CN116086914A - Reduction treatment equipment for environmental monitoring soil pollution evaluation - Google Patents

Abstract

The invention relates to a crushing treatment device, in particular to a crushing treatment device for environmental monitoring soil pollution evaluation. The invention provides a crushing treatment device for environmental monitoring soil pollution evaluation, which is provided with an automatically cleaned filter screen. The utility model provides an environmental monitoring soil pollution aassessment is with fragmentation treatment facility, includes go out collar, base, outlet duct, crushing dish and discharging pipe etc. the go out collar cavity and is fixed in on the base through the support, go out the discharge opening has been seted up to go out collar front side bottom, go out collar left side intercommunication has the outlet duct, crushing dish passes through the support rigid coupling on the base and is located out collar middle part, is provided with the feed inlet on the crushing dish, crushing dish passes through discharging pipe and goes out the go out collar intercommunication. The filter screen is pushed by the wedge-shaped rotating rod to regularly move up and down, so that refined soil is prevented from being stuck or accumulated on the surface of the filter screen, the screening mode of the soil is optimized, the real comprehensiveness of the soil to be detected is improved, and the accuracy of monitoring data is further improved.

Description

Reduction treatment equipment for environmental monitoring soil pollution evaluation

Technical Field

The invention relates to a crushing treatment device, in particular to a crushing treatment device for environmental monitoring soil pollution evaluation.

Background

Soil pollution investigation and monitoring means that the environmental quality (or pollution degree) and the change trend thereof are determined by measuring the representative value of factors affecting the soil environmental quality. Generally, soil monitoring refers to soil environment monitoring, and generally comprises technical contents such as point sampling, sample preparation, analysis methods, result characterization, data statistics, quality evaluation and the like.

In order to make the soil detection more accurate, the soil needs to be crushed and thinned so as to make the soil detection more accurate. At present, the soil is crushed by a crusher, then sieved by a screen, and finally the sample is detected. However, due to the existence of moisture or other impurities in the soil, the refined soil cannot well pass through the screen, and is often stuck or largely remained on the screen, so that the accuracy of the sample is damaged, and the measurement result is not truly accurate.

Disclosure of Invention

In order to overcome the defect that when the thinned soil is screened in soil monitoring, the soil is easy to be stuck or accumulated on a filter screen, the invention provides crushing treatment equipment with an automatically cleaned filter screen for environment monitoring soil pollution evaluation.

The utility model provides an environmental monitoring soil pollution aassessment is with reducing treatment facility, including the go-between, the discharging pipe, the outlet duct, crushing dish, motor and crushing blade, the go-between cavity is just fixed in on the base through the support, the discharge opening has been seted up to go-between front side bottom, go-between left intercommunication has the outlet duct, crushing dish passes through the support rigid coupling on the base and is located the go-between middle part, be provided with the feed inlet on the crushing dish, crushing dish passes through the discharging pipe and communicates with the go-between, the motor sets up in crushing dish bottom, the output shaft of motor passes crushing dish and has the pivot through key connection, crushing blade passes through key connection in the pivot, still including the screening mechanism that has automatic clearance function, and the pushing mechanism that will refine the soil propelling movement ejection of compact.

Further, screening mechanism includes wedge bull stick, screening support, filter screen and first reset spring, and the wedge bull stick divide into four altogether and is even radial connection in the pivot, screening support rigid coupling in crushing dish bottom, filter screen sliding connection is on screening support and slip runs through in crushing dish, is connected with first reset spring between filter screen and the screening support, and the filter screen is located the mouth of pipe position of discharging pipe, and when the pivot drove the wedge bull stick to rotate to contact with the filter screen, the filter screen was upwards promoted by the wedge bull stick, and when wedge bull stick and filter screen separation, the filter screen was down reset under first reset spring effect, realized the filter screen up-and-down motion from this.

Further, pushing equipment includes connecting rod, go-between and ejector pad, and connecting rod symmetry rigid coupling is on two wedge bull sticks, and the connecting rod is connected with the go-between simultaneously, and the go-between evenly is provided with the ejector pad, and the ejector pad slides and sets up in the discharging ring, and when the wedge bull stick drove the connecting rod and rotated, the connecting rod will drive go-between and ejector pad and rotate, and the ejector pad will promote the intraductal refinement soil of discharging to derive by the discharge hole and collect.

Further, the vibrating screen further comprises a screening mechanism, the screening mechanism comprises a fixing frame, a screening disc and second reset springs, the fixing frame is symmetrically arranged on the left side and the right side of the base, the screening disc is slidably connected to the fixing frame, the second reset springs are connected between the screening disc and the fixing frame, wedge-shaped blocks with central symmetry are arranged at the bottoms of the screening discs, the wedge-shaped push rods are connected to a rotating shaft, when the rotating shaft drives the wedge-shaped push rods to rotate to contact the wedge-shaped blocks, the wedge-shaped push rods push the wedge-shaped blocks to horizontally move, and then under the action of the second reset springs, the screening disc horizontally resets, so that vibrating screen in the horizontal direction of the screening disc is realized.

Further, still include collection mechanism, collection mechanism includes dead lever, collecting plate, third reset spring and a collection section of thick bamboo, and dead lever symmetry rigid coupling is on the base front side, and collecting plate sliding connection is connected with the third reset spring between collecting plate and the dead lever on the dead lever, and a collection section of thick bamboo joint is on collecting plate, and a collection section of thick bamboo is docked with the discharge gate.

Further, still include swager constructs, swager constructs including the swager support, the swager board, fourth reset spring, wedge connecting rod and wedge depression bar, swager support rigid coupling is on the mount, the swager board slides and sets up on the swager support, be connected with fourth reset spring between swager board and the swager support, the swager board is connected with the wedge connecting rod simultaneously, wedge depression bar rigid coupling is on the go-between, when the wedge depression bar rotates to the contact wedge connecting rod along with the go-between, wedge depression bar will promote wedge connecting rod downward movement under the wedge face effect, the swager board that wedge connecting rod connects will press the crushing soil in the crushing dish simultaneously downwards and make the screen fully, when the wedge depression bar rotates to the separation with the wedge connecting rod, the wedge connecting rod will upwards reset under the effect of fourth reset spring and no longer press the soil in the crushing dish.

Through the scheme, the beneficial effects achieved by the invention are as follows:

1. the filter screen is pushed by the wedge-shaped rotating rod to regularly move up and down, so that refined soil is prevented from being stuck or accumulated on the surface of the filter screen, the screening mode of the soil is optimized, the real comprehensiveness of the soil to be detected is improved, and the accuracy of monitoring data is further improved.

2. The wedge-shaped rotating rod drives the connecting rod to rotate, and then the pushing block is driven to push refined soil, so that the refined soil is guided into the collecting cylinder through the discharging hole, automation is reflected in the process, and finally the soil is uniformly collected, and the equipment convenience is high.

3. The screening mechanism is optimally arranged, small stones or sundries are screened out by horizontal movement of the screening disc, the soil detection in the later period is facilitated, and the validity of detection data is ensured.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the feed inlet and the pulverizing disc of the present invention.

Fig. 3 is a schematic perspective view of the rotating shaft, the pulverizing blade, etc. according to the present invention.

Fig. 4 is a schematic perspective view of the motor and the discharge pipe of the present invention.

Fig. 5 is a schematic perspective view of a screening mechanism according to the present invention.

Fig. 6 is a schematic perspective view of a wedge-shaped rotating rod, a filter screen and the like.

Fig. 7 is a schematic perspective view of a pushing mechanism of the present invention.

Fig. 8 is a schematic perspective view of the connecting rod and the pushing block of the present invention.

Fig. 9 is a schematic perspective view of the screening mechanism of the present invention.

Fig. 10 is a schematic perspective view of a screen tray, wedge block, etc. according to the present invention.

Fig. 11 is a schematic perspective view of a wedge push rod and the like according to the present invention.

Fig. 12 is a schematic perspective view of the collecting mechanism of the present invention.

Fig. 13 is a schematic perspective view of a pressing mechanism according to the present invention.

Fig. 14 is a schematic perspective view of a wedge link, wedge strut, etc. according to the present invention.

In the above figures: 1: discharge ring, 101: discharge pipe, 102: discharge hole, 103: outlet duct, 2: base, 3: a shredder plate, 301: feed inlet, 4: a motor, 401: rotating shaft, 402: crushing blade, 5: screening mechanism, 501: wedge-shaped rotating rod, 502: screening a bracket, 503: filter screen, 504: first return spring, 6: pushing equipment, 601: connecting rod, 602: connection ring, 603: pushing block, 7: sieving mechanism, 701: mount, 702: screen tray, 703: second return spring, 704: wedge block, 705: wedge push rod, 8: collection mechanism, 801: fixed lever, 802: collection plate, 803: third return spring, 804: a collection cylinder, 9: swager constructs, 901: swage mount, 902: blank pressing plate, 903: fourth return spring, 904: wedge link, 905: a wedge-shaped compression bar.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Example 1

1-14, including discharging ring 1, discharging pipe 101, outlet duct 103, crushing dish 3, motor 4 and crushing blade 402, discharging ring 1 cavity and be fixed in on the base 2 through the support, discharging hole 102 has been seted up to discharging ring 1 front side bottom, discharging ring 1 left side intercommunication has outlet duct 103, crushing dish 3 passes through the support rigid coupling on the base 2 and is located discharging ring 1 middle part, be provided with feed inlet 301 on the crushing dish 3, crushing dish 3 passes through discharging pipe 101 and discharging ring 1 intercommunication, motor 4 sets up in crushing dish 3 bottom, motor 4's output shaft passes crushing dish 3 and has pivot 401 through key-type connection, crushing blade 402 passes through key-type connection in pivot 401, still include the screening mechanism 5 that has the automatic clearance function, and the pushing equipment 6 of the soil propelling movement ejection of compact will refine.

As shown in fig. 1, 5 and 6, the screening mechanism 5 includes a wedge-shaped rotating rod 501, a screening bracket 502, a filter screen 503 and a first return spring 504, where the wedge-shaped rotating rod 501 is divided into four branches and is uniformly and radially connected to the rotating shaft 401, the screening bracket 502 is fixedly connected to the bottom of the crushing disk 3, the filter screen 503 is slidably connected to the screening bracket 502 and slidably penetrates through the crushing disk 3, the first return spring 504 is connected between the filter screen 503 and the screening bracket 502, the filter screen 503 is located at the pipe orifice of the discharging pipe 101, when the rotating shaft 401 drives the wedge-shaped rotating rod 501 to rotate to contact with the filter screen 503, the filter screen 503 is pushed upward by the wedge-shaped rotating rod 501, and when the wedge-shaped rotating rod 501 is separated from the filter screen 503, the filter screen 503 is reset downward under the action of the first return spring 504, thereby realizing up-down movement of the filter screen 503.

As shown in fig. 1, 7 and 8, the pushing mechanism 6 comprises a connecting rod 601, a connecting ring 602 and a pushing block 603, the connecting rod 601 is symmetrically welded on two wedge-shaped rotating rods 501, the connecting rod 601 is simultaneously connected with the connecting ring 602, the connecting ring 602 is uniformly provided with the pushing block 603, the pushing block 603 is slidably arranged in the discharging ring 1, when the wedge-shaped rotating rods 501 drive the connecting rod 601 to rotate, the connecting rod 601 drives the connecting ring 602 and the pushing block 603 to rotate, and the pushing block 603 drives refined soil in the discharging ring 1 to be guided out and collected by the discharging holes 102.

The method is characterized in that collected soil is placed into a crushing disc 3 through a feed inlet 301, a motor 4 is started, the motor 4 drives a crushing blade 402 to rotate to crush the soil, after crushing, gradually refined soil enters a discharging ring 1 through a filter screen 503 via a discharging pipe 101, the filter screen 503 moves up and down regularly, and the soil is prevented from being stuck or accumulated on the surface of the filter screen 503.

Example 2

On the basis of embodiment 1, fig. 1, 9, 10 and 11 show, still include screening mechanism 7, screening mechanism 7 includes mount 701, sieve tray 702 and second reset spring 703, the mount 701 symmetry passes through bolted connection in base 2 left and right sides, sieve tray 702 sliding connection is on mount 701, be connected with second reset spring 703 between sieve tray 702 and the mount 701, the welding of sieve tray 702 bottom has the wedge 704 of central symmetry, wedge push rod 705 passes through the key connection on pivot 401, when pivot 401 drove wedge push rod 705 to contact wedge block 704, wedge push rod 705 will promote wedge block 704 horizontal direction motion, then under the effect of second reset spring 703, sieve tray 702 horizontal reset, thereby realize the vibration screening of sieve tray 702 horizontal direction.

As shown in fig. 1 and 12, the device further comprises a collecting mechanism 8, the collecting mechanism 8 comprises a fixing rod 801, a collecting plate 802, a third return spring 803 and a collecting cylinder 804, the fixing rod 801 is symmetrically welded on the front side of the base 2, the collecting plate 802 is slidably connected to the fixing rod 801, the third return spring 803 is connected between the collecting plate 802 and the fixing rod 801, the collecting cylinder 804 is clamped on the collecting plate 802, and the collecting cylinder 804 is in butt joint with the discharging hole 102.

As shown in fig. 1, 13 and 14, the device further comprises a pressing mechanism 9, the pressing mechanism 9 comprises a pressing bracket 901, a pressing plate 902, a fourth reset spring 903, a wedge-shaped connecting rod 904 and a wedge-shaped pressing rod 905, the pressing bracket 901 is welded on the fixing bracket 701, the pressing plate 902 is arranged on the pressing bracket 901 in a sliding manner through a key, the fourth reset spring 903 is connected between the pressing plate 902 and the pressing bracket 901, the pressing plate 902 is simultaneously connected with the wedge-shaped connecting rod 904, the wedge-shaped pressing rod 905 is welded on the connecting ring 602, when the wedge-shaped pressing rod 905 rotates along with the connecting ring 602 to contact the wedge-shaped connecting rod 904, the wedge-shaped pressing rod 905 pushes the wedge-shaped connecting rod 904 to move downwards under the action of a wedge surface, the pressing plate 902 connected with the wedge-shaped connecting rod 904 simultaneously presses and pulverizes soil in the pulverizing disc 3 so as to enable the soil to be thoroughly filtered, and when the wedge-shaped pressing rod 905 rotates to be separated from the wedge-shaped connecting rod 904, the wedge-shaped connecting rod 904 is reset upwards under the action of the fourth reset spring 903 and does not press the soil in the pulverizing disc 3.

The optimized screening mechanism 7 is arranged, when the collected soil is placed in the screening disc 702, the rotating shaft 401 drives the wedge-shaped push rod 705 to rotate to contact the wedge-shaped block 704, the wedge-shaped push rod 705 pushes the wedge-shaped block 704 to move horizontally, and then the screening disc 702 is reset horizontally under the action of the second reset spring 703, so that vibration screening of the screening disc 702 in the horizontal direction is realized, large stones or sundries are reserved in the screening disc 702, and the soil falls into the crushing disc 3. The pressing mechanism 9 presses and pulverizes the large soil in the sieve tray 702, when the wedge-shaped pressure rod 905 rotates along with the connecting ring 602 to contact with the wedge-shaped connecting rod 904, the wedge-shaped pressure rod 905 pushes the wedge-shaped connecting rod 904 to move downwards under the action of the wedge-shaped surface, the pressing plate 902 connected with the wedge-shaped connecting rod 904 presses and pulverizes the soil in the pulverizing tray 3 downwards at the same time so as to enable the sieving to be sufficient, when the wedge-shaped pressure rod 905 rotates to be separated from the wedge-shaped connecting rod 904, the wedge-shaped connecting rod 904 is reset upwards under the action of the fourth reset spring 903 and does not press the soil in the pulverizing tray 3 any more, and finally the collecting mechanism 8 is arranged, the collecting cylinder 804 is connected with the discharging hole 102, and the refined soil is collected.

The foregoing examples have shown only the preferred embodiments of the invention, which are described in more detail and are not to be construed as limiting the scope of the invention. It should be noted that modifications, improvements and substitutions can be made by those skilled in the art without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of protection of the present invention is to be determined by the appended claims.

Claims (7)

1. The utility model provides an environmental monitoring soil pollution aassessment is with reducing treatment facility, including discharging ring (1), discharging pipe (101), outlet duct (103), smash dish (3), motor (4) and crushing blade (402), discharging ring (1) cavity and be fixed in on base (2) through the support, discharging hole (102) have been seted up to discharging ring (1), discharging ring (1) intercommunication has outlet duct (103), smash dish (3) through the support rigid coupling on base (2), be provided with feed inlet (301) on smashing dish (3), smash dish (3) through discharging pipe (101) and discharging ring (1) intercommunication, motor (4) set up in smashing dish (3) bottom, the output shaft of motor (4) passes smash dish (3) and is connected with pivot (401), smash blade (402) connect on pivot (401), characterized by: the device also comprises a screening mechanism (5) with an automatic cleaning function and a pushing mechanism (6) for pushing and discharging the thinned soil.

2. A reduction treatment device for environmental monitoring soil pollution evaluation according to claim 1, wherein: screening mechanism (5) are including wedge bull stick (501), screening support (502), filter screen (503) and first reset spring (504), and wedge bull stick (501) are connected on pivot (401), and screening support (502) rigid coupling is in crushing dish (3) bottom, and filter screen (503) sliding connection is on screening support (502) and the slip runs through in crushing dish (3), is connected with first reset spring (504) between filter screen (503) and screening support (502).

3. A reduction treatment device for environmental monitoring soil pollution evaluation according to claim 2, wherein: the pushing mechanism (6) comprises a connecting rod (601), a connecting ring (602) and pushing blocks (603), wherein the connecting rod (601) is symmetrically fixedly connected to the two wedge-shaped rotating rods (501), the connecting rod (601) is simultaneously connected with the connecting ring (602), the connecting ring (602) is uniformly provided with the pushing blocks (603), and the pushing blocks (603) are slidably arranged in the discharging ring (1).

4. A reduction treatment apparatus for environmental monitoring soil pollution evaluation according to claim 3, wherein: still including screening mechanism (7), screening mechanism (7) include mount (701), sieve dish (702) and second reset spring (703), and mount (701) symmetry sets up in base (2) left and right sides, and sieve dish (702) sliding connection is on mount (701), is connected with second reset spring (703) between sieve dish (702) and mount (701), and sieve dish (702) bottom is provided with centrosymmetric wedge (704), and wedge push rod (705) are connected on pivot (401).

5. A reduction treatment apparatus for environmental monitoring soil pollution evaluation according to claim 4, wherein: still including collection mechanism (8), collection mechanism (8) include dead lever (801), collecting plate (802), third reset spring (803) and collection section of thick bamboo (804), dead lever (801) symmetry rigid coupling is in base (2) front side, collecting plate (802) sliding connection is on dead lever (801), is connected with third reset spring (803) between collecting plate (802) and dead lever (801), collection section of thick bamboo (804) joint is on collecting plate (802), collection section of thick bamboo (804) and discharge port (102) butt joint.

6. A reduction treatment apparatus for environmental monitoring soil pollution evaluation according to claim 5, wherein: still including swager constructs (9), swager constructs (9) including swager support (901), swager plate (902), fourth reset spring (903), wedge connecting rod (904) and wedge depression bar (905), swager support (901) rigid coupling is on mount (701), and swager plate (902) slip sets up on swager support (901), is connected with fourth reset spring (903) between swager plate (902) and the swager support (901), and swager plate (902) are connected with wedge connecting rod (904) simultaneously, and wedge depression bar (905) rigid coupling is on go-between (602).

7. A reduction treatment apparatus for environmental monitoring soil pollution evaluation according to claim 5, wherein: the middle part of the fixing frame (701) is bent, and a space through which the wedge-shaped connecting rod (904) rotates is reserved.

Images