CN205374101U - Automatic sampling distribution filling ware - Google Patents
Automatic sampling distribution filling ware Download PDFInfo
- Publication number
- CN205374101U CN205374101U CN201620085460.3U CN201620085460U CN205374101U CN 205374101 U CN205374101 U CN 205374101U CN 201620085460 U CN201620085460 U CN 201620085460U CN 205374101 U CN205374101 U CN 205374101U
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- allotter
- sheave
- distributor
- motor
- travelling gear
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Abstract
The utility model discloses an automatic sampling distribution filling ware, including motor, drive mechanism, distributor sheave, distributor axle, distributor rotor arm and controlling means, drive mechanism and motor are driven by the motor, drive mechanism and the cooperation of distributor sheave, distributor sheave and distributor rotor arm respectively with distributor axle fixed connection, motor and controlling means electric connection. From this, driving drive mechanism and driving the distributor sheave through the controlling means control motor and rotate, the distributor sheave passes through the distributor axle and drives distributor commentaries on classics movable arm rotation, can rotate corresponding position at the preset time, realizes the automatic sampling of the different periods of water and the partial shipment of sample. It rotates and the location to realize the accurate of distributor sheave and distributor rotor arm through drive mechanism.
Description
Technical field
This utility model relates to a kind of water body sampling device, distribution filling machine of automatically sampling particularly to one.
Background technology
Along with the development of human society, the work of people and domestic water matter bring increasing destruction and impact, for the needs of environmental conservation, it is often necessary to various water quality are detected.Before the detection carrying out water quality, it is necessary to detected water is sampled, it is necessary to water body is sampled by a kind of Water quality automatic sampling device.Water quality automatic sampling device has a sample water current distribution device, current can be assigned on request in different containers, after the water in a container injects and meets the requirements, be automatically brought in another container.Currently used distributor, its current assigning process is complicated, and drive disk assembly is only responsible for the rotation of allotter, and allotter afterbody is directly connected with allotter by pump line, so will result in allotter and can pump line is wrapped on worm-wheel shaft in the process rotated, affect the rotation of allotter;Positioning element is also the position controlling allotter by controlling the rotation of drive motor, and the position accuracy of such allotter can not be guaranteed.
Utility model content
The purpose of this utility model is in that to provide a kind of distribution filling machine of sampling automatically, solve at least one of above-mentioned technical problem.
According to an aspect of the present utility model, provide sampling distribution filling machine automatically, including motor, drive mechanism, allotter sheave, distributor axis, allotter cursor and control device, drive mechanism and motor by driven by motor, drive mechanism coordinates with allotter sheave, allotter sheave and allotter cursor are fixing with distributor axis respectively to be connected, and motor is electrically connected with controlling device.Thus, control driven by motor drive mechanism by controlling device and drive dispenser grooves wheel to rotate, allotter sheave drives allotter cursor to rotate by distributor axis, can turn to corresponding position in the predetermined time, it is achieved the subpackage of sampling and the sample automatically of the different periods of water body.Fine rotational and the location of allotter sheave and allotter cursor is realized by drive mechanism.
In some embodiments, drive mechanism includes power transmission shaft, the first travelling gear and the second travelling gear, and one end of power transmission shaft is connected with motor, and the other end of power transmission shaft and the first travelling gear connect, first travelling gear and the second travelling gear coordinate, and the second travelling gear coordinates with allotter sheave.Thus, drive the second travelling gear to rotate by the first travelling gear, then driven dispenser grooves wheel to rotate by the second travelling gear, by the rotated stepwise slowly converting allotter sheave continuously to of motor, collection and the subpackage of sample can be facilitated.
In some embodiments, the side of the second travelling gear is provided with engaging body and cam, and the edge of allotter sheave is provided with arc groove and draw-in groove, and cam coordinates with arc groove, engaging body and card slot fit.Thus, engaging body and draw-in groove mating reaction can make dispenser grooves wheel rotate, and cam coordinates with arc groove, and allotter sheave can be made to maintain static.By being used in combination of engaging body and cam, can be stable after dispenser grooves wheel can be made to turn an angle stop at corresponding position, it may be achieved being accurately positioned of allotter sheave.
In some embodiments, arc groove and draw-in groove are multiple and alternately arranged in the edge of allotter sheave.Thus, the quantity of arc groove and draw-in groove can be arranged as required to.
In some embodiments, also including laser counting assembly, laser counting assembly is electrically connected with controlling device.Thus, by the number of times of the measurable sampling of laser counting assembly.
In some embodiments, laser counting assembly includes laser beam emitting device, laser receiver and blanking disc, laser receiver is fixed on cam, laser beam emitting device is corresponding with laser receiver, blanking disc is between laser beam emitting device and laser receiver, and blanking disc is provided with the notch that laser can be allowed to pass through.Thus, the position that cam rotation one encloses laser beam emitting device and laser receiver is overlapped once, counting is once, time staggering in the position of laser beam emitting device and laser receiver, blanking disc then block in laser beam emitting device and and laser receiver chien shih laser beam emitting device and and laser receiver cannot sense.
Accompanying drawing explanation
Fig. 1 is the structural representation of the distribution filling machine of sampling automatically of this utility model one embodiment;
Fig. 2 is the structural representation of a duty of the allotter box inner structure of sampling distribution filling machine automatically shown in Fig. 1;
Fig. 3 is the structural representation of another duty of the allotter box inner structure shown in Fig. 2;
Fig. 4 is the structural representation of the second travelling gear shown in Fig. 3.
Detailed description of the invention
Below in conjunction with accompanying drawing, this utility model is described in further detail.
Fig. 1~Fig. 4 show schematically show the distribution filling machine of sampling automatically according to a kind of embodiment of the present utility model.
With reference to Fig. 1, sampling distribution filling machine includes motor 1, drive mechanism 2, allotter sheave 3, distributor axis 4, allotter cursor 5, controls device 6, laser counting assembly and allotter box 8 automatically.Drive mechanism 2 and motor 1 are also driven by motor 1, and drive mechanism 2 coordinates with allotter sheave 3, and allotter sheave 3 and allotter cursor 5 are fixing with distributor axis 4 respectively to be connected, and motor 1 and laser counting assembly are electrically connected with control device 6 respectively.Arranging timing controlled by controlling device 6, can control motor 1 and drive drive mechanism 2 and drive allotter sheave 3 to rotate, allotter sheave 3 drives allotter cursor 5 to rotate by distributor axis 4.Allotter cursor 5 clamps the outlet pipe of water body sampling device, makes the corresponding corresponding sampling bottle of outlet of outlet pipe.Corresponding position can be turned to, it is achieved the subpackage of sampling and the sample automatically of the different periods of water body at predetermined time chien shih allotter cursor 5.
Drive mechanism 2 includes power transmission shaft the 21, first travelling gear 22 and the second travelling gear 23.One end of power transmission shaft 21 is connected with motor 1 and is driven rotation by motor 1, and the other end and first travelling gear 22 of power transmission shaft 21 are fixed and connected.First travelling gear 22 and the second travelling gear 23 engage each other and equal in magnitude, and the first travelling gear 22 can drive the second travelling gear 23 to rotate.Second travelling gear 23 coordinates with allotter sheave 3.
First travelling gear the 22, second travelling gear 23 and allotter sheave 3 are positioned at allotter box 8.Power transmission shaft 21 and distributor axis 4 are each passed through allotter box 8.Control device 6 to be fixed on the upside of allotter box 8.
With reference to Fig. 4, the side of the second travelling gear 23 is provided with engaging body 24 and cam 25, engaging body 24 and cam 25 and lays respectively at the both sides of the second travelling gear 23 center of rotation.The edge of allotter sheave 3 is provided with arc groove 31 and draw-in groove 32, arc groove 31 and draw-in groove 32 and is multiple and alternately arranged in the edge of allotter sheave 3.Cam 25 can coordinate with arc groove 31, and engaging body 24 can coordinate with draw-in groove 32.With reference to Fig. 2, when the second travelling gear 23 rotates and band moving cam 25 is transferred in arc groove 31, engaging body 24 is positioned at outside draw-in groove 32, and allotter sheave 3 is motionless.With reference to Fig. 3, producing arc groove 31 when the second travelling gear 23 rotates band moving cam 25, engaging body 24 snaps onto in the draw-in groove 32 that arc groove 31 is other, and after the rotation of engaging body 24 can drive allotter sheave 3 to turn an angle, engaging body 24 leaves arc groove 31.Second travelling gear 23 is rotated further, and cam 25 can be made to snap onto in the arc groove 31 of draw-in groove 32 opposite side.Cycle rotation so successively, can make allotter sheave 3 rotate the screens with arc groove 31 equal number, to have facilitated the sampling to water body and subpackage.
Laser counting assembly includes laser beam emitting device 71, laser receiver 72 and blanking disc 73.Laser beam emitting device 71 and laser receiver 72 are electrically connected with control device 6 respectively.Laser beam emitting device 71 is fixed on inside allotter box 8 and is positioned at above the second travelling gear 23, and laser receiver 72 is fixed on cam 25.Laser beam emitting device 71 is corresponding with laser receiver 72, laser beam emitting device 71 can launch laser signal, laser receiver 72 can receive laser signal, laser receiver 72 receive laser beam emitting device 71 launch laser signal then transmit a signal to control device 6 count once.Blanking disc 73 is between laser beam emitting device 71 and laser receiver 72, and blanking disc 73 is provided with the notch 731 that laser can be allowed to pass through.Blanking disc 73 is fixing with distributor axis 4 to be connected and is driven rotation by distributor axis 4.When the notch 731 of blanking disc 73 turns to below laser beam emitting device 71, laser receiver 72 also rotates to notch 731 and the lower section of laser beam emitting device 71, and laser beam emitting device 71 sends laser signal and arrives laser receiver 72 through notch 731.When laser receiver 72 leaves below laser beam emitting device 71, blanking disc 73 then blocks laser beam emitting device 71 makes laser receiver 72 cannot receive the laser signal that laser beam emitting device 71 sends, and does not count.
This utility model drives drive mechanism 2 by controlling device 6 timing controlled motor 1 and drives allotter sheave 3 to rotate, and allotter sheave 3 drives allotter cursor 5 to rotate by distributor axis 4.Allotter cursor 5 is made to clamp the corresponding corresponding sampling bottle of outlet pipe of water body sampling device.Corresponding position can be turned to, it is achieved the subpackage of sampling and the sample automatically of the different periods of water body at predetermined time chien shih allotter cursor 5.It addition, sampling number is counted by laser counting assembly 7.Can pass through to control device 6 and the number of times of sampling and the interval time of sampling every time are set, it is achieved automatization's water body timing sampling.
Above-described is only embodiments more of the present utility model.For the person of ordinary skill of the art, under the premise creating design without departing from this utility model, it is also possible to making some deformation and improvement, these broadly fall into protection domain of the present utility model.
Claims (6)
1. sampling distributes filling machine automatically, it is characterized in that: include motor (1), drive mechanism (2), allotter sheave (3), distributor axis (4), allotter cursor (5) and control device (6), described drive mechanism (2) drives with motor (1) and by motor (1), described drive mechanism (2) coordinates with allotter sheave (3), described allotter sheave (3) and allotter cursor (5) are fixing with distributor axis (4) respectively to be connected, described motor (1) is electrically connected with controlling device (6).
2. automatic sampling according to claim 1 distribution filling machine, it is characterized in that: described drive mechanism (2) includes power transmission shaft (21), the first travelling gear (22) and the second travelling gear (23), one end of described power transmission shaft (21) is connected with motor, the other end of described power transmission shaft (21) and the first travelling gear (22) connect, described first travelling gear (22) and the second travelling gear (23) engage each other, and described second travelling gear (23) coordinates with allotter sheave (3).
3. automatic sampling according to claim 2 distribution filling machine, it is characterized in that: the side of described second travelling gear (23) is provided with engaging body (24) and cam (25), the edge of described allotter sheave (3) is provided with arc groove (31) and draw-in groove (32), described cam (25) coordinates with arc groove (31), and described engaging body (24) coordinates with draw-in groove (32).
4. automatic sampling according to claim 3 distribution filling machine, it is characterised in that: described arc groove (31) and draw-in groove (32) are multiple and alternately arranged in the edge of allotter sheave (3).
5. automatic sampling according to claim 3 distribution filling machine, it is characterised in that: also including laser counting assembly, described laser counting assembly is electrically connected with controlling device (6).
6. automatic sampling according to claim 5 distribution filling machine, it is characterized in that: described laser counting assembly includes laser beam emitting device (71), laser receiver (72) and blanking disc (73), described laser receiver (72) is fixed on cam (25), described laser beam emitting device (71) is corresponding with laser receiver (72), described blanking disc (73) is positioned between laser beam emitting device (71) and laser receiver (72), and described blanking disc (73) is provided with the notch (731) that laser can be allowed to pass through.
Priority Applications (1)
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CN201620085460.3U CN205374101U (en) | 2016-01-28 | 2016-01-28 | Automatic sampling distribution filling ware |
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CN201620085460.3U CN205374101U (en) | 2016-01-28 | 2016-01-28 | Automatic sampling distribution filling ware |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108313289A (en) * | 2018-01-09 | 2018-07-24 | 山东艾顿环保科技有限公司 | Unmanned plane environment monitoring device |
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2016
- 2016-01-28 CN CN201620085460.3U patent/CN205374101U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN108313289A (en) * | 2018-01-09 | 2018-07-24 | 山东艾顿环保科技有限公司 | Unmanned plane environment monitoring device |
CN108313289B (en) * | 2018-01-09 | 2021-04-23 | 山东艾顿环保科技有限公司 | Unmanned aerial vehicle environment monitoring device |
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