CN111751154A - Soil remediation assists sampling equipment - Google Patents

Abstract

The invention discloses a soil remediation auxiliary sampling device, which comprises a machine shell, wherein a scraping cavity is arranged in the middle of the machine shell, the left lower end of the machine shell is provided with a soil quantitative sampling mechanism for quantitatively sampling in soil, the scraping cavity is internally provided with a sampling soil scraping mechanism for collecting the sampled soil, a sampling soil storage mechanism for discharging sampling soil is arranged in the lower inner wall of the scraping cavity, the device is a portable soil sampling device, can be operated conveniently and quickly by manpower, can not only carry out secondary sampling in the soil to be restored, but also store the soil sampled twice in different spaces respectively so as to detect the soil in the later period, the soil volume of the soil of in-process that can accurate control sample at the sample to obtain and detect required soil volume, the soil discharge that can conveniently obtain the sample after the sample finishes.

Description

Soil remediation assists sampling equipment

Technical Field

The invention relates to the field of soil remediation, in particular to soil remediation auxiliary sampling equipment.

Background

Before repairing damaged soil, the soil to be repaired is often required to be sampled, and the sampled soil is detected to obtain related data about the soil to be repaired, so that the soil is repaired at the later stage.

At the present stage, when taking a sample to soil, generally all gather the sample to soil through the manual work, because the environment of soil is various, then can have the inconvenient condition of sample when the manual work is taken a sample to soil, general soil sampling equipment can only take a sample soil and can not store the soil of sample many times.

Disclosure of Invention

The invention aims to solve the technical problem of providing a soil remediation auxiliary sampling device, solving the problems that the soil cannot be sampled for multiple times and the soil quantity of the sampled soil cannot be accurately controlled, and increasing the functions of sampling the soil for multiple times and accurately controlling the soil quantity of the sampled soil.

The invention is realized by the following technical scheme.

The invention discloses soil remediation auxiliary sampling equipment which comprises a machine shell, wherein a scraping cavity is arranged in the middle of the machine shell, a soil quantitative sampling mechanism for quantitatively sampling soil is arranged at the lower left end of the machine shell, a sampled soil scraping mechanism for collecting the sampled soil is arranged in the scraping cavity, and a sampled soil storage mechanism for discharging the sampled soil is arranged in the lower inner wall of the scraping cavity; the sampling soil scraping mechanism comprises a lifting block which is positioned in the scraping cavity and can lift up and down, two elastic springs are connected between the upper end surface of the lifting block and the upper inner wall of the scraping cavity, a moving cavity with a downward opening is arranged in the lifting block, a moving block capable of moving left and right is arranged in the moving cavity, an elastic spring is connected between the right end surface of the moving block and the right inner wall of the moving cavity, a scraping plate is fixed on the lower end surface of the moving block, a sliding cavity with a rightward opening is arranged in the scraping plate, a sliding block capable of moving up and down is arranged in the sliding cavity, a driven cavity is arranged in the right inner wall of the scraping cavity, a rack with the right end extending into the right inner wall of the driven cavity is fixed on the right end surface of the sliding block, a transmission cavity is arranged on the upper side of the scraping cavity, a rotating shaft is rotated between the lower inner wall of the driven cavity, the upper end of the rotating shaft is provided with a driven gear positioned in the transmission cavity, the lower inner wall of the scraping cavity is internally provided with two same collecting cavities, the left inner wall at the upper end of the left collecting cavity and the right inner wall at the upper end of the right collecting cavity are internally provided with baffle cavities communicated with the collecting cavities, two baffle cavities are internally provided with a baffle capable of moving left and right, one end surface of each baffle, which is far away from each other, is respectively connected with a linear spring between the inner wall of the baffle cavity, one end surface of each baffle, which is far away from each other, is connected with one end of a connecting rope, the lower inner wall of one end, which is far away from each other, of the two baffle cavities is internally provided with a fixture block cavity with an upward opening, a fixture block capable of moving up and down is arranged in the fixture block cavity, a connecting spring is connected between the lower end surface of, the lower ends of the two baffle plates are respectively provided with a clamping groove which is respectively positioned at the upper side of the clamping block cavity and has a downward opening.

Further, strike off the ejector pin chamber that the intracavity was equipped with two openings down, two in the intracavity wall ejector pin intracavity all is equipped with an ejector pin that can the up-and-down motion, ejector pin up end with it is equipped with pressure spring, two to connect between the intracavity wall on the ejector pin chamber the ejector pin up end all is connected with the one end of a rope, two the left end face of ejector pin upper end all is connected with one the other end of rope made of hemp, the upper end at both ends all is equipped with the ascending warning chamber of an opening about the casing, the warning intracavity is equipped with the warning pole that can the up-and-down motion, terminal surface under the warning pole with be connected with expanding spring, two under the warning pole between the intracavity wall the terminal surface all is connected with one the other end of rope.

Furthermore, the soil quantitative sampling mechanism comprises a conveying cavity with a downward opening and positioned at the left lower end of the casing, an inserting block is fixed on the lower end face of the left end of the casing and communicated with the conveying cavity, a motor is arranged in the upper inner wall of the left end of the transmission cavity, the lower end of the motor is in power connection with a transmission shaft with the lower end extending into the inserting block, a conveying screw positioned in the conveying cavity is arranged at the lower end of the transmission shaft, an induction cavity with a downward opening is arranged at the left side of the conveying cavity, a pressure rod capable of moving up and down is arranged in the induction cavity, a pressure rod capable of moving up and down is arranged in the pressure rod, a compression spring is connected between the upper end face of the pressure rod and the upper inner wall of the induction cavity, a pressure plate is fixed on the lower end face of the pressure rod, a driving belt pulley positioned in the transmission cavity is arranged at the upper, the upper end of the rotating shaft is provided with a driven belt wheel, and a belt is connected between the driven belt wheel and the driving belt wheel in a transmission manner.

Further, the spline connection of rotation axis lower extreme has and is located the sliding gear of driven pulley downside, be equipped with the decurrent smooth chamber of opening in the sliding gear, it can to slide the intracavity gliding slider, be equipped with the commentaries on classics board in the middle of the rotation axis, change board lower extreme terminal surface with be connected with two reset spring between the sliding gear up end, slider lower extreme terminal surface with be connected with the chain between the elevator up end, the depression bar up end is connected with the one end of stay cord, the elevator up end is connected with the other end of stay cord, the casing up end is fixed with handheld handle.

Furthermore, the sampling soil storage mechanism comprises a left inner wall of the collection cavity and a push plate cavity of the left inner wall of the collection cavity, the two inner walls of the collection cavity are respectively provided with a displacement cavity, the inner walls of the displacement cavity are internally provided with movable cavities which are communicated up and down, the movable cavities are internally provided with movable blocks which can move left and right, the right end surface of the left movable block and the left end surface of the right movable block on the right side are respectively connected with the other end of the connecting rope, the left and right inner walls of the two displacement cavities are respectively fixed with a fixed plate, the fixed plate is provided with a displacement block which can slide left and right on the fixed plate, the upper end surface of the displacement block is fixedly connected with the lower end surface of the push plate, the lower end surface of the displacement block is fixedly connected with the upper end surface of the movable block, and the left inner wall of the lower end of the left collection cavity and the right inner wall of the lower end of, an electromagnetic switch is arranged in the discharge hole.

The invention has the beneficial effects that: this equipment is a portable soil sampling equipment, can carry out convenient operation through the manual work to this equipment, not only can carry out the secondary sample in waiting prosthetic soil, can also store the soil of twice sample in different spaces respectively to the later stage detects soil, the soil volume of the soil that can accurate control sample at the in-process of sample, so that obtain and detect required soil volume, the soil discharge that can conveniently obtain the sample after the sample finishes.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic diagram of the structure at A in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of the structure at B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is a schematic structural diagram of FIG. 1 at C according to an embodiment of the present invention.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, wherein for ease of description the orientations described hereinafter are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Combine a soil remediation auxiliary sampling equipment of attached drawing 1-4, including casing 10, the centre is equipped with in the casing 10 and strikes off chamber 38, casing 10 ground left side lower extreme is equipped with the soil quantitative sampling mechanism 80 of quantitative sample in soil, strike off the sample soil that is equipped with in the chamber 38 and carries out the collection to the soil of sample and scrape down mechanism 81, strike off and be equipped with in the chamber 38 lower wall and carry out the sample soil storage mechanism 82 that discharges with the sample soil, the aforesaid. The sampled soil scraping mechanism 81 comprises a lifting block 26 which is positioned in the scraping cavity 38 and can lift up and down, two elastic springs 11 are connected between the upper end surface of the lifting block 26 and the upper inner wall of the scraping cavity 38, a moving cavity 27 with a downward opening is arranged in the lifting block 26, a moving block 15 capable of moving left and right is arranged in the moving cavity 27, an elastic spring 14 is connected between the right end surface of the moving block 15 and the right inner wall of the moving cavity 27, a scraper 28 is fixed on the lower end surface of the moving block 15, a sliding cavity 29 with a rightward opening is arranged in the scraper 28, a sliding block 30 capable of moving up and down is arranged in the sliding cavity 29, a driven cavity 52 is arranged in the right inner wall of the scraping cavity 38, a rack 42 with the right end extending into the right inner wall of the driven cavity 52 is fixed on the right end surface of the sliding block 30, a transmission cavity 25 is arranged on the upper side of the scraping cavity 38, and a rotating shaft 54 is arranged, the lower end of the rotating shaft 54 is provided with a rotating gear 53 engaged with the rear section of the rack 42, the upper end of the rotating shaft 54 is provided with a driven gear 55 positioned in the transmission cavity 25, the lower inner wall of the scraping cavity 38 is internally provided with two same collecting cavities 41, the left inner wall of the upper end of the left collecting cavity 41 and the right inner wall of the upper end of the right collecting cavity 41 are internally provided with baffle cavities 51 communicated with the collecting cavities 41, two baffle cavities 51 are internally provided with a baffle 43 capable of moving left and right, a linear spring 49 is connected between one end face of the two baffles 43 far away from each other and one inner wall of the baffle cavity 51, one end face of the two baffles 43 far away from each other is connected with one end of a connecting rope 73, the lower inner wall of one end of the two baffle cavities 51 far away from each other is internally provided with a fixture block cavity 47 with an upward opening, and a fixture block 45 capable of moving up and down is, a connecting spring 48 is connected between the lower end surface of the fixture block 45 and the lower inner wall of the fixture block cavity 47, the lower end surface of the fixture block 45 is connected with one end of a hemp rope 46, the lower ends of the two baffles 43 are respectively provided with a clamping groove 44 which is respectively positioned at the upper side of the fixture block cavity 47 and has a downward opening, beneficially, two ejector rod cavities 70 with downward openings are arranged in the upper inner wall of the scraping cavity 38, an ejector rod 72 capable of moving up and down is arranged in each ejector rod cavity 70, a pressure spring 71 is connected between the upper end surface of the ejector rod 72 and the upper inner wall of the ejector rod cavity 70, the upper end surfaces of the two ejector rods 72 are respectively connected with one end of a rope 24, the left end surfaces of the upper ends of the two ejector rods 72 are respectively connected with the other end of the hemp rope 46, the upper ends of the left end and the right end of the casing 10 are respectively provided with a warning cavity 23, the lower end face of the warning rod 20 and the lower inner wall of the warning cavity 23 are connected with a telescopic spring 22, and the lower end faces of the warning rods 20 are connected with one of the other ends of the ropes 24.

Advantageously, the soil quantitative sampling mechanism 80 includes a conveying cavity 36 located at the lower left end of the casing 10 and having a downward opening, an insertion block 37 is fixed to the lower end surface of the left end of the casing 10, the insertion block 37 is communicated with the conveying cavity 36, a motor 18 is disposed in the upper inner wall of the left end of the conveying cavity 25, the lower end of the motor 18 is in power connection with a transmission shaft 21 having a lower end extending into the insertion block 37, a conveying screw 35 located in the conveying cavity 36 is disposed at the lower end of the transmission shaft 21, an induction cavity 31 having a downward opening is disposed at the left side of the conveying cavity 36, a pressing rod 33 capable of moving up and down is disposed in the induction cavity 31, a pressing rod 33 capable of moving up and down is disposed in the pressing rod 33, a compression spring 32 is connected between the upper end surface of the pressing rod 33 and the upper inner wall of the induction cavity 31, a pressing plate 34 is fixed to the lower end surface of the pressing, a rotating shaft 75 positioned on the left side of the rotating shaft 54 is rotatably arranged between the upper inner wall and the lower inner wall of the right end of the transmission cavity 25, a driven belt wheel 76 is arranged at the upper end of the rotating shaft 75, and a belt 17 is in transmission connection between the driven belt wheel 76 and the driving belt wheel 19.

Beneficially, a sliding gear 67 located on the lower side of the driven pulley 76 is splined to the lower end of the rotating shaft 75, a sliding cavity 68 with a downward opening is arranged in the sliding gear 67, a sliding block 69 capable of sliding in the sliding cavity 68 is arranged in the sliding cavity 68, a rotating plate 65 is arranged in the middle of the rotating shaft 75, two return springs 66 are connected between the lower end surface of the rotating plate 65 and the upper end surface of the sliding gear 67, a chain 64 is connected between the lower end surface of the sliding block 69 and the upper end surface of the lifting block 26, one end of a pull rope 13 is connected to the upper end surface of the pressing rod 33, the other end of the pull rope 13 is connected to the upper end surface of the lifting block 26, and a handle 16 is fixed to the upper end surface of.

Beneficially, the sampling soil storage mechanism 82 includes a push plate cavity 59 located on the right inner wall of the left collection cavity 41 and located on the left inner wall of the right collection cavity 41, two displacement cavities 56 are respectively disposed in the lower inner walls of the two collection cavities 41, a movable cavity 63 communicating with each other up and down is disposed in the lower inner wall of the displacement cavity 56, a movable block 62 capable of moving left and right is disposed in the movable cavity 63, the other end of the connecting rope 73 is respectively connected to the right end surface of the movable block 62 on the left side and the left end surface of the movable block 62 on the right side, a fixed plate 57 is fixed to each of the left and right inner walls of the two displacement cavities 56, a displacement block 60 capable of sliding left and right on the fixed plate 57 is disposed on the fixed plate 57, the upper end surface of the displacement block 60 is fixedly connected to the lower end surface of the push plate 58, the lower end surface of the displacement, the left side collect in the left inner wall of chamber 41 lower extreme and the right side collect and all be equipped with a discharge gate 39 that communicates external space in the right inner wall of chamber 41 lower extreme, be equipped with electromagnetic switch 40 in the discharge gate 39.

In an initial state, the pressure lever 33 and the pressure plate 34 are under the action of the compression spring 32 to pull the pull rope 13, the lifting block 26 and the scraper 28 are under the action of the pull force of the pull rope 13, the lower end of the scraper 28 is positioned above the conveying cavity 36, and the sliding gear 67 is under the action of the pull force of the return spring 66, positioned above the driven gear 55 and in a non-meshed state with the driven gear 55.

When soil is sampled, the motor 18 is started, the motor 18 works to drive the transmission shaft 21 and the driving belt wheel 19 and the conveying screw 35 on the transmission shaft 21 to rotate, the handle 16 is held by hand, the insertion block 37 is slowly inserted into the soil to be sampled, the conveying screw 35 rotates to convey the sampled soil upwards and enter the left end in the scraping cavity 38, after the insertion block 37 is completely inserted into the soil, the pressing plate 34 and the pressing rod 33 are extruded to move upwards and loosen the pull rope 13, the lifting block 26 and the scraping plate 28 lose the pulling force of the pull rope 13 and move downwards under the elastic force of the elastic spring 11, the lower end of the scraping plate 28 is abutted against the lower inner wall of the scraping cavity 38, the lifting block 26 moves downwards to drive the sliding gear 67 connected with the lifting block through the chain 64 to move downwards, the sliding gear 67 moves downwards to be meshed with the driven gear 55, the driving belt wheel 19 rotates to drive the driven belt wheel 76 connected with the driving belt 17 to rotate, thereby driving the rotation shaft 75 and the sliding gear 67 on the rotation shaft 75 to rotate, the sliding gear 67 rotates to drive the driven gear 55 engaged therewith to rotate, the driven gear 55 rotates to drive the rotation shaft 54 and the rotating gear 53 on the rotation shaft 54 to rotate, the rotating gear 53 rotates to drive the rack 42 engaged therewith to move rightwards, the rack 42 moves rightwards to drive the scraper 28 to move rightwards, thereby soil at the left end in the scraping cavity 38 is scraped rightwards through the scraper 28 to fall into the collection cavity 41, at the moment, the moving block 15 moves rightwards to be abutted against the ejector rod 72 at the left side, the ejector rod 72 is pushed by the moving block 15 to move upwards and strain the hemp rope 46 at the left side and loosen the rope 24, the fixture block 45 at the left side moves downwards under the pulling force of the hemp rope 46 to leave from the fixture groove 44, the baffle 43 at the left side loses the limiting effect of the fixture block 45 and closes the collection cavity, therefore, soil sampling and collection are completed once, the warning rod 20 moves upwards under the action of the elastic force of the extension spring 22 after losing the tensile force of the rope 24 and extends out of the warning cavity 23, at the moment, the insertion block 37 can be pulled out of the soil, the compression rod 33 and the pressure plate 34 move downwards under the action of the elastic force of the compression spring 32 and reset, the pulling rope 13 is tensioned again, the lifting block 26 and the scraper 28 move upwards under the action of the tensile force of the pulling rope 13 and reset, the chain 64 is loosened, the sliding gear 67 loses the tensile force of the chain 64 and moves upwards under the action of the tensile force of the reset spring 66 and resets to be disengaged from the driven gear 55, and the scraper 28 and the moving block 15 move leftwards under the action of the elastic force of the elastic spring 14 and reset; when the soil is sampled again, the operation of sampling the soil for the first time is only needed to be repeated, because the left collecting cavity 41 is sealed by the left baffle 43, the soil in the scraping cavity 38 is continuously scraped rightwards into the right collecting cavity 41, at the moment, the moving block 15 is abutted to the right ejector rod 72, the ejector rod 72 moves upwards to loosen the right rope 24 and tighten the right hemp rope 46, the right baffle 43 loses the limit of the fixture block 45 and moves leftwards under the elastic action of the linear spring 49 to close the right collecting cavity 41, the soil sampling for the second time is completed, the right warning rod 20 loses the tensile force of the rope 24 and moves upwards under the elastic action of the telescopic spring 22, the inserting block 37 can be pulled out of the soil at the moment, and the operation process of sampling and storing the soil is completed for the second time; when the sampled soil is discharged, the hand push rod 61 is manually pushed leftwards, the hand push rod 61 moves leftwards to drive the movable block 62 and the push plate 58 to move leftwards, the push plate 58 moves leftwards to discharge the sampled soil in the collection cavity 41 leftwards, the movable block 62 moves leftwards to tension the connecting rope 73, and then the baffle 43 is pulled into the baffle cavity 51 again and clamped through the fixture block 45.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (5)

1. The utility model provides a soil remediation auxiliary sampling equipment, includes the casing, its characterized in that: a scraping cavity is arranged in the middle of the inside of the casing, a soil quantitative sampling mechanism for quantitatively sampling soil is arranged at the lower left end of the casing, a sampling soil scraping mechanism for collecting the sampled soil is arranged in the scraping cavity, and a sampling soil storage mechanism for discharging the sampled soil is arranged in the lower inner wall of the scraping cavity; the sampling soil scraping mechanism comprises a lifting block which is positioned in the scraping cavity and can lift up and down, two elastic springs are connected between the upper end surface of the lifting block and the upper inner wall of the scraping cavity, a moving cavity with a downward opening is arranged in the lifting block, a moving block capable of moving left and right is arranged in the moving cavity, an elastic spring is connected between the right end surface of the moving block and the right inner wall of the moving cavity, a scraping plate is fixed on the lower end surface of the moving block, a sliding cavity with a rightward opening is arranged in the scraping plate, a sliding block capable of moving up and down is arranged in the sliding cavity, a driven cavity is arranged in the right inner wall of the scraping cavity, a rack with the right end extending into the right inner wall of the driven cavity is fixed on the right end surface of the sliding block, a transmission cavity is arranged on the upper side of the scraping cavity, a rotating shaft is rotated between the lower inner wall of the driven cavity, the upper end of the rotating shaft is provided with a driven gear positioned in the transmission cavity, the lower inner wall of the scraping cavity is internally provided with two same collecting cavities, the left inner wall at the upper end of the left collecting cavity and the right inner wall at the upper end of the right collecting cavity are internally provided with baffle cavities communicated with the collecting cavities, two baffle cavities are internally provided with a baffle capable of moving left and right, one end surface of each baffle, which is far away from each other, is respectively connected with a linear spring between the inner wall of the baffle cavity, one end surface of each baffle, which is far away from each other, is connected with one end of a connecting rope, the lower inner wall of one end, which is far away from each other, of the two baffle cavities is internally provided with a fixture block cavity with an upward opening, a fixture block capable of moving up and down is arranged in the fixture block cavity, a connecting spring is connected between the lower end surface of, the lower ends of the two baffle plates are respectively provided with a clamping groove which is respectively positioned at the upper side of the clamping block cavity and has a downward opening.

2. A soil remediation auxiliary sampling apparatus according to claim 1, wherein: strike off the intracavity and be equipped with two down-opening ejector pin chambeies, two in the ejector pin intracavity all be equipped with an ejector pin that can up-and-down motion, the ejector pin up end with it is equipped with pressure spring, two to connect between the inner wall on the ejector pin chamber the ejector pin up end all is connected with the one end of a rope, two the left end face of ejector pin upper end all is connected with one the other end of rope made of hemp, the upper end at both ends all is equipped with the ascending warning chamber of an opening about the casing, the warning intracavity is equipped with the warning pole that can up-and-down motion, terminal surface under the warning pole with be connected with expanding spring, two under the warning pole between the inner wall the warning intracavity the terminal surface all is connected with one the other end of.

3. A soil remediation auxiliary sampling apparatus according to claim 1, wherein: the soil quantitative sampling mechanism comprises a conveying cavity with a downward opening and positioned at the left lower end of the casing, an inserting block is fixed on the lower end face of the left end of the casing and communicated with the conveying cavity, a motor is arranged in the upper inner wall of the left end of the transmission cavity, the lower end of the motor is in power connection with a transmission shaft with the lower end extending into the inserting block, a conveying screw positioned in the conveying cavity is arranged at the lower end of the transmission shaft, an induction cavity with a downward opening is arranged at the left side of the conveying cavity, a pressure rod capable of moving up and down is arranged in the induction cavity, a pressure rod capable of moving up and down is arranged in the pressure rod, a compression spring is connected between the upper end face of the pressure rod and the upper inner wall of the induction cavity, a pressure plate is fixed on the lower end face of the pressure rod, a driving belt pulley positioned in the transmission cavity is arranged at, the upper end of the rotating shaft is provided with a driven belt wheel, and a belt is connected between the driven belt wheel and the driving belt wheel in a transmission manner.

4. A soil remediation auxiliary sampling apparatus according to claim 3, wherein: the utility model discloses a portable electronic device, including lifting block, rotation axis, slip gear, rotation axis lower extreme splined connection have and lie in the slip gear of driven pulley downside, be equipped with the gliding chamber of opening downwards in the slip gear, it can to slide the intracavity gliding slider slide, be equipped with the commentaries on classics board in the middle of the rotation axis, the commentaries on classics board lower extreme terminal surface with be connected with two reset spring between the slip gear up end, under the slider terminal surface with be connected with the chain between the lifting block up end, the depression bar up end is connected with the one end of stay cord, the lifting block up end is connected with the other end of stay cord, the casing up end is fixed with.

5. A soil remediation auxiliary sampling apparatus according to claim 1, wherein: the sampling soil storage mechanism comprises a left inner wall of the collection cavity and a push plate cavity of the left inner wall of the collection cavity, the two inner walls of the collection cavity are respectively provided with a displacement cavity, the inner wall of the displacement cavity is internally provided with a movable cavity which is communicated up and down, the movable cavity is internally provided with a movable block which can move left and right, the right end surface of the movable block on the left side and the left end surface of the movable block on the right side are respectively connected with the other end of the connecting rope, the left inner wall and the right inner wall of the two displacement cavities are respectively fixed with a fixed plate, the fixed plate is provided with a displacement block which can slide left and right on the fixed plate, the upper end surface of the displacement block is fixedly connected with the lower end surface of the push plate, the lower end surface of the displacement block is fixedly connected with the upper end surface of the movable block, and the left inner wall of the lower end of the collection cavity on the, an electromagnetic switch is arranged in the discharge hole.

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