CN218839958U - All-in-one machine for putting drying agent into and pressing cover - Google Patents

Abstract

The utility model discloses a gland all-in-one is put in to drier, including organism and electrical control mechanism, install the carousel on the organism, around being equipped with in proper order around the carousel and sending bottle mechanism, feeding mechanism, sending lid mechanism, gland mechanism and going out bottle mechanism, send lid mechanism including the mount pad, be equipped with on the mount pad and send the lid pipe, there is the shell fragment in the exit of sending the lid pipe through shell fragment support mounting, the shell fragment hangs and sets up towards the bottle slope on sending the bottle that the lid pipe was aimed at. The utility model can complete the drying agent feeding and capping operation on one piece of equipment at one time by respectively arranging the existing bottle feeding mechanism, cap feeding mechanism, capping mechanism, bottle discharging mechanism and the like around the turnplate, the whole equipment structure is simple, the operation process is automatically completed by the equipment, and the efficiency is high; through the design shell fragment in the exit of sending the lid mechanism, can put the lid of bottleneck department flat, prevent the not right condition of lid gesture to be favorable to accurately accomplishing the gland operation.

Description

All-in-one machine for putting drying agent into and pressing cover

Technical Field

The utility model relates to a equipment for packing technical field, concretely relates to an equipment for realizing putting in the bottle and accomplishing the bottle and carrying out the gland with the drier.

Background

Many products, such as pharmaceuticals, food products, etc., are packaged in bottles, and for products that are to be kept dry, a desiccant is placed in the bottles. The drying agent is generally put into one device in the prior art, then the cover is covered by one device, and finally the cover is covered by the other device. Therefore, the structure is complex, the cost is high, and a plurality of rotation links are needed, so that the production efficiency is low. For this reason, although the inventors have invented a device capable of integrating a plurality of processes, such a device used in the industry at present is relatively complicated in structure. And the lid puts the condition that often can appear putting not well through sending the lid device on the bottleneck, for example the lid does not put flatly, and the gesture of lid if put not well can cause the inaccurate problem of gland again to produce the quality problem.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to prior art's defect, provide a structure simpler, degree of automation is high, the lid is put smooth drier and is put in gland all-in-one.

In order to solve the technical problem, the utility model adopts the following technical scheme: a desiccant feeding and capping integrated machine comprises a machine body and an electric control mechanism, wherein a rotary table is mounted on the machine body, the rotary table is connected with a rotary cylinder, and a plurality of arc-groove-shaped bottle clamping positions are uniformly arranged along the edge of the rotary table; be provided with the tray in the below of carousel, hold the bottle by the tray, its characterized in that: a bottle feeding mechanism, a cap pressing mechanism and a bottle discharging mechanism are sequentially arranged at positions around the rotary table to form a bottle feeding station, a cap pressing station and a bottle discharging station respectively; bottle blocking strips are arranged from the feeding station to the outer side of the capping station, and are used for blocking bottles moving along with the rotation of the turntable, so that the bottles are prevented from moving outwards when rotating along with the turntable; the cap conveying mechanism comprises a mounting seat, a cap conveying pipe is arranged on the mounting seat, an inlet of the cap conveying pipe is in butt joint with the cap conveying groove, and an outlet of the cap conveying pipe is aligned with a bottle between the feeding station and the capping station; the cap conveying pipe is arranged in an inclined mode towards the bottle, an elastic sheet is installed at the outlet of the cap conveying pipe through an elastic sheet support, and the elastic sheet is suspended above the bottle aligned with the cap conveying pipe and is also arranged in an inclined mode towards the bottle. After the cover falls onto the bottle opening through the outlet of the cover conveying pipe, the elastic sheet can press the cover, and when the bottle rotates along with the rotary disc, the elastic sheet can apply some pressure on the surface of the cover to sweep, so that the cover is placed flatly.

Furthermore, the electric control mechanism is arranged behind the turntable, and the feeding mechanism is arranged on the electric control mechanism; the feed tube of the feed mechanism extends downward to effect the introduction of desiccant packages into bottles aligned with the feed tube. After being fed into the feeding mechanism through the feeding mechanism, the desiccant material bag falls into the bottle opposite to the desiccant material bag from the feeding pipe.

Furthermore, a first vibration cylinder is arranged at the position, aligned with the feeding pipe, of the bottom surface of the tray, and the bottle which is rotated to be aligned with the feeding pipe is vibrated through the first vibration cylinder, so that the desiccant bag can sink downwards.

Further, a second vibration cylinder is further arranged on the bottom surface of the tray, the second vibration cylinder is located between the feeding station and the cap feeding station, and the second vibration cylinder vibrates the bottle which is aligned to the second vibration cylinder in a rotating mode for the second time, so that the desiccant material bag is enabled to be completely immersed into the bottom of the bottle.

Furthermore, the mounting seat is arranged on a mounting bracket through the side surface of the mounting seat, and the mounting bracket is fixed on the machine body and stands outside the turntable; set up vertical bar hole on the installing support, the mount pad uses the screw to pass the installation of bar hole for the height position of mount pad can be adjusted, thereby adapts to the lid of different specifications.

Furthermore, the gland mechanism comprises a pressure head, the pressure head is connected to the bottom of a gland cylinder, and the gland cylinder is arranged on a support seat; the supporting seat is arranged on an installation bracket which is fixed on the machine body and stands outside the turntable; set up vertical bar hole on this installing support, the supporting seat uses the screw to pass the installation of bar hole for the height position of supporting seat can be adjusted, thereby adapts to the bottle of different specifications.

Preferably, the bottle conveying mechanism and the bottle discharging mechanism both adopt a conveying belt device which runs circularly.

The utility model arranges the prior bottle feeding mechanism, the prior cap pressing mechanism, the prior bottle discharging mechanism and the like around the turnplate respectively to form a bottle feeding station, a cap pressing station and a bottle discharging station respectively, thereby completing the throwing-in and the cap pressing operation of the drying agent on one device at one time, and the structure of the whole device is simpler, the operation process is automatically completed by the device, and the efficiency is high; the elastic sheet is designed at the outlet of the cap feeding mechanism, so that the cap placed at the bottle mouth can be flatly placed, the situation that the cap is not in the right posture is prevented, and the cap pressing operation can be accurately completed.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

fig. 2 is a schematic view of the overall structure of the present invention from another angle;

fig. 3 is a partial schematic view of the cap feeding mechanism and the capping mechanism in cooperation with the bottle.

In the figure, 1 is a machine body, 2 is a rotary table, 21 is a bottle clamping position, 22 is a rotary cylinder, 23 is a first vibrating cylinder, 24 is a second vibrating cylinder, 25 is a bottle blocking strip, 3 is a feeding mechanism, 31 is a blanking pipe, 4 is a bottle feeding mechanism, 5 is a cap feeding mechanism, 51 is a mounting seat, 52 is a cap feeding pipe, 53 is a spring piece support, 54 is a mounting support, 55 is a strip-shaped hole, 6 is a capping mechanism, 61 is a pressure head, 62 is a capping cylinder, 63 is a supporting seat, 64 is a mounting support, 65 is a strip-shaped hole, 7 is a tray, 8 is a bottle discharging mechanism, 9 is an electric control mechanism and 10 is a bottle.

Detailed Description

In the embodiment, referring to fig. 1, 2 and 3, the drying agent feeding and capping all-in-one machine comprises a machine body 1 and an electric control mechanism 9, wherein a turntable 2 is mounted on the machine body 1, the turntable 2 is connected with a rotary cylinder 22, and a plurality of arc-groove-shaped bottle clamping positions 21 are uniformly arranged along the edge of the turntable 2; a tray 7 is arranged below the rotary table 2 and used for supporting a bottle 10; a bottle feeding mechanism 4, a feeding mechanism 3, a cap feeding mechanism 5, a capping mechanism 6 and a bottle discharging mechanism 8 are sequentially arranged at positions around the turntable 2 to respectively form a bottle feeding station, a cap feeding station, a capping station and a bottle discharging station; a bottle blocking strip 25 is arranged on the outer side from the feeding station to the capping station, the bottle 10 moving along with the rotation of the turntable 2 is blocked by the bottle blocking strip 25, the bottle 10 is prevented from going outwards when rotating along with the turntable 2, and the bottle blocking strip is not arranged at any position so as to facilitate the entering and exiting of the bottle; the cap feeding mechanism 5 comprises a mounting seat 51, a cap feeding pipe 52 is arranged on the mounting seat 51, the inlet of the cap feeding pipe 52 is butted with a cap conveying groove (peripheral equipment, not shown), and the outlet of the cap feeding pipe 52 is aligned with one of the bottles between the feeding station and the capping station; the cap feeding pipe 52 is arranged obliquely towards the bottle so that the cap can fall directly into the bottle 10; an elastic sheet is mounted at the outlet of the cap feeding pipe 52 through an elastic sheet support 53, the elastic sheet is suspended above the bottle aligned with the cap feeding pipe and is also inclined toward the bottle (the elastic sheet is not shown, and may be a stainless steel sheet with a width slightly smaller than the diameter of the cap, and may be mounted on the elastic sheet support 53 in cooperation with a torsion spring, and the elastic sheet is pressed downward by the torsion spring so as to be pressed onto the cap with a proper force). After the cover falls onto the bottle mouth through the outlet of the cover feeding pipe 52, the elastic sheet can press the cover, and when the bottle rotates along with the rotary table 2, the elastic sheet can apply some pressure on the surface of the cover to sweep, so that the cover is placed flatly, and the cover can be pressed accurately in the subsequent process.

The electric control mechanism 9 is arranged behind the turntable 2, and the feeding mechanism 3 is arranged on the electric control mechanism 9; the feed pipe 31 of the feed mechanism 3 projects downwards to effect the introduction of desiccant packages into bottles aligned with the feed pipe 31. The desiccant package is fed into the feeding mechanism 3 by a feeding mechanism (peripheral device, not shown), and then dropped from the feeding pipe 31 into the bottle opposite thereto.

A first vibration cylinder 23 is arranged at the position of the bottom surface of the tray 7 aligned with the feeding pipe 31, and the bottle which is rotated to be aligned with the feeding pipe 31 is vibrated through the first vibration cylinder 23 so as to enable the desiccant material bag to sink.

And a second vibration cylinder 24 is further arranged on the bottom surface of the tray 7, the second vibration cylinder 24 is positioned between the feeding station and the cap feeding station, and the second vibration cylinder 24 performs secondary vibration on the bottle aligned to the second vibration cylinder 24 so as to enable the desiccant bag to be completely sunk into the bottom of the bottle.

The mounting seat 51 is arranged on a mounting bracket 54 through the side surface of the mounting seat, and the mounting bracket 54 is fixed on the machine body 1 and stands outside the turntable 2; set up vertical bar hole 55 on installing support 54, mount pad 51 uses the screw to pass the installation of bar hole 55 for the height position of mount pad 51 can be adjusted, thereby adapts to the lid of different specifications.

The gland mechanism 6 comprises a pressure head 61, the pressure head 61 is connected to the bottom of a gland cylinder 62, and the gland cylinder 62 is arranged on a supporting seat 63; the supporting seat 63 is installed on a mounting bracket 64, and the mounting bracket 64 is fixed on the machine body 1 and stands outside the turntable 2; set up vertical bar hole 65 on this installing support 64, the supporting seat 63 uses the screw to pass the installation of bar hole 65 for the height position of supporting seat 63 can be adjusted, thereby adapts to the bottle of different specifications. When the bottle with the cap is rotated to the position below the pressing head 61 along with the turntable 2, the pressing head cylinder 62 is started to press the pressing head 61 downwards, and the cap is pressed on the bottle. After the completion, the gland cylinder 62 retracts, the pressure head 61 rises, the turntable 2 continues to rotate, and the process is repeated.

The bottle feeding mechanism 4 and the bottle discharging mechanism 8 both adopt conveying belt devices which circularly operate.

The above detailed description is only for the preferred embodiment of the present invention, and the scope of the present invention should not be limited by the above detailed description, and all the equivalent variations and modifications made according to the scope of the present invention should be included in the scope of the present invention.

Claims (7)

1. A desiccant feeding and capping integrated machine comprises a machine body and an electric control mechanism, wherein a rotary table is mounted on the machine body, the rotary table is connected with a rotary air cylinder, and a plurality of arc-groove-shaped bottle clamping positions are uniformly arranged along the edge of the rotary table; be provided with the tray in the below of carousel, hold the bottle by the tray, its characterized in that: a bottle feeding mechanism, a cap pressing mechanism and a bottle discharging mechanism are sequentially arranged at positions around the rotary table to form a bottle feeding station, a cap pressing station and a bottle discharging station respectively; bottle blocking strips are arranged from the feeding station to the capping station, and the bottles moving along with the rotation of the rotary table are blocked by the bottle blocking strips; the cap feeding mechanism comprises a mounting seat, a cap feeding pipe is arranged on the mounting seat, an inlet of the cap feeding pipe is in butt joint with the cap conveying groove, and an outlet of the cap feeding pipe is aligned with a bottle between the feeding station and the capping station; the cap conveying pipe is obliquely arranged towards the bottle, the elastic sheet is arranged at the outlet of the cap conveying pipe through the elastic sheet bracket, and the elastic sheet is suspended above the bottle aligned with the cap conveying pipe and is also obliquely arranged towards the bottle so as to realize that the cap conveyed to the bottle is flatly placed.

2. The desiccant feeding and capping all-in-one machine according to claim 1, wherein: the electric control mechanism is arranged behind the turntable, and the feeding mechanism is arranged on the electric control mechanism; the feed tube of the feed mechanism extends downward to effect the introduction of desiccant packages into bottles aligned with the feed tube.

3. The desiccant feeding and capping all-in-one machine according to claim 2, wherein: a first vibration cylinder is arranged at the position, aligned with the feeding pipe, of the bottom surface of the tray, and the bottle which is rotated to be aligned with the feeding pipe is vibrated through the first vibration cylinder.

4. The desiccant feeding and capping all-in-one machine according to claim 3, wherein: and a second vibration cylinder is arranged on the bottom surface of the tray, is positioned between the feeding station and the cap feeding station, and performs secondary vibration on the bottle which is rotated to be aligned with the second vibration cylinder through the second vibration cylinder.

5. The desiccant feeding and capping all-in-one machine according to claim 1, wherein: the mounting seat is arranged on a mounting bracket through the side surface of the mounting seat, and the mounting bracket is fixed on the machine body and stands outside the turntable; set up vertical bar hole on the installing support, the mount pad uses the screw to pass the installation of bar hole.

6. The desiccant feeding and capping all-in-one machine according to claim 1, wherein: the gland mechanism comprises a pressure head, the pressure head is connected to the bottom of a gland cylinder, and the gland cylinder is arranged on a supporting seat; the supporting seat is arranged on an installation bracket which is fixed on the machine body and stands outside the turntable; set up vertical bar hole on the installing support, the supporting seat uses the screw to pass the installation of bar hole.

7. The desiccant feeding and capping all-in-one machine according to claim 1, wherein: the bottle feeding mechanism and the bottle discharging mechanism both adopt conveying belt devices which circularly operate.

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