CN213336935U - Efficient feed ingredient sampling device - Google Patents

Abstract

The present application relates to an efficient feed material sampling device comprising a feed tube for transporting material; the transverse pipe is arranged on the feeding pipe and communicated with the feeding pipe; a collection box for collecting a raw material sample; one end and violently union coupling, the conveyer pipe on the collecting box is installed to the other end, violently manage and be close to inlet pipe one end activity be provided with violently manage the material pole that connects of inner wall looks adaptation, connect the material pole to be close to inlet pipe one end and offer the appearance chamber that holds that is used for holding raw materials sample, violently manage and keep away from inlet pipe one end and be provided with and be used for the drive to connect the material pole rotatory with flexible drive assembly who takes a. This application is when the sampling test, has the characteristics that the machine replaces the workman to draw raw materials sample to reach the effect of high-efficient sample.

Description

Efficient feed ingredient sampling device

Technical Field

The application relates to feed ingredient sampling technical field especially relates to an efficient feed ingredient sampling device.

Background

The fodder is formed through multiple manufacturing procedure preparation by multiple raw materials, in the feed processing factory, is equipped with a plurality of former feed bins in order to place different raw materials, then carries the raw materials of difference to processing equipment through the conveyer pipe and processes, in order to guarantee the quality of fodder, in the course of working, need take out various kinds of partial raw materials and detect.

At present, in feed processing factory, the workman can set up the sample connection in the conveyer pipe of every transport different raw materials, when needs sample, opens the sample connection, stretches into the container and takes a sample in the sample connection, sends the raw materials of sample to the detection room again and detects.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: the workman need send to the detection room after the different places sample, and the process is troublesome and consuming time and wasting force, and often there is the local position of sample higher, and the condition that the ladder was needed in the sample, has increased the unnecessary danger of sample, needs further to improve to this.

SUMMERY OF THE UTILITY MODEL

In order to improve the efficiency of workman's sample to improve the work efficiency that the workman detected the raw materials.

The application provides a high-efficient fodder raw materials sampling device adopts following technical scheme:

an efficient feed material sampling device comprises a feeding pipe for conveying materials; the transverse pipe is arranged on the feeding pipe and communicated with the feeding pipe; a collection box for collecting a raw material sample; one end of the conveying pipe is connected with the transverse pipe, and the other end of the conveying pipe is arranged on the collecting box; a material receiving rod matched with the inner wall of the transverse pipe is movably arranged at one end of the transverse pipe close to the material inlet pipe, and a sample accommodating cavity for accommodating a raw material sample is formed at one end of the material receiving rod close to the material inlet pipe; the horizontal pipe is provided with a driving assembly for driving the material receiving rod to rotate and stretch so as to take a sample, and one end of the horizontal pipe, which is far away from the feeding pipe, is provided with a driving assembly for driving the material receiving rod to rotate and stretch.

Through adopting above-mentioned technical scheme, set up violently the pipe, connect material pole and drive assembly, can drive through opening drive assembly and connect the motion of material pole, make and connect the material pole to stretch into the inlet pipe sample, set up the conveyer pipe, can carry the sample that connects the material pole to preset position to can reduce the workman and send the working process of appearance, simplify the process, with improvement workman's detection efficiency.

Preferably, the drive assembly includes that the extending direction along violently managing slides and sets up on violently managing and the output with connect the material pole to keep away from the fixed driving motor of inlet pipe one end mutually, violently manage and keep away from inlet pipe one end and be provided with the cylinder, the output and the driving motor bottom of cylinder are connected.

Through adopting above-mentioned technical scheme, set up driving motor, can drive and connect the material pole to rotate, set up the cylinder and can drive and connect the material pole to slide along violently managing extending direction, under the cooperation of driving motor and cylinder, make and get the action that the material pole accomplished the sample blanking.

Preferably, drive assembly keeps away from inlet pipe one end and output and connects the material pole to keep away from the push rod machine that inlet pipe one end rotation is connected including setting up violently managing, it is provided with the cylinder piece to connect the material pole outer wall, violently manage the inboard and seted up and supply the gliding spout of cylinder piece, the spout is close to inlet pipe one end and is equipped with the extending direction and violently manages the extending direction unanimous straight slot part, the spout is kept away from inlet pipe one end and is equipped with the helical portion that the extension line is the helix.

Through adopting above-mentioned technical scheme, set up pusher, cylinder piece and set up the spout that has straight flute part and helical portion, under the restriction of cylinder piece spout, pusher drives and connects the material pole to move along the extending direction of spout to can make and connect the action that the material pole accomplished the sample blanking.

Preferably, the transition part of the straight groove part in the sliding groove connected with the spiral part is set to be an arc-shaped groove.

Through adopting above-mentioned technical scheme, set the straight flute portion in the spout and the position that the spiral portion is connected into the circular arc type groove, can let the cylinder piece switch between straight flute portion and spiral portion more smoothly to improve the action continuity of material receiving rod.

Preferably, an exhaust fan is installed at one end, close to the collecting box, of the conveying pipe, and an exhaust opening of the exhaust fan is communicated with the conveying pipe and provided with a filter screen.

Through adopting above-mentioned technical scheme, set up the air exhauster, on the one hand, can take out the raw materials sample that is in conveyer pipe corner or relatively flat conveyer pipe to pile up the condition of raw materials sample in the reduction conveyer pipe, on the other hand can also improve the conveying speed of conveyer pipe, thereby improve the efficiency of sample.

Preferably, violently manage both sides and all be provided with the slider, the inlet pipe is close to violently pipe one side and is provided with the gliding slide rail of the extending direction that supplies the slider to follow the inlet pipe.

Through adopting above-mentioned technical scheme, set up slider and slide rail, the dismantlement that can very conveniently install is violently managed to violently manage in maintenance and clearance.

Preferably, the inlet pipe is close to violently pipe one side and is provided with the support frame, violently pipe and driving piece are all installed on the support frame.

Through adopting above-mentioned technical scheme, set up the support frame, can improve the installation fastness of violently managing and driving piece, simultaneously, can also be convenient for install violently manage and driving piece.

Preferably, the support frame bottom is provided with the ring groove that supplies violently to manage the embedding, the support frame top is rotated and is provided with and violently manages the arc strip of surface looks adaptation, the arc strip is kept away from to rotate end one side and is passed through the bolt and install at the support frame top.

Through adopting above-mentioned technical scheme, set up the ring groove and set up the arc strip, can install violently the pipe on the support frame firmly, and be convenient for violently the installation and the dismantlement of pipe.

In summary, the present application includes at least one of the following beneficial technical effects:

1. through the arrangement of the material receiving rod and the driving assembly, the material receiving rod can be driven to carry out material taking action by opening the driving assembly so as to improve the material taking efficiency of workers, and the raw material sample can be conveyed to the detection chamber through the arrangement of the conveying pipe, so that the process of conveying the raw material sample by the workers can be reduced, and the working efficiency of the workers can be further improved;

2. through setting up air exhauster and filter screen, not only can reduce the condition of piling up raw materials sample in the conveyer pipe to reduce the waste of raw materials, can also accelerate the speed that the conveyer pipe carried raw materials sample, thereby can improve the efficiency of sample further.

Drawings

Fig. 1 is a schematic view of the overall structure of embodiment 1 of the present application.

Fig. 2 is a sectional view of the entire structure of embodiment 1 of the present application.

Fig. 3 is an exploded view of the cross tube in embodiment 2 of the present application.

Description of reference numerals: 1. a feed pipe; 10. a slide rail; 11. a support frame; 111. an arc-shaped strip; 112. a circular groove; 2. a transverse tube; 20. a slider; 3. a collection box; 4. a delivery pipe; 40. an exhaust fan; 41. a filter screen; 5. a receiving rod; 50. a sample holding cavity; 51. a cylindrical block; 52. a chute; 520. a straight groove part; 521. a spiral portion; 6. a drive motor; 60. a cylinder; 7. a pusher machine.

Detailed Description

The present application is described in further detail below with reference to figures 1-3.

The embodiment of the application discloses efficient feed ingredient sampling device.

Example 1:

referring to fig. 1, feed ingredient sampling device includes inlet pipe 1, inlet pipe 1 carries the raw materials of preparation fodder to corresponding equipment and processes, in transportation process, need carry out the sample detection to the raw materials in inlet pipe 1, in order to guarantee the quality of fodder, and under general conditions, the fodder is formed by multiple raw materials preparation, the raw materials need be carried to different processing equipment from different places and processes, consequently, when the sample detection, the workman need go a plurality of different positions and take a sample, thereby lead to detection work inefficiency.

In order to solve the above problems, referring to fig. 1 and 2, in the present embodiment, a horizontal tube 2 is installed at one side of a feeding tube 1, the extending direction of the horizontal tube 2 is perpendicular to the extending direction of the feeding tube 1, the bottom of the transverse pipe 2 is communicated with a conveying pipe 4, a material receiving rod 5 is slidably sleeved in the transverse pipe 2 along the extension direction of the transverse pipe 2, a sample containing cavity 50 is arranged at the side edge of the material receiving rod 5, an air cylinder 60 is arranged at one end of the transverse pipe 2 far away from the material inlet pipe 1, a driving motor 6 is arranged at the output end of the air cylinder 60, the output end of the driving motor 6 is fixed at one end, far away from the feeding pipe 1, of the material receiving rod 5, the output end of the air cylinder 60 is fixed with the bottom of the driving motor 6, the driving motor 6 and the material receiving rod 5 can slide in the transverse pipe 2 along the extending direction of the transverse pipe 2, and the material receiving rod 5 can also rotate in the transverse pipe 2 under the driving of the driving motor 6.

When a sample needs to be taken, the driving motor 6 is started, the material receiving rod 5 is rotated to the position, facing the opening of the sample containing cavity 50 upwards, the driving cylinder 60 is driven to push the driving motor 6 to push the material receiving rod 5, the material receiving rod 5 extends into the feeding pipe 1, raw materials in the feeding pipe 1 fall into the sample containing cavity 50, then the output end is contracted by driving the driving cylinder 60, the material receiving rod 5 is retracted into the transverse pipe 2, when the sample containing cavity 50 is retracted to the opening position, communicated with the transverse pipe 2, of the conveying pipe 4, the driving motor 6 can be started, the material receiving rod 5 is rotated, the opening of the sample containing cavity 50 is downward and is opposite to the opening of the conveying pipe 4, and the raw material samples in the sample containing cavity 50 are poured into the conveying pipe 4 to be conveyed.

Conveyer pipe 4 of installation is kept away from on the inlet pipe 1 of difference and is all extended to and detect in the detection room in unifying to improve workman sample detection's efficiency, and can paste the label at every conveyer pipe 4 appearance end, in order to supply to distinguish different samples, be provided with collecting box 3 in conveyer pipe 4's discharge gate department, in order to collect the sample of following the conveyer pipe 4 and seeing off.

In the sampling device far away from the detection chamber, the length of the conveying pipe 4 is longer, so that the inclination angle of the conveying pipe 4 is smaller, and thus the raw material sample is difficult to slide into the detection chamber and is accumulated in the conveying pipe 4, which is not only very wasteful but also difficult to clean, therefore, in order to solve the problem, in the embodiment, the end of the conveying pipe 4 close to the collection box 3 is provided with the exhaust fan 40, the suction opening of the exhaust fan 40 is provided with the filter screen 41, and the exhaust fan 40 is arranged at one side of the vertical part of the bending part of the conveying pipe 4, when the exhaust fan 40 exhausts air, the sample in the conveying pipe 4 can be driven to slide down, when reaching the suction opening of the exhaust fan 40, the sample can fall into the collection box 3 due to the action of gravity, thereby reducing the accumulation of the sample in the conveying pipe 4, and simultaneously, the exhaust fan, thereby improving the efficiency of sampling.

In order to facilitate the installation of the horizontal pipe 2, in the present embodiment, the two side edges of the feeding pipe 1 close to the horizontal pipe 2 are respectively provided with a sliding rail 10, the extending direction of the sliding rail 10 is consistent with the extending direction of the feeding pipe 1, the two sides of the horizontal pipe 2 close to one end of the feeding pipe 1 are respectively provided with a sliding block 20, the sliding blocks 20 can slide on the sliding rails 10 along the extending direction of the sliding rails 10, and when the sliding blocks 20 slide to the bottom of the sliding rails 10, the horizontal pipe 2 is installed on the feeding pipe 1 under the support of the sliding blocks 20.

In order to strengthen the fastness of violently managing 2, in this embodiment, install support frame 11 near violently managing 2 bottoms at inlet pipe 1, it has seted up ring groove 112 to be close to violently managing 2 bottom one side at support frame 11, ring groove 112's profile and violently managing 2 outline looks adaptation, and rotate at support frame 11 top and be provided with two arcs 111, the arc profile of arcs 111 and violently managing 2 outline looks adaptation, arcs 111 keep away from to rotate end one side and pass through the bolt fastening at support frame 11 top, violently manage 2 and place in ring groove 112, and through bolt locking arcs 111, make violently manage 2 restriction in arcs 111, thereby can make violently manage 2 more firm, in this embodiment, driving motor 6 is preferred to use servo motor.

Example 2:

referring to fig. 3, the difference between this embodiment and embodiment 1 lies in the difference of the driving assembly, in this embodiment, a push rod 7 is installed at one end of the material receiving rod 5 far from the material feeding pipe 1, an output end of the push rod 7 is rotatably connected to one end of the material receiving rod 5 far from the material feeding pipe 1, a cylindrical block 51 is disposed at a side edge of the material receiving rod 5, a chute 52 for the cylindrical block 51 to slide is disposed on an inner side wall of the horizontal pipe 2, wherein the chute 52 is divided into two portions, namely a straight chute portion 520 and a spiral portion 521, one end of the chute 52 close to the material feeding pipe 1 is the straight chute portion 520 whose extending direction is identical to the extending direction of the horizontal pipe 2, one end of the chute 52 far from the material feeding pipe 1 is the spiral portion 521 whose extending line is.

When the output end of the pusher 7 pushes the receiving rod 5 towards the direction close to the feeding pipe 1, because the cylindrical block 51 is limited to slide in the chute 52, the receiving rod 5 moves along the track of the chute 52, when the cylindrical block 51 slides in the spiral part 521, the receiving rod 5 can rotate 90 degrees simultaneously in the sliding process, so that the opening direction of the variable sample cavity 50 is changed, when the cylindrical block 51 slides in the spiral part 521, the receiving rod 5 can slide along the extending direction of the transverse pipe 2 to extend into or withdraw from the feeding pipe 1, so that the sampling action of the receiving rod 5 can be realized.

In order to make the cylindrical block 51 smoother and smoother when the straight groove portion 520 and the spiral portion 521 are switched to improve the motion smoothness of the material receiving rod 5, in the embodiment, the position where the straight groove portion 520 is connected with the spiral portion 521 is formed into an arc-shaped groove, so that the cylindrical block 51 can be switched and slid between the straight groove portion 520 and the spiral portion 521 more smoothly, and in the embodiment, the pusher 7 is preferably a pusher motor.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides an efficient feed ingredient sampling device which characterized in that: comprises a feed pipe (1) for conveying the raw material;

a transverse pipe (2) which is arranged on the feeding pipe (1) and is communicated with the feeding pipe (1);

a collection box (3) for collecting a raw material sample;

and a delivery pipe (4) with one end connected with the transverse pipe (2) and the other end arranged on the collection box (3) for delivering raw material samples,

one end of the transverse pipe (2) close to the inlet pipe (1) is movably provided with a material receiving rod (5) matched with the inner wall of the transverse pipe (2), one end of the material receiving rod (5) close to the inlet pipe (1) is provided with a sample containing cavity (50) for containing a raw material sample,

violently pipe (2) keep away from inlet pipe (1) one end and be provided with and be used for the drive to connect material pole (5) rotatory with flexible drive assembly in order to take a sample.

2. A high efficiency feedstuff sampling device according to claim 1, wherein: drive assembly includes and slides along the extending direction of violently managing (2) and set up on violently managing (2) and the output with connect material pole (5) to keep away from inlet pipe (1) one end fixed driving motor (6) mutually, violently manage (2) and keep away from inlet pipe (1) one end and be provided with cylinder (60), the output and the driving motor (6) bottom of cylinder (60) are connected.

3. A high efficiency feedstuff sampling device according to claim 1, wherein: drive assembly keeps away from inlet pipe (1) one end and output and connect material pole (5) to keep away from inlet pipe (1) one end rotation push rod machine (7) of being connected including setting up violently managing (2), it is provided with cylinder piece (51) to connect material pole (5) outer wall, violently manage (2) inboard and offer and supply gliding spout (52) of cylinder piece (51), spout (52) are close to inlet pipe (1) one end and are equipped with straight slot part (520) that extending direction is unanimous mutually with the extending direction of violently managing (2), inlet pipe (1) one end is kept away from in spout (52) is equipped with spiral portion (521) that the extension line is the helix.

4. A high efficiency feedstuff sampling device according to claim 3, wherein: the transition part of the straight groove part (520) in the sliding groove (52) and the spiral part (521) is arranged into a circular arc-shaped groove.

5. A high efficiency feedstuff sampling device according to claim 1, wherein: conveyer pipe (4) are close to collecting box (3) one end and install air exhauster (40), the suction opening of air exhauster (40) is linked together and installs filter screen (41) with conveyer pipe (4).

6. A high efficiency feedstuff sampling device according to claim 1, wherein: violently manage (2) both sides and all be provided with slider (20), inlet pipe (1) are close to violently manage (2) one side and are provided with and supply slider (20) to follow gliding slide rail (10) of extending direction of inlet pipe (1).

7. A high efficiency feedstuff sampling device according to claim 1, wherein: the feeding pipe (1) is close to and is provided with support frame (11) on one side of violently managing (2), violently manage (2) and driving piece and all install on support frame (11).

8. A high efficiency feedstuff sampling device according to claim 7, wherein: support frame (11) bottom is provided with ring groove (112) that confession was violently managed (2) and is embedded, support frame (11) top is rotated and is provided with arc strip (111) with violently managing (2) surface looks adaptation, arc strip (111) are kept away from rotation end one side and are passed through the bolt and install at support frame (11) top.

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