CN216073043U - Vacuum sucking and releasing type medicine bottle carrier - Google Patents

Abstract

The utility model discloses a vacuum sucking and releasing type medicine bottle carrier, which comprises: the vacuum sealing device comprises a carrier body, a sucker arranged in the carrier body, a vacuum joint arranged on the carrier body and communicated with an air channel, a first spring seat arranged on the carrier body, a push rod arranged in the first spring seat and movably arranged with the second port in the same axial direction, and a sealing silica gel pad arranged on one side face and used for sealing the second port. The utility model adopts the design of a vacuum suction mode, can realize the fast and stable medicine bottle carrying, is easy to remove waste bottles, has simple structure and is easier to use.

Description

Vacuum sucking and releasing type medicine bottle carrier

Technical Field

The utility model relates to mechanical equipment, in particular to a vacuum sucking and releasing type medicine bottle carrier.

Background

The existing medicine bottle carrier does not have a vacuum adsorption function, is easy to shake and drop when carrying medicine bottles for transportation, and how to realize that the carrier carries the medicine bottles for quick and stable transportation and easily rejects unqualified medicine bottles is a difficult problem in the industry.

Disclosure of Invention

The present invention is directed to solve the above problems, and an object of the present invention is to provide a vacuum suction-discharge type medicine bottle carrier, which can quickly and stably carry medicine bottles, easily remove waste bottles, and has a simple structure and is more practical.

The purpose of the utility model is realized as follows:

the vacuum sucking and releasing type medicine bottle carrier of the utility model comprises:

the carrier body at least comprises an arc groove matched with the side surface of the medicine bottle and a platform position for lifting the medicine bottle;

the sucking disc is arranged in the carrier body and used for horizontally sucking the medicine bottle positioned in the arc-shaped groove position, and an air channel connected with the sucking disc is arranged in the carrier body;

the vacuum joint is arranged on the carrier body and communicated with the other end of the air channel, the vacuum joint is connected with an electromagnetic valve provided with two air channels, one air channel of the electromagnetic valve is used for connecting the vacuum joint with the atmosphere, and the other air channel is used for connecting the vacuum joint with a vacuum generating device;

the first spring seat is arranged on the carrier body and is provided with a first port and a second port for communicating with the air channel, wherein the first port is positioned on one side of the air channel close to the suction disc, and the second port is positioned on one side of the air channel close to the vacuum joint;

the ejector rod is arranged in the first spring seat and is coaxially and movably arranged with the second port, two ends of the ejector rod are respectively an acting end and a control end, the acting end is provided with a first reset mechanism, the acting end can enter and exit through the second port in the moving range of the ejector rod, and the first port and the second port are in a communicated state in the moving range of the ejector rod; and

and one side surface of the sealing silica gel pad is used for sealing the second port, and the other side surface of the sealing silica gel pad is fixedly arranged on the end surface of a second resetting mechanism.

The carrier body in the vacuum sucking and releasing type medicine bottle carrier comprises a first horizontal part and a second horizontal part which are arranged up and down, and a vertical part which is connected with the left ends of the first horizontal part and the second horizontal part;

the right end face of the first horizontal part in the vacuum sucking and releasing type medicine bottle carrier is provided with an arc-shaped groove position, and the top face of the second horizontal part is provided with a platform position;

the first horizontal part is provided with a sucker mounting hole site for installing a sucker.

The vacuum generating device in the vacuum sucking and releasing type medicine bottle carrier is a vacuum pump, and the vacuum joint is connected with the carrier body through a buckle structure.

In the vacuum sucking and releasing type medicine bottle carrier, the first port in the first spring seat is positioned at the upper end, the second port is positioned at the right end, and the right end of the first spring seat is provided with a sealing ring for sealing with the carrier body.

The first reset mechanism in the vacuum suction-release type medicine bottle carrier is a first spring part sleeved at the action end of the ejector rod, and the control end of the ejector rod is provided with a sealing silica gel gasket for sealing the first spring seat and the carrier body.

The inner ring edge of the sealing silica gel gasket in the vacuum suction-release type medicine bottle carrier is arranged on the control end of the ejector rod through a nut.

A nut gasket is arranged between the nut and the sealing silica gel gasket in the vacuum suction-release type medicine bottle carrier.

The outer edge of the sealing silica gel gasket in the vacuum suction-release type medicine bottle carrier is fixed with the carrier body through a pressing plate by utilizing a plurality of bolts.

The second reset mechanism in the vacuum suction-release type medicine bottle carrier is a second spring seat with a second spring part arranged inside.

The utility model adopts the design of a vacuum suction mode, can realize the fast and stable medicine bottle carrying, is easy to remove waste bottles, has simple structure and is easier to use.

Drawings

FIG. 1 is a cross-sectional view of a vacuum pick-and-place vial carrier of the present invention (without the solenoid valve);

fig. 2 is a perspective view of the vacuum sucking and releasing type medicine bottle carrier of the present invention.

Detailed Description

The utility model will be further explained with reference to the drawings.

Referring to fig. 1 and 2, there is shown a vacuum pick-and-place vial carrier of the present invention, comprising:

a carrier body 1, the carrier body 1 at least comprises an arc groove 11 matched with the side surface of the medicine bottle 2 and a platform position 12 for lifting the bottom of the medicine bottle 2; in this embodiment, the carrier body 1 includes a first horizontal portion 14, a second horizontal portion 15 and a vertical portion 16 connecting left ends of the first horizontal portion 14 and the second horizontal portion 15; wherein, the right end face of the first horizontal part 14 is provided with an arc groove 11, and the top face of the second horizontal part 15 is provided with a platform position 12;

a sucker 3 which is arranged in the carrier body 1 and is used for horizontally adsorbing the medicine bottle 2 positioned in the arc-shaped slot position 11, and an air channel 13 connected with the sucker 3 is arranged in the carrier body 1; the first horizontal part 14 is provided with a sucker mounting hole 31 for mounting the sucker 3;

a vacuum joint 4 installed on the carrier body 1 and communicated with the other end of the air channel 13, the vacuum joint 4 being connected with an electromagnetic valve 41 having two air channels therein, one of the air channels being used to connect the vacuum joint 4 to the atmosphere, the other air channel being used to connect the vacuum joint 4 to a vacuum generating device (not shown in the figure), in this embodiment, the vacuum generating device is a vacuum pump, and the vacuum joint 4 is connected with the carrier body 1 through a buckle structure;

a first spring seat 5 which is arranged on the carrier body 1 and is provided with a first port 51 and a second port 55 for communicating with the air channel 13, wherein the first port 51 is positioned on one side of the air channel 13 close to the suction cup 3, and the second port 55 is positioned on one side of the air channel 13 close to the vacuum joint 4; in this embodiment, the first port 51 of the first spring seat 5 is located at the upper end, the second port 55 is located at the right end, and the right end of the first spring seat 5 is provided with a sealing ring 53 for sealing with the carrier body 1;

a push rod 6 which is arranged in the first spring seat 5 and is coaxially and movably arranged with the second port 55, wherein the two ends of the push rod 6 are respectively an acting end and a control end, the acting end is provided with a first reset mechanism 61, the acting end can pass in and out of the second port 55 in the movable range of the push rod 6, and the first port 51 and the second port 55 are in a communicated state in the movable range of the push rod 6; in this embodiment, the first reset mechanism 61 is a first spring piece sleeved at the action end of the carrier rod 6, the control end of the carrier rod 6 is provided with a sealing silica gel gasket 62 for sealing the first spring seat 5 with the carrier body 1, the inner ring edge of the sealing silica gel gasket 62 is fixed with the carrier rod 6 through a nut 63, a nut gasket 64 is arranged between the nut 63 and the sealing silica gel gasket 62, and the outer edge of the sealing silica gel gasket 62 is fixedly mounted with the carrier body 1 through a pressure plate 65 and by using a plurality of bolts; and

a silicone sealing gasket 7 having one side surface for sealing the second port 55, wherein the other side surface of the silicone sealing gasket 7 is fixedly mounted on an end surface of a second reset mechanism 71, in this embodiment, the second reset mechanism 71 is a second spring seat with a second spring member 72 inside.

The novel usage is that the medicine bottle 2 is arranged on the carrier body 1, the vacuum joint 4 is connected with the vacuum pump through the pipeline to vacuumize the air channel 13 of the carrier body 1 to enable the spring seat to move to the right, the channel is opened, the sucking disc 3 sucks the medicine bottle 2, after the medicine bottle 2 is sucked, the vacuum joint 4 cuts off the vacuum, the second spring part 72 pushes the spring seat to rapidly close the second port 55 to enable the medicine bottle 2 on the carrier body 1 to be firmly adsorbed on the carrier body 1 all the time, during the subsequent operation, the medicine bottle 2 does not shake or fall off any more, the subsequent medicine filling and plugging are facilitated, when the operations such as filling the medicine liquid and plugging are carried out in the transportation process, when the unqualified filling amount or the unqualified plugging are found, the control end of the ejector rod 6 is rapidly pushed through other execution mechanisms, the sealing silica gel gasket 62 is partially deformed, the action end of the ejector rod 6 enables the second spring seat to move, the sealing silica gel gasket 7 relieves the sealing of the second port 52, the atmosphere enters the air passage 13 of the carrier body 1, and the medicine bottle 2 is released by the suction cup 3 to be rejected.

The above embodiments are provided only for illustrating the present invention and not for limiting the present invention, and those skilled in the art can make various changes and modifications without departing from the spirit and scope of the present invention, and therefore all equivalent technical solutions should also fall within the scope of the present invention, and should be defined by the claims.

Claims (10)

1. A vacuum pick-and-place vial carrier, comprising:

the carrier body at least comprises an arc groove matched with the side surface of the medicine bottle and a platform position for lifting the medicine bottle;

the sucking disc is arranged in the carrier body and used for horizontally sucking the medicine bottle positioned in the arc-shaped groove position, and an air channel connected with the sucking disc is arranged in the carrier body;

the vacuum joint is arranged on the carrier body and is communicated with the other end of the air channel, the vacuum joint is connected with an electromagnetic valve provided with two air channels, one air channel of the electromagnetic valve is used for connecting the vacuum joint with the atmosphere, and the other air channel is used for connecting the vacuum joint with a vacuum generating device;

the first spring seat is arranged on the carrier body and is provided with a first port and a second port which are used for being communicated with the air channel, wherein the first port is positioned on one side of the air channel, which is close to the sucker, and the second port is positioned on one side of the air channel, which is close to the vacuum joint;

the ejector rod is arranged in the first spring seat and is coaxially and movably arranged with the second port, two ends of the ejector rod are respectively an acting end and a control end, the acting end is provided with a first reset mechanism, the acting end can enter and exit through the second port in the moving range of the ejector rod, and the first port and the second port are in a communicated state in the moving range of the ejector rod; and

and one side surface of the sealing silica gel pad is used for sealing the second port, and the other side surface of the sealing silica gel pad is fixedly arranged on the end surface of a second resetting mechanism.

2. The vacuum pick-and-place vial carrier of claim 1, wherein the carrier body comprises a first horizontal portion and a second horizontal portion disposed one above the other, and a vertical portion connecting left ends of the first horizontal portion and the second horizontal portion.

3. The vacuum pick-and-place vial carrier of claim 2 wherein the right end surface of the first horizontal portion defines the arcuate slot and the top surface of the second horizontal portion defines the platform location;

and the first horizontal part is provided with a sucker mounting hole site for mounting the sucker.

4. The vacuum pick-and-place vial carrier of claim 1, wherein the vacuum generating device is a vacuum pump and the vacuum connector is connected to the carrier body by a snap-fit structure.

5. The vacuum pick-and-place vial carrier of claim 1, wherein the first port is at an upper end and the second port is at a right end of the first spring seat, the right end of the first spring seat being provided with a sealing ring for sealing with the carrier body.

6. The vacuum pick-and-place vial carrier of claim 1 wherein the first return mechanism is a first spring member received over the actuation end of the lift pin, the control end of the lift pin having a silicone gasket mounted thereon for sealing the first spring seat to the carrier body.

7. The vacuum pick-and-place vial carrier of claim 6, wherein the inner rim of the silicone sealing gasket is mounted on the control end of the lift rod by a nut.

8. The vacuum pick-and-place vial carrier of claim 7, wherein a nut gasket is disposed between the nut and the silicone sealing gasket.

9. The vacuum pick-and-place vial carrier of claim 6, wherein the outer edge of the silicone sealing gasket is secured to the carrier body by a pressure plate and bolts.

10. The vacuum pick-and-place vial carrier of claim 1, wherein the second return mechanism is a second spring seat having a second spring member disposed therein.

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