CN218988758U - Cover supply device for automatic vertical cover screwing machine - Google Patents

Abstract

The utility model discloses a cover supply device for an automatic vertical cover screwing machine, which comprises: the side wall of the cover supply cylinder is provided with an annular track plate, and the cover supply cylinder is driven to rotate by a driving mechanism; the lifting plate is suspended and supported between the bottom of the cover supply cylinder and the track plate; at least one arc-like baffle plate suspended on the track plate; and one end of the cover outlet guide rail is suspended and received at the tail end of the baffle, and the other end of the cover outlet guide rail is used for being connected with a cover screwing machine, and the width of the cover outlet guide rail is limited to accommodate one cover body to pass through. The utility model has the beneficial effects of replacing manual work, efficiently and quickly arranging the cover bodies into a single row and supplying the cover bodies to the cover screwing machine.

Description

Cover supply device for automatic vertical cover screwing machine

Technical Field

The utility model relates to the technical field of packaging equipment. More particularly, the present utility model relates to a cap supply device for an automatic upright cap screwing machine.

Background

In the production fields of medicines, foods, daily chemicals and the like, a cap screwing machine is usually used for automatically screwing a bottle cap on a bottle opening, in the prior art, a plurality of methods for providing the bottle cap for the bottle opening are also available, the bottle cap is arranged by manual arrangement, the bottle cap is placed on a conveying belt and conveyed to a cap screwing machine accessory, the bottle cap is controlled to just fall onto the bottle opening by a baffle, then a bottle body with the bottle cap is continuously conveyed forwards on the cap screwing machine, in the conveying process, the bottle cap is screwed by a plurality of groups of rotating wheels at two sides of a position conveying belt, and the number of the rotating wheels is usually three. The bottle caps which are arranged in a tidying way are directly adsorbed by a sucker structure and then transferred to a bottle mouth to be released, and then the bottle caps are screwed by a rotary wheel of a cap screwing machine. Therefore, in order to further improve the production efficiency and reduce the labor investment, the device for arranging the bottle caps in an automatic arrangement way of the adaptive cap screwing machine is an urgent problem to be solved.

Disclosure of Invention

It is an object of the present utility model to solve at least the above problems and to provide at least the advantages to be described later.

To achieve these objects and other advantages and in accordance with the purpose of the utility model, there is provided a cap supply device for an automatic upright type cap screwing machine, comprising:

the side wall of the cover supply cylinder is provided with an annular track plate, and the cover supply cylinder is driven to rotate by a driving mechanism;

the lifting plate is suspended and supported between the bottom of the cover supply cylinder and the track plate;

at least one arc-like baffle plate suspended on the track plate;

and one end of the cover outlet guide rail is suspended and received at the tail end of the baffle, and the other end of the cover outlet guide rail is used for being connected with a cover screwing machine, and the width of the cover outlet guide rail is limited to accommodate one cover body to pass through.

Preferably, the device further comprises a cover body forward and reverse selection mechanism, the cover body forward and reverse selection mechanism is suspended above the track plate, and the cover body forward and reverse selection mechanism comprises:

a high-pressure air supply structure;

one end of the air pipe is communicated with the air outlet end of the high-pressure air supply structure, and the other end of the air pipe penetrates through the baffle plate and is arranged close to the track;

a solenoid valve provided to the air pipe;

the photoelectric switch is suspended on the baffle and is positioned above the air outlet end of the air pipe, the probe of the photoelectric switch is arranged downwards, and the photoelectric switch is electrically connected with the electromagnetic valve.

Preferably, the high-pressure air supply structure is an air compressor.

Preferably, the cover feeding device further comprises an annular support plate, wherein the annular support plate is sleeved outside the cover feeding cylinder at intervals, and the lifting plate, the baffle plate, the cover discharging guide rail and the cover body positive and negative selection mechanism are respectively fixed on the support plate through a plurality of fixing pieces.

Preferably, the support plate further comprises a support high platform, and the support plate is fixed on the support high platform.

Preferably, the cover feeding device further comprises a lifting mechanism, wherein the lifting mechanism is arranged close to the cover feeding barrel, and a cover outlet of the lifting mechanism is positioned above the cover feeding barrel.

Preferably, the lifting mechanism is a Z-shaped bucket elevator.

Preferably, the cover outlet guide rail comprises a pair of cover plates which are arranged at opposite intervals, the cover plates are detachably fixed, and the cover outlet guide rail is provided with an L-shaped reversing section and a cover outlet section which is connected with the cover screwing machine.

Preferably, a plurality of U-shaped connecting plates are arranged on the cover plates at intervals, strip-shaped holes are formed in two side walls of the connecting plates, the strip-shaped holes in the two connecting plates corresponding to the pair of cover plates are connected through bolts and nuts, and one cover plate is fixed on the supporting high table and the supporting plate.

Preferably, the driving mechanism comprises a motor and a reduction gearbox connected with an output shaft of the motor, and the output shaft of the reduction gearbox is coaxially fixed with the cover supply cylinder.

The utility model at least comprises the following beneficial effects: through setting up actuating mechanism and supplying a lid section of thick bamboo can provide rotary motion's kinetic energy for the lid, combine lift plate and baffle, and the mutual extrusion effect between a large amount of lids, then can make a large amount of lids promote rotatoryly along a direction of rotation, remove to going out on the lid guide rail under the spacing direction effect of baffle, reach the purpose of arranging the lid, also can match the spiral lid machine speed and provide the lid, improve production efficiency.

Additional advantages, objects, and features of the utility model will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the utility model.

Drawings

FIG. 1 is a simplified top view of the cover supply device according to one embodiment of the present utility model;

FIG. 2 is a vertical cross-sectional view of the cap supply cylinder and the support plate according to one aspect of the present utility model;

FIG. 3 is a top view of the cover device according to one embodiment of the present utility model;

fig. 4 is a detailed view of the cover outlet rail according to one embodiment of the present utility model.

Detailed Description

The present utility model is described in further detail below with reference to the drawings to enable those skilled in the art to practice the utility model by referring to the description.

It should be noted that the experimental methods described in the following embodiments, unless otherwise specified, are all conventional methods, and the reagents and materials, unless otherwise specified, are all commercially available; in the description of the present utility model, the orientation or positional relationship indicated by the terms are based on the orientation or positional relationship shown in the drawings, are merely for convenience of description and simplification of the description, and do not indicate or imply that the apparatus or element in question must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model.

As shown in fig. 1 to 4, each reference numeral is defined as follows: the cover supplying cylinder 1, the track plate 11, the driving mechanism 12, the lifting plate 2, the baffle plate 3, the cover outlet guide rail 4, the cover body forward and reverse selecting mechanism 5, the air pipe 51, the electromagnetic valve 52, the photoelectric switch 53, the support plate 6, the supporting elevation 7, the lifting mechanism 8, the cover plate 41, the connecting plate 42, the cover body 9 and the cover screwing machine 10.

As shown in fig. 1 to 4, the present utility model provides a cap supply device for an automatic upright cap screwing machine, comprising:

the cover supply cylinder 1 is provided with an annular track plate 11 on the side wall, and the cover supply cylinder 1 is driven to rotate by a driving mechanism 12; a plurality of track plates 11 can be arranged along the vertical direction according to the cover supply amount and the cover supply speed, and the track plates 11 are used for transmitting the rotation kinetic energy of the driving mechanism 12 to the cover body 9 so that the cover body 9 rotates and centrifugally moves along the track plates 11. The driving mechanism 12 generally adopts a motor and a reduction gearbox connected with an output shaft of the motor, and the output shaft of the reduction gearbox is coaxially fixed with the cover supply cylinder 1 to provide rotary power for the cover supply cylinder 1. The further bottom of the cover supply cylinder 1 can be provided with a truncated cone shape with the middle protruding upwards, which is beneficial to the movement of the cover body 9 to the periphery of the cover supply cylinder 1 and the movement of the cover body 9 to the lifting plate 2, thereby being beneficial to the lifting of the cover body 9 to the track plate 11.

At least one arc-like lifting plate 2, wherein the lifting plate 2 is suspended and supported between the bottom of the cover supply cylinder 1 and the track plate 11; according to the amount of the cover to be supplied and the speed of the cover to be supplied, a plurality of lifting plates 2 can be arranged along the rotating direction, and here, an example of arranging one lifting plate 2 is used for explanation, the lifting plate 2 is not contacted with the cover supplying cylinder 1 at all, so that the rotating motion of the cover supplying cylinder 1 can not be influenced, the lifting plate 2 is in an arc shape matched with the rotating direction of the cover supplying cylinder 1, when the cover supplying cylinder 1 rotates, the cover body 9 is rotated to generate centrifugal force, a plurality of cover bodies 9 are combined in the cover supplying cylinder 1 to have a mutually extruding limiting effect, a considerable amount of cover bodies 9 can be smoothly lifted onto the track plate 11 along the lifting plate 2, and then the rotating motion is continued under the rotating effect of the track plate 11.

At least one arc-like baffle 3 suspended on the track plate 11; since the rotational movement necessarily has centrifugal force, if the baffle 3 is not provided, the cover 9 is thrown out of the rail plate 11 and cannot be moved in a direction required in the process. Since the rotation speed of the driving mechanism 12 is high, even if the baffle plate 3 is arranged at present, a small amount of the cover body 9 is thrown out of the track plate 11 and falls over the baffle plate 3. Here, can further set up the support frame at baffle 3 circumference to accept the lid 9 of crossing baffle 3, avoid lid 9 to scatter and roll elsewhere, cause the trouble for the clearance.

One end of the cover outlet guide rail 4 is suspended and received at the tail end of the baffle plate 3, and the other end of the cover outlet guide rail is used for being connected with the cover screwing machine 10, and the width of the cover outlet guide rail 4 is limited to accommodate one cover body 9 to pass through.

In the above technical scheme, through setting up actuating mechanism 12 and supplying lid section of thick bamboo 1 can provide rotary motion's kinetic energy for lid 9, combine lift plate 2 and baffle 3, and the mutual extrusion effect between a large amount of lids 9, then can make a large amount of lids 9 promote rotatoryly along a direction of rotation, remove to going out on the lid guide rail 4 under the spacing direction effect of baffle 3, reach the purpose of arranging lid 9 fast, also can match the spiral cover machine 10 speed in order to provide lid 9, improve production efficiency.

In another technical scheme, the device further comprises a cover body positive and negative selection mechanism 5, the cover body positive and negative selection mechanism 5 is suspended above the track plate 11, and the cover body positive and negative selection mechanism 5 comprises:

a high-pressure air supply structure; high pressure gas, preferably an air compressor, is provided.

One end of the air pipe 51 is communicated with the air outlet end of the high-pressure air supply structure, and the other end of the air pipe is arranged on the baffle plate 3 in a penetrating manner and is close to the track; and the high-pressure gas conveying device is used for conveying the high-pressure gas of the high-pressure gas supply structure to the working position.

A solenoid valve 52 provided to the air pipe 51; for controlling the opening and closing of the high pressure gas in the gas pipe 51.

The photoelectric switch 53 is suspended on the baffle 3 and is located above the air outlet end of the air pipe 51, the probe of the photoelectric switch 53 is downward, and the photoelectric switch 53 is electrically connected with the electromagnetic valve 52. For controlling the switching timing of the solenoid valve 52.

In the above technical solution, the cover forward and reverse selecting mechanism 5 is used for removing the cover 9 in one direction; because the cap supplying device is used for supplying caps for the cap screwing machine 10, namely, the cap body 9 needs to be covered on the bottle mouth in the correct direction, the manual participation degree is reduced, and the error rate of the direction of the cap body 9 is reduced. The cover 9 is generally cylindrical with a hollow shape having a certain height and no top, and after being lifted from the bottom of the cover cylinder 1 onto the track plate 11, the cover opening is either upward or downward. Therefore, one orientation is removed by the cover forward and reverse selecting mechanism 5. By way of example, the cover-opening-down condition is taken as a detailed description, the cover forward/reverse selection mechanism 5 may select a switch with a distance sensor to detect the distance between the probe and the track plate 11 at a certain frequency, when the cover 9 is located on the track plate 11 and passes under the probe of the switch, the distance between the probe and the cover 9 will be detected, and when the cover opening is up and the cover opening is down, there is a difference in distance, therefore, when the distance detected by the probe of the switch is less than a certain threshold value, the threshold value is set to be slightly greater than or equal to the distance from the probe to the cover 9 when the cover opening is down, representing a shielding object, the switch is turned on, and when the distance detected by the probe of the switch is greater than the threshold value, the switch is kept in an off state and is not turned on. The photoelectric switch 53 in the prior art can accomplish the above-mentioned work.

The photoelectric switch 53 is adopted to control the switch of the electromagnetic valve 52, when the photoelectric switch 53 is electrified, the electromagnetic valve 52 is opened, the high-pressure air supply structure provides high-pressure air, the high-pressure air is rapidly released from the air outlet end of the air pipe 51 to form a high-pressure jet shape, and the corresponding cover body 9 is rapidly blown off the track plate 11, so that the purpose of removing the cover body 9 with the downward cover opening is achieved. In one embodiment, the photoelectric switch 53 is a model of the Leuze of Laue, germany, and the electromagnetic valve 52 is a model of 35A-ACA-DDFA-1BA, and the power of the electromagnetic valve is 12.7W.

The cover body forward and reverse selection mechanism 5 can be accurate and efficient, and can replace manual removal of the cover body 9 with an incorrect direction.

In another technical scheme, the novel cover type automatic cover feeding device further comprises an annular support plate 6, the annular support plate is sleeved outside the cover feeding cylinder 1, and the lifting plate 2, the baffle plate 3, the cover discharging guide rail 4 and the cover body forward and reverse selecting mechanism 5 are respectively fixed on the support plate 6 through a plurality of fixing pieces. The annular support plate 6 can be matched with the annular shape of the cover cylinder 1, so that the hanging parts can be conveniently fixed. The fixing piece can be an L-shaped fixing plate or a straight fixing plate, threaded holes or bar-shaped holes or round holes are formed in the fixing plate, corresponding round holes are formed in the support plate 6, and then the suspended components are fixed through bolts and nuts. The fixing mode can also be a welding mode. The support plate 6 has a safety protection function, and the cover supply cylinder 1 rotates at a higher speed when the equipment is in operation, so that the support plate 6 can be used as a protective cover to prevent the equipment from being injured due to the collision of the equipment with the cover supply cylinder 1.

In another technical scheme, the support plate further comprises a support high table 7, and the support plate 6 is fixed on the support high table 7. Because the cover body 9 needs to be covered on the bottle mouth from top to bottom, the position of the cover screwing machine 10 is higher, and the support high table 7 can lift the position of the cover supplying barrel 1 so as to match the height of the cover screwing machine 10.

In another technical scheme, the cover feeding device further comprises a lifting mechanism 8, wherein the lifting mechanism is arranged close to the cover feeding barrel 1, and a cover outlet of the lifting mechanism is positioned above the cover feeding barrel 1. In the above technical solution, since the cover supplying cylinder 1 is located at a higher position under the action of the supporting high table 7, when the cover 9 is manually poured into the cover supplying cylinder 1, the height can be reached only by using stairs or other boxes, and the number of the remaining cover 9 in the cover supplying cylinder 1 is inconvenient to observe, so that the problem of cover shortage is easily caused. Through setting up hoist mechanism 8, the preferential Z formula bucket elevator, the manual work only need pour lid 9 in hoist mechanism 8's the hopper, can rise to supply lid section of thick bamboo 1 top voluntarily, fall into in the confession lid section of thick bamboo 1.

In another technical scheme, the cover outlet guide rail 4 comprises a pair of cover plates 41 which are arranged at opposite intervals, the cover plates 41 are detachably fixed, and the cover outlet guide rail 4 is provided with an L-shaped reversing section and a cover outlet section which is connected with the cover screwing machine 10. The scheme is that the cover body forward and backward selection mechanism 5 is arranged when the cover body 9 with the downward cover opening is removed, the cover body 9 with the upward cover opening is reserved, and when the cover body moves forwards and downwards along the cover outlet guide rail 4, the cover body is converted into the downward cover opening through the reversing section, and then the cover body is removed from the cover outlet section and covered on the bottle mouth.

In another technical scheme, a plurality of U-shaped connection plates 42 are arranged on the cover plates 41 at intervals, bar-shaped holes are formed in two side walls of the connection plates 42, the bar-shaped holes in the two connection plates 42 corresponding to the pair of cover plates 41 are connected through bolts and nuts, and one cover plate 41 is fixed on the supporting high table 7 and the supporting plate 6. When different products are produced, the distance between the pair of cover plates 41 can be adjusted by adjusting the distance between the connecting plates 42 due to different heights of the cover bodies 9, so that the cover bodies 9 with different heights are adapted, and the adaptability of the cover supplying device is improved.

Although embodiments of the present utility model have been disclosed above, it is not limited to the details and embodiments shown and described, it is well suited to various fields of use for which the utility model would be readily apparent to those skilled in the art, and accordingly, the utility model is not limited to the specific details and illustrations shown and described herein, without departing from the general concepts defined in the claims and their equivalents.

Claims (10)

1. Cover supply device for automatic vertical cover screwing machine, characterized by comprising:

the side wall of the cover supply cylinder is provided with an annular track plate, and the cover supply cylinder is driven to rotate by a driving mechanism;

the lifting plate is suspended and supported between the bottom of the cover supply cylinder and the track plate;

at least one arc-like baffle plate suspended on the track plate;

and one end of the cover outlet guide rail is suspended and received at the tail end of the baffle, and the other end of the cover outlet guide rail is used for being connected with a cover screwing machine, and the width of the cover outlet guide rail is limited to accommodate one cover body to pass through.

2. The cover supply device for an automatic upright type cover rotating machine according to claim 1, further comprising a cover body forward and reverse selection mechanism suspended above the track plate, the cover body forward and reverse selection mechanism comprising:

a high-pressure air supply structure;

one end of the air pipe is communicated with the air outlet end of the high-pressure air supply structure, and the other end of the air pipe penetrates through the baffle plate and is arranged close to the track;

a solenoid valve provided to the air pipe;

the photoelectric switch is suspended on the baffle and is positioned above the air outlet end of the air pipe, the probe of the photoelectric switch is arranged downwards, and the photoelectric switch is electrically connected with the electromagnetic valve.

3. The cover supply device for an automatic vertical type cover rotating machine according to claim 2, wherein the high-pressure air supply structure is an air compressor.

4. The cover feeding device for an automatic vertical type cover screwing machine according to claim 2, further comprising an annular support plate, wherein the annular support plate is sleeved outside the cover feeding cylinder, and the lifting plate, the baffle plate, the cover outlet guide rail and the cover body forward and reverse selection mechanism are respectively fixed on the support plate through a plurality of fixing pieces.

5. The cover feeding device for an automatic vertical type cover rotating machine according to claim 4, further comprising a support stand, wherein the support plate is fixed to the support stand.

6. The lid supply device for an automatic upright capping machine of claim 1 further comprising a lifting mechanism disposed adjacent the lid supply drum, the lid outlet of the lifting mechanism being located above the lid supply drum.

7. The lid supply device for an automatic upright lid machine of claim 6, wherein the lifting mechanism is a Z-type bucket elevator.

8. The cover supply device for an automatic upright capping machine of claim 5 wherein the cover exit rail comprises a pair of cover plates disposed in spaced relation, the cover plates being removably secured, the cover exit rail having an L-shaped reversing section and a cover exit section engaged with the capping machine.

9. The cover supply device for an automatic vertical type cover rotating machine according to claim 8, wherein a plurality of U-shaped connection plates are arranged on the cover plates at intervals, strip-shaped holes are arranged on two side walls of the connection plates, the strip-shaped holes on two connection plates corresponding to a pair of cover plates are connected through bolts and nuts, and one cover plate is fixed on the supporting elevation and the supporting plate.

10. The cap supply device for an automatic upright cap screwing machine according to claim 1, wherein the driving mechanism comprises a motor and a reduction gearbox connected with an output shaft of the motor, and an output shaft of the reduction gearbox is coaxially fixed with the cap supply cylinder.

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