cylinder corresponding to first of being arranged in fixing swash plate lowest part with second location of workpiece place, this second and the 3rd is provided with a gate and a casting die below air cylinder, this fixing swash plate side corresponds to first and is provided with two infradred sensors with second location of workpiece place, respond to workpiece by this two infradred sensor and whether arrive location, and notify second and the 3rd air cylinder one on next according to the result of induction, on one, coordination once, first casting die is driven to push down second workpiece downwards by the 3rd air cylinder, upwards gate is opened again by the second air cylinder, unit one is allowed freely to drop down onto feed mechanism, again by the downward closed shutter of the second air cylinder, casting die is upwards driven to decontrol second workpiece by the 3rd air cylinder again, allow multiple workpiece automatically can move forward a position along with the gradient of fixing swash plate,

This feed mechanism is provided with a load-transfer device, this load-transfer device outer is arranged with multiplely puts material seat, each this put material seat and be provided with a V-shaped storage tank, this storage tank can supply an accommodating workpiece, this load-transfer device is provided with one second motor, fixed by this second motor and allly on rotational conveyance band put material seat, allow and put material seat workpiece all on storage tank and can sequentially to fix forward displacement;

The rear position place that the retracting of this glued membrane and cutting mechanism correspond to feed mechanism at board is provided with one second support body, this furling mechanism place above the second support body is provided with a rolling wheel, this rolling wheel can be the flat banded glued membrane of hollow for retracting one volume, the below of this rolling wheel is provided with multiple idle pulley and two and presents, the propelling sheave that lower configured in parallel and opposite sense rotate, propelling sheave above this is provided with one the 3rd motor, by the 3rd motor driving upper and lower two propelling sheaves, glued membrane is sent into cutting mechanism, this cutting mechanism is being provided with a platform corresponding to upper and lower two propelling sheave places, the top place of this platform is provided with an actuator, a left side below this actuator, right both sides are provided with two rolled-up stocks, two elastic elements are provided with between this actuator and two rolled-up stocks, this two rolled-up stock is allowed to have elasticity when suppressing glued membrane, centre below this actuator is provided with a cutting knife, the centre of this platform corresponds to cutting knife place and is provided with a gap, the top of this actuator is provided with one the 4th air cylinder, when glued membrane sends into platform by upper and lower two propelling sheaves, namely a left side for actuator is driven by the 4th air cylinder, right two rolled-up stocks first push down glued membrane, glued membrane is cut to the length suitable with workpiece again by the cutting knife of centre, supply the glued membrane needed for workpiece mantle thus,

This glued membrane film coating mechanism corresponds to the retracting of above-mentioned glued membrane at board and is provided with a triframe body with the platform place of cutting mechanism, the top of this triframe body is provided with a horizontal slide rail and a cross slide, this cross slide is provided with one the 5th air cylinder, cross slide left and right sidesing shifting is driven by the 5th air cylinder, this cross slide corresponds on the glued membrane of platform, lower place is provided with 2 first suckers, this 2 first sucker driven by one the 6th air cylinder, first hold gum cover by 2 first suckers towards centre, again towards the opening pulling open gum cover up and down, cross slide is moved to the left again by the 5th air cylinder, thus gum cover is inserted in mantle bar, the glued membrane that this cross slide corresponds to platform is left, right place is provided with two molds, this two molds is provided with the die cavity of two semicirculars in shape, this two molds is driven by one the 7th air cylinder and is closure state and open configuration, when this gum cover is inserted in mantle bar, this two molds closes immediately, two die cavitys are utilized to be coated on by gum cover in mantle bar,

This rotary column mechanism is provided with rotary column at the rear position place at load-transfer device first job station, the below of this rotary column is provided with one the 4th motor, to be fixed rotation rotary column with anticlockwise direction by the 4th motor, this rotary column is allowed all to do the rotation of 90 degree each time, this rotary column three circumferentially, twelve-hour, nine o'clock and six o'clock direction be provided with four outwardly directed mantle bars, this mantle bar is provided with one and is inserted in end in cone-shaped, a location terrace edge is provided with in the middle of this mantle bar, as the use of location glued membrane, the cover die bar of this rotary column in three direction corresponds to glued membrane film coating mechanism, by this glued membrane film coating mechanism glued membrane is coated in this cover tringle, the twelve-hour direction place that this board is corresponding to rotary column is provided with an infradred sensor, respond to mantle bar by this infradred sensor and whether arrive location, and notify that the 4th motor fixes rotation rotary column, the peripheral place, nine o'clock direction that this board is corresponding to rotary column is provided with one the 4th support body, the axle center place corresponding to mantle bar above 4th support body is provided with a glued membrane positioning set, this glued membrane positioning set is provided with one the 8th air cylinder, glued membrane positioning set left and right sidesing shifting is driven by the 8th air cylinder, by glued membrane ejection to the terrace edge place, location of mantle bar, this rotary column corresponds to mantle mechanism at the cover die bar in six o'clock direction, by this mantle mechanism by glued membrane from cover tringle migration be set in workpiece,

The anterior position place that this mantle mechanism is corresponding to load-transfer device first job station is provided with a block, the upper limb place that this block corresponds to workpiece head end surface is provided with a portable bar, this portable bar is provided with one the 9th air cylinder, portable bar is driven to be shifted by before and after the 9th air cylinder, the rear position place that this mantle mechanism is corresponding to load-transfer device first job station is provided with a material lift part, the top of this material lift part is provided with the recessed edge of a semicircular in shape, the internal diameter of this hemicycle emargination is suitable with the external diameter of workpiece, the below of this material lift part is provided with 1 the tenth air cylinder, material lift part is driven to be shifted up and down by the tenth air cylinder, the top position place that this mantle mechanism is corresponding to load-transfer device first job station is provided with one the 5th support body, 5th support body is provided with always to slide rail and directly to slide, this is directly provided with 1 the 11 air cylinder to the front of slide, driven by the 11 air cylinder and be directly shifted before and after slide, this is directly provided with 1 the 12 air cylinder to the below of slide, 12 air cylinder is provided with a set of membrane and 2 second suckers, cover membrane and 2 second suckers are driven to be shifted up and down by the 12 air cylinder, the below of this cover membrane is provided with a semicircular in shape cambered surface, the internal diameter of this semicircle cambered surface is suitable with the external diameter of workpiece, when this load-transfer device will put material seat fix be displaced to mantle mechanism place time, first drive portable bar backward by the 9th air cylinder, by workpiece ejection to mantle bar place, material lift part is upwards driven again by the tenth air cylinder, the tail end of workpiece is slightly upwards lifted, the tail end of workpiece is allowed to tilt an angle, glued membrane is facilitated to be inserted in, driven backward by the 11 air cylinder again and be directly shifted to slide, cover membrane and 2 second suckers are driven to be shifted downwards by the 12 air cylinder again, the semicircle cambered surface of this cover membrane and 2 second suckers are allowed to fit in the film surface of mantle bar, directly be shifted to slide by the 11 air cylinder brought forward again, utilize the semicircle cambered surface of this cover membrane and 2 second suckers by the glued membrane of mantle bar forward slippage be set in outer workpiece, utilize block to be resisted against the end of workpiece head simultaneously,

This detent mechanism is provided with 2 the 13 air cylinders in the front and rear sides position of load-transfer device second workstation, the two ends end to end that this 2 the 13 location air cylinder corresponds to workpiece are provided with two locationss, when load-transfer device will put material seat fix be displaced to two locations places time, namely by this 2 the 13 location air cylinder drive two locationss to push in workpiece by sheathed glued membrane;

This rotating mechanism is before load-transfer device the 3rd workstation, position, rear both sides is provided with two elevating brackets, this two elevating bracket is located to be provided with multiple belt pulley respectively corresponding to the workpiece putting material seat end to end, this belt pulley is by multiple idle pulley, two drive belts and 2 the 5th motors driven, the plurality of belt pulley is provided with multiple axostylus axostyle and roller, the plurality of roller is equidirectional rotation, the below of this two elevating bracket is provided with 2 the 14 air cylinders, when load-transfer device will put material seat fix be displaced to rotating mechanism place time, first upwards drive the plural roller of two elevating brackets to be upwards lifted away from by workpiece by this 2 the 14 air cylinder and put material seat, and do clws and rotate forward, two elevating brackets are driven downwards again by this 2 the 14 lifting air cylinder pressure, this workpiece is allowed to come back in the storage tank putting groove seat,

This thermal contraction mechanism corresponds to rotating mechanism position and is provided with temperature booster above load-transfer device the 3rd workstation, when load-transfer device will put material seat fix be displaced to temperature booster place time, first by this rotating mechanism above-mentioned workpiece is upwards lifted away from and puts material seat, and do clws and rotate forward, by this temperature booster, thermal contraction is produced to glued membrane homogeneous heating again, allow glued membrane be coated on surface of the work, the discharging the swash plate finally workpiece completing mantle operation being delivered to board opposite side by load-transfer device again discharges collection one by one.

2. covering machine as claimed in claim 1, is characterized in that: this workpiece is tubular products.

3. covering machine as claimed in claim 2, is characterized in that: this workpiece is Lipstick holder or eyeliner.

4. covering machine as claimed in claim 1, is characterized in that: the hopper front of putting of this feeding mechanism uses transparent material.

5. covering machine as claimed in claim 1, it is characterized in that: this rotary column mechanism is provided with a profile groove at end level of the being inserted in place of mantle bar, this rotary column whether also sheathed glued membrane in the profile groove being provided with a detection mantle bar between glued membrane film coating mechanism and mantle mechanism, if detect and be also arranged with glued membrane, then this covering machine decommissions immediately, to get rid of the detecting device of the glued membrane in mantle bar.