CN209945611U - Full-automatic assembling and detecting machine for vacuum bottle - Google Patents

Abstract

The utility model discloses a full-automatic assembly detection machine for vacuum bottles, which comprises a spiral cover driving mechanism, a connecting plate, a spiral cover shaft, a vacuum cover, an inflation tube, a sealing ring, a spiral cover head, an air exhaust joint, a clamp, a first lifting cylinder, a second lifting cylinder and a controller, wherein the spiral cover driving mechanism is arranged at the upper left part of the connecting plate, the spiral cover head is connected below the spiral cover driving mechanism through the spiral cover shaft, and a vacuum bottle is arranged right below the spiral cover head; a second lifting cylinder is connected to the upper right of the connecting plate; an air extraction joint is embedded in the side edge of the vacuum cover and is connected with a vacuum extractor through a pipeline; the side edge of the vacuum cover is connected with a vacuum degree detector through a vacuum pipeline, and the vacuum pipeline is connected with a barometer; the cover screwing driving mechanism, the barometer, the vacuum degree detector and the vacuumizing device are all electrically connected with a controller. The utility model discloses can realize automatic bottle lid equipment, can detect whether the vacuum and the atmospheric pressure of equipment environment accord with required requirement simultaneously.

Description

Full-automatic assembling and detecting machine for vacuum bottle

[ technical field ] A method for producing a semiconductor device

The utility model relates to a technical field of vacuum bottle, especially the technical field of the full-automatic equipment detection machine of vacuum bottle.

[ background of the invention ]

The vacuum bottle is a container capable of isolating gas from the outside temperature or isolating external bacteria. The vacuum bottle mainly comprises a vacuum plastic bottle and a vacuum glass bottle according to the material, wherein the vacuum plastic bottle and the vacuum glass bottle are used for containing cosmetics, and the vacuum glass bottle is commonly used for containing high-grade cosmetics. In order to make the cap screwing more efficient, a fully automatic assembling and detecting machine for vacuum bottles is needed.

[ Utility model ] content

The utility model aims at solving the problem among the prior art, provide a full automatic assembly of vacuum bottle detects machine, can realize automatic bottle lid equipment, can detect whether the vacuum and the atmospheric pressure of equipment environment accord with required requirement simultaneously.

In order to achieve the purpose, the utility model provides a full-automatic assembly detection machine of vacuum bottle, including spiral cover actuating mechanism, connecting plate, spiral cover axle, vacuum hood, gas tube, sealing washer, spiral cover head, bleed-off joint, anchor clamps, first lift cylinder, second lift cylinder and controller, install spiral cover actuating mechanism in the upper left side of connecting plate, connect with the spiral cover head through the spiral cover axle below the spiral cover actuating mechanism, be equipped with the vacuum bottle directly below the spiral cover head, be equipped with anchor clamps below the vacuum bottle, be equipped with first lift cylinder below the anchor clamps; a vacuum cover is matched under the connecting plate, a sealing ring is arranged in a first sealing ring groove at the upper end of the vacuum cover, and the left end of the sealing ring is externally connected with a pressure air source through an inflation tube; a second lifting cylinder is connected to the upper right of the connecting plate; an air extraction joint is embedded in the side edge of the vacuum cover and is connected with a vacuum extractor through a pipeline; the side edge of the vacuum cover is connected with a vacuum degree detector through a vacuum pipeline, and the vacuum pipeline is connected with a barometer; the cover screwing driving mechanism, the barometer, the vacuum degree detector and the vacuumizing device are all electrically connected with a controller.

Preferably, a pipe groove is formed in the side face of the vacuum cover, and an inflation pipe is arranged in the pipe groove.

Preferably, the vacuum cover is of an annular hollow shell structure, a first sealing ring groove is formed in the upper end of the vacuum cover, a sealing ring is matched in the first sealing ring groove, and a connecting plate is matched on the upper end face of the sealing ring.

Preferably, a second sealing ring groove is arranged below the inner part of the vacuum cover, a sealing ring is matched in the second sealing ring groove, and a vacuum bottle is matched in the inner ring of the sealing ring.

Preferably, the left end of the sealing ring is externally connected with a pressure air source through an inflation tube, a pressure air source valve is arranged between the pressure air source and the inflation tube, and the pressure air source valve is electrically connected with the controller.

Preferably, the sealing ring is an inflatable clamping sealing ring.

Preferably, the controller is a single chip microcomputer processor, the controller is electrically connected with a first electromagnetic valve, a second electromagnetic valve and a clamp motor driver, the first electromagnetic valve is electrically connected with a first lifting cylinder, the second electromagnetic valve is electrically connected with a second lifting cylinder, the clamp motor driver is electrically connected with a clamp motor, the motor driver is a stepping motor driver, and the clamp motor is a stepping motor.

The utility model has the advantages that: the utility model discloses can realize automatic bottle lid equipment, can detect whether the vacuum and the atmospheric pressure of equipment environment accord with required requirement simultaneously.

The features and advantages of the present invention will be described in detail by embodiments with reference to the accompanying drawings.

[ description of the drawings ]

Fig. 1 is a schematic view of a front view structure of a fully automatic assembling and detecting machine for vacuum bottles of the present invention;

fig. 2 is a control schematic diagram of the full-automatic assembling and detecting machine for vacuum bottles of the present invention.

In the figure: the automatic capping device comprises a 1-capping driving mechanism, a 2-connecting plate, a 3-capping shaft, a 4-vacuum cover, a 41-pipe groove, a 42-first sealing ring groove, a 43-second sealing ring groove, a 5-inflation pipe, a 6-sealing ring, a 7-capping head, an 8-air suction joint, a 9-vacuum bottle, a 10-clamp, a 11-first lifting cylinder, a 12-second lifting cylinder, a 13-barometer, a 14-vacuum pipeline, a 15-first electromagnetic valve, a 16-second electromagnetic valve, a 17-controller, a 18-clamp motor driver, a 19-clamp motor, a 20-vacuum degree detector, a 21-vacuum pumping device and a 22-pressure air source valve.

[ detailed description ] embodiments

Referring to fig. 1 and 2, the utility model discloses, including spiral cover actuating mechanism 1, connecting plate 2, spiral cover axle 3, vacuum cover 4, gas tube 5, sealing washer 6, spiral cover head 7, bleed joint 8, anchor clamps 10, first lift cylinder 11, second lift cylinder 12 and controller 17, spiral cover actuating mechanism 1 is installed to the upper left of connecting plate 2, and spiral cover actuating mechanism 1 is connected with spiral cover head 7 through spiral cover axle 3 below, is equipped with vacuum flask 9 under spiral cover head 7, and vacuum flask 9 is equipped with anchor clamps 10 below, and anchor clamps 10 below is equipped with first lift cylinder 11; a vacuum cover 4 is matched under the connecting plate 2, a sealing ring 6 is arranged in a first sealing ring groove 42 at the upper end of the vacuum cover 4, and the left end of the sealing ring 6 is externally connected with a pressure air source through an inflation tube 5; a second lifting cylinder 12 is connected to the upper right of the connecting plate 2; an air extraction joint 8 is embedded in the side edge of the vacuum cover 4, and the air extraction joint 8 is connected with a vacuum extractor 21 through a pipeline; the side edge of the vacuum cover 4 is connected with a vacuum degree detector 20 through a vacuum pipeline 14, and the vacuum pipeline 14 is connected with a barometer 13; the cap screwing driving mechanism 1, the barometer 13, the vacuum degree detector 20 and the vacuumizing device 21 are all electrically connected with a controller 17.

Specifically, a pipe groove 41 is formed in the side surface of the vacuum cover 4, and an inflation pipe 5 is arranged in the pipe groove 41.

Specifically, the vacuum cover 4 is of an annular hollow shell structure, a first sealing ring groove 42 is formed in the upper end of the vacuum cover 4, a sealing ring 6 is matched in the first sealing ring groove 42, and a connecting plate 2 is matched on the upper end face of the sealing ring 6.

Specifically, a second sealing ring groove 43 is arranged below the inside of the vacuum cover 4, a sealing ring 6 is matched in the second sealing ring groove 43, and a vacuum bottle 9 is matched in the inner ring of the sealing ring 6.

Specifically, the left end of the sealing ring 6 is externally connected with a pressure air source through an inflation tube 5, a pressure air source valve 22 is arranged between the pressure air source and the inflation tube 5, and the pressure air source valve 22 is electrically connected with the controller 17.

Specifically, the sealing ring 6 is an inflatable clamping sealing ring.

Specifically, the controller 17 is a single chip microcomputer processor, the controller 17 is electrically connected to a first electromagnetic valve 15, a second electromagnetic valve 16 and a clamp motor driver 18, the first electromagnetic valve 15 is electrically connected to the first lifting cylinder 11, the second electromagnetic valve 16 is electrically connected to the second lifting cylinder 12, the clamp motor driver 18 is electrically connected to a clamp motor 19, the motor driver 18 is a stepping motor driver, and the clamp motor 19 is a stepping motor.

The utility model discloses the working process:

the utility model relates to a full automatic assembly of vacuum flask detects machine explains in the course of the work, combines the figure.

Transferring the vacuum bottle from the conveyor belt to the clamp 10 through the transfer mechanism, and clamping the vacuum bottle 9 by the clamp under the action of the clamp motor 19; the first lifting cylinder 11 acts to lift the vacuum bottle 9; the sealing ring 6 of the lower second sealing ring groove 43 is inflated to clamp the vacuum bottle 9; the second lifting cylinder 12 acts to press the connecting plate 2 downwards, and meanwhile, the sealing ring 6 in the first sealing ring groove 42 above the connecting plate is inflated, so that the upper end of the vacuum bottle 9 is in an isolated and sealed environment, vacuumizing can be realized through the vacuumizing device 21 externally connected with the air suction connector 8, and the vacuumizing device 21 is of a structure similar to that of the prior art; the vacuum degree detector 20 detects the internal vacuum degree, and the barometer 13 detects the internal pressure; the cap screwing driving mechanism 1 completes cap screwing operation on the vacuum bottle 9. After the cap screwing is completed, the sealing ring 6 is deflated, the first lifting cylinder 11 moves downwards, the clamp 10 is released, and the transferring mechanism is professional, so that the finished product is transferred.

The utility model discloses, can realize automatic bottle lid equipment, whether the vacuum that can detect the equipment environment simultaneously accords with required requirement with atmospheric pressure.

The above-mentioned embodiment is right the utility model discloses an explanation, it is not right the utility model discloses a limited, any right the scheme after the simple transform of the utility model all belongs to the protection scope of the utility model.

Claims (7)

1. The utility model provides a full-automatic equipment of vacuum flask detects machine which characterized in that: the automatic capping device comprises a capping driving mechanism (1), a connecting plate (2), a capping shaft (3), a vacuum cover (4), an inflation tube (5), a sealing ring (6), a capping head (7), an air suction joint (8), a clamp (10), a first lifting cylinder (11), a second lifting cylinder (12) and a controller (17), wherein the capping driving mechanism (1) is installed above the left side of the connecting plate (2), the capping head (7) is connected below the capping driving mechanism (1) through the capping shaft (3), a vacuum bottle (9) is arranged below the capping head (7), the clamp (10) is arranged below the vacuum bottle (9), and the first lifting cylinder (11) is arranged below the clamp (10); a vacuum cover (4) is matched under the connecting plate (2), a sealing ring (6) is arranged in a first sealing ring groove (42) at the upper end of the vacuum cover (4), and the left end of the sealing ring (6) is externally connected with a pressure air source through an inflation tube (5); a second lifting cylinder (12) is connected to the upper right of the connecting plate (2); an air extraction joint (8) is embedded in the side edge of the vacuum cover (4), and the air extraction joint (8) is connected with a vacuum-pumping device (21) through a pipeline; the side edge of the vacuum cover (4) is connected with a vacuum degree detector (20) through a vacuum pipeline (14), and the vacuum pipeline (14) is connected with a barometer (13); the cap screwing driving mechanism (1), the barometer (13), the vacuum degree detector (20) and the vacuumizing device (21) are all electrically connected with a controller (17).

2. The full-automatic assembling and detecting machine for the vacuum bottle as claimed in claim 1, wherein: the side surface of the vacuum cover (4) is provided with a pipe groove (41), and an inflation pipe (5) is arranged in the pipe groove (41).

3. The full-automatic assembling and detecting machine for the vacuum bottle as claimed in claim 1, wherein: the vacuum cover (4) is of an annular hollow shell structure, a first sealing ring groove (42) is formed in the upper end of the vacuum cover (4), a sealing ring (6) is matched in the first sealing ring groove (42), and a connecting plate (2) is matched with the upper end face of the sealing ring (6).

4. The full-automatic assembling and detecting machine for the vacuum bottle as claimed in claim 1, wherein: a second sealing ring groove (43) is formed in the lower portion inside the vacuum cover (4), a sealing ring (6) is matched in the second sealing ring groove (43), and a vacuum bottle (9) is matched in the inner ring of the sealing ring (6).

5. The full-automatic assembling and detecting machine for the vacuum bottle as claimed in claim 1, wherein: the left end of the sealing ring (6) is externally connected with a pressure air source through an inflation tube (5), a pressure air source valve (22) is arranged between the pressure air source and the inflation tube (5), and the pressure air source valve (22) is electrically connected with the controller (17).

6. The full-automatic assembling and detecting machine for the vacuum bottle as claimed in claim 1, wherein: the sealing ring (6) is an inflatable clamping sealing ring.

7. The full-automatic assembling and detecting machine for the vacuum bottle as claimed in claim 1, wherein: the controller (17) is a single chip microcomputer processor, the controller (17) is electrically connected with a first electromagnetic valve (15), a second electromagnetic valve (16) and a clamp motor driver (18), the first electromagnetic valve (15) is electrically connected with a first lifting cylinder (11), the second electromagnetic valve (16) is electrically connected with a second lifting cylinder (12), the clamp motor driver (18) is electrically connected with a clamp motor (19), the motor driver (18) is a stepping motor driver, and the clamp motor (19) is a stepping motor.

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