CN113894123A - Bias wheel-aligning type sample bottle cap-removing and cleaning device - Google Patents

Abstract

The invention relates to a bias wheel-aligning type sample bottle cap-removing and cleaning device, which comprises: an offset pair wheel assembly: the clamping device consists of two clamping wheels which are positioned in a vertical plane and offset left and right in the horizontal direction, wherein grooves are processed on the opposite surfaces of the two clamping wheels and form a clamping pore channel capable of clamping a sample bottle; the cap screwing coupling wheel assembly: the sample bottle cap turning device comprises a cap turning driving wheel and a cap turning driven wheel which are positioned beside an offset paired wheel assembly and positioned in the same horizontal plane, wherein a cap turning gap is formed between the cap turning driving wheel and the cap turning driven wheel, and the cap turning gap is positioned on a rotating stroke path of a sample bottle cap arranged in a clamping pore channel; cleaning the component: comprises a cleaning groove positioned below the offset pair wheel assembly and a cleaning pipe facing the offset pair wheel assembly and cleaning the path sample bottle. Compared with the prior art, the invention can realize continuous operations of uncapping, cleaning and the like of the sample bottle, has simple integral structure, convenient operation and the like.

Description

Bias wheel-aligning type sample bottle cap-removing and cleaning device

Technical Field

The invention belongs to the technical field of cleaning equipment, and relates to a bias wheel-aligning type sample bottle cap-removing and cleaning device.

Background

In analytical chemical testing, trace or microanalysis methods are often used. The greatest feature of such methods is the extremely low amount of sample used, for example for the determination of heavy metal ions in soils, often concentrations in the order of ppb. At the same time, trace or microanalysis is often used to test multiple samples simultaneously, sometimes even hundreds, due to the advantage of low sample concentrations. This has to consume a large number of sample bottles, which have a long service life, but are often regarded as disposable consumables due to their small size, small diameter, high cleaning difficulty and waste of cost. The use cost is increased and the resources are wasted invisibly.

The current sample bottle has mature industrial production line and low cost, and is close to the price of disposable consumables. However, in practice, such sample bottles can be cleaned and recycled when some trace amount of samples are measured, and if the glass sample bottles with good chemical stability and difficult degradation are used as disposable consumables, pressure can be invisibly added to the natural environment. Therefore, how to realize the quick cleaning of the sample bottles so as to realize the recycling is very important.

Disclosure of Invention

The invention aims to provide an offset wheel type sample bottle uncapping and cleaning device.

The purpose of the invention can be realized by the following technical scheme:

an offset wheel sample vial decap cleaning device, comprising:

an offset pair wheel assembly: the clamping device consists of two clamping wheels which are positioned in a vertical plane and offset left and right in the horizontal direction, wherein grooves are processed on the opposite surfaces of the two clamping wheels and form a clamping pore channel capable of clamping a sample bottle;

the cap screwing coupling wheel assembly: the bottle cap screwing device comprises a cap screwing driving wheel and a cap screwing driven wheel which are positioned beside an offset paired wheel assembly and positioned in the same horizontal plane, wherein a cap screwing gap is formed between the cap screwing driving wheel and the cap screwing driven wheel, when a bottle cap is arranged between the cap screwing gaps, the cap screwing driving wheel and the cap screwing driven wheel are started to rotate so as to screw out the bottle cap, and the cap screwing gap is positioned on a rotating stroke path of the bottle cap of a sample bottle arranged in a clamping pore channel;

cleaning the component: comprises a cleaning groove positioned below the offset pair wheel assembly and a cleaning pipe facing the offset pair wheel assembly and cleaning the path sample bottle.

Furthermore, the two clamping wheels form an included angle of 5-10 degrees with each other in the horizontal direction.

Further, the left and right offset angles of the clamping wheels meet the following conditions: along pressing from both sides the runner direction of rotation, have initiation area, preliminary treatment district, washing district and the collecting region that arranges in proper order on the biasing pair wheel subassembly, wherein, initiation area is located the top region, preliminary treatment district just right spiral cover pair wheel subassembly, the washing district is located the bottom region, just the size of centre gripping pore is less in preceding treatment zone department, and is great in collecting region department.

Furthermore, a bottle withdrawing driving lever extending into the collecting area is fixedly arranged between the two clamping wheels, and when the clamping pore channel rotates to the collecting area, the bottle withdrawing driving lever is abutted against the bottom end of the sample bottle in the clamping pore channel and pushes out the sample bottle.

Furthermore, the cap screwing driven wheel and the cap screwing driving wheel form an included angle.

Furthermore, the included angle between the spiral cover driven wheel and the spiral cover driving wheel is 5-15 degrees.

Furthermore, the spiral cover driven wheel and the spiral cover driving wheel are made of rubber materials.

Further, the washing tank be close to offset pair wheel subassembly the latter half sets up, and the clearance between washing tank and the offset pair wheel subassembly satisfies: the bottle mouth of the sample bottle in the clamping hole channel can abut against the wall surface of the cleaning groove and cannot fall off the offset pair wheel assembly.

Furthermore, along the rotation direction of the offset coupling wheel assembly, a gap is formed in the wall surface of the cleaning tank behind the cleaning pipe.

Furthermore, along the rotation direction of the offset pair wheel assembly, the cleaning tank is also provided with a hot air nozzle positioned behind the cleaning pipe.

Compared with the prior art, the invention has the following advantages:

(1) the offset pair wheel assembly adopts an offset alignment installation method, and two wheels close to a rotary base point are close to each other due to the fact that the offset pair wheel assembly is inclined at a certain angle, so that a sample bottle is clamped conveniently. When the rotating base point is far away, the two wheels are far away, so that the sample bottle is favorably pulled away.

(2) The clamping pore channel formed when the offset pair wheels are attached is designed to be elliptical, and can adapt to sample bottles with different calibers by adjusting the wheel track of the two wheels, thereby being more beneficial to fixing the sample bottles.

(3) The spiral cover is set up certain camber angle from the driving wheel, and when the sample bottle lid was arrived in the outside soon, the increase of the interval of spiral cover action wheel and follow driving wheel, the bottle lid can drop automatically.

(4) The local slit type arc baffle matched with the profile of the offset pair wheel assembly is arranged below the guide component, and the sample bottle can be dried more fully before the sample bottle is placed and falls.

Drawings

FIG. 1 is a schematic front view of an offset wheel sample vial decapping and cleaning device of the present invention;

FIG. 2 is a schematic top view of an offset wheel sample vial decapping and cleaning device;

the notation in the figure is:

the automatic bottle opening and closing device comprises a cover screwing driving wheel 1, a cover screwing driven wheel 2, a driving gear 3, an offset pair wheel assembly 4, a starting area 5, a pretreatment area 6, a cleaning area 7, a collecting area 8, a bottle removing deflector rod 9, a cleaning pipe 10, a hot air nozzle 11, an arc-shaped baffle plate 12, a clamping pore channel 13 and a clamping wheel 14.

Detailed Description

The invention is described in detail below with reference to the figures and specific embodiments. The present embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation manner and a specific operation process are given, but the scope of the present invention is not limited to the following embodiments.

In order to realize the fast and efficient cleaning of the sample bottles, the invention provides an offset wheel type sample bottle cap removing and cleaning device, the structure of which is shown in figures 1 and 2, and the device comprises:

the offset pair wheel assembly 4: the sample bottle clamping device consists of two clamping wheels 14 which are positioned in a vertical plane and offset left and right in the horizontal direction, wherein grooves are processed on the opposite surfaces of the two clamping wheels 14 to form a clamping pore channel 13 capable of clamping a sample bottle;

the cap screwing coupling wheel assembly: the bottle cap screwing device comprises a cap screwing driving wheel 1 and a cap screwing driven wheel 2 which are positioned beside an offset paired wheel assembly 4 and positioned in the same horizontal plane, wherein a cap screwing gap is formed between the cap screwing driving wheel 1 and the cap screwing driven wheel 2, when a bottle cap is arranged between the cap screwing gaps, the cap screwing driving wheel 1 and the cap screwing driven wheel 2 are started to rotate to screw out the bottle cap, and the cap screwing gap is positioned on a rotating stroke path of a sample bottle cap arranged in a clamping pore channel 13;

cleaning the component: comprises a cleaning tank which is positioned below the offset paired wheel assembly 4 and has an opening at the upper part, and a cleaning pipe 10 which is arranged on the cleaning tank and is opposite to the offset paired wheel assembly 4.

In some embodiments, the two clamping wheels 14 are horizontally disposed at an angle of 5-10 degrees, so that the size of the clamping channel 13 can be changed continuously during the rotation of the offset wheel assembly 4. Meanwhile, the two clamping wheels 14 are respectively connected and driven to rotate by a driving gear 3, and the rotating speeds of the two clamping wheels are kept synchronous.

In some embodiments, referring again to fig. 1, the left-right offset angle of the clamping wheel 14 satisfies: along pressing from both sides dress wheel 14 direction of rotation, have initiation area 5, preceding processing district 6, washing district 7 and the collecting region 8 that arrange in proper order on the offset pair wheel subassembly 4, wherein, initiation area 5 is located the top region, preceding processing district 6 just is to spiral cover pair wheel subassembly, washing district 7 is located the bottom region, just the size of centre gripping pore 13 is less in preceding processing region 6 department, and is great in collecting region 8 department. Preferably, the starting zone 5, the pre-treatment zone 6, the washing zone 7 and the collecting zone 8 are in turn at an angle of 90 ° to one another.

Further, referring to fig. 1, a bottle-removing lever 9 extending into the collecting region 8 is further fixed between the two clamping wheels 14, and when the clamping channel 13 rotates to the collecting region 8, the bottle-removing lever 9 abuts against the bottom end of the sample bottle in the clamping channel 13 and pushes out the sample bottle. Preferably, the bottle withdrawing lever 9 is arc-shaped and has elasticity so that the sample bottle can be conveniently withdrawn during the rotation of the offset pair wheel assembly 4.

In some specific embodiments, please refer to fig. 2 again, an included angle is formed between the cap-screwing driven wheel 2 and the cap-screwing driving wheel 1. Furthermore, the included angle between the cap screwing driven wheel 2 and the cap screwing driving wheel 1 is 5-15 degrees. By adopting the arrangement of non-parallel included angles, the bottle cap can automatically fall off due to the increase of the cap screwing clearance in the process of screwing out the bottle cap.

In some specific embodiments, the cap-screwing driven wheel 2 and the cap-screwing driving wheel 1 are made of rubber. Preferably, the cap screwing driven wheel 2 and the cap screwing driving wheel 1 both have certain elasticity, so that when the bottle cap rotates to the position along with the offset coupling wheel assembly 4, the bottle cap can be clamped into the minimum position of the cap screwing gap between the cap screwing driven wheel 2 and the cap screwing driving wheel 1, and the bottle cap can be screwed out conveniently.

In some embodiments, the washing tank is disposed near the lower half of the offset pair wheel assembly 4, and the gap between the washing tank and the offset pair wheel assembly 4 satisfies: the mouth of the sample bottle in the holding channel 13 can abut against the wall surface of the cleaning tank and cannot fall off the offset pair wheel assembly 4.

Furthermore, in the direction of rotation of the offset pair wheel assembly 4, the wall of the cleaning tank behind the cleaning pipe 10 is provided with a gap, typically with a curved baffle 12 having a gap.

In some embodiments, referring to fig. 1 again, the cleaning tank is further provided with a hot air nozzle 11 located behind the cleaning pipe 10 along the rotation direction of the offset pair wheel assembly 4, and the cleaned sample bottle can be sufficiently dried by the hot air sprayed from the hot air nozzle 11.

The above embodiments may be implemented individually, or in any combination of two or more.

The above embodiments will be described in more detail with reference to specific examples.

Example 1:

in order to realize fast and efficient cleaning of sample bottles, the embodiment provides an offset wheel type sample bottle cap-removing and cleaning device, the structure of which is shown in fig. 1 and fig. 2, and the device comprises:

the offset pair wheel assembly 4: the sample bottle clamping device consists of two clamping wheels 14 which are positioned in a vertical plane and offset left and right in the horizontal direction, wherein grooves are processed on the opposite surfaces of the two clamping wheels 14 to form a clamping pore channel 13 capable of clamping a sample bottle;

the cap screwing coupling wheel assembly: the bottle cap screwing device comprises a cap screwing driving wheel 1 and a cap screwing driven wheel 2 which are positioned beside an offset paired wheel assembly 4 and positioned in the same horizontal plane, wherein a cap screwing gap is formed between the cap screwing driving wheel 1 and the cap screwing driven wheel 2, when a bottle cap is arranged between the cap screwing gaps, the cap screwing driving wheel 1 and the cap screwing driven wheel 2 are started to rotate to screw out the bottle cap, and the cap screwing gap is positioned on a rotating stroke path of a sample bottle cap arranged in a clamping pore channel 13;

cleaning the component: comprises a cleaning tank which is positioned below the offset paired wheel assembly 4 and has an opening at the upper part, and a cleaning pipe 10 which is arranged on the cleaning tank and is opposite to the offset paired wheel assembly 4.

The two clamping wheels 14 form an included angle of 5-10 degrees with each other in the horizontal direction, so that the size of the clamping pore channel 13 can be changed continuously in the rotation process of the offset pair wheel assembly 4. Meanwhile, the two clamping wheels 14 are respectively connected and driven to rotate by a driving gear 3, and the rotating speeds of the two clamping wheels are kept synchronous.

Referring again to fig. 1, the left-right offset angle of the clamping wheel 14 satisfies: along pressing from both sides dress wheel 14 direction of rotation, have initiation area 5, preceding processing district 6, washing district 7 and the collecting region 8 of arranging in proper order on the offset pair wheel subassembly 4, wherein, initiation area 5 is located the top region, and preceding processing district 6 just faces spiral cover pair wheel subassembly, and washing district 7 is located the bottom region, and the size of centre gripping pore 13 is less in preceding processing district 6 department, and is great in collecting region 8 department. The starting area 5, the pretreatment area 6, the cleaning area 7 and the collecting area 8 are sequentially at an angle of 90 degrees with each other. The left and right offset degrees of the two clamping wheels 14 are controlled, so that the clamping pore channel 13 at the starting area 5 is slightly larger than the size of the sample bottle, the sample bottle can be conveniently placed in the clamping pore channel, the natural size of the clamping pore channel 13 at the pretreatment area 6 is slightly smaller than the sample bottle, the sample bottle can be clamped, the size of the clamping pore channel 13 at the collection area 8 is the largest, and the clamping pore channel is naturally larger than the sample bottle, so that the sample bottle can be smoothly pulled out.

Referring to fig. 1 again, a bottle-withdrawing lever 9 extending into the collecting region 8 is further fixedly disposed between the two clamping wheels 14, and when the clamping channel 13 rotates to the collecting region 8, the bottle-withdrawing lever 9 abuts against the bottom end of the sample bottle in the clamping channel 13 and pushes out the sample bottle. Preferably, the bottle withdrawing lever 9 is arc-shaped and has elasticity so that the sample bottle can be conveniently withdrawn during the rotation of the offset pair wheel assembly 4.

Referring to fig. 2 again, the cap-rotating driven wheel 2 and the cap-rotating driving wheel 1 form an included angle. Furthermore, the included angle between the cap screwing driven wheel 2 and the cap screwing driving wheel 1 is 5-15 degrees. By adopting the arrangement of non-parallel included angles, the bottle cap can automatically fall off due to the increase of the cap screwing clearance in the process of screwing out the bottle cap. The cap-screwing driven wheel 2 and the cap-screwing driving wheel 1 are made of rubber materials. Preferably, the cap screwing driven wheel 2 and the cap screwing driving wheel 1 both have certain elasticity, so that when the bottle cap rotates to the position along with the offset coupling wheel assembly 4, the bottle cap can be clamped into the minimum position of the cap screwing gap between the cap screwing driven wheel 2 and the cap screwing driving wheel 1, and the bottle cap can be screwed out conveniently.

The washing tank is close to the setting of biasing wheel subassembly 4 the latter half, and the washing tank satisfies with the clearance between biasing wheel subassembly 4: the mouth of the sample bottle in the holding channel 13 can abut against the wall surface of the cleaning tank and cannot fall off the offset pair wheel assembly 4. Along the rotation direction of the offset pair wheel assembly 4, the wall surface of the cleaning tank behind the cleaning pipe 10 is provided with a gap, and an arc-shaped baffle plate 12 with the gap is generally arranged. And a bottle withdrawing chute inclined downwards is arranged at the end part of the cleaning groove (namely, the position opposite to the collecting area 8) so as to guide the sample bottle to be delivered out conveniently.

Referring to fig. 1 again, the cleaning tank is further provided with a hot air nozzle 11 located behind the cleaning pipe 10 along the rotation direction of the offset pair wheel assembly 4, and the cleaned sample bottle can be sufficiently dried by the hot air sprayed from the hot air nozzle 11.

The specific process of using the cleaning device of this embodiment is as follows:

(1) the sample vial is first placed in the holding channel 13 at the initiation zone 5 and clamped at the pre-treatment zone 6 by actuating the drive gear 3.

(2) The cap screwing driving wheel 1 is started to screw down the sample bottle cap together with the cap screwing driven wheel 2, and the sample bottle cap can automatically fall down due to the fact that the driven wheel inclines for a certain angle.

(3) The driving gear 3 is rotated continuously, the sample bottle can not fall out of the clamping pore channel 13 due to gravity under the obstruction of the wall surface of the cleaning groove, and is guided to the cleaning area 7 along the arc section, the cleaning pipe 10 (generally adopting a spray pipe) is opened, and the sample bottle is cleaned.

(4) After cleaning, the sample bottle is screwed to the collecting area 8, and the cleaning waste liquid is discharged from the gap of the arc-shaped baffle plate 12. Due to the design of the inclination angle of the offset pair wheel assembly 4, the sample bottle is not clamped at the moment, and is dried by the installed hot air nozzle 11 in the rotating process, and is pushed away from the clamping pore channel 13 by the bottle withdrawing shift lever 9, and is led to the bottle withdrawing chute to be moved out of the sample bottle, and the cleaning process is completed.

(5) And stopping the disc for another time every time the disc rotates by 90 degrees, and synchronously completing the four steps again to form a continuous working state.

The embodiments described above are described to facilitate an understanding and use of the invention by those skilled in the art. It will be readily apparent to those skilled in the art that various modifications to these embodiments may be made, and the generic principles described herein may be applied to other embodiments without the use of the inventive faculty. Therefore, the present invention is not limited to the above embodiments, and those skilled in the art should make improvements and modifications within the scope of the present invention based on the disclosure of the present invention.

Claims (10)

1. An offset opposing wheel sample vial decapping and cleaning device, comprising:

an offset pair wheel assembly: the clamping device consists of two clamping wheels which are positioned in a vertical plane and offset left and right in the horizontal direction, wherein grooves are processed on the opposite surfaces of the two clamping wheels and form a clamping pore channel capable of clamping a sample bottle;

the cap screwing coupling wheel assembly: the bottle cap screwing device comprises a cap screwing driving wheel and a cap screwing driven wheel which are positioned beside an offset paired wheel assembly and positioned in the same horizontal plane, wherein a cap screwing gap is formed between the cap screwing driving wheel and the cap screwing driven wheel, when a bottle cap is arranged between the cap screwing gaps, the cap screwing driving wheel and the cap screwing driven wheel are started to rotate so as to screw out the bottle cap, and the cap screwing gap is positioned on a rotating stroke path of the bottle cap of a sample bottle arranged in a clamping pore channel;

cleaning the component: comprises a cleaning groove positioned below the offset pair wheel assembly and a cleaning pipe facing the offset pair wheel assembly and cleaning the path sample bottle.

2. The device for removing caps and cleaning sample bottles in an offset contra-wheel manner as claimed in claim 1, wherein the two clamping wheels are arranged at an included angle of 5-10 degrees with each other in the horizontal direction.

3. The device for cleaning the uncapped sample bottle in the offset wheel type according to claim 1, wherein the right and left offset angles of the clamping wheel satisfy: along pressing from both sides the runner direction of rotation, have initiation area, preliminary treatment district, washing district and the collecting region that arranges in proper order on the biasing pair wheel subassembly, wherein, initiation area is located the top region, preliminary treatment district just right spiral cover pair wheel subassembly, the washing district is located the bottom region, just the size of centre gripping pore is less in preceding treatment zone department, and is great in collecting region department.

4. The apparatus as claimed in claim 3, wherein a bottle-removing lever is fixed between the two clamping wheels and extends into the collection area, and when the clamping channel rotates to the collection area, the bottle-removing lever abuts against the bottom end of the sample bottle in the clamping channel and pushes out the sample bottle.

5. The apparatus as claimed in claim 1, wherein the cap-rotating driven wheel and the cap-rotating driving wheel form an included angle.

6. The device for removing and cleaning the cover of the sample bottle with the offset contra-wheel as claimed in claim 5, wherein the included angle between the cap-screwing driven wheel and the cap-screwing driving wheel is 5-15 °.

7. The apparatus as claimed in claim 1, wherein the cap-rotating driven wheel and the cap-rotating driving wheel are made of rubber.

8. The device for cleaning the uncapped sample bottle in the offset paired wheel type according to claim 1, wherein the cleaning tank is disposed near the lower half portion of the offset paired wheel assembly, and the gap between the cleaning tank and the offset paired wheel assembly satisfies the following conditions: the bottle mouth of the sample bottle in the clamping hole channel can abut against the wall surface of the cleaning groove and cannot fall off the offset pair wheel assembly.

9. The apparatus for cleaning and uncapping sample bottles of claim 8, wherein the cleaning tank is provided with a slit on a wall surface behind the cleaning tube along the rotation direction of the offset wheel assembly.

10. The apparatus for cleaning and uncapping sample bottles of claim 1, wherein the cleaning tank is further provided with a hot air nozzle located behind the cleaning pipe along the rotation direction of the offset wheel assembly.

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