CN113232924A - Full-automatic sample division packaging system - Google Patents

Abstract

The invention discloses a full-automatic sample distribution packaging system which comprises a protective housing, a sub-sample barrel, a stepping transmission mechanism, an interval sample distribution mechanism, a full-automatic sub-sample barrel packaging mechanism and a centralized control type electric control device, wherein a sampling door is arranged at one end of the protective housing, the stepping transmission mechanism, the interval sample distribution mechanism and the full-automatic sub-sample barrel packaging mechanism are all arranged in the protective housing, the interval sample distribution mechanism and the full-automatic sub-sample barrel packaging mechanism are arranged above the stepping transmission mechanism, the centralized control type electric control device is arranged on the protective housing, the stepping transmission mechanism, the interval sample distribution mechanism and the full-automatic sub-sample barrel packaging mechanism are all electrically connected with the centralized control type electric control device, and the sub-sample barrel is arranged on the stepping transmission mechanism. The invention relates to the technical field of automatic sampling machines, and particularly provides a full-automatic sample dividing and packaging system which effectively meets the requirements of consistency of samples and related information thereof, confidentiality reliability of sample information, undistorted sample quality and the like.

Description

Full-automatic sample division packaging system

Technical Field

The invention relates to the technical field of automatic sampling machines, in particular to a full-automatic sample dividing and packaging system.

Background

From 2004, in order to improve the representativeness of the sample and avoid the interference of human factors as much as possible, all large-thermal power plants accelerate the process of replacing the manual sample collection and preparation work by the mechanical sample collection and preparation machine, so far most of the thermal power plants have completed the replacement, and guarantee is provided for the objectivity and justice of the coal-fired sample on the source of the collection and preparation work. However, when a sample is taken from a sampling machine and then is subjected to off-line sample preparation, assay and other processes, the synchronous transmission of the sample and various related information thereof has not been satisfactorily solved.

After the mechanized sampling and sample preparation work is finished, the synchronous transmission of the sample and the related information thereof needs to meet the requirements of several main factors such as the consistency of the sample and the related information thereof, the confidentiality reliability of the sample information, the undistorted sample quality and the like at least. The consistency of the sample and the related information thereof refers to that the sample taken out from the sample storage device of the mechanized sampling and making machine needs to be in one-to-one correspondence with each item of information of the sample and does not change along with the transfer of the sample or the development of subsequent sampling and testing work; the reliability of the confidentiality of the sample information means that various information related to the sample can only be opened locally or completely for personnel and equipment required by work, the performance is strict and compact, and the phenomenon that the sample information is dispersed under the condition of not needing to be opened can not occur, so that adverse effects are not brought to the fairness and objectivity of the sampling and preparation work; the quality of the sample is not distorted, which mainly means that the sample cannot be lost in the processes of taking and transporting, and subsequent sample preparation, assay and the like, no matter the sample is omitted or water is volatilized, the sample is selectively kept and the like.

In order to meet the above requirements, the use units and manufacturers of large sampling devices spend a lot of resources in terms of manpower and material resources on how to solve the problem of synchronous transmission of samples and related information thereof, but the effect is still unsatisfactory. The method generally adopted in the mechanical sample collection and preparation work comprises the modes of transmitting information by a paper plate, transmitting information by the paper plate after coding treatment, packaging samples and then spraying codes to transmit information and the like. The paper version is the most original mode for transmitting information, and the information is basically eliminated because the information is in an open state to a great extent and cannot meet the requirement of confidentiality; secondly, firstly, the information is subjected to password processing according to a form set in the aspect of management, and then the form of a paper edition and the sample are synchronously transmitted, wherein the mode is mainly because the sealing performance of the sample is poor, the password information of the paper edition and the sample are easy to be disordered, the coding operation is easy to be carried out, or the quality of the sample is easy to be problematic, and the requirements of a sampling and preparation equipment using unit can not be met; the mode of synchronously transmitting information by spraying codes after packaging samples gradually becomes the mainstream trend in the aspect of using sampling equipment, and is only the sampling equipment with the functions of packaging and spraying codes in the current market, and the sampling equipment cannot be effectively popularized and approved in the market due to the factors of various components, larger arrangement space, more fault points, larger early investment, higher later use cost and the like in the packaging and code spraying process. The novel data full-automatic sample distribution packaging system is taken as sample distribution packaging equipment which is simple, convenient, reliable in packaging, low in early-stage investment and later-stage use cost and low in requirement on site space, and has stronger and more excellent performances, and therefore the urgent need of realizing synchronous transmission of samples and information after the completion of mechanical sample collection and preparation is met.

Disclosure of Invention

In order to overcome the defects, the invention provides a full-automatic sample dividing and packaging system which can effectively meet the requirements of consistency of samples and related information thereof, confidentiality reliability of sample information, undistorted sample quality and the like.

The invention provides the following technical scheme: the invention relates to a full-automatic sample dividing and packaging system which comprises a protective housing, a sample sub-barrel, a stepping transmission mechanism, an interval sample dividing mechanism, a full-automatic packaging mechanism of the sample sub-barrel and a centralized control type electric control device, wherein a sampling door is arranged at one end of the protective housing; the stepping type transmission mechanism comprises a driving device, a conveying belt and supporting legs, the driving device is arranged in the protective housing, the supporting legs are arranged outside the protective housing, the driving device is a groove wheel driving device, a transmission shaft is rotatably arranged on the supporting legs, two ends of the conveying belt are respectively arranged on the driving device and the transmission shaft of the supporting legs, stepping type transmission movement of the conveying belt is realized under the driving action of a groove wheel mechanism, so that conditions are provided for full-automatic sample separation, and a sample sub-barrel placing groove is formed in the conveying belt; the interval sample dividing mechanism comprises a feed hopper, a blocking plate, a guide rod, a rack frame, a driving shaft, a driving gear and a blocking driving motor, wherein the guide rod is arranged on the top wall of the protective housing, the upper end of the rack frame is slidably arranged on the guide rod, a rectangular driving groove is arranged in the middle of the rack frame, two groups of push-pull sawteeth are symmetrically arranged on two opposite sides of the rectangular driving groove, the blocking driving motor is arranged on the inner side wall of the protective housing, the driving shaft is rotatably arranged on the inner side wall of the protective housing and is connected with an output shaft of the blocking driving motor, the driving gear is arranged on the driving shaft and is an incomplete gear, the driving gear is sequentially meshed with the two groups of push-pull sawteeth on two opposite sides of the rectangular driving groove, the blocking plate is arranged on the outer side of the rack frame, the feed hopper is arranged on the top wall of the protective housing, one side of the feed hopper close to the rack frame is provided with the blocking groove, the plugging plate is arranged in the plugging groove in a sliding mode, and the plugging plate moves through the position of the plugging plate and is matched with the sheave mechanism to achieve sample separation at intervals.

Further, the full-automatic packaging mechanism of the subsample barrel comprises a plastic packaging film feeding assembly, a guide wheel assembly, a guide transverse plate, a negative pressure gas pipe, a first guide air pump, a first plastic packaging film pulling assembly and a plastic packaging assembly, wherein the plastic packaging film feeding assembly is arranged below the top wall of the protective housing, the guide wheel assembly is arranged on the side wall of the protective housing, the guide transverse plate is arranged on the side wall of the protective housing, negative pressure holes are uniformly distributed in the upper end of the guide transverse plate, the first guide air pump is arranged on the top wall of the protective housing, two ends of the negative pressure gas pipe are respectively arranged on the first guide air pump and the guide transverse plate, the plastic packaging film pulling assembly and the plastic packaging assembly are both arranged below the top wall of the protective housing, and one end of the guide transverse plate extends to the lower side of the plastic packaging film pulling assembly.

Further, the plastic packaging film pulling assembly comprises a supporting plate, a pulling driving motor, a driving shaft, a driven shaft, a driving conical wheel, a driven conical wheel, a pulling driving screw rod, a threaded block, a second guiding air pump and a second guiding air pipe, wherein the second guiding air pump is arranged on the top wall of the protective cover shell, one end of the second guiding air pipe is connected with the second guiding air pump, the supporting plate is arranged below the top wall of the protective cover shell, the pulling driving motor is arranged on the top wall of the protective cover shell, the driving shaft is rotatably arranged on the top wall of the protective cover shell and is connected with an output shaft of the pulling driving motor, the driving conical wheel is arranged on the driving shaft, the driven conical wheel is arranged on the supporting plate, the driven conical wheel is arranged on the driven shaft and is meshed with the driving conical wheel, the pulling driving screw rod is rotatably arranged on the supporting plate and is connected with the driven shaft, the thread block is connected with the pulling driving screw rod through threads, the other end of the guide gas pipe penetrates through the thread block, and the guide gas pipe is provided with a negative pressure adsorption head.

Further, the pulling driving motor is a forward and reverse double-rotation motor.

Furthermore, the guide air delivery pipe is an elastic folding hose.

Further, the plastic package assembly comprises telescopic cylinders and plastic seal heads, the telescopic cylinders are provided with two groups, the plastic seal heads are arranged at the lower ends of the two groups of telescopic cylinders, the plastic seal heads are arranged in an inverted U-shaped structure, and the inner diameters of the plastic seal heads are matched with the outer diameters of the sub-sample barrels.

Furthermore, the driving device, the plugging driving motor, the first guiding air pump, the second guiding air pump, the pulling driving motor, the telescopic air cylinder and the plastic packaging head are all electrically connected with the centralized control type electric control device.

The invention with the structure has the following beneficial effects: compared with the prior art, the full-automatic sample division packaging system has the following beneficial effects:

firstly, from the perspective of ensuring that the quality of a sample is not distorted, because a full-automatic sample dividing and packaging system adopts a full-automatic sample dividing and packaging mode for a sub-sample barrel in a sample collector, before sampling by an operator of a sampling machine, equipment must be started to finish automatic sealing of the sub-sample barrel, and then sampling personnel finish sampling work, so that when the sampling personnel take out the sample barrel, the sample barrel is in a completely sealed state, the possible moisture loss or quality change of the sample in the transferring or inverting process can be avoided, the phenomenon that the sampling personnel and the transferring personnel can directly contact the sample is also eliminated, and the interference of environmental factors and human factors on the quality of the sample is avoided to the maximum extent in the sampling process;

secondly, the data sampling and packaging system adopts an upper computer to perform centralized control, so that the effects of simple and clear operation and easy learning and understanding can be achieved; the independently configured centralized control type electric control device ensures that the equipment operates in a self-organizing way and does not generate any adverse effect on the normal sample collection and preparation work of the original sample collection machine; meanwhile, the new system can adopt an integral installation mode, only the sample separator of the original sampling machine is simply and integrally replaced, the field modification amount is small, the installation process is convenient and quick, the field working time can be completed only by 2-3 days even if the field working time contains debugging, and the influence on the normal production and operation of users is minimized.

In general, the full-automatic sample distribution and packaging system provided by the invention adopts the most simplified component configuration mode in the current market, not only achieves effective control on environmental factors and human factors in the sampling and transferring processes, but also realizes the data management and confidentiality requirements of coal sample information, has no harsh requirements on the conditions of a use site, greatly reduces the failure rate of the integral operation of equipment, and is a reliable mode for realizing synchronous transmission of samples and related information after mechanical sample collection and preparation.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic diagram of an overall structure of a fully automatic sample-separating and packaging system according to the present invention;

FIG. 2 is a schematic structural diagram of an interval sample distribution mechanism of a full-automatic sample distribution packaging system according to the present invention;

fig. 3 is a schematic structural diagram of a full-automatic packaging mechanism of a sub-sample barrel of the full-automatic sample separation packaging system of the invention.

The device comprises a protective cover shell, a sample sub-barrel, a stepping transmission mechanism, a 4 sample spacing mechanism, a 5 sample sub-barrel full-automatic packaging mechanism, a 6 driving device, a 7 conveying belt, 8 supporting legs, 9, a feeding hopper, 10 plugging plates, 11, guide rods, 12, a rack frame, 13, a driving shaft, 14, a driving gear, 15, a guide wheel assembly, 16, a guide transverse plate, 17, a negative pressure gas conveying pipe, 18, a guide gas pump I, 19, a guide gas pump II, 20, a supporting plate, 21, a pulling driving motor, 22, a driving shaft, 23, a driven shaft, 24, a driving conical wheel, 25, a driven conical wheel, 26, a pulling driving screw rod, 27, a threaded block, 28, a guide gas conveying pipe, 29, a telescopic cylinder, 30, a plastic packaging head, 31 and a plastic packaging film feeding assembly.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

It should be noted that the terms "front," "back," "left," "right," "upper" and "lower" used in the following description refer to directions in the drawings, and the terms "inner" and "outer" refer to directions toward and away from, respectively, the geometric center of a particular component.

As shown in fig. 1 to 3, the technical scheme adopted by the invention is as follows: a full-automatic sample dividing and packaging system comprises a protective housing 1, a sub-sample barrel 2, a stepping transmission mechanism 3, an interval sample dividing mechanism 4, a full-automatic sub-sample barrel packaging mechanism 5 and a centralized control type electric control device, wherein a sampling door is arranged at one end of the protective housing 1, the stepping transmission mechanism 3, the interval sample dividing mechanism 4 and the full-automatic sub-sample barrel packaging mechanism 5 are all arranged in the protective housing 1, the interval sample dividing mechanism 4 and the full-automatic sub-sample barrel packaging mechanism 5 are arranged above the stepping transmission mechanism 3, the centralized control type electric control device is arranged on the protective housing 1, the stepping transmission mechanism 3, the interval sample dividing mechanism 4 and the full-automatic sub-sample barrel packaging mechanism 5 are all electrically connected with the centralized control type electric control device, and the sub-sample barrel 2 is arranged on the stepping transmission mechanism 3; the stepping transmission mechanism 3 comprises a driving device 6, a conveyor belt 7 and supporting legs 8, the driving device 6 is arranged in the protective housing 1, the supporting legs 8 are arranged outside the protective housing 1, the driving device 6 is a sheave driving device 6, transmission shafts are rotatably arranged on the supporting legs 8, two ends of the conveyor belt 7 are respectively arranged on the driving device 6 and the transmission shafts of the supporting legs 8, stepping transmission movement of the conveyor belt 7 is realized under the driving action of the sheave mechanism, so that conditions are provided for full-automatic sample separation, and a sample sub-barrel placing groove is arranged on the conveyor belt 7; the interval sample distribution mechanism 4 comprises a feed hopper 9, a blocking plate 10, a guide rod 11, a rack frame 12, a driving shaft 13, a driving gear 14 and a blocking driving motor, wherein the guide rod 11 is arranged on the top wall of the protective housing 1, the upper end of the rack frame 12 is slidably arranged on the guide rod 11, a rectangular driving groove is arranged in the middle of the rack frame 12, two groups of push-pull sawteeth are symmetrically arranged on two opposite sides of the rectangular driving groove, the blocking driving motor is arranged on the inner side wall of the protective housing 1, the driving shaft 13 is rotatably arranged on the inner side wall of the protective housing 1 and is connected with an output shaft of the blocking driving motor, the driving gear 14 is arranged on the driving shaft 13 and is an incomplete gear, the driving gear 14 is sequentially meshed with the two groups of push-pull sawteeth on two opposite sides of the rectangular driving groove, the blocking plate 10 is arranged on the outer side of the rack frame 12, the feed hopper 9 is arranged on the top wall of the protective housing 1, one side, which is close to the rack frame 12, is provided with a blocking groove, the plugging plate 10 is arranged in the plugging groove in a sliding mode, and the plugging plate 10 moves through the position and is matched with the sheave mechanism to achieve sample separation.

The full-automatic packaging mechanism 5 of the subsample barrel comprises a plastic packaging film feeding assembly 31, a guide wheel assembly 15, a guide transverse plate 16, a negative pressure gas conveying pipe 17, a guide air pump I18, a plastic packaging film pulling assembly and a plastic packaging assembly, the plastic packaging film feeding assembly 31 is arranged below the top wall of the protective housing 1, the guide wheel assembly 15 is arranged on the side wall of the protective housing 1, the guide transverse plate 16 is arranged on the side wall of the protective housing 1, negative pressure holes are uniformly distributed in the upper end of the guide transverse plate 16, the guide air pump I18 is arranged on the top wall of the protective housing 1, two ends of the negative pressure gas conveying pipe 17 are respectively arranged on the guide air pump I18 and the guide transverse plate 16, the plastic packaging film pulling assembly and the plastic packaging assembly are both arranged below the top wall of the protective housing 1, and one end of the guide transverse plate 16 extends to the lower side of the plastic packaging film pulling assembly.

The plastic packaging film pulling assembly comprises a supporting plate 20, a pulling driving motor 21, a driving shaft 22, a driven shaft 23, a driving conical wheel 24, a driven conical wheel 25, a pulling driving screw 26, a thread block 27, a guide air pump II 19 and a guide air pipe 28, wherein the guide air pump II 19 is arranged on the top wall of the protective housing 1, one end of the guide air pipe 28 is connected with the guide air pump II 19, the supporting plate 20 is arranged below the top wall of the protective housing 1, the pulling driving motor 21 is arranged on the top wall of the protective housing 1, the driving shaft 22 is rotatably arranged on the top wall of the protective housing 1 and is connected with an output shaft of the pulling driving motor 21, the driving conical wheel 24 is arranged on the driving shaft 22, the driven shaft 23 is rotatably arranged on the supporting plate 20, the driven conical wheel 25 is arranged on the driven shaft 23, the driven conical wheel 25 is meshed with the driving conical wheel 24, the pulling driving screw 26 is rotatably arranged on the supporting plate 20, and the pulling driving screw 26 is connected with the driven shaft 23, the thread block 27 is connected with the pulling driving screw rod 26 through threads, the other end of the guide air pipe 28 penetrates through the thread block 27, and the guide air pipe 28 is provided with a negative pressure adsorption head. The pulling driving motor 21 is a forward and reverse rotation motor. The guide air duct 28 is an elastic folding hose.

The plastic package assembly comprises two groups of telescopic air cylinders 29 and two groups of plastic package heads 30, the plastic package heads 30 are arranged at the lower ends of the two groups of telescopic air cylinders 29, and the plastic package heads 30 are arranged in an inverted U-shaped structure.

The driving device 6, the plugging driving motor, the first guiding air pump 18, the second guiding air pump 19, the pulling driving motor 21, the telescopic air cylinder 29 and the plastic packaging head 30 are all electrically connected with the centralized control type electric control device.

When the automatic sample sorting device is used, raw materials are placed in a feed hopper 9, a sample sub-barrel 2 is placed in a sample sub-barrel placing groove, a stepping transmission mechanism 3 is started, the sample sub-barrel 2 is transmitted to the position under the feed hopper 9 under the action of interval transmission of the stepping transmission mechanism 3, a centralized control type electric control device controls a plugging driving motor to act, a plugging plate 10 is pulled and pulled to perform interval plugging under the driving action of a driving gear 14 and a rack frame 12, so that automatic sample sorting is realized, the sample sub-barrel 2 which is subjected to sample sorting is continuously transmitted to the position under a full-automatic sub-barrel packaging mechanism 5 under the action of the stepping transmission mechanism 3, a plastic packaging film is always attached to a plastic packaging transverse plate 16 under the action of negative pressure, a thread block 27 drives a guide air conveying pipe 28 to move to and fro along a pulling driving screw 26 under the transmission action of a pulling driving motor 21, and when the thread block 27 drives the guide air conveying pipe 28 to move to the position over the guide transverse plate 16, the first guide air pump 18 stops working, the second guide air pump 19 starts working, the plastic packaging film moves to the other end of the pulling driving screw rod 26 along with the negative pressure adsorption head under the action of negative pressure, the first guide air pump 18 starts working while the telescopic air cylinder 29 is started, and the second guide air pump 19 stops working so as to ensure that one end of the plastic packaging film is always on the guide transverse plate 16, and the telescopic air cylinder 29 pushes the plastic sealing head 30 to plastically package the plastic packaging film on the subsample barrel 2.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. A full-automatic sample dividing and packaging system is characterized by comprising a protective cover shell, a sub-sample barrel, a stepping transmission mechanism, an interval sample dividing mechanism, a full-automatic sub-sample barrel packaging mechanism and a centralized control type electric control device, wherein a sampling door is arranged at one end of the protective cover shell; the stepping type transmission mechanism comprises a driving device, a conveying belt and supporting legs, the driving device is arranged in the protective housing, the supporting legs are arranged outside the protective housing, the driving device is a groove wheel driving device, a transmission shaft is rotatably arranged on the supporting legs, two ends of the conveying belt are respectively arranged on the driving device and the transmission shaft of the supporting legs, and a sub-sample barrel placing groove is formed in the conveying belt; the interval sample dividing mechanism comprises a feed hopper, a blocking plate, a guide rod, a rack frame, a driving shaft, a driving gear and a blocking driving motor, wherein the guide rod is arranged on the top wall of the protective housing, the upper end of the rack frame is slidably arranged on the guide rod, a rectangular driving groove is arranged in the middle of the rack frame, two groups of push-pull sawteeth are symmetrically arranged on two opposite sides of the rectangular driving groove, the blocking driving motor is arranged on the inner side wall of the protective housing, the driving shaft is rotatably arranged on the inner side wall of the protective housing and is connected with an output shaft of the blocking driving motor, the driving gear is arranged on the driving shaft and is an incomplete gear, the driving gear is sequentially meshed with the two groups of push-pull sawteeth on two opposite sides of the rectangular driving groove, the blocking plate is arranged on the outer side of the rack frame, the feed hopper is arranged on the top wall of the protective housing, one side of the feed hopper close to the rack frame is provided with the blocking groove, the plugging plate is arranged in the plugging groove in a sliding mode.

2. The full-automatic sample division packaging system according to claim 1, characterized in that the full-automatic packaging mechanism of the sub-sample barrel comprises a plastic packaging film feeding assembly, a guide wheel assembly, a guide transverse plate, a negative pressure gas pipe, a first guide gas pump, a first plastic packaging film pulling assembly and a plastic packaging assembly, wherein the plastic packaging film feeding assembly is arranged below the top wall of the protective housing, the guide wheel assembly is arranged on the side wall of the protective housing, the guide transverse plate is arranged on the side wall of the protective housing, negative pressure holes are uniformly distributed at the upper end of the guide transverse plate, the first guide gas pump is arranged on the top wall of the protective housing, two ends of the negative pressure gas pipe are respectively arranged on the first guide gas pump and the guide transverse plate, the first plastic packaging film pulling assembly and the plastic packaging assembly are both arranged below the top wall of the protective housing, and one end of the guide transverse plate extends to the lower side of the plastic packaging film pulling assembly.

3. The full-automatic sample separation and encapsulation system according to claim 2, wherein the plastic package film pulling assembly comprises a support plate, a pulling driving motor, a driving shaft, a driven shaft, a driving cone wheel, a driven cone wheel, a pulling driving screw, a thread block, a second guiding air pump and a guiding air pipe, the second guiding air pump is arranged on the top wall of the protective cover shell, one end of the guiding air pipe is connected with the second guiding air pump, the support plate is arranged below the top wall of the protective cover shell, the pulling driving motor is arranged on the top wall of the protective cover shell, the driving shaft is rotatably arranged on the top wall of the protective cover shell and connected with an output shaft of the pulling driving motor, the driving cone wheel is arranged on the driving shaft, the driven shaft is rotatably arranged on the support plate, the driven cone wheel is arranged on the driven shaft, the driven cone wheel is meshed with the driving cone wheel, and the pulling driving screw is rotatably arranged on the support plate, the pulling driving screw rod is connected with the driven shaft, the thread block is arranged on the pulling driving screw rod through threaded connection, the other end of the guide gas pipe penetrates through the thread block, and the guide gas pipe is provided with a negative pressure adsorption head.

4. The system of claim 3, wherein the pull drive motor is a reversible motor.

5. The full-automatic sample separation and packaging system according to claim 4, wherein the guide gas pipe is an elastic folding hose.

6. The full-automatic sample separation and packaging system according to claim 5, wherein the plastic package assembly comprises two groups of telescopic cylinders and two groups of plastic seal heads, the plastic seal heads are arranged at the lower ends of the two groups of telescopic cylinders, and the plastic seal heads are arranged in an inverted U-shaped structure.

7. The full-automatic sample separation and packaging system according to claim 6, wherein the driving device, the plugging driving motor, the first guiding air pump, the second guiding air pump, the pulling driving motor, the telescopic cylinder and the plastic packaging head are all electrically connected with a centralized control type electric control device.

Images