CN108045976B

CN108045976B - Automatic feeding equipment for samples

Info

Publication number: CN108045976B
Application number: CN201711365441.1A
Authority: CN
Inventors: 黄志昆; 张仲焘
Original assignee: Hunan Sundy Science and Technology Co Ltd
Current assignee: Hunan Sundy Science and Technology Co Ltd
Priority date: 2017-12-18
Filing date: 2017-12-18
Publication date: 2023-06-02
Anticipated expiration: 2037-12-18
Also published as: CN108045976A

Abstract

The invention discloses automatic feeding equipment for samples, which comprises a conveying line device for conveying sample barrels, wherein a cover opening unlocking device and a pouring manipulator device are sequentially arranged above the conveying line device, the pouring manipulator device comprises a clamping overturning manipulator and a pouring conveying line, the sample barrels are conveyed to the position below the cover opening unlocking device in the forward direction through the conveying line device, are continuously conveyed to the position below the pouring manipulator device in the forward direction after being opened by the unlocking cover, and are used for clamping the sample barrels and driving the sample barrels to be conveyed to a feeding station in the forward direction under the driving of the pouring conveying line so as to overturn the sample barrels at the feeding station to finish dumping and unloading; and after dumping and unloading are finished, the clamping and overturning manipulator drives the sample barrel to be reversely conveyed to the conveying line device, and the sample barrel is reversely conveyed by the conveying line device after cover closing is finished through the cover opening and unlocking device. The invention has the advantages of high automation and intelligent degree, high safety, capability of reducing the labor intensity and keeping the work continuity.

Description

Automatic feeding equipment for samples

Technical Field

The invention mainly relates to the field of material sample collecting and analyzing equipment, in particular to automatic feeding equipment for samples.

Background

For sample collection and analysis of materials (such as ores and coals), the standards are mandatory in all countries, and the sample collection and analysis must be carried out according to the standards. The criterion of the working process of sample collection and analysis is that the granularity and the quality of the collected sample are gradually reduced on the premise of not damaging the representativeness of the sample, the quality of the collected sample is gradually reduced until the precision requirements of laboratory tests on the granularity and the quality (weight) of the sample are met, and then the related test analysis is carried out on the sample meeting the requirements. There can be no loss of sample in this process, and some physical or chemical changes in the sample can not occur, which would otherwise have an impact on the final test results.

As exemplified by coal analysis, is in fact a process of sampling analysis. Coal is a non-uniform substance (particle size, mass characteristic distribution, etc.), the sampled female parent is generally larger (tens to tens of thousands of tons are different), the process of pumping a representative sample representing the mass and characteristic of the whole female parent to the maximum extent is called sampling, and at present, various methods such as mechanical sampling, manual sampling, semi-mechanical sampling, etc. are available. After the sample is collected according to the standard, the next process is sample preparation, and the sample preparation process generally comprises the processes of air drying, crushing, dividing, grinding and the like. After the sample is prepared, the next sample test analysis is carried out. In the sampling and analysis process of coal, a moisture testing instrument is used for testing and analyzing the moisture content of the coal sample. The moisture of coal is the most basic index for evaluating the economic value of coal. Because the change of moisture in the coal can cause the content change and the heating value change of other components, the quality detection, the measurement, the acceptance and the management of the coal are affected to a certain extent. Therefore, accurately measuring the moisture in the coal has great significance for the production management and management of the coal. Of course, for other material samples, a test analysis of the moisture content is likewise required if necessary.

In the existing coal sampling and sample preparing system, the following technical problems exist with respect to feeding operation:

(1) The automation degree is not high, and the unattended operation requirement in a sampling and sample preparing system can not be met. The loading and transferring of coal samples are usually manual carrying and manual loading, so that the labor intensity is high, the working efficiency is low, and the whole operation of the system is influenced due to unstable equipment operation caused by nonstandard operation.

(2) The safety is poor. Because of the need of unlocking and pouring by people, the risk of sample falling caused by artificial sample changing and sample barrel falling exists.

(3) The intelligent degree is low. After the sample barrels are poured, the sample barrels cannot be immediately transferred to a use station for recharging of the next batch, so that a plurality of sample barrels are required to be prepared to meet the development of a system, the cost is high, the working efficiency is low, and the requirements of continuous operation and efficient operation of a sampling and sample automation system cannot be well met.

(4) The environmental pollution is serious. The existing material pouring is easy to cause dust emission, which not only endangers the health of operators, but also is unfavorable for environmental protection.

(5) Sample contamination is easily caused. The existing sample barrel cannot finish automatic cleaning after feeding, and manual cleaning is high in labor intensity and low in working efficiency; moreover, the manual cleaning is easy to cause error missing cleaning, so that the batch of samples remains in the sample barrel to influence the precision and representativeness of the samples loaded in the next batch.

Disclosure of Invention

The technical problems solved by the invention are as follows: aiming at the problems existing in the prior art, the automatic feeding equipment for the samples is high in automation and intelligent degree and safety, can reduce the labor intensity and maintain the work continuity.

In order to solve the technical problems, the invention adopts the following technical scheme:

the automatic feeding equipment for the samples comprises a conveying line device for conveying sample barrels, wherein a cover opening unlocking device and a material pouring manipulator device are sequentially arranged above the conveying line device, the material pouring manipulator device comprises a clamping overturning manipulator and a material pouring conveying line, the sample barrels are conveyed to the lower part of the cover opening unlocking device in the forward direction through the conveying line device, are continuously conveyed to the lower part of the material pouring manipulator device in the forward direction after being opened by the unlocking cover, and the clamping overturning manipulator is used for clamping the sample barrels and driving the sample barrels to be conveyed to a material feeding station in the forward direction under the driving of the material pouring conveying line so that the sample barrels can be overturned at the material feeding station to finish dumping and unloading; and after dumping and unloading are finished, the clamping and overturning manipulator drives the sample barrel to be reversely conveyed to the conveying line device, and the sample barrel is reversely conveyed by the conveying line device after cover closing is finished through the cover opening and unlocking device.

As a further improvement of the invention, the clamping turnover manipulator comprises a turnover support, a turnover driving piece and a clamping component for clamping and fixing the sample barrel, wherein the upper end of the turnover support is connected with the pouring conveying line, the clamping component is movably fixed at the lower end of the turnover support in a turnover way, and the turnover driving piece is fixed on the turnover support and is used for driving the clamping component to turn.

As a further improvement of the invention, the clamping assembly comprises a fixing frame, a clamping frame, a guide rail assembly and a clamping driving assembly, wherein the fixing frame is movably fixed at the lower end of the turnover bracket in a turnover manner, the clamping frame is arranged on the fixing frame in a lifting manner through the guide rail assembly and the clamping driving assembly, two fixing arms which extend towards two sides of the sample barrel respectively are arranged on the fixing frame, two clamping arms which extend towards two sides of the sample barrel respectively are arranged on the clamping frame, and the two clamping arms extend below handles on two sides of the sample barrel respectively and are lifted under the driving of the clamping driving assembly during clamping so as to be used for finally clamping and fastening the handles on two sides of the sample barrel between the fixing arms and the clamping arms respectively.

As a further improvement of the invention, the cover opening and unlocking device comprises a cover opening and lifting assembly and an unlocking cover opening plate assembly fixed on the cover opening and lifting assembly, wherein more than two electricity taking electrode modules, magnetic attraction modules and electromagnetic key card modules are arranged at the bottom of the unlocking cover opening plate assembly, and when the cover opening and lifting assembly drives the unlocking cover opening plate assembly to be pressed on the top of the barrel cover of the sample barrel, the electricity taking electrode modules and the electromagnetic key card modules are used for electrifying and unlocking the barrel cover and magnetically attracting and fixing the barrel cover on the unlocking cover opening plate assembly through the magnetic attraction modules so as to lift and drive the barrel cover to finish extraction.

As a further improvement of the invention, the unlocking cover plate assembly is also provided with a card reader module for reading the information of the sample chip on the barrel cover of the sampling barrel.

As a further improvement of the invention, the pouring conveyor line comprises a guide rail slide block assembly, a synchronous belt driving assembly and a pouring mechanism connecting plate, wherein the synchronous belt driving assembly is used for driving the pouring mechanism connecting plate to slide along the guide rail slide block assembly, and the pouring mechanism connecting plate is connected with the clamping and overturning mechanical arm and used for driving the clamping and overturning mechanical arm to slide so as to convey the sample barrel to a feeding station.

As a further improvement of the invention, a plurality of positioning assemblies are arranged on the travel of the guide rail sliding block assembly and are used for stopping driving of the synchronous belt driving assembly after the connecting plate of the pouring mechanism moves to the proper position.

As a further improvement of the invention, a tension adjusting assembly for adjusting the tension degree of the synchronous belt is arranged at the synchronous belt driving assembly.

As a further improvement of the invention, the conveyor line device is sequentially provided with a first baffle assembly and a second baffle assembly, the first baffle assembly is used for intercepting a sample barrel conveyed on the conveyor line device below the cover opening and unlocking device so as to unlock and cover, the second baffle assembly is used for intercepting the sample barrel conveyed on the conveyor line device after the cover opening and unlocking below the clamping and overturning manipulator so as to clamp, and the first baffle assembly and the second baffle assembly are respectively provided with a detection switch so as to stop conveying the conveyor line device after detecting the sample barrel.

As a further improvement of the invention, the conveying line device comprises a roller conveying belt, the first baffle plate assembly and the second baffle plate assembly both comprise a fixed bracket fixed below the roller conveying belt, the fixed bracket is provided with a cylinder assembly which can stretch up and down, and the top of the cylinder assembly is provided with a baffle plate for intercepting a sample barrel when the cylinder assembly stretches up.

When the pouring conveyor line drives the sample barrel which is poured and unloaded to return, the sample barrel is turned back and falls on the conveyor line device and then is conveyed to the first baffle assembly to be intercepted, and then the cover opening unlocking device resets the barrel cover.

As a further improvement of the invention, the dust removing device is arranged at the feeding station and is used for adsorbing dust when the sample barrel is dumped and discharged.

As a further improvement of the invention, a sample barrel cleaning device is arranged between the feeding station and the conveying line device, and the pouring conveying line drives the sample barrel which is dumped and unloaded to return and drives the sample barrel to the sample barrel cleaning device for cleaning and then drives the sample barrel to the conveying line device.

As a further improvement of the invention, the sample barrel cleaning device comprises a supporting seat, a cleaning lifting assembly capable of lifting up and down is arranged on the supporting seat, a rotary brush assembly capable of rotating horizontally is arranged at the top of the cleaning lifting assembly, and when the toppled sample barrel is conveyed to the upper part of the supporting seat, the cleaning lifting assembly drives the rotary brush assembly to extend into the barrel so as to finish cleaning.

As a further improvement of the invention, the top of the cleaning lifting component is also provided with a blowing component for synchronously completing cleaning by blowing during rotary cleaning.

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

(1) The automatic feeding equipment for samples has high automation degree, can complete automatic butt joint with a sample collecting and preparing system, realizes automatic operation in the whole process no matter the sample barrel is conveyed, unlocked, unloaded, re-capped and returned for reuse, has high working efficiency, well meets the unattended operation requirement in the sample collecting and preparing system, greatly reduces the labor intensity, and avoids the risk of unstable equipment operation and overall operation affecting the system caused by manual misoperation.

(2) The automatic feeding equipment for the samples has high safety. Because the unlocking and dumping are not needed to be carried out manually. The sample barrel is prevented from falling down, so that a series of risks of sample falling down caused by artificial sample replacement are avoided, and the representativeness of the sample is well ensured.

(3) The automatic sample feeding equipment for samples has high intelligent degree, can complete automatic unlocking and automatic feeding, can complete automatic cover falling and automatic returning immediately after material pouring, can complete the whole set of sample barrels for the recycling of the next batch, reduces the number requirement of a sample collecting and preparing system on the sample barrels, reduces the cost, improves the working efficiency, and can well meet the requirements of continuous operation and efficient operation of the sample collecting and preparing automatic system.

(4) According to the automatic feeding equipment for the samples, the unlocking cover plate opening assembly is arranged, so that the safety is high, the sample barrel can be opened only after being authorized and the information is consistent, and the requirement of automatic operation is well met. Meanwhile, the intelligent degree is high, the information of each sample barrel can be read, verified and recorded by the system, the accuracy of material pouring and sample preparation can be ensured, and the data can be checked.

(5) According to the automatic feeding equipment for the samples, disclosed by the invention, the requirement on the operation space is reduced by the overturning blanking mode, the unloading is rapid and clean, the working efficiency is improved, the risk of material residues is reduced, and meanwhile, the cleaning operation described below is facilitated.

(6) According to the automatic sample feeding equipment, the sample barrel is exactly intercepted by the first baffle assembly, namely, is positioned at the first baffle assembly when the cover is taken. And the empty barrel is conveyed back to the first baffle assembly, so that even if the empty barrel returns to the original cover taking position, the empty barrel is accurately abutted with the barrel cover above, the cover opening and unlocking device is convenient to reset the accurate descending of the barrel cover, and the risk of loose cover or improper cover cannot occur.

(7) According to the automatic sample feeding equipment, the overturning, back-off and blanking and lifting and rotating cleaning mode is adopted, so that the cleaning operation with excellent effect is completed in the sample barrel, the risks that the batch residues in the sample barrel affect the precision and the representativeness of the samples loaded in the next batch are avoided, meanwhile, the unloading, cleaning, cover falling and returning are finished at one step, the automation and the intelligent degree are extremely high, and the working efficiency is greatly improved.

Drawings

Fig. 1 is a schematic perspective structural view of an automatic sample feeding apparatus according to the present invention.

Fig. 2 is a schematic view of a partial perspective structure of an automatic sample loading apparatus according to the present invention.

Fig. 3 is a schematic view of the three-dimensional structure of the pouring manipulator device of the present invention.

Fig. 4 is a schematic top view of the conveyor line assembly of the present invention.

Fig. 5 is a schematic perspective view of the first baffle assembly of the present invention.

Fig. 6 is a schematic diagram of the perspective structure principle of the sample barrel cleaning device of the present invention.

Legend description:

1. a conveyor line device; 11. a first baffle assembly; 111. a fixed bracket; 112. a cylinder assembly; 113. a baffle; 12. a second baffle assembly; 2. a cover opening and unlocking device; 21. a cover opening lifting assembly; 22. unlocking the cover plate assembly; 3. a pouring manipulator device; 31. clamping and turning over the manipulator; 311. overturning the bracket; 312. a flip drive; 313. a clamping assembly; 3131. a fixing frame; 3132. a clamping frame; 3133. a guide rail assembly; 3134. clamping the driving component; 32. a material pouring conveying line; 321. a guide rail slide block assembly; 322. a synchronous belt drive assembly; 323. a material pouring mechanism connecting plate; 324. A positioning assembly; 325. a tension adjustment assembly; 4. a feeding station; 5. a dust removal device; 6. a sample barrel cleaning device; 61. a support base; 62. cleaning the lifting assembly; 63. a rotating brush assembly; 9. and (5) a sample barrel.

Detailed Description

The invention is described in further detail below with reference to specific embodiments and figures.

As shown in fig. 1 to 6, the present invention provides an automatic feeding device for samples, which comprises a conveyor line device 1 for conveying sample barrels 9, wherein the conveyor line device 1 is mounted on a conveyor line frame, and a starting end of the conveyor line device 1 can be flexibly docked with related equipment of a sample collection system, so that the sample barrels 9 filled with materials can be quickly conveyed onto the conveyor line device 1 for feeding. The feeding station 4 can be provided with a hopper, a feeding transmission line or other relevant equipment of the sampling system for automatic butt joint, so that the materials poured by overturning the sample barrel 9 are all discharged into the hopper, the feeding transmission line or the other relevant equipment of the sampling system. The cover opening and unlocking device 2 and the pouring manipulator device 3 are sequentially arranged above the conveying line device 1, the pouring manipulator device 3 comprises a clamping and overturning manipulator 31 and a pouring conveying line 32, the sample barrel 9 is conveyed to the position below the cover opening and unlocking device 2 in the forward direction through the conveying line device 1 and is conveyed to the position below the pouring manipulator device 3 in the forward direction after the cover is opened by unlocking, and the clamping and overturning manipulator 31 is used for clamping the sample barrel 9 and driving the sample barrel 9 to be conveyed to the feeding station 4 in the forward direction under the driving of the pouring conveying line 32 so that the sample barrel 9 is overturned at the feeding station 4 to finish dumping and unloading; after dumping and unloading are finished, the clamping and overturning manipulator 31 drives the sample barrel 9 to be reversely conveyed to the conveying line device 1, and after cover closing is finished through the cover opening and unlocking device 2, the sample barrel 9 is reversely conveyed by the conveying line device 1, so that the conveying line device 1 can reversely convey the empty sample barrel 9 to relevant equipment (such as a mineral separation sample reserving machine) of a sample collecting and preparing system again for reuse, and the next batch of the sample barrel 9 can be reused conveniently. Through the special scientific design, the method has the following advantages:

the automatic feeding equipment for samples is high in automation degree, can be automatically abutted with a sample collecting and preparing system, and can realize automatic operation in the whole process no matter the sample barrel 9 is conveyed, the sample barrel 9 is unlocked, the sample barrel 9 is unloaded, the sample barrel 9 falls down again and is conveyed back for recycling, so that the automatic feeding equipment is high in working efficiency, well meets the unattended operation requirement in the sample collecting and preparing system, greatly reduces the labor intensity, and avoids the risk of unstable equipment operation and overall operation of the system caused by manual misoperation.

Secondly, the automatic feeding equipment for the samples is high in safety. Because the unlocking and dumping are not needed to be carried out manually. The sample barrel is prevented from falling down, so that a series of risks of sample falling down caused by artificial sample replacement are avoided, and the representativeness of the sample is well ensured.

The automatic feeding equipment for samples has high intelligent degree, can complete automatic unlocking and automatic feeding, can complete automatic cover falling and automatic return immediately after material pouring, can complete the whole set of sample barrels for the recycling of the next batch, reduces the number requirements of sampling systems on the sample barrels, reduces the cost, improves the working efficiency, and can well meet the requirements of continuous operation and efficient operation of the sampling and manufacturing automation system.

Further, in the preferred embodiment, the clamping and turning manipulator 31 includes a turning bracket 311, a turning driving member 312, and a clamping assembly 313 for clamping and fixing the sample barrel 9, the upper end of the turning bracket 311 is connected with the pouring conveyor line 32, the clamping assembly 313 is movably fixed at the lower end of the turning bracket 311 in a turning manner, and the turning driving member 312 is fixed on the turning bracket 311 for driving the clamping assembly 313 to turn. The overturning blanking mode not only reduces the requirement on the operation space, but also enables the unloading to be rapid and clean, improves the working efficiency, reduces the risk of material residue, and is convenient for the development of cleaning operation described below.

As shown in fig. 1 to 3, further, in the preferred embodiment, the gripping assembly 313 includes a fixing frame 3131, a gripping frame 3132, a guide rail assembly 3133 and a gripping driving assembly 3134, the fixing frame 3131 is movably fixed at the lower end of the turning frame 311, the gripping frame 3132 is installed on the fixing frame 3131 in a liftable manner through the guide rail assembly 3133 and the gripping driving assembly 3134, two fixing arms respectively extending towards two sides of the sample barrel 9 are disposed on the fixing frame 3131, two gripping arms respectively extending towards two sides of the sample barrel 9 are disposed on the gripping frame 3132, and the two gripping arms respectively extend below the handles at two sides of the sample barrel 9 during gripping and are lifted under the driving of the gripping driving assembly 3134 so as to be used for finally clamping the handles at two sides of the sample barrel 9 between the fixing arms and the gripping arms respectively. In view of the above disclosure of the technical features, it is obvious to think that the two sides of the sample barrel 9 should be provided with a handle, or a plurality of similar arrangements such as a boss, for gripping of the gripping assembly 313. The up-and-down clamping mode enables clamping to be stable, and the falling risk can not occur no matter the sample barrel 9 is positively extracted or turned upside down. (since the sample barrel 9 contains the sample and has a heavy mass, there is a risk of the sample barrel falling in a manner of two-sided encircling and two-sided squeezing.)

As shown in fig. 1 to 3, in a preferred embodiment, the cover opening and unlocking device 2 includes a cover opening and lifting assembly 21 and an opening and cover opening assembly 22 fixed on the cover opening and lifting assembly 21, wherein the bottom of the opening and cover opening assembly 22 is provided with more than two power taking electrode modules, a magnetic attraction module and an electromagnetic key card module, and when the cover opening and lifting assembly 21 drives the opening and cover opening assembly 22 to cover the top of the barrel cover of the sample barrel 9, the power taking electrode modules and the electromagnetic key card module are used for enabling the barrel cover to be electrified and unlocked, and the barrel cover is magnetically attracted and fixed on the opening and cover opening assembly 22 through the magnetic attraction module so as to lift and drive the barrel cover to finish extraction. In this embodiment, a card reader module is further provided on the unlocking cover plate assembly 22 for reading the information of the sample chip on the barrel cover of the sampling barrel 9. Under the disclosure of the technical characteristics, it can be obviously thought that the sample barrel 9 is a magnetic sample storage barrel, and the barrel cover is provided with a corresponding magnetic component, an electromagnetic lock component and a chip for recording sample information. The specific implementation principle is as follows:

when the unlocking cover plate assembly 22 is pressed on the top of the barrel cover of the sample barrel 9, the electrode column of the electricity taking electrode module is aligned with the corresponding electrode column on the barrel cover and contacts the corresponding electrode column, the electromagnetic lock control card circuit is conducted on the barrel cover, the authorized electromagnetic lock key card module is aligned with the electromagnetic lock control card on the barrel cover of the sample barrel, the electromagnetic lock control card on the barrel cover is sensed, and the electromagnetic lock is opened. Meanwhile, the magnetic attraction module is aligned with the magnetic attraction plate on the barrel cover of the sample storage barrel, and the magnetic attraction module after electricity is high in magnetic attraction, so that the barrel cover is magnetically attracted and fixed on the unlocking and opening cover plate assembly 22, and the barrel cover can be upwards extracted by the opening cover lifting assembly 21. Through the special scientific design, the safety is high, the sample barrel 9 is required to be authorized and the information is consistent to be opened, and the requirement of automatic operation is well met. Meanwhile, the intelligent degree is high, the information of each sample barrel 9 can be read, verified and recorded by the system, the accuracy of material pouring and sample preparation can be ensured, and the data can be checked.

As shown in fig. 1 to 3, further, in the preferred embodiment, the pouring conveyor line 32 includes a guide rail slider assembly 321, a timing belt driving assembly 322, and a pouring mechanism connecting plate 323, where the timing belt driving assembly 322 is used to drive the pouring mechanism connecting plate 323 to slide along the guide rail slider assembly 321, and the pouring mechanism connecting plate 323 is connected to the gripping and flipping robot 31 and is used to drive the gripping and flipping robot 31 to slide so as to convey the sample barrels 9 to the loading station 4. The travel of the guide rail slide block assembly 321 is provided with a plurality of positioning assemblies 324 for stopping driving the synchronous belt driving assembly 322 after the pouring mechanism connecting plate 323 moves into place. For example, a positioning component 324 is arranged at the feeding station 4, when the connecting plate 323 of the pouring mechanism moves to the positioning component 324, the positioning component 324 can timely and accurately stop driving the synchronous belt driving component 322, so that the clamping turnover manipulator 31 is timely and accurately parked above the feeding station 4, and further accurate discharging operation is completed. For example, a positioning component 324 is arranged above the conveying line device 1, so that when the empty sample barrel 9 is clamped by the clamping and overturning manipulator 31 and conveyed back, the empty sample barrel 9 can be timely and accurately parked above the conveying line device 1, and then the empty sample barrel 9 can be timely and accurately placed on the conveying line device 1, so that quick return is facilitated.

Further, as shown in fig. 2, in the preferred embodiment, a tension adjusting assembly 325 for adjusting the tension of the synchronous belt is disposed at the synchronous belt driving assembly 322, so that the tension of the synchronous belt can be adjusted timely, and accurate driving of the synchronous belt driving assembly 322 is ensured.

As shown in fig. 1, 4 and 5, further, in a preferred embodiment, the conveyor line device 1 is sequentially provided with a first baffle assembly 11 and a second baffle assembly 12, the first baffle assembly 11 is used for intercepting the sample barrel 9 conveyed on the conveyor line device 1 below the cover unlocking device 2 for unlocking and cover opening, the second baffle assembly 12 is used for intercepting the sample barrel 9 conveyed on the conveyor line device 1 below the clamping and overturning manipulator 31 for clamping, and detection switches are respectively arranged at the first baffle assembly 11 and the second baffle assembly 12 for stopping conveying the conveyor line device 1 after detecting the sample barrel 9. When the sample barrel 9 filled with the sample is transmitted for the first time, the sample barrel 9 is intercepted by the first baffle assembly 11, and the conveying line device 1 stops conveying after the detection switch detects the intercepted sample barrel 9. The upper door opener 2 then descends to unlock the door. The first baffle assembly 11 ensures that the intercepted sample barrel 9 can be accurately parked below the uncapping and unlocking device 2, and further ensures accurate uncapping operation of unlocking without misoperation or invalid operation. After the uncapping is unlocked, the first baffle assembly 11 is retracted, the sample barrel 9 is continuously and positively transported and then intercepted by the second baffle assembly 12, at the moment, the detection switch detects the intercepted sample barrel 9 and then the transportation line device 1 is stopped again, and then the clamping and overturning manipulator 31 above can clamp and take the operation. The second barrier assembly 12 also ensures that the intercepted sample bucket 9 can be accurately parked below the clamping and turning manipulator 31, thereby ensuring accurate clamping operation without misoperation or invalid operation.

As shown in fig. 1, 4 and 5, further, in the preferred embodiment, the conveyor line device 1 includes a roller conveyor belt, the first baffle assembly 11 and the second baffle assembly 12 each include a fixing bracket 111 fixed below the roller conveyor belt, a cylinder assembly 112 that can be extended and retracted up and down is provided on the fixing bracket 111, and a baffle 113 is provided on the top of the cylinder assembly 112 for intercepting the sample barrel 9 when extending upward. Of course, in other embodiments, the first baffle assembly 11 and the second baffle assembly 12 may be configured in other forms, such as a side pushrod for intercepting, which is within the scope of the present invention.

Further, in the preferred embodiment, when the dumping conveyor line 32 drives the sample barrel 9 after dumping and unloading is completed to return, the sample barrel 9 is turned back and placed on the conveyor line device 1, and then is conveyed to the first baffle assembly 11 forward to be intercepted, and then the cover opening device 2 resets the barrel cover. This particular scientific design is due to the fact that the sample vessel 9 is exactly intercepted by the first baffle assembly 11, i.e. at the first baffle assembly 11, when capped. And the empty bucket is conveyed back to the first baffle assembly 11, even if the empty bucket returns to the original cover taking position, the empty bucket can be accurately abutted with the bucket cover above, so that the cover opening and unlocking device 2 can accurately descend the bucket cover to reset, and the risk of loose cover or improper cover can not occur.

Further, in the preferred embodiment, as shown in fig. 1, a dust removing device 5 is provided at the loading station 4 for adsorbing dust when the sample barrel 9 is dumped for unloading. This effectively eliminates the risk of dust emission, making it safe and environment-friendly.

As shown in fig. 1 and 6, in a preferred embodiment, a sample barrel cleaning device 6 is disposed between the loading station 4 and the conveying line device 1, and when the sample barrel 9 after dumping and unloading is returned by the dumping conveying line 32, the sample barrel is driven to the sample barrel cleaning device 6 for cleaning and then driven to the conveying line device 1. In this embodiment, the sample barrel cleaning device 6 includes a supporting seat 61, a cleaning lifting assembly 62 capable of lifting up and down is installed on the supporting seat 61, a rotating brush assembly 63 capable of rotating horizontally is arranged at the top of the cleaning lifting assembly 62, and when the poured sample barrel 9 is conveyed to the upper side of the supporting seat 61, the cleaning lifting assembly 62 drives the rotating brush assembly 63 to extend into the barrel to complete cleaning.

When the sample barrel 9 of back-off returns to sample barrel cleaning device 6 department, under the lift effect of cleaning lifting unit 62, rotatory brush subassembly 63 goes up and down simultaneously and rotates, upset back-off blanking adds lift rotatory cleaning mode for the cleaning operation that the effect is splendid has been accomplished to sample barrel 9 inside, not only makes the precision and the representative risk that have this batch of residues to influence next batch of loaded sample in the sample barrel 9 can not appear, simultaneously unload, clean, the lid, the passback is finished in one go, and degree of automation, intelligent is very high, very big improvement work efficiency.

Further, in the preferred embodiment, a blower assembly is also provided on top of the cleaning lift assembly 62 for synchronizing the completion of the cleaning while rotating the cleaning.

The above is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above examples, and all technical solutions belonging to the concept of the present invention belong to the protection scope of the present invention. It should be noted that modifications and adaptations to the invention without departing from the principles thereof are intended to be within the scope of the invention as set forth in the following claims.

Claims

1. The automatic sample feeding equipment is characterized by comprising a conveying line device (1) for conveying a sample barrel (9), wherein a cover opening and locking device (2) and a pouring manipulator device (3) are sequentially arranged above the conveying line device (1), the pouring manipulator device (3) comprises a clamping and overturning manipulator (31) and a pouring conveying line (32), the sample barrel (9) is conveyed to the position below the cover opening and locking device (2) in the forward direction through the conveying line device (1) and is continuously conveyed to the position below the pouring manipulator device (3) after the cover is opened by the unlocking, and the clamping and overturning manipulator (31) is used for clamping the sample barrel (9) and driving the sample barrel (9) to be conveyed to a feeding station (4) in the forward direction under the driving of the pouring conveying line (32) so that the sample barrel (9) is overturned at the feeding station (4) to finish dumping; after dumping and unloading are finished, the clamping and overturning manipulator (31) drives the sample barrel (9) to be reversely conveyed to the conveying line device (1), and the sample barrel is reversely conveyed by the conveying line device (1) after cover closing is finished through the cover opening and unlocking device (2); the cover opening and unlocking device (2) comprises a cover opening and lifting assembly (21) and an unlocking cover opening plate assembly (22) fixed on the cover opening and lifting assembly (21), more than two electricity taking electrode modules, magnetic attraction modules and electromagnetic key card modules are arranged at the bottom of the unlocking cover opening plate assembly (22), and when the cover opening and lifting assembly (21) drives the unlocking cover opening plate assembly (22) to be pressed on the top of a barrel cover of the sample barrel (9), the electricity taking electrode modules and the electromagnetic key card modules are used for enabling the barrel cover to be electrified and unlocked, and the barrel cover is magnetically attracted and fixed on the unlocking cover opening plate assembly (22) through the magnetic attraction modules so as to lift and drive the barrel cover to finish extraction; the conveying line device (1) is arranged on the conveying line frame through a plurality of fixed mounting pieces.

2. The automatic sample feeding device according to claim 1, wherein the clamping and overturning manipulator (31) comprises an overturning bracket (311), an overturning driving piece (312) and a clamping and grabbing component (313) for clamping and fixing a sample barrel (9), the upper end of the overturning bracket (311) is connected with a pouring conveying line (32), the overturning and grabbing component (313) is movably fixed at the lower end of the overturning bracket (311), and the overturning driving piece (312) is fixed on the overturning bracket (311) and used for driving the clamping and grabbing component (313) to overturn.

3. The automatic sample feeding device according to claim 2, wherein the clamping assembly (313) comprises a fixing frame (3131), a clamping frame (3132), a guide rail assembly (3133) and a clamping driving assembly (3134), the fixing frame (3131) is movably fixed at the lower end of the turnover support (311), the clamping frame (3132) is installed on the fixing frame (3131) in a lifting manner through the guide rail assembly (3133) and the clamping driving assembly (3134), two fixing arms extending towards two sides of the sample barrel (9) respectively are arranged on the fixing frame (3131), two clamping arms extending towards two sides of the sample barrel (9) respectively are arranged on the clamping frame (3132), and the two clamping arms extend below handles on two sides of the sample barrel (9) respectively and are lifted under the driving of the clamping driving assembly (3134) during clamping so as to clamp the handles on two sides of the sample barrel (9) between the fixing arms and the clamping arms respectively.

4. An automatic sample loading apparatus according to claim 3, wherein the unlocking cover plate assembly (22) is further provided with a card reader module for reading sample chip information on the barrel cover of the sampling barrel (9).

5. The automatic sample feeding device according to claim 1, wherein the pouring conveyor line (32) comprises a guide rail slide block assembly (321), a synchronous belt driving assembly (322) and a pouring mechanism connecting plate (323), the synchronous belt driving assembly (322) is used for driving the pouring mechanism connecting plate (323) to slide along the guide rail slide block assembly (321), and the pouring mechanism connecting plate (323) is connected with a clamping and overturning manipulator (31) and is used for driving the clamping and overturning manipulator (31) to slide so as to convey the sample barrel (9) to the feeding station (4).

6. The automatic sample feeding apparatus according to claim 5, wherein a plurality of positioning assemblies (324) are provided on the stroke of the rail slider assembly (321) for stopping the driving of the timing belt driving assembly (322) when the loading mechanism connecting plate (323) is moved in place.

7. The automatic sample feeding apparatus according to claim 5, wherein a tension adjusting assembly (325) for adjusting a tension degree of the synchronous belt is provided at the synchronous belt driving assembly (322).

8. The automatic sample feeding device according to claim 1, wherein a first baffle assembly (11) and a second baffle assembly (12) are sequentially arranged at the conveying line device (1), the first baffle assembly (11) is used for intercepting a sample barrel (9) conveyed on the conveying line device (1) below a cover opening unlocking device (2) for opening the cover in an unlocking mode, the second baffle assembly (12) is used for intercepting the sample barrel (9) conveyed on the conveying line device (1) below a clamping and overturning manipulator (31) for clamping, and detection switches are arranged at the first baffle assembly (11) and the second baffle assembly (12) for stopping conveying the conveying line device (1) after detecting the sample barrel (9).

9. The automatic sample feeding device according to claim 8, wherein the conveying line device (1) comprises a roller conveyor belt, the first baffle assembly (11) and the second baffle assembly (12) comprise a fixed support (111) fixed below the roller conveyor belt, a cylinder assembly (112) capable of stretching up and down is arranged on the fixed support (111), and a baffle (113) is arranged at the top of the cylinder assembly (112) for intercepting the sample barrel (9) when the cylinder assembly stretches out upwards.

10. The automatic sample loading device according to claim 8, wherein when the pouring conveyor line (32) drives the sample barrel (9) with the poured and unloaded materials to return, the sample barrel (9) is turned back and placed on the conveyor line device (1) and then is conveyed to the first baffle assembly (11) forward to be intercepted, and then the cover opening device (2) resets the barrel cover.

11. The automatic sample feeding device according to claim 1, wherein the feeding station (4) is provided with a dust removing device (5) for adsorbing dust when the sample barrel (9) is dumped for discharging.

12. The automatic sample feeding device according to claim 1, wherein a sample barrel cleaning device (6) is arranged between the feeding station (4) and the conveying line device (1), and the pouring conveying line (32) drives the sample barrel (9) which is completely poured and unloaded to return and drives the sample barrel to the sample barrel cleaning device (6) for cleaning and then drives the sample barrel to the conveying line device (1).

13. The automatic sample feeding device according to claim 12, wherein the sample barrel cleaning device (6) comprises a supporting seat (61), a cleaning lifting assembly (62) capable of lifting up and down is arranged on the supporting seat (61), a rotary brush assembly (63) capable of rotating horizontally is arranged at the top of the cleaning lifting assembly (62), and when the poured sample barrel (9) is conveyed to the position above the supporting seat (61), the cleaning lifting assembly (62) drives the rotary brush assembly (63) to extend into the barrel to complete cleaning.

14. The automatic sample loading device according to claim 13, wherein a blowing assembly is further provided on top of the cleaning lifting assembly (62) for synchronously completing cleaning during rotary cleaning.