CN220012076U - Feeding gland device for connecting essential oil bottle with cover body - Google Patents

Abstract

The utility model relates to a feeding gland device for connecting an essential oil bottle with a cover body, which comprises an outer cover conveying mechanism and a gland mechanism, wherein the outer cover conveying mechanism comprises a vibrating disc with a spiral channel at the inner side, at least one discharging channel is connected to the outer side of the vibrating disc, each discharging channel is connected with a transversely arranged conveying track through a shunting channel, and a bottle body conveying belt is longitudinally arranged below the right end of the conveying track; the gland mechanism comprises a liftable outer cover positioning seat arranged on the right side of the conveying track and a gland station arranged on the front side of the conveying track, the gland station is provided with an outer cover adsorption seat arranged above the outer cover positioning seat, the outer cover adsorption seat is driven by a two-dimensional plane moving mechanism to move vertically and longitudinally, and the outer cover adsorption seat adsorbs an outer cover conveyed to the outer cover positioning seat to the gland station. The utility model has reasonable structural design, integrates the arrangement, conveying and capping of the outer cover, does not need to manually arrange and place the outer cover, and effectively improves the capping efficiency of the essential oil bottle.

Description

Feeding gland device for connecting essential oil bottle with cover body

Technical field:

the utility model relates to a feeding gland device for connecting an essential oil bottle with a cover body.

The background technology is as follows:

the essential oil product has various effects of relieving, moisturizing and the like, and has wide application in cosmetics, and the essential oil product is generally packaged and stored by an essential oil bottle. At present, the essential oil bottle on the market adopts a packing form of an inner plug and an outer cover, and in the production process, after an essential oil product is filled in the bottle body of the essential oil bottle, the inner plug is pressed in the bottle mouth of the bottle body, and then the outer cover is sleeved outside the bottle mouth, so that the essential oil is prevented from exuding from the bottle mouth, and the tightness is improved.

In the essential oil filling industry, manual capping is still mainly adopted at present, namely: and filling the essential oil product into an essential oil bottle through filling equipment, and then manually capping the filled essential oil bottle. The manual capping mode has the problem of low efficiency, and influences the overall production efficiency of the essential oil filling and capping. At present, some automatic capping devices are put into use, but most of the automatic capping devices still need to be manually placed at capping stations vertically when in operation, or manually placed on different conveying tracks one by one vertically, and vertically placed outer caps are conveyed to all capping devices through different conveying tracks. The manual outer cover placing mode is not convenient to operate, reduces the working efficiency of the whole sealing operation, and is not beneficial to continuous production. Therefore, how to improve the capping efficiency of the essential oil bottle is a problem to be solved.

The utility model comprises the following steps:

the utility model aims at improving the problems in the prior art, namely the technical problem to be solved by the utility model is to provide the feeding gland device for connecting the essential oil bottle and the cover body, which has reasonable design and effectively improves the capping efficiency.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows: the feeding gland device comprises an outer cover conveying mechanism and a gland mechanism which are sequentially arranged from left to right, wherein the outer cover conveying mechanism comprises a vibrating disc with a spiral channel arranged on the inner side, at least one discharging channel is connected to the outer side of the vibrating disc, each discharging channel is connected with a conveying track which is transversely arranged through a shunting channel, and a bottle conveying belt is longitudinally arranged below the right end of the conveying track; the gland mechanism comprises a liftable outer cover positioning seat arranged on the right side of the conveying track and a gland station arranged on the front side of the conveying track, wherein an outer cover adsorption seat arranged above the outer cover positioning seat is arranged at the gland station, the outer cover adsorption seat is driven by a two-dimensional plane moving mechanism to move vertically and longitudinally, and the outer cover adsorption seat adsorbs an outer cover conveyed to the outer cover positioning seat to the gland station.

Further, the split flow channel is a Y-shaped channel with three ports, one port of the split flow channel is connected with the discharging channel, the other two ports of the split flow channel are respectively connected with two conveying tracks, and each conveying track is respectively connected with a gland mechanism.

Further, an outer cover blanking hopper is arranged right above the vibration plate, and the outer cover blanking hopper is connected with an outer cover feeding mechanism.

Further, the enclosing cover feed mechanism is including locating the left hopper of the reverse cone form of vibration dish, the right-hand member of hopper is provided with the low, the high promotion conveyer belt of right-hand member of left end, the surface equipartition of promotion conveyer belt has a plurality of enclosing covers to promote the layer board, the enclosing cover promotes the layer board and promotes the conveyer belt mutually perpendicular, the right-hand member that promotes the conveyer belt is located the top of enclosing cover blanking hopper.

Further, the bottom surface of the outer cover adsorption seat is provided with an adsorption cavity for accommodating the upper end of the outer cover, and the shape of the adsorption cavity is adapted to that of the outer cover.

Further, an outer cover positioning notch opposite to the output port of the conveying rail is formed in the middle of the left end of the outer cover positioning seat, and the outer cover positioning notch is vertically communicated and used for accommodating the outer cover output by the conveying rail.

Further, the two-dimensional plane moving mechanism comprises a longitudinal moving assembly, a vertical moving assembly is arranged at the moving end of the longitudinal moving assembly, and the bottom of the moving end of the vertical moving assembly is connected with the top of the outer cover adsorption seat through a connecting column.

Further, be equipped with the L shape bottle splint that a pair of left and right interval distributes below two-dimensional plane moving mechanism, a pair of L shape bottle splint are located the top of bottle conveyer belt, are equipped with the two-way cylinder of horizontal installation between the vertical edge upper end of a pair of L shape bottle splint, the flexible end in both sides of two-way cylinder is connected with the vertical edge upper end of a pair of L shape bottle splint respectively to drive a pair of L shape bottle splint and follow horizontal opposite direction and remove, in order to clip the bottle, two-way cylinder is connected with the removal end bottom of longitudinal movement subassembly through the link.

Further, clamping blocks for contacting with the bottle body are arranged on the inner sides of the horizontal edges of the pair of L-shaped bottle body clamping plates, and the clamping blocks correspond to the outer cover adsorption seats in position.

Further, the outer cover adsorption seat is arranged at the top of a lifting plate, and the lifting plate is driven to lift by a lifting cylinder above the lifting plate.

Compared with the prior art, the utility model has the following effects: the utility model has reasonable structural design, integrates the arrangement, conveying and capping of the outer cover, does not need to manually arrange and place the outer cover, and effectively improves the capping efficiency of the essential oil bottle.

Description of the drawings:

FIG. 1 is a schematic diagram of a front view configuration of an embodiment of the present utility model;

FIG. 2 is a schematic view of a front view of a cover conveying mechanism according to an embodiment of the present utility model;

FIG. 3 is a schematic top view of the vibratory pan and conveyor track in the cover conveyor mechanism;

FIG. 4 is a schematic top view of the diverter channel in the outer lid delivery mechanism;

FIG. 5 is a schematic diagram showing a front view of a cover pressing mechanism according to an embodiment of the present utility model;

FIG. 6 is a schematic diagram showing a right-side view of a cover pressing mechanism in an embodiment of the present utility model;

FIG. 7 is a schematic view of the partial construction of FIG. 6 (omitting the conveyor track and cover positioning seats);

fig. 8 is a schematic top view of the conveyor track and cover positioning seat in the capping mechanism.

The specific embodiment is as follows:

the utility model will be described in further detail with reference to the drawings and the detailed description.

In the description of the present utility model, it should be understood that the terms "longitudinal," "transverse," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like indicate or are based on the orientation or positional relationship shown in the drawings, merely to facilitate description of the present utility model, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present utility model.

As shown in fig. 1 to 8, the feeding and capping device for connecting an essential oil bottle with a cap body comprises an outer cap conveying mechanism 100 and a capping mechanism 130 which are sequentially arranged from left to right, wherein the outer cap conveying mechanism 100 comprises a vibrating disc 101 with a spiral channel 102 arranged on the inner side, at least one discharging channel 103 is connected to the outer side of the vibrating disc 101, the vibrating disc conveys the outer cap from bottom to top along the spiral channel by utilizing vibration, and the outer cap output by the vibrating disc moves along the discharging channel; each discharging channel 103 is respectively connected with a transversely arranged conveying track 105 through a diversion channel 104, and the unordered outer cover is automatically and orderly conveyed to the diversion channel in a vertical state by the vibration disc; a bottle conveying belt 112 is longitudinally arranged below the right end of the conveying rail 105, and the bottle conveying belt 112 is used for conveying the essential oil bottles from back to front along the longitudinal direction; the capping mechanism 130 comprises a liftable outer cover positioning seat 114 arranged on the right side of the conveying track and a capping station 115 arranged on the front side of the conveying track 105, the capping station 115 is provided with an outer cover adsorption seat 116 positioned above the outer cover positioning seat 114, the outer cover adsorption seat 116 is driven by a two-dimensional plane moving mechanism 117 to move vertically and longitudinally, and the outer cover adsorption seat 116 adsorbs the outer cover 113 conveyed to the outer cover positioning seat 114 to the capping station 115. During operation, unordered outer covers are automatically and orderly conveyed to a diversion channel in a vertical state through the vibration disc 101, diverted to a conveying track through the diversion channel, conveyed to a gland mechanism through the conveying track, the conveying track 105 conveys the vertically arranged outer covers 113 to the outer cover positioning seat 114, the two-dimensional plane moving mechanism 117 drives the outer cover adsorption seat 116 to move backwards to be right above the outer cover adsorption seat 114, then the outer cover positioning seat 114 drives the outer cover to move upwards to be in contact with the outer cover adsorption seat 116, and the outer cover adsorption seat 116 adsorbs the outer cover; and then the two-dimensional plane moving mechanism 117 drives the outer cover adsorption seat 116 and the outer cover 113 to move forwards to the capping station 115, the bottle body conveying belt 112 conveys the bottle body to the capping station 115, the bottle body is opposite to the outer cover in position, the two-dimensional plane moving mechanism 117 drives the outer cover adsorption seat 116 and the outer cover 113 to move downwards, and the outer cover is pressed on the outer side of a bottle mouth of the bottle body, so that capping is realized.

It should be noted that the vibration dish is current mature product, and the vibration dish is the auxiliary feeding equipment of an automatic assembly or automatic processing machinery, is abbreviated as part material feeding unit, vibration dish theory of operation: the frequency converter, the motor and the automatic conveying function are well known in the art and are not repeated here.

In this embodiment, the split-flow channel 104 is a Y-shaped channel with three ports, one port of the split-flow channel 104 is connected to the discharge channel 103, and the other two ports of the split-flow channel 104 are respectively connected to two conveying tracks 105, namely: one input and two outputs, one discharging channel can convey the outer cover for two conveying rails, and the two conveying rails are respectively connected with the two gland mechanisms.

In the embodiment, the device also comprises a split seat board 108 connected between the discharging channel 103 and the conveying track, and a split cover board is covered above the split seat board 108; the shunt channels 104 are provided on a shunt seat plate 108.

In this embodiment, an outer cover blanking hopper 106 is disposed directly above the vibration plate 101, and the outer cover blanking hopper 106 is connected with an outer cover feeding mechanism 107. The outer cover feeding mechanism 107 comprises an inverted frustum-shaped feeding hopper 109 arranged on the left side of the vibration disc 101, a lifting conveying belt 110 with a low left end and a high right end is arranged at the right end of the feeding hopper 109, a plurality of outer cover lifting supporting plates 111 are uniformly distributed on the surface of the lifting conveying belt 110, the outer cover lifting supporting plates 111 are perpendicular to the lifting conveying belt 110, and the right end of the lifting conveying belt 110 is located above the outer cover blanking hopper 106. When the automatic feeding device works, a large number of outer covers are manually poured into the upper hopper, the outer covers at the lower end of the upper hopper fall on the outer cover lifting supporting plates, then the lifting conveyor belt rotates clockwise, and the outer cover lifting supporting plates are driven to move when the lifting conveyor belt rotates, and the outer cover lifting supporting plates drive the outer covers to move upwards; when the outer cover lifting supporting plate moves to the position above the outer cover blanking hopper, the outer cover on the outer cover lifting supporting plate falls into the outer cover blanking hopper under the action of gravity, so that outer cover feeding is realized.

In another embodiment, the bottom of the upper end of the spiral channel 102 is provided with an air blowing opening for blowing air upwards, and the air blowing opening can blow the respective outer covers which are not in the vertical state upwards so as to make the outer covers in the vertical state.

In this embodiment, the upper end sidewall of the vibration disk 101 is provided with two output ports, the outer side of the vibration disk is connected with two discharge channels 103, the two discharge channels are respectively connected with the two output ports, and the two discharge channels are spirally wound on the outer side of the vibration disk 101. By adopting two discharging channels, the output efficiency of the outer cover can be improved.

It should be noted that the section of the conveying rail is U-shaped, and the bottom of the conveying rail is provided with a conveying belt.

In this embodiment, the bottom surface of the outer cover adsorption seat 116 is provided with an adsorption cavity 118 for accommodating the upper end of the outer cover, the shape of the adsorption cavity 118 is adapted to the shape of the outer cover 113 and is circular, and the adsorption cavity is connected with the negative pressure suction device through an air pipe. When the outer cover adsorption seat moves backward to the position right above the outer cover adsorption seat, the outer cover positioning seat drives the outer cover to move upwards until the upper end of the outer cover stretches into the adsorption cavity, and the adsorption cavity adsorbs the upper end of the outer cover.

In this embodiment, an outer cover positioning notch 119 opposite to the output port of the conveying rail 105 is disposed in the middle of the left end of the outer cover positioning seat 114, the shape of the outer cover positioning notch is adapted to the shape of the outer cover, and the outer cover positioning notch 119 is vertically through and is used for accommodating the outer cover output by the conveying rail. The outer cover that delivery track exported to the right is located the outer cover positioning notch, waits for the outer cover adsorption seat to adsorb.

In this embodiment, the two-dimensional plane moving mechanism 117 includes a longitudinal moving assembly 120, a vertical moving assembly 121 is mounted at a moving end of the longitudinal moving assembly 120, and a bottom of the moving end of the vertical moving assembly 121 is connected with a top of the outer cover adsorption seat 116 through a connecting column 122. When the device works, the vertical moving assembly drives the vertical moving assembly and the outer cover adsorption seat to move longitudinally and longitudinally, and the vertical moving assembly drives the outer cover adsorption seat to move vertically through the connecting column, so that the outer cover adsorption seat can move longitudinally and vertically. It should be noted that, the longitudinal moving assembly and the vertical moving assembly can all adopt linear displacement mechanisms such as ball screw mechanisms, linear motors, linear modules and the like, which are all existing mature products, and the structures thereof are not repeated here.

In this embodiment, a pair of L-shaped bottle clamping plates 123 are disposed below the two-dimensional plane moving mechanism 117, the L-shaped bottle clamping plates 123 are disposed above the bottle conveying belt 112, a bidirectional cylinder 124 is disposed between the vertical edges of the L-shaped bottle clamping plates 123, and the two telescopic ends of the bidirectional cylinder 124 are respectively connected with the vertical edges of the L-shaped bottle clamping plates 123, and the bidirectional cylinder drives the L-shaped bottle clamping plates 123 to move in opposite directions in the transverse direction so as to clamp the bottle; the bidirectional cylinder 124 is connected to the bottom of the moving end of the longitudinal moving assembly 120 through a connecting frame 125, and the bidirectional cylinder and the pair of L-shaped bottle clamping plates move along the longitudinal direction along with the moving end of the longitudinal moving assembly through the connecting frame.

In this embodiment, a pair of L-shaped bottle clamping plates 123 are provided inside the horizontal sides thereof with clamping blocks 126 for contacting the bottle, and the clamping blocks 126 correspond to the positions of the outer cap adsorption seats 116. When the bottle conveyer belt is used for conveying the vertically arranged bottles to the gland station, the bidirectional cylinder drives the pair of L-shaped bottle clamping plates to move in opposite directions along the transverse direction, the bottles are clamped by the clamping blocks, positioning of the bottles is achieved, and follow-up gland is facilitated.

In this embodiment, the outer cover adsorption base 114 is mounted on top of a lifting plate 127, and the lifting plate 127 is driven to lift by a lifting cylinder 128 above the lifting plate 127.

In this embodiment, a pair of longitudinal guide plates 129 are disposed above the bottle conveying belt 112, and the pair of longitudinal guide plates 129 are used for guiding the bottles during conveying, so as to reduce the horizontal toppling of the bottles.

The specific implementation process comprises the following steps: the unordered outer covers are automatically and orderly conveyed to the distribution channel 104 in a vertical state through the vibration disc 101, the unordered outer covers are distributed to the conveying track 105 through the distribution channel 104, the conveying track 105 conveys the vertically arranged outer covers 113 into the outer cover positioning gaps 119 of the outer cover positioning seats 114, then the longitudinal moving assembly 120 of the two-dimensional plane moving mechanism 117 drives the outer cover adsorption seats 116 to move backwards to be right above the outer cover positioning seats 114, and the adsorption cavities 118 at the bottoms of the outer cover adsorption seats 116 are opposite to the positions of the outer cover positioning gaps 119; then the lifting air cylinder 128 drives the outer cover positioning seat 114 to move upwards through the lifting plate 127, the outer cover 113 on the outer cover positioning seat 114 moves upwards to extend into the adsorption cavity 118 at the bottom of the outer cover adsorption seat 116, and the adsorption cavity 118 adsorbs the outer cover; then, the longitudinal moving assembly 120 of the two-dimensional plane moving mechanism 117 drives the outer cover adsorption seat 116 and the outer cover to move forwards to the gland station 115, the bottle body conveying belt 112 conveys the bottle bodies to the gland station 115, the bidirectional cylinder 124 drives the pair of L-shaped bottle body clamping plates 123 to move in opposite directions along the transverse direction, and the bottle bodies are clamped by the clamping blocks 126 to realize positioning of the bottle bodies, and at the moment, the positions of the bottle bodies and the outer covers are opposite; finally, the vertical moving assembly 121 of the two-dimensional plane moving mechanism 11 drives the outer cover adsorption seat 116 and the outer cover to move downwards, so that the outer cover is pressed and arranged on the outer side of the bottle mouth of the bottle body, and the gland is realized.

The utility model has the advantages that: (1) The unordered outer cover is automatically and orderly conveyed to the diversion channel in a vertical state through the vibration disc, the unordered outer cover is diverted to the conveying track through the diversion channel, and the unordered outer cover is conveyed to all gland equipment through the conveying track without manual arrangement and placement of the outer cover, so that the arrangement and conveying efficiency of the outer cover is effectively improved. The method comprises the steps of carrying out a first treatment on the surface of the (2) The outer cover adsorption seat is utilized to adsorb the outer cover output by the conveying rail to the gland station, and then the outer cover is pressed on the bottle body, so that the outer cover and the gland are not required to be manually placed, and the gland efficiency of the essential oil bottle is effectively improved.

If the utility model discloses or relates to components or structures fixedly connected with each other, then unless otherwise stated, the fixed connection is understood as: detachably fixed connection (e.g. using bolts or screws) can also be understood as: the non-detachable fixed connection (e.g. riveting, welding), of course, the mutual fixed connection may also be replaced by an integral structure (e.g. integrally formed using a casting process) (except for obviously being unable to use an integral forming process).

In addition, terms used in any of the above-described aspects of the present disclosure to express positional relationship or shape have meanings including a state or shape similar to, similar to or approaching thereto unless otherwise stated.

Any part provided by the utility model can be assembled by a plurality of independent components, or can be manufactured by an integral forming process.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model and not for limiting the same; while the utility model has been described in detail with reference to the preferred embodiments, those skilled in the art will appreciate that: modifications may be made to the specific embodiments of the present utility model or equivalents may be substituted for part of the technical features thereof; without departing from the spirit of the utility model, it is intended to cover the scope of the utility model as claimed.

Claims (10)

1. A material loading capping device for essential oil bottle is connected with lid, its characterized in that: the bottle conveying device comprises an outer cover conveying mechanism and a gland mechanism which are sequentially arranged from left to right, wherein the outer cover conveying mechanism comprises a vibrating disc with a spiral channel arranged on the inner side, at least one discharging channel is connected to the outer side of the vibrating disc, each discharging channel is connected with a conveying track which is transversely arranged through a shunting channel, and a bottle conveying belt is longitudinally arranged below the right end of the conveying track; the gland mechanism comprises a liftable outer cover positioning seat arranged on the right side of the conveying track and a gland station arranged on the front side of the conveying track, wherein an outer cover adsorption seat arranged above the outer cover positioning seat is arranged at the gland station, the outer cover adsorption seat is driven by a two-dimensional plane moving mechanism to move vertically and longitudinally, and the outer cover adsorption seat adsorbs an outer cover conveyed to the outer cover positioning seat to the gland station.

2. The feeding gland device for connecting an essential oil bottle with a cap body according to claim 1, wherein: the split flow channel is a Y-shaped channel with three ports, one port of the split flow channel is connected with the discharging channel, the other two ports of the split flow channel are respectively connected with two conveying tracks, and each conveying track is respectively connected with a gland mechanism.

3. The feeding gland device for connecting an essential oil bottle with a cap body according to claim 1, wherein: an outer cover blanking hopper is arranged right above the vibration disc and connected with an outer cover feeding mechanism.

4. A feeding capping device for connection of an essential oil bottle to a cap according to claim 3, wherein: the outer cover feeding mechanism comprises a reverse conical table-shaped feeding hopper arranged on the left side of the vibrating plate, a lifting conveying belt with a low left end and a high right end is arranged at the right end of the feeding hopper, a plurality of outer cover lifting supporting plates are uniformly distributed on the surface of the lifting conveying belt, the outer cover lifting supporting plates are perpendicular to the lifting conveying belt, and the right end of the lifting conveying belt is located above the outer cover blanking hopper.

5. The feeding gland device for connecting an essential oil bottle with a cap body according to claim 1, wherein: the bottom surface of enclosing cover adsorption seat is equipped with and is used for holding the adsorption chamber of enclosing cover upper end, the shape in adsorption chamber suits with the shape of enclosing cover.

6. The feeding gland device for connecting an essential oil bottle with a cap body according to claim 1, wherein: the middle part of the left end of the outer cover positioning seat is provided with an outer cover positioning notch opposite to the output port of the conveying rail, and the outer cover positioning notch is vertically communicated and used for accommodating the outer cover output by the conveying rail.

7. The feeding gland device for connecting an essential oil bottle with a cap body according to claim 1, wherein: the two-dimensional plane moving mechanism comprises a longitudinal moving assembly, a vertical moving assembly is arranged at the moving end of the longitudinal moving assembly, and the bottom of the moving end of the vertical moving assembly is connected with the top of the outer cover adsorption seat through a connecting column.

8. The feeding capping device for connecting an essential oil bottle to a cap of claim 7, wherein: the two-dimensional plane moving mechanism is characterized in that a pair of L-shaped bottle clamping plates which are distributed at intervals left and right are arranged below the two-dimensional plane moving mechanism, the pair of L-shaped bottle clamping plates are located above the bottle conveying belt, a transverse-mounted bidirectional cylinder is arranged between the upper ends of the vertical edges of the pair of L-shaped bottle clamping plates, two telescopic ends of the bidirectional cylinder are respectively connected with the upper ends of the vertical edges of the pair of L-shaped bottle clamping plates so as to drive the pair of L-shaped bottle clamping plates to move in the transverse direction in opposite directions to clamp the bottle, and the bidirectional cylinder is connected with the bottom of the moving end of the longitudinal moving assembly through a connecting frame.

9. The feeding capping device for connecting an essential oil bottle to a cap of claim 8, wherein: the inner sides of the horizontal edges of the pair of L-shaped bottle body clamping plates are provided with clamping blocks for contacting with the bottle body, and the clamping blocks correspond to the outer cover adsorption seats in position.

10. The feeding gland device for connecting an essential oil bottle with a cap body according to claim 1, wherein: the outer cover adsorption seat is arranged at the top of a lifting plate, and the lifting plate is driven to lift by a lifting cylinder above the lifting plate.