CN203255381U - Automatic material distributing device of bubble cap machine - Google Patents

Abstract

The utility model discloses an automatic material distributing device of a bubble cap machine. The automatic material distributing device of the bubble cap machine comprises a feeder box body, wherein the upper portion of the feeder box body is connected with a feed hopper, the feeder box body is connected with a main control panel, the main control panel is connected with at least one motor, the motor is connected with at least one set of material distributing brushes, the feed hopper is connected with a supporting stand column, and the feeder box body is connected with a cylinder. The automatic material distributing device of the bubble cap machine is convenient and fast to use, and capable of gradually distributing materials of a bubble cap in sequence, improving material distributing probability, meeting requirements of high-speed equipment and meeting the automation standard better due to the fact that cylinder control is adopted to replace manual starting.

Description

Bubble-cap machine automatic distributing device

Technical field

The utility model relates to a kind of distribution device, particularly a kind of automatic distributing device for the bubble-cap machine.

Background technology

Blister packaging machine is to form bubble-cap with transparent plastic film or thin slice, with heat sealing, the method such as bonding with the machine of product involution between bubble-cap and base plate.At present, in the packing of Tablet and Capsula, shaping membrane is through the heating arrangement thermoplastic, use negative pressure of vacuum sucking-off bubble-cap on forming die, device for filling is filled into packed article in bubble-cap, then pass through pulley type heat sealing device, single face is scribbled the coverlay involution of adhesives under suitable temperature and pressure on band blister material surface, and packed article is sealed in bubble-cap.But be that the involution box house into the bubble-cap machine is dropped in the product free skating mostly in the existing installation use procedure, then manually packaged material arranged and make it to fall in corresponding bubble-cap, the manual operation cost is higher.

Application number is the small-sized feeder that the U. S. application of US20080236100 discloses a kind of blister packaging machine, it comprises filling tube and filling tube carrier, and with base plate with bar shaped belt conveyor juxtaposition and form the outlet that a series of through holes are aimed at the bar shaped belt conveyor, be the filling plumber block one jointless structure of monolithic according to filling tube of the present utility model and filling tube carrier, and corresponding at least hole of each filling tube, these holes are used for sequence, separation of material, and this jointless structure has advantages of long service life, do not need special part sealing.But technique scheme needs human assistance operation, thereby and do over again along with workman's fatigue strength increase may cause certain influence to cause to performance accuracy, quality and the speed of impact packing, and again increase workman's labour intensity.

Summary of the invention

The utility model is namely improved for defects, a kind of bubble-cap machine automatic distributing device is provided, it comprises the feeder casing, this feeder casing top connection feeder hopper, described feeder casing is connected with master control panel, this master control panel is connected with at least one motor, and this motor is connected with at least one group of cloth brush, and described feeder hopper is connected with support post.

Preferably, the feeder casing is connected with cylinder.

Preferably, the bench section of described feeder casing is rectangle in above-mentioned arbitrary scheme.

Preferably, the elevation profile of described feeder casing is rectangle in above-mentioned arbitrary scheme.

Preferably, described feeder casing comprises top cover and sidewall in above-mentioned arbitrary scheme.

Preferably, the top cover of described feeder casing is connected with sidewall in above-mentioned arbitrary scheme.

Preferably, the surrounding of described top cover all is connected with sidewall in above-mentioned arbitrary scheme.

Preferably, the angle between plane, described top cover place and each plane, sidewall place is 90 ° in above-mentioned arbitrary scheme.

Preferably, the top cover of described feeder casing adopts transparent material in above-mentioned arbitrary scheme.

Preferably, the material of the top cover of described feeder casing is organism glass in above-mentioned arbitrary scheme.

Preferably, the sidewall of described feeder casing adopts metallic material in above-mentioned arbitrary scheme.

Preferably, the sidewall of described feeder casing adopts corrosion-resistant steel to make in above-mentioned arbitrary scheme.

Preferably, described cloth brush comprises that cloth mixes brush and cloth round brush in above-mentioned arbitrary scheme.

Preferably, the quantity of described cloth brush is three groups in above-mentioned arbitrary scheme.

Preferably, described cloth is mixed the section of brushing and is equipped with and initiatively mixes the brush axle in above-mentioned arbitrary scheme.

In above-mentioned arbitrary scheme preferably, described cloth mix the brush by described active mix the brush axle be connected with motor.

Preferably, described cloth is mixed brush and is comprised rotating disc and brush body in above-mentioned arbitrary scheme.

Preferably, described rotating disc bottom is connected with brush body in above-mentioned arbitrary scheme, and described rotating disc top is connected with propulsion source, and described propulsion source comprises motor.

Preferably, described rotating disc top is connected with motor output shaft and rotates under the drive of motor shaft in above-mentioned arbitrary scheme, and then the brush body that drives its underpart rotates.

Preferably, the quantity of described brush body is at least one in above-mentioned arbitrary scheme.

Preferably, the quantity of described brush body is three in above-mentioned arbitrary scheme.

Preferably, described brush body is arranged on below rotating disc in above-mentioned arbitrary scheme.

Preferably, described brush body evenly distributes and is arranged on rotating disc lower surface place in above-mentioned arbitrary scheme.

Preferably, described brush body is connected with bolt with the lower surface of rotating disc in above-mentioned arbitrary scheme.

Preferably, described brush body comprises brush holder and at least one blade in above-mentioned arbitrary scheme.

Preferably, described brush holder and described blade are bolted in above-mentioned arbitrary scheme.

Preferably, described brush holder comprises brush holder axle, connector in above-mentioned arbitrary scheme.

Preferably, described brush holder axle is connected with connector in above-mentioned arbitrary scheme, this connector bottom connection blade.

Preferably, described brush body comprises three blades in above-mentioned arbitrary scheme, and described connector comprises circular portion and are connected a connection pawl that stretches out circular portion, and described connection pawl is connected with blade by bolt.

Preferably, the geometric configuration of described blade is triangle in above-mentioned arbitrary scheme.

Preferably, the material of described blade is silica gel in above-mentioned arbitrary scheme.

Preferably, the central axis of described brush holder axle is parallel with the central axis of described rotating disc in above-mentioned arbitrary scheme.

Preferably, the angle of the plane at described connector place and the central axis of brush holder axle is 90 ° in above-mentioned arbitrary scheme.

Preferably, described cloth round brush comprises roller brush shaft and integral rolling brush in above-mentioned arbitrary scheme.

Preferably, integral rolling brush is housed outside described roller brush shaft in above-mentioned arbitrary scheme, this integral rolling brush is used for promoting the material body and moves.

Preferably, the material of described integral rolling brush is nylon in above-mentioned arbitrary scheme.

Preferably, described cloth round brush is packed on the sidewall of described feeder casing by its inner roller brush shaft in above-mentioned arbitrary scheme.

Preferably, the roller brush shaft two ends of described cloth round brush are connected with reaction plate in above-mentioned arbitrary scheme, and this reaction plate is connected by the sidewall of screw with the feeder casing.

Preferably, described cloth brush comprises that the 1# cloth is mixed brush and 1# cloth round brush, 2# cloth are mixed brush and 2# cloth round brush, 3# cloth are mixed brush and 3# cloth round brush in above-mentioned arbitrary scheme.

Preferably, described 1# cloth is mixed brush and is mixed by active the output shaft that the brush axle is connected to the motor I in above-mentioned arbitrary scheme.

Preferably, described motor I is positioned at the top of feeder top cover of box in above-mentioned arbitrary scheme.

Preferably, described motor I is DC machine in above-mentioned arbitrary scheme.

Preferably, the model of described motor I is Z5D120-220Gu-5GU40KB in above-mentioned arbitrary scheme.

Preferably, described 1# cloth is mixed brush and is connected with master control panel by longitudinal axis in above-mentioned arbitrary scheme.

Preferably, the motor cover I is equipped with on described longitudinal axis top in above-mentioned arbitrary scheme.

Preferably, the material of described longitudinal axis is the 45# steel in above-mentioned arbitrary scheme.

Preferably, the material of described motor cover I is metallic material in above-mentioned arbitrary scheme.

Preferably, the material of described motor cover I is 1Cr18Ni9 in above-mentioned arbitrary scheme.

Preferably, the material of described motor cover I is corrosion-resistant steel in above-mentioned arbitrary scheme.

Preferably, described motor cover I is cuboid in above-mentioned arbitrary scheme.

Preferably, the active that described 2# cloth is mixed the section of brushing is mixed active that brush axle and described 3# cloth mix the section of brushing and is mixed between the brush axle lateral shaft is housed in above-mentioned arbitrary scheme.

Preferably, described lateral shaft is packed on permanent seat in above-mentioned arbitrary scheme.

Preferably, described permanent seat is contained in the top, the top cover outside of feeder casing in above-mentioned arbitrary scheme.

Preferably, the material of described lateral shaft is the 45# steel in above-mentioned arbitrary scheme.

Preferably, the material of described permanent seat is LY12 in above-mentioned arbitrary scheme.

Preferably, described material LY12 represents high strength duralumin in above-mentioned arbitrary scheme.

In above-mentioned arbitrary scheme preferably, described 3# cloth mix the brush by the active on its top mix the brush axle be connected with the motor II.

In above-mentioned arbitrary scheme preferably, described 3# cloth mix the brush by the active on its top mix the brush axle be connected with the output shaft of motor II.

Preferably, described motor II is DC machine in above-mentioned arbitrary scheme.

Preferably, the model of described motor II is Z5D120-220Gu-5GU40KB in above-mentioned arbitrary scheme.

Preferably, be covered with the motor cover II on described lateral shaft and described permanent seat in above-mentioned arbitrary scheme.

Preferably, the material of described motor cover II is metallic material in above-mentioned arbitrary scheme.

Preferably, the material of described motor cover II is 1Cr18Ni9 in above-mentioned arbitrary scheme.

Preferably, the material of described motor cover II is corrosion-resistant steel in above-mentioned arbitrary scheme.

Preferably, described motor cover II is positioned at the top of described feeder top cover of box in above-mentioned arbitrary scheme.

Preferably, described motor II is positioned at the top of described motor cover II in above-mentioned arbitrary scheme.

Preferably, described motor cover II is the cuboid of " L " type in above-mentioned arbitrary scheme.

Preferably, the end face of described motor cover II has the fillet surface of 45 ° in the position of mixing brush near the 2# cloth, to facilitate the cylinder operation in above-mentioned arbitrary scheme.

Preferably, described 1# cloth is mixed brush, 2# cloth and is mixed brush and 3# cloth and mix brush and rotate under the drive of corresponding motor shaft respectively in above-mentioned arbitrary scheme.

Preferably, described support post is positioned at the outside of described feeder casing in above-mentioned arbitrary scheme.

Preferably, the upper surface of described support post is higher than the position at feeder casing upper surface place in above-mentioned arbitrary scheme.

Preferably, the upper surface of described support post is connected with the lower surface of feeder hopper in above-mentioned arbitrary scheme.

Preferably, the material of described feeder hopper is metal in above-mentioned arbitrary scheme.

Preferably, the material of described feeder hopper is 1Cr18Ni9 in above-mentioned arbitrary scheme.

Preferably, the material of described feeder hopper is corrosion-resistant steel in above-mentioned arbitrary scheme.

Preferably, described feeder hopper comprises bottom surface and at least one side in above-mentioned arbitrary scheme.

Preferably, described feeder hopper comprises bottom surface and two side I perpendicular to this bottom surface in above-mentioned arbitrary scheme, and described feeder hopper comprises the side II perpendicular to described feeder casing upper surface.

Preferably, the bottom surface of described feeder hopper is connected with two vertical side I in above-mentioned arbitrary scheme.

Preferably, the side I vertical with two structure that is formed in one in the bottom surface of described feeder hopper is to reduce the resistance that passes through of material in above-mentioned arbitrary scheme.

In above-mentioned arbitrary scheme preferably, one end of described feeder hopper bottom surface is positioned on support post, the other end of described feeder hopper bottom surface is connected with the upper surface of feeder casing, thereby the upper surface of support post makes the bottom surface of feeder hopper consist of an inclined-plane higher than feeder casing upper surface.

Preferably, the material of described support post is the 45# steel in above-mentioned arbitrary scheme.

Preferably, the angle between described feeder hopper bottom surface and feeder casing upper surface is less than 45 ° in above-mentioned arbitrary scheme.

Preferably, described feeder casing upper surface comprises inlet point in above-mentioned arbitrary scheme.

In above-mentioned arbitrary scheme preferably, the edge of described feeder hopper bottom surface and an edge butt joint of described inlet point.

Preferably, the edge of described feeder hopper bottom surface and described inlet point are near an edge butt joint of support post in above-mentioned arbitrary scheme.

Preferably, the side of the side II of described feeder hopper is connected with the side of described side I in above-mentioned arbitrary scheme.

Preferably, the base of the side II of described feeder hopper is connected with the edge of described inlet point in above-mentioned arbitrary scheme.

Preferably, master control panel is equipped with on described casing top in above-mentioned arbitrary scheme.

Preferably, described casing upper outside is equipped with master control panel in above-mentioned arbitrary scheme.

Preferably, described master control panel is used for manual operation and controls distribution device and open, close in above-mentioned arbitrary scheme.

Preferably, described master control panel is used for controlling cylinder in above-mentioned arbitrary scheme.

Preferably, described cylinder is that feeder is opened cylinder in above-mentioned arbitrary scheme, and this cylinder lifts the feeder casing or put down, and described feeder casing is lifted the rear remaining material of manually can processing.

Preferably, the model of described cylinder is SC-CA-50X120 in above-mentioned arbitrary scheme.

Preferably, described cylinder one end is connected with jacking cylinder support post in above-mentioned arbitrary scheme.

Preferably, the material of described jacking cylinder support post is the 45# steel in above-mentioned arbitrary scheme.

Preferably, described cylinder one end is connected with the top of jacking cylinder support post in above-mentioned arbitrary scheme.

Preferably, the other end of described cylinder is connected with the sidewall of described feeder casing in above-mentioned arbitrary scheme.

Preferably, the piston end of described cylinder is connected with the sidewall of described feeder casing in above-mentioned arbitrary scheme.

Preferably, described steam cylinder piston end and described feeder casing are connected away from the sidewall outside of described jacking cylinder support post in above-mentioned arbitrary scheme.

Preferably, the plane at the place, top of described jacking cylinder support post is higher than the plane at described feeder top cover of box place in above-mentioned arbitrary scheme.

Preferably, when described feeder casing was in running order, the angle on the central axis of described cylinder and plane, described feeder top cover of box place was 45 ° in above-mentioned arbitrary scheme.

The mode of operation of bubble-cap machine automatic distributing device provided by the utility model is: during the beginning cloth; Be positioned at the unlatching of bubble-cap belt conveyor and the promotion forward gradually of distributing device below; Open the motor of feeder casing this moment; Material is admitted to into feeder hopper simultaneously; And slip into the inlet point on feeder casing top through the bottom surface of feeder hopper; Enter thus in the feeder casing; The corresponding bubble-cap belt conveyor in the bottom of feeder casing; The material that enters the feeder casing falls on the bubble-cap belt conveyor; Material scatters rapidly under the rotation that the 1# cloth is mixed brush promotes; And fall into the cavity eye of corresponding bubble-cap; Belt conveyor drives the direction that bubble-cap mixes brush to 1# cloth round brush and 2# cloth and moves gradually; A part of material on belt conveyor enters the 2# cloth by 1# cloth round brush and mixes brush; And mixed brush by the 2# cloth and continue to push in the cavity eye of corresponding bubble-cap; On belt conveyor, remaining material moves on and continues blanking by 2# cloth round brush again; Mixing brush by the 3# cloth at last enters 3# cloth round brush and completes final blanking; Material is all packed in the bubble eye of corresponding bubble-cap on the bubble-cap belt conveyor; If in the feeder casing, salvage stores is arranged after operation is completed, can open cylinder this moment, lifts certain angle thereby drive the feeder casing, is convenient to manual operation and cleaning, debugging automatic distributing device; The control panel at rear, feeder casing top can carry out expediently bubble-cap machine distribution device being carried out various controls and operation.The distance that the upper surface of described bubble cap tray and described cloth are mixed between brush and described cloth round brush is 1mm.

The bubble-cap machine automatic distributing device that the utility model provides is convenient and swift, can improve the cloth probability by easy stages successively with the bubble-cap cloth, can respond the requirement of high-speed equipment, and adopts the cylinder control cylinder to replace artificial the unlatching, more meets the automation standard.

The technical scheme of bubble-cap machine automatic distributing device provided by the utility model comprises the combination in any of each part mentioned above, and the simple change of each part mentioned above assembly or combination are still protection domain of the present utility model.

More multioperation is all known for those of ordinary skills, repeats no more.

Description of drawings

Fig. 1 is the front view according to a preferred embodiment of bubble-cap machine automatic distributing device of the present utility model.

Fig. 2 is left view embodiment illustrated in fig. 1.

Fig. 3 is birds-eye view embodiment illustrated in fig. 1.

In Fig. 1-Fig. 3, numeral represents respectively:

1 support post 2 feeder casings

3 inlet point 4 feeder hoppers

5 initiatively mix brush axle 6 motor I

7 master control panel 8 feeders are opened cylinder

9 lateral shaft 10 permanent seats

11 motor cover II 12 longitudinal axiss

13 jacking cylinder support post 14 3# clothes are mixed brush

15 2# clothes are mixed brush 16 1# clothes and are mixed brush

17 3# cloth round brush 18 2# cloth round brush

19 1# cloth round brush 20 motor II

21 brush holder 22 blades

23 brush holder axle 24 rotating discs

25 reaction plate 26 screws

27 motor cover I

The specific embodiment

In order to understand better the utility model, below in conjunction with the preferred embodiment of accompanying drawing detailed description according to bubble-cap machine automatic distributing device of the present utility model.

Embodiment 1: Fig. 1-Fig. 3 is the three-view diagram according to a preferred embodiment of bubble-cap machine automatic distributing device of the present utility model; In the present embodiment, bubble-cap machine automatic distributing device comprises feeder casing 2; These feeder casing 2 tops connection feeder hoppers 4; Described feeder casing 2 is connected with master control panel 7; This master control panel 7 is connected with the motor II with motor I 6 and is connected; Motor I 6 is mixed brush 16 with the 1# cloth and is connected; Motor II 20 and 2# cloth are mixed brush 15 and are connected brush 14 with the 3# cloth and are connected; Described 1# cloth is mixed brush 16 right side 1# cloth round brush 19 is housed; Described 2# cloth is mixed brush 15 right side 2# cloth round brush 18 is housed; Described 3# cloth is mixed brush 14 right side 3# cloth round brush 17 is housed; Described feeder hopper 4 is connected with support post 1.

In the present embodiment, feeder casing 2 is opened cylinder 8 with feeder and is connected.

In the present embodiment, the bench section of described feeder casing 2 is rectangle.

In the present embodiment, the elevation profile of described feeder casing 2 is rectangle.

In the present embodiment, described feeder casing 2 comprises top cover and sidewall, and the surrounding of described top cover all is connected with sidewall.

In the present embodiment, the sidewall of described feeder casing 2 adopts metallic material.

In the present embodiment, described 1# cloth is mixed brush 16,2# cloth and is mixed brush 15,3# cloth and mix brush 14 tops and all be equipped with and initiatively mix the brush axle.

In the present embodiment, described 1# cloth mix the brush 16, the 2# cloth mix the brush 15, the 3# cloth mix the brush 14 by described active mix the brush axle be connected with motor.

In the present embodiment, described each cloth is mixed the brush holder axle 23 that brush includes rotating disc 24 and is connected to described rotating disc 24 bottoms, connector 21 is equipped with in this brush holder axle 23 bottoms, and this connector 21 is connected with three blades 22, and described connector 21 is bolted with described blade 22.

In the present embodiment, brush holder axle 23 is equipped with on described connector 21 tops, and this brush holder axle 23 is connected with bolt with the lower surface of rotating disc 24, and described rotating disc 24 tops are connected with corresponding motor.

In the present embodiment, described rotating disc 24 tops are connected with motor output shaft and rotate under the drive of motor shaft, and then the blade 22 that drives its underpart rotates.

In the present embodiment, described connector 21 comprises circular portion and is connected a connection pawl that stretches out circular portion, and described connection pawl is connected with blade 22 by bolt.

In the present embodiment, the material of described blade 22 is silica gel.

In the present embodiment, the central axis of described brush holder axle 23 is parallel with the central axis of described rotating disc 24.

In the present embodiment, the angle of the plane at described connector 21 places and the central axis of brush holder axle 23 is 90 °.

In the present embodiment, described 1# cloth round brush 19,2# cloth round brush 18 and 3# cloth round brush 17 include roller brush shaft and integral rolling brush.

In the present embodiment, integral rolling brush is housed outside described roller brush shaft, this integral rolling brush is used for promoting the material body and moves.

In the present embodiment, described each cloth round brush is packed on the sidewall of described feeder casing by its inner roller brush shaft.

In the present embodiment, the roller brush shaft two ends of described each cloth round brush are connected with reaction plate 25, and this reaction plate 25 is connected by the sidewall of screw with feeder casing 2.

In the present embodiment, described 1# cloth is mixed brush 16 and is mixed by active the output shaft that the brush axle is connected to DC machine I 6.

In the present embodiment, described motor I 6 is positioned at the top of feeder casing 2 top covers.

In the present embodiment, the model of described motor I 6 is Z5D120-220Gu-5GU40KB.

In the present embodiment, described 1# cloth is mixed brush 16 and is connected with master control panel 7 by longitudinal axis 12.

In the present embodiment, motor cover I 27 is equipped with on described longitudinal axis 12 tops.

In the present embodiment, the material of described longitudinal axis 12 is the 45# steel.

In the present embodiment, described motor cover I 27 is cuboid.

In the present embodiment, the active that described 2# cloth is mixed brush 15 tops is mixed brush axle and described 3# cloth and is mixed the active on brush 14 tops and mix between the brush axle lateral shaft 9 is housed.

In the present embodiment, described lateral shaft 9 is packed on permanent seat 10.

In the present embodiment, described permanent seat 10 is contained in the top, the top cover outside of feeder casing 2.

In the present embodiment, the material of described lateral shaft 9 is the 45# steel.

In the present embodiment, described 3# cloth mix the brush 14 by the active on its top mix the brush axle be connected with motor II 20.

In the present embodiment, described 3# cloth mix the brush 14 by the active on its top mix the brush axle be connected with the output shaft of motor II 20.

In the present embodiment, described motor II 20 is DC machine.

In the present embodiment, the model of described motor II 20 is Z5D120-220Gu-5GU40KB.

In the present embodiment, be covered with motor cover II 11 on described lateral shaft 9 and described permanent seat 10.

In the present embodiment, the material of described motor cover II 11 is metallic material.

In the present embodiment, described motor cover II 11 is positioned at the top of described feeder casing 2 top covers.

In the present embodiment, described motor II 20 is positioned at the top of described motor cover II 11.

In the present embodiment, described 1# cloth is mixed brush 16,2# cloth and is mixed brush 15 and 3# cloth and mix brush and 14 rotate under the drive of corresponding motor shaft respectively.

In the present embodiment, described support post 1 is positioned at the outside of described feeder casing 2.

In the present embodiment, the upper surface of described support post 1 is higher than the position at feeder casing 2 upper surface places.

In the present embodiment, the upper surface of described support post 1 is connected with the lower surface of feeder hopper 4.

In the present embodiment, the material of described feeder hopper 4 is metal.

In the present embodiment, described feeder hopper 4 comprises bottom surface and two side I perpendicular to this bottom surface, and described feeder hopper 4 comprises the side II perpendicular to described feeder casing 2 upper surfaces.

In the present embodiment, the bottom surface of described feeder hopper 4 is connected with two vertical side I.

In the present embodiment, one end of described feeder hopper 4 bottom surfaces is positioned on support post 1, the other end of described feeder hopper 4 bottom surfaces is connected with the upper surface of feeder casing 2, thereby the upper surface of support post 1 makes the bottom surface of feeder hopper 4 consist of an inclined-plane higher than feeder casing 2 upper surfaces.

In the present embodiment, the material of described support post 1 is the 45# steel.

In the present embodiment, described feeder casing 2 upper surfaces comprise inlet point 3.

In the present embodiment, the edge of described feeder hopper 4 bottom surfaces and an edge butt joint of described inlet point 3.

In the present embodiment, the edge of described feeder hopper 4 bottom surfaces and described inlet point 3 are near an edge butt joint of support posts 1.

In the present embodiment, the side of the side II of described feeder hopper 4 is connected with the side of described side I.

In the present embodiment, the base of the side II of described feeder hopper 4 is connected with the edge of described inlet point 3.

In the present embodiment, master control panel 7 is equipped with on described casing 2 tops.

In the present embodiment, described master control panel 7 is used for manual operation and controls distribution device and open, close.

In the present embodiment, described master control panel 7 is used for controlling feeder and opens cylinder 8, and this cylinder 8 lifts feeder casing 2 or put down, and described feeder casing 2 is lifted the rear remaining material of manually can processing.

In the present embodiment, the model of described cylinder 8 is SC-CA-50X120.

In the present embodiment, described cylinder 8 one ends support vertical 13 posts with the jacking cylinder and are connected.

In the present embodiment, the material of described jacking cylinder support post 13 is the 45# steel.

In the present embodiment, described cylinder 8 one ends are connected with the top of jacking cylinder support post 13.

In the present embodiment, the other end of described cylinder 8 is connected with the sidewall of described feeder casing 2.

In the present embodiment, described cylinder 8 piston ends and described feeder casing 2 are connected away from the sidewall outside of described jacking cylinder support post 13.

Embodiment 2: bubble-cap machine automatic distributing device, with embodiment 1, difference is: the top cover of described feeder casing 2 adopts transparent material.

Embodiment 3: bubble-cap machine automatic distributing device, with embodiment 2, difference is: the material of the top cover of described feeder casing 2 is organism glass.

Embodiment 4: bubble-cap machine automatic distributing device, with embodiment 3, difference is: the angle between plane, described top cover place and each plane, sidewall place is 90 °.

Embodiment 5: bubble-cap machine automatic distributing device, with embodiment 4, difference is: the sidewall of described feeder casing 2 adopts corrosion-resistant steel to make.

Embodiment 6: bubble-cap machine automatic distributing device, with embodiment 1, difference is: the geometric configuration of described blade 22 is triangle.

Embodiment 7: bubble-cap machine automatic distributing device, with embodiment 1, difference is: the material of described integral rolling brush is nylon.

Embodiment 8: bubble-cap machine automatic distributing device, with embodiment 1, difference is: the material of described motor cover I 11 is metallic material.

Embodiment 9: bubble-cap machine automatic distributing device, with embodiment 1, difference is: the material of described motor cover I 11 is 1Cr18Ni9.

Embodiment 10: bubble-cap machine automatic distributing device, with embodiment 1, difference is: the material high strength duralumin of described permanent seat 10.

Embodiment 11: bubble-cap machine automatic distributing device, with embodiment 1, difference is: the material of described motor cover II 11 is corrosion-resistant steel.

Embodiment 12: bubble-cap machine automatic distributing device, with embodiment 11, difference is: described motor cover II 11 is the cuboid of " L " type.

Embodiment 13: bubble-cap machine automatic distributing device, with embodiment 12, difference is: the end face of described motor cover II 11 has the fillet surface of 45 ° in the position of mixing brush 15 near the 2# cloth, to facilitate cylinder 8 operations.

Embodiment 14: bubble-cap machine automatic distributing device, with embodiment 1, difference is: the material of described feeder hopper 4 is corrosion-resistant steel.

Embodiment 15: bubble-cap machine automatic distributing device, and with embodiment 14, difference is: the bottom surface of the described feeder hopper 4 side I vertical with two structure that is formed in one, to reduce the resistance that passes through of material.

Embodiment 16: bubble-cap machine automatic distributing device, with embodiment 15, difference is: the angle between described charging 4 bucket bottom surfaces and feeder casing 2 upper surfaces is less than 45 °.

Embodiment 17: bubble-cap machine automatic distributing device, with embodiment 1, difference is: described casing 2 upper outside are equipped with master control panel 7.

Embodiment 18: bubble-cap machine automatic distributing device, with embodiment 1, difference is: the plane at the place, top of described jacking cylinder support post 13 is higher than the plane at described feeder casing 2 top cover places.

Embodiment 19: bubble-cap machine automatic distributing device, with embodiment 18, difference is: when described feeder casing 2 was in running order, the angle on the central axis of described cylinder 8 and described feeder casing 2 planes, top cover place was 45 °.

The mode of operation of the bubble-cap machine automatic distributing device in above-described embodiment is: during the beginning cloth; Be positioned at the unlatching of bubble-cap belt conveyor and the promotion forward gradually of distributing device below; DC machine I 6 and the DC machine II 20 that open feeder casing 2 this moment; Material is admitted to into feeder hopper 4 simultaneously; And slip into the inlet point 3 on feeder casing 2 tops through the bottom surface of feeder hopper 4; Enter thus in feeder casing 2; The corresponding bubble-cap belt conveyor in the bottom of feeder casing 2; The material that enters feeder casing 2 falls on the bubble-cap belt conveyor; Material is mixed brush 16 rotation at the 1# cloth and is scattered rapidly under promoting; And fall into the cavity eye of corresponding bubble-cap; Belt conveyor drives the direction that bubble-cap mixes brush 15 to 1# cloth round brush 19 and 2# cloth and moves gradually; A part of material on belt conveyor enters the 2# cloth by 1# cloth round brush 19 and mixes brush 15; And mixed brush 15 by the 2# cloth and continue to push in the cavity eye of corresponding bubble-cap; On belt conveyor, remaining material moves on and continues blanking by 2# cloth round brush 18 again; Mixing brush 14 by the 3# cloth at last enters 3# cloth round brush 17 and completes final blanking; Material is all packed in the bubble eye of corresponding bubble-cap on the bubble-cap belt conveyor; If in feeder casing 2, salvage stores is arranged after operation is completed, can open cylinder 8 this moment, lifts certain angle thereby drive feeder casing 2, is convenient to manual operation and cleaning, debugging automatic distributing device; The control panel at feeder casing 2 rears, top can carry out expediently bubble-cap machine distribution device being carried out various controls and operation.The upper surface of described bubble cap tray and described 1# cloth are mixed brush 16,2# cloth, and to mix the distance that brush 15,3# cloth mix between brush 14,1# cloth round brush 19,2# cloth round brush 18,3# cloth round brush 17 be 1mm.

More multioperation is all known for those of ordinary skills, repeats no more.

Claims (32)

1. bubble-cap machine automatic distributing device, it comprises the feeder casing, this feeder casing top connection feeder hopper, described feeder casing is connected with master control panel, this master control panel is connected with at least one motor, this motor is connected with at least one group of cloth brush, and described feeder hopper is connected with support post, it is characterized in that: the feeder casing is connected with cylinder.

2. bubble-cap machine automatic distributing device as claimed in claim 1, it is characterized in that: the bench section of described feeder casing is rectangle, the elevation profile of described feeder casing is rectangle.

3. bubble-cap machine automatic distributing device as claimed in claim 1, it is characterized in that: described feeder casing comprises top cover and sidewall, described top cover surrounding is connected with sidewall.

4. bubble-cap machine automatic distributing device as claimed in claim 3, it is characterized in that: the angle between plane, described top cover place and each plane, sidewall place is 90 °.

5. bubble-cap machine automatic distributing device as claimed in claim 1, is characterized in that: the top cover employing transparent material of described feeder casing, the sidewall employing metallic material of described feeder casing.

6. bubble-cap machine automatic distributing device as claimed in claim 1 is characterized in that: described cloth brush comprises that cloth mixes brush and cloth round brush.

7. bubble-cap machine automatic distributing device as described in claim 1 or 6 is characterized in that: the quantity of described cloth brush is three groups.

8. bubble-cap machine automatic distributing device as claimed in claim 6 is characterized in that: described cloth is mixed the section of brushing and is equipped with and initiatively mixes the brush axle, and described cloth is mixed brush and mixed the brush axle by described active and be connected with motor.

9. bubble-cap machine automatic distributing device as described in claim 6 or 8 is characterized in that: described cloth is mixed brush and is comprised rotating disc and brush body, and described rotating disc bottom is connected with brush body, and described rotating disc top is connected with propulsion source, and described propulsion source comprises motor.

10. bubble-cap machine automatic distributing device as claimed in claim 9 is characterized in that: described rotating disc top is connected with motor output shaft and rotates under the drive of motor shaft, and then the brush body that drives its underpart rotates.

11. bubble-cap machine automatic distributing device as claimed in claim 10 is characterized in that: the quantity of described brush body is at least one, and described brush body evenly distributes and is arranged on rotating disc lower surface place.

12. bubble-cap machine automatic distributing device as claimed in claim 11 is characterized in that: described brush body is connected with bolt with the lower surface of rotating disc.

13. as the described bubble-cap machine of any one in claim 10-12 automatic distributing device, it is characterized in that: described brush body comprises brush holder and at least one blade, described brush holder and described blade are bolted, described brush holder comprises brush holder axle, connector, described brush holder axle is connected with connector, this connector bottom connection blade.

14. bubble-cap machine automatic distributing device as claimed in claim 13 is characterized in that: described connector comprises circular portion and is connected a connection pawl that stretches out circular portion, and described connection pawl is connected with blade by bolt.

15. bubble-cap machine automatic distributing device as claimed in claim 13 is characterized in that: the geometric configuration of described blade is triangle.

16. bubble-cap machine automatic distributing device as claimed in claim 13, it is characterized in that: the central axis of described brush holder axle is parallel with the central axis of described rotating disc.

17. bubble-cap machine automatic distributing device as claimed in claim 13 is characterized in that: the angle of the plane at described connector place and the central axis of brush holder axle is 90 °.

18. bubble-cap machine automatic distributing device as claimed in claim 6 is characterized in that: described cloth round brush comprises roller brush shaft and integral rolling brush, and integral rolling brush is housed outside described roller brush shaft.

19. bubble-cap machine automatic distributing device as claimed in claim 18 is characterized in that: the roller brush shaft two ends of described cloth round brush are connected with reaction plate, and this reaction plate is connected by the sidewall of screw with the feeder casing.

20. bubble-cap machine automatic distributing device as described in claim 1 or 6 is characterized in that: described cloth brush comprises that the 1# cloth is mixed brush and 1# cloth round brush, 2# cloth are mixed brush and 2# cloth round brush, 3# cloth are mixed brush and 3# cloth round brush.

21. bubble-cap machine automatic distributing device as claimed in claim 20 is characterized in that: described 1# cloth is mixed brush and is mixed by active the output shaft that the brush axle is connected to the motor I.

22. bubble-cap machine automatic distributing device as claimed in claim 20 is characterized in that: the active that described 2# cloth is mixed the section of brushing is mixed active that brush axle and described 3# cloth mix the section of brushing and is mixed between the brush axle lateral shaft is housed.

23. bubble-cap machine automatic distributing device as claimed in claim 22, it is characterized in that: described lateral shaft is packed on permanent seat.

24. bubble-cap machine automatic distributing device as claimed in claim 20 is characterized in that: described 3# cloth mix the brush by the active on its top mix the brush axle be connected with the motor II.

25. bubble-cap machine automatic distributing device as claimed in claim 20 is characterized in that: described 3# cloth mix the brush by the active on its top mix the brush axle be connected with the output shaft of motor II.

26. bubble-cap machine automatic distributing device as claimed in claim 23 is characterized in that: be covered with the motor cover II on described lateral shaft and described permanent seat, described motor cover II is the cuboid of " L " type.

27. bubble-cap machine automatic distributing device as claimed in claim 1 is characterized in that: the outside of described feeder casing connects support post, and the upper surface of described support post is higher than the position at feeder casing upper surface place.

28. bubble-cap machine automatic distributing device as claimed in claim 1 is characterized in that: the upper surface of described support post is connected with the lower surface of feeder hopper.

29. bubble-cap machine automatic distributing device as claimed in claim 1 is characterized in that: described feeder casing upper surface comprises inlet point.

30. bubble-cap machine automatic distributing device as claimed in claim 1 is characterized in that: master control panel is equipped with on described feeder casing top.

31. bubble-cap machine automatic distributing device as claimed in claim 1 is characterized in that: described cylinder is that feeder is opened cylinder, and described cylinder one end is connected with jacking cylinder support post.

32. bubble-cap machine automatic distributing device as described in claim 1 or 31 is characterized in that: described cylinder one end is connected with the top of jacking cylinder support post, and the other end of described cylinder is connected with the sidewall of described feeder casing.

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