CN216869945U - Compound high separation bottle leakproofness detection device of ageing resistance - Google Patents

Abstract

The utility model discloses an anti-aging composite high-obstruction bottle sealing performance detection device which comprises a detection device main body, a first through hole, an air pressure detection device, a first blind hole, a first electric control sliding cover, a second electric control sliding cover and an inflation and air extraction dual-purpose pump. According to the utility model, the air pressure detection device detects air pressure data fluctuation in a negative pressure environment, so that inferior-quality products with poor sealing property in high-barrier bottles can be rapidly identified, and the method is convenient and rapid.

Description

Compound high separation bottle leakproofness detection device of ageing resistance

[ technical field ] A

The utility model relates to the technical field of tightness detection devices, in particular to the technical field of an anti-aging composite high-barrier bottle tightness detection device.

[ background of the utility model ]

The high-barrier bottle has good mechanical property, oil resistance, fat resistance, dilute acid resistance, dilute alkali resistance, most solvent resistance, low gas and water vapor permeability, excellent gas, water, oil and peculiar smell resistance, high transparency, good glossiness, no toxicity, no smell, good sanitation and safety, and can be directly used for food packaging. The high-barrier bottle is widely applied in life, the sealing performance of the high-barrier bottle needs to be detected before the high-barrier bottle leaves a factory, the high-barrier bottle with poor sealing performance is screened out, and the high-barrier bottle leaving the factory is ensured to have high sealing quality.

[ Utility model ] content

The utility model aims to solve the problems in the prior art and provides an anti-aging composite high-barrier bottle sealing performance detection device, which can rapidly screen out high-barrier bottles with poor sealing performance.

In order to achieve the purpose, the utility model provides an anti-aging composite type high-barrier bottle sealing performance detection device which comprises a detection device main body, a first through hole, an air pressure detection device, a first blind hole, a first electric control sliding cover, a second electric control sliding cover and an inflation and air extraction dual-purpose pump.

Preferably, the first electrically controlled sliding cover is adapted to the upper port of the first through hole, and the second electrically controlled sliding cover is adapted to the lower port of the first through hole.

Preferably, the first blind hole orifice is provided with a screen plate, and the left end face of the screen plate and the inner hole wall of the first through hole are coplanar.

Preferably, the right end face of the detection device body is provided with a second through hole, the left port of the second through hole is communicated with the first through hole, the second through hole is formed between the first electronic control sliding cover and the second electronic control sliding cover, a corresponding pipeline is connected between the inflation and air exhaust dual-purpose pump and the right port of the second through hole, and a corresponding gas circulation detection device is arranged in the middle of the pipeline.

Preferably, the lower end face of the first electric control sliding cover is provided with a first upper annular groove, the upper end face of the detection device main body is provided with a first lower annular groove, the first upper annular groove is formed in the outer side of an upper port of a first through hole, the first upper annular groove is vertically symmetrical, a first annular sealing air bag which is adaptive to the first lower annular groove is arranged in the first lower annular groove, the left end face of the detection device main body is provided with a second blind hole which is arranged rightwards, a first ventilation pipe which is adaptive to the second blind hole is connected between the bottom of the second blind hole and the first annular sealing air bag, the left end of an inner hole of the second blind hole is provided with a coaxial second piston, an electric control push rod of the second is connected between the second fixed plate, a second fixed plate is arranged on the right side of the second piston, the second piston is connected between the second fixed plate and is provided with an electric control push rod which is adaptive to the second piston, and the second piston can freely move axially in the second blind hole.

Preferably, when the first electronic control sliding cover is closed, the second electronic control push rod extends, the second piston moves rightwards to the bottom of the second blind hole, the first annular sealing air bag expands upwards and completely fills the first upper annular groove and the first lower annular groove, when the first electronic control sliding cover is opened, the second electronic control push rod shortens, the second piston moves leftwards, the first annular sealing air bag contracts downwards and completely sinks into the first lower annular groove.

Preferably, a second upper annular groove is formed in the upper end face of the second electric control sliding cover, a second lower annular groove is formed in the lower end face of the detection device body, the second upper annular groove and the second lower annular groove are formed in the outer side of the lower port of the first through hole, the second upper annular groove and the second lower annular groove are vertically symmetrical, a second annular sealing air bag which is matched with the second upper annular groove is arranged in the second lower annular groove, a third blind hole which is arranged rightwards is formed in the left end face of the detection device body, a second vent pipe which is matched with the third blind hole is connected between the bottom of the third blind hole and the second annular sealing air bag, a third piston which is coaxial with the third blind hole is arranged at the left end of the inner hole, a third electric control push rod and a third fixing plate are arranged on the right side of the third piston, a third electric control push rod which is matched with the second fixing plate is connected between the third piston and the second fixing plate, and the third piston can move freely in the third blind hole in the axial direction.

Preferably, when the second electronic control sliding cover is closed, the third electronic control push rod extends, the third piston moves rightwards to the bottom of the third blind hole, the second annular sealing air bag expands downwards and completely fills the second upper annular groove and the second lower annular groove, when the second electronic control sliding cover is opened, the third electronic control push rod shortens, the third piston moves leftwards, the second annular sealing air bag contracts upwards and completely sinks into the second lower annular groove.

Preferably, detection device main part below is equipped with first conveyer belt, second conveyer belt, third conveyer belt, and the second conveyer belt is established under first through-hole and the second conveyer belt up end can only place a high separation bottle, and first conveyer belt adaptability is established on second conveyer belt right side, and third conveyer belt adaptability is established on second conveyer belt left side.

Preferably, an intelligent controller is arranged on the outer side of the detection device main body, and the air pressure detection device, the first electric control sliding cover, the second electric control sliding cover, the inflation and air extraction dual-purpose pump, the air flow rate detection device, the second electric control push rod, the third electric control push rod, the first conveying belt, the second conveying belt and the third conveying belt are all connected with the intelligent controller in an adaptive mode.

The utility model has the beneficial effects that: according to the utility model, the air pressure detection device detects air pressure data fluctuation in a negative pressure environment, so that inferior-quality products with poor sealing property in high-barrier bottles can be rapidly identified, and the method is convenient and rapid; the inflation and air extraction dual-purpose pump is matched with the gas flow rate detection device, so that the gas in the first through hole can be conveniently and quantitatively extracted to form a negative pressure environment in the first through hole, and meanwhile, the gas can be quantitatively injected into the first through hole to restore the air pressure in the first through hole, and the first electric control sliding cover and the second electric control sliding cover can be conveniently opened and closed; the first annular sealing air bag can enhance the sealing property between the first electric control sliding cover and the upper port of the first through hole, and the second annular sealing air bag can enhance the sealing property between the second electric control sliding cover and the lower port of the first through hole; the second transmission belt is arranged under the first through hole, only one high-barrier bottle can be placed on the upper end face of the second transmission belt, if the high-barrier bottle is a finished product, the second transmission belt and the third transmission belt synchronously rotate anticlockwise, the finished product sequentially passes through the second transmission belt and the third transmission belt and is collected, if the high-barrier bottle is a defective product, the first transmission belt and the second transmission belt synchronously rotate clockwise, the defective product sequentially passes through the second transmission belt and the first transmission belt and is collected, and the separation and collection between the finished product and the defective product are convenient and rapid.

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

[ description of the drawings ]

Fig. 1 is a schematic structural view of a front view portion of an anti-aging composite high-barrier bottle sealing performance detection device.

[ detailed description ] embodiments

Referring to fig. 1, the anti-aging composite type high-barrier bottle sealing performance detection device comprises a detection device body 1, a first through hole 11, an air pressure detection device 110, a first blind hole 111, a first electronic control sliding cover 21, a second electronic control sliding cover 22 and an inflation and air extraction dual-purpose pump 44, wherein the first through hole 11 is vertically arranged downwards on the upper end face of the detection device body 1, the first electronic control sliding cover 21 is arranged on the upper end face of the detection device body 1, the second electronic control sliding cover 22 is arranged on the lower end face of the detection device body 1, the first blind hole 111 is arranged at the right end of the inner wall of the first through hole 11, the air pressure detection device 110 is arranged in the first blind hole 111, the inflation and air extraction dual-purpose pump 44 is arranged at the right end of the outer side wall of the detection device body 1, and the inflation and air extraction dual-purpose pump 44 is adaptively connected with the first through hole 11.

The first electrically controlled sliding cover 21 is adapted to the upper port of the first through hole 11, and the second electrically controlled sliding cover 22 is adapted to the lower port of the first through hole 11.

The orifice of the first blind hole 111 is provided with a screen plate 112, and the left end surface of the screen plate 112 is coplanar with the inner hole wall of the first through hole 11.

The right end face of the detection device body 1 is provided with a second through hole 41, the left end of the second through hole 41 is communicated with the first through hole 11, the second through hole 41 is arranged between the first electronic control sliding cover 21 and the second electronic control sliding cover 22, a corresponding pipeline 42 is connected between the inflation and air suction dual-purpose pump 44 and the right end of the second through hole 41, and a corresponding gas circulation detection device 43 is arranged in the middle of the pipeline 42.

Wherein, the lower end surface of the first electric control sliding cover 21 is provided with a first upper annular groove 211, the upper end surface of the detection device main body 1 is provided with a first lower annular groove 2101, the first upper annular groove 211 and the first lower annular groove 2101 are both arranged outside the upper port of the first through hole 11, the first upper annular groove 211 and the first lower annular groove 2101 are symmetrical up and down, the first lower annular groove 2101 is internally provided with a corresponding first annular sealing air bag 212, the left end surface of the detection device main body 1 is provided with a second blind hole 31 arranged rightwards, a corresponding first vent pipe 310 is connected between the bottom of the second blind hole 31 and the first annular sealing air bag 212, the left end of the inner hole of the second blind hole 31 is provided with a coaxial second piston 311, the second piston 311 is arranged on the right side of the second fixing plate 313, the second electrically controlled push rod 312 is connected between the second piston 311 and the second fixing plate 313, and the second piston 311 can freely move in the second blind hole 31 in the axial direction.

When the first electronic control sliding cover 21 is closed, the second electronic control push rod 312 extends, the second piston 311 moves rightwards to the bottom of the second blind hole 31, the first annular sealing air bag 212 expands upwards and the first annular sealing air bag 212 completely fills the first upper annular groove 211 and the first lower annular groove 2101, when the first electronic control sliding cover 21 is opened, the second electronic control push rod 312 shortens, the second piston 311 moves leftwards, the first annular sealing air bag 212 contracts downwards and the first annular sealing air bag 212 completely sinks into the first lower annular groove 2101.

Wherein, the upper end surface of the second electric control sliding cover 22 is provided with a second upper annular groove 221, the lower end surface of the detection device main body 1 is provided with a second lower annular groove 2201, the second upper annular groove 221 and the second lower annular groove 2201 are both arranged outside the lower port of the first through hole 11, the second upper annular groove 221 and the second lower annular groove 2201 are vertically symmetrical, a second annular sealing air bag 222 which is suitable for the second lower annular groove 2201 is arranged in the second lower annular groove 2201, the left end surface of the detection device main body 1 is provided with a third blind hole 32 which is arranged rightwards, a second vent pipe 320 which is suitable for the third blind hole 32 is connected between the bottom of the third blind hole 32 and the second annular sealing air bag 222, the left end of the inner hole of the third blind hole 32 is provided with a coaxial third piston 321, the third piston 321 is arranged at the right side of the third fixing plate 333, the third electrically controlled push rod 322 is connected between the third piston 321 and the second fixing plate 313, and the third piston 321 can freely move axially in the third blind hole 32.

When the second electronic control sliding cover 22 is closed, the third electronic control push rod 322 extends, the third piston 321 moves rightwards to the bottom of the third blind hole 32, the second annular sealing air bag 222 expands downwards and completely fills the second upper annular groove 221 and the second lower annular groove 2201, when the second electronic control sliding cover 22 is opened, the third electronic control push rod 322 shortens, the third piston 321 moves leftwards, the second annular sealing air bag 222 contracts upwards and completely sinks into the second lower annular groove 2201.

Wherein, a first conveyor belt 51, a second conveyor belt 52 and a third conveyor belt 53 are arranged below the detection device main body 1, the second conveyor belt 52 is arranged right below the first through hole 11, and only one high-barrier bottle can be placed on the upper end face of the second conveyor belt 52, the first conveyor belt 51 is adaptively arranged on the right side of the second conveyor belt 52, and the third conveyor belt 53 is adaptively arranged on the left side of the second conveyor belt 52.

The detection device comprises a detection device body 1, an intelligent controller 6, an air pressure detection device 110, a first electronic control sliding cover 21, a second electronic control sliding cover 22, an inflation and air extraction dual-purpose pump 44, a gas flow rate detection device 43, a second electronic control push rod 312, a third electronic control push rod 322, a first conveyor belt 51, a second conveyor belt 52 and a third conveyor belt 53, wherein the intelligent controller 6 is arranged on the outer side of the detection device body 1.

The working process of the utility model is as follows:

the anti-aging composite high-barrier bottle sealing performance detection device is controlled by the intelligent controller 6 in the working process;

the first step is as follows: the first electronic control sliding cover 21 is opened, the second electronic control sliding cover 22 is closed, the high-barrier bottle with the bottle cap screwed down is placed in the first through hole 11, and then the first electronic control sliding cover 21 and the second electronic control sliding cover 22 are both closed;

the second step is that: the air inflation and air extraction dual-purpose pump 44 is matched with the air flow rate detection device 43 to quantitatively pump the air in the first through hole 11;

the third step: the air pressure detection device 110 detects the air pressure change in the first through hole 11, if the air pressure is maintained to be stable and unchanged, the high-resistance bottle is a finished product, and if the air pressure rises, the high-resistance bottle is a defective product;

the fourth step: the air inflation and air extraction dual-purpose pump 44 is matched with the air flow rate detection device 43 to quantitatively inject air into the first through hole 11, then the second electric control sliding cover 22 is opened, and the high-barrier bottle falls to the upper end face of the second transmission belt 52;

the fifth step: if the high-barrier bottles are finished products, the second conveyor belt 52 and the third conveyor belt 53 synchronously rotate anticlockwise, the finished products are collected after sequentially passing through the second conveyor belt 52 and the third conveyor belt 53, if the high-barrier bottles are defective products, the first conveyor belt 51 and the second conveyor belt 52 synchronously rotate clockwise, and the defective products are collected after sequentially passing through the second conveyor belt 52 and the first conveyor belt 51.

According to the utility model, the air pressure detection device 110 detects air pressure data fluctuation in a negative pressure environment, defective products with poor sealing property in high-barrier bottles can be rapidly identified, and the method is convenient and rapid; the inflation and air extraction dual-purpose pump 44 and the gas flow rate detection device 43 are matched, so that the gas in the first through hole 11 can be conveniently and quantitatively extracted to form a negative pressure environment in the first through hole 11, and meanwhile, the gas can be quantitatively injected into the first through hole 11 to restore the air pressure in the first through hole 11, and the first electronic control sliding cover 21 and the second electronic control sliding cover 22 can be conveniently opened and closed; the first annular sealing air bag 212 can enhance the sealing performance between the first electrically-controlled sliding cover 21 and the upper port of the first through hole 11, and the second annular sealing air bag 222 can enhance the sealing performance between the second electrically-controlled sliding cover 22 and the lower port of the first through hole 11; the second transmission belt 52 is arranged under the first through hole 11, only one high-barrier bottle can be placed on the upper end face of the second transmission belt 52, if the high-barrier bottle is a finished product, the second transmission belt 52 and the third transmission belt 53 synchronously rotate anticlockwise, the finished product sequentially passes through the second transmission belt 52 and the third transmission belt 53 and is collected, if the high-barrier bottle is a defective product, the first transmission belt 51 and the second transmission belt 52 synchronously rotate clockwise, the defective product sequentially passes through the second transmission belt 52 and the first transmission belt 51 and is collected, and the finished product and the defective product are conveniently and quickly separated and collected.

The above embodiments are illustrative of the present invention, and are not intended to limit the present invention, and any simple modifications of the present invention are within the scope of the present invention.

Claims (10)

1. The utility model provides a compound high separation bottle leakproofness detection device of ageing resistance which characterized in that: including detection device main part (1), first through-hole (11), air pressure detection device (110), first blind hole (111), first automatically controlled sliding closure (21), the automatically controlled sliding closure of second (22), aerify dual-purpose pump (44) of bleeding, detection device main part (1) up end is equipped with downward vertical first through-hole (11) that sets up, and detection device main part (1) up end is equipped with first automatically controlled sliding closure (21), and the terminal surface is equipped with the automatically controlled sliding closure of second (22) under detection device main part (1), and first through-hole (11) inner wall right-hand member is equipped with first blind hole (111), is equipped with air pressure detection device (110) in first blind hole (111), and detection device main part (1) lateral wall right-hand member is equipped with aerifys dual-purpose pump (44) of bleeding, aerifys dual-purpose pump (44) of bleeding and first through-hole (11) adaptation and links to each other.

2. The anti-aging composite high-barrier bottle sealing performance detection device of claim 1, characterized in that: the first electric control sliding cover (21) is matched with the upper port of the first through hole (11), and the second electric control sliding cover (22) is matched with the lower port of the first through hole (11).

3. The anti-aging composite type high-barrier bottle sealing performance detection device as claimed in claim 1, characterized in that: the orifice of the first blind hole (111) is provided with a screen plate (112), and the left end surface of the screen plate (112) is coplanar with the inner hole wall of the first through hole (11).

4. The anti-aging composite high-barrier bottle sealing performance detection device of claim 1, characterized in that: the detection device is characterized in that a second through hole (41) is formed in the right end face of the detection device body (1), the left end opening of the second through hole (41) is communicated with the first through hole (11), the second through hole (41) is formed between the first electronic control sliding cover (21) and the second electronic control sliding cover (22), a matched pipeline (42) is connected between the air inflation and air suction dual-purpose pump (44) and the right end opening of the second through hole (41), and a matched gas circulation detection device (43) is arranged in the middle of the pipeline (42).

5. The anti-aging composite type high-barrier bottle sealing performance detection device as claimed in claim 1, characterized in that: the lower end surface of the first electric control sliding cover (21) is provided with a first upper annular groove (211), the upper end surface of the detection device main body (1) is provided with a first lower annular groove (2101), the first upper annular groove (211) and the first lower annular groove (2101) are arranged outside the upper port of the first through hole (11), the first upper annular groove (211) and the first lower annular groove (2101) are vertically symmetrical, a first annular sealing air bag (212) which is suitable is arranged in the first lower annular groove (2101), the left end surface of the detection device main body (1) is provided with a second blind hole (31) which is arranged rightwards, a first vent pipe (310) which is suitable is connected between the bottom of the second blind hole (31) and the first annular sealing air bag (212), the left end of the inner hole of the second blind hole (31) is provided with a second piston (311), a second electric control push rod (312) and a second fixing plate (313) which are coaxial, the second piston (311) is arranged on the right side of the second fixing plate (313), a second electric control push rod (312) which is adaptive to the second piston (311) and the second fixing plate (313) is connected between the second piston (311) and the second fixing plate (313), and the second piston (311) can freely move in the second blind hole (31) in the axial direction.

6. The anti-aging composite high-barrier bottle sealing performance detection device of claim 1, characterized in that: when the first electric control sliding cover (21) is closed, the second electric control push rod (312) extends, the second piston (311) moves rightwards to the bottom of the second blind hole (31), the first annular sealing air bag (212) expands upwards and completely fills the first upper annular groove (211) and the first lower annular groove (2101), when the first electric control sliding cover (21) is opened, the second electric control push rod (312) shortens, the second piston (311) moves leftwards, the first annular sealing air bag (212) contracts downwards and completely sinks into the first lower annular groove (2101).

7. The anti-aging composite high-barrier bottle sealing performance detection device of claim 1, characterized in that: the upper end surface of the second electric control sliding cover (22) is provided with a second upper annular groove (221), the lower end surface of the detection device main body (1) is provided with a second lower annular groove (2201), the second upper annular groove (221) and the second lower annular groove (2201) are arranged at the outer side of the lower port of the first through hole (11), the second upper annular groove (221) and the second lower annular groove (2201) are vertically symmetrical, a second annular sealing air bag (222) which is adaptive to the second upper annular groove (2201) is arranged in the second lower annular groove (2201), the left end surface of the detection device main body (1) is provided with a third blind hole (32) which is arranged rightwards, a second vent pipe (320) which is adaptive to the third blind hole (32) is connected between the bottom of the third blind hole (32) and the second annular sealing air bag (222), the left end of the inner hole of the third blind hole (32) is provided with a third piston (321), a third electric control push rod (322) and a third fixing plate (333) which are coaxial, the third piston (321) is arranged at the right side of the third fixing plate (333), a third electric control push rod (322) which is adaptive to the third piston (321) and the second fixing plate (313) is connected between the third piston (321) and the second fixing plate, and the third piston (321) can freely move in the third blind hole (32) in the axial direction.

8. The anti-aging composite high-barrier bottle sealing performance detection device of claim 1, characterized in that: when the second electric control sliding cover (22) is closed, the third electric control push rod (322) extends, the third piston (321) moves rightwards to the bottom of the third blind hole (32), the second annular sealing air bag (222) expands downwards and completely fills the second upper annular groove (221) and the second lower annular groove (2201), when the second electric control sliding cover (22) is opened, the third electric control push rod (322) shortens, the third piston (321) moves leftwards, the second annular sealing air bag (222) contracts upwards and completely sinks into the second lower annular groove (2201).

9. The anti-aging composite type high-barrier bottle sealing performance detection device as claimed in claim 1, characterized in that: the detection device is characterized in that a first conveying belt (51), a second conveying belt (52) and a third conveying belt (53) are arranged below the detection device body (1), the second conveying belt (52) is arranged under the first through hole (11), the upper end face of the second conveying belt (52) can only be used for placing a high-barrier bottle, the first conveying belt (51) is adaptively arranged on the right side of the second conveying belt (52), and the third conveying belt (53) is adaptively arranged on the left side of the second conveying belt (52).

10. The anti-aging composite type high-barrier bottle sealing performance detection device as claimed in claim 1, characterized in that: the device is characterized in that an intelligent controller (6) is arranged on the outer side of the detection device body (1), and the air pressure detection device (110), the first electric control sliding cover (21), the second electric control sliding cover (22), the inflation and air suction dual-purpose pump (44), the gas circulation detection device (43), the second electric control push rod (312), the third electric control push rod (322), the first conveying belt (51), the second conveying belt (52) and the third conveying belt (53) are all connected with the intelligent controller (6) in a matching mode.

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