CN217639126U - A rotary drum reason bottle machine for material is adopted and is made - Google Patents

Abstract

The utility model discloses a rotary drum reason bottle machine for material sampling ization, including the frame, be equipped with rotary driving mechanism, rotary drum mechanism and bottom mechanism in the frame, rotary driving mechanism drive rotary drum mechanism is rotary motion in bottom mechanism, rotary drum mechanism includes a plurality of vertical arrangement's rotary drum, every the rotary drum can be through open-top vertical a plurality of sample bottles that pile up in proper order in the section of thick bamboo, set up the bottleneck that unloads that supplies the sample bottle to pass through in the bottom mechanism, every all transversely seted up on the lateral wall of rotary drum and blocked the bottle groove, still be fixed in a horizontal arrangement's limiting plate subassembly in the frame, when the rotary drum that waits to unload the bottle stops to unloading bottleneck department when the just in time limiting plate subassembly card goes into the bottle inslot that blocks that should wait to unload the bottle rotary drum, so that the sample bottle above the limiting plate subassembly is spacing and can not drop down. The utility model has the advantages of simple structure is compact, degree of automation is high, be convenient for preparation and maintenance, operating stability is high, can improve work efficiency.

Description

A rotary drum reason bottle machine for material is adopted and is made

Technical Field

The utility model mainly relates to sample analysis instrument field, concretely relates to rotary drum reason bottle machine for material is adopted and is made.

Background

For the laboratory analysis of material (such as ore and coal) samples, each country has a mandatory standard and must comply with the standard. For example, the coal sample assay analysis is taken as an example, the rule of the sample assay analysis working process is to perform relevant assay analysis on a sample meeting the requirement on the premise of not destroying the sample representativeness, and in the process, the accuracy of the assay analysis is required to be ensured as much as possible so that the assay analysis result can reflect the characteristics of the sample most truly.

At present, an automatic sample preparation system replaces manual sample preparation, wherein the automatic sample preparation system automatically prepares samples such as a full water sample, a sample for storage and check, an analysis sample and the like according to original coal samples through links such as crushing, division, drying and pulverizing, and the system generally comprises primary crushing, primary division, secondary crushing and division, drying and pulverizing and division and the like according to a flow. The first-stage shrinkage can produce a full water sample, the second-stage crushing shrinkage can produce a sample for storage and check, the drying powder shrinkage can produce an analysis sample, and the full water sample, the sample for storage and check and the analysis sample produced by the automatic sample production system all need to be placed with sample bottles for sample collection. The sample bottles are different in size and height, so that the sample bottles with large quantity and different sample loading needs to be distinguished and sorted, and the subsequent automatic sample preparation operation is convenient to develop.

In the prior art, for example, patent CN215478125U relates to a bottle feeding device for a sample preparation system. The mechanism adopts a belt conveying mode, a belt and a flow channel are fixed on a frame, a gap is reserved between the belt and the flow channel, a sample bottle is conveyed through the movement of the belt, and meanwhile, the flow channel positions the movement track of the sample bottle. In the scheme, 4 flow channels are provided, namely 4 bottle placing openings, and then sample bottles are placed in the flow channels manually. In the scheme, sample bottles are conveyed to a waiting position through a belt, the position of the sample bottles is limited through a limiting plate, the limiting plate is arranged on a rotary cylinder, and the cylinder controls the rotation of the limiting plate; when revolving cylinder control limiting plate rotated 90 degrees and was parallel with the runner, the sample bottle was no longer restricted, and the sample bottle reachd the transport position under the transport of belt, and translation cylinder control push pedal pushed the sample bottle next to the process this moment, accomplished the transport work. The following technical problems exist:

firstly, a belt conveying mode is adopted, so that the cost is high; the design of the belt and the flow channel occupies a large space, and the waste of the whole resources is caused.

Secondly, the vertical sample bottles move transversely through the friction between the vertical sample bottles and the belt, and when the belt is high in speed, the sample bottles slip at a certain probability, so that the sample bottles are turned over, and the development of automatic operation is influenced.

Thirdly, each flow channel needs a limiting mechanism, namely a rotary cylinder and a limiting plate, and the limiting structure is complex.

Fourthly, when the single flow passage is limited, when the limiting plate is controlled by the cylinder to rotate by 90 degrees, the rotating track of the limiting plate is along the clearance between the sample bottle and the flow passage; when the sample bottle is slightly deformed and the bottle placing position is close to the inner wall of the flow channel, the limiting plate is blocked when rotating with probability, and the development of automatic operation is influenced.

Fifthly, because the positions of the sample bottles sent out by each flow channel are different, a sample bottle carrying mechanism is required to be arranged to push the sample bottles to the next unified station. And sample bottle transport mechanism drives the push pedal through the cylinder, and the push pedal promotes sample bottle, and when the cylinder speed was too fast or sample bottle warp the atress inhomogeneous, sample bottle can overturn at the removal in-process, has influenced the development of automation mechanized operation.

Sixthly for the sample bottle that adapts to different sizes, 4 runners are equipped with altogether to the device, and 4 are put the bottleneck, and 3 are put the small bottle, 1 and are enlarged the bottle, and this kind of structure is comparatively limited (big and small bottle must correspond the runner and place, can not be in disorder), and work efficiency reduces.

SUMMERY OF THE UTILITY MODEL

The utility model solves the technical problem that: aiming at the problems in the prior art, the rotary cylinder bottle arranging machine for material sampling and manufacturing is simple and compact in structure, high in automation degree, convenient to manufacture and maintain, high in operation stability and capable of improving working efficiency.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the utility model provides a rotary drum reason bottle machine for material sampling ization, includes the frame, be equipped with rotary driving mechanism, rotary drum mechanism and bottom mechanism in the frame, rotary driving mechanism drive rotary drum mechanism is rotary motion on bottom mechanism, rotary drum mechanism includes a plurality of vertically arranged's rotary drum, every the rotary drum can vertically pile up a plurality of sample bottles in proper order in the section of thick bamboo through the open-top, set up the unloading bottleneck that supplies the sample bottle to pass through in the bottom mechanism, every all transversely seted up on the lateral wall of rotary drum and blocked the bottle groove, still be fixed in a transversely arranged limiting plate subassembly in the frame, when rotary drum that waits to unload the bottle of rotary driving mechanism drive stops to unloading bottleneck department the limiting plate subassembly just in time blocks into this waiting to unload bottle rotary drum block the bottle inslot, so that the sample bottle more than the limiting plate subassembly is spacing and can not drop down.

As a further improvement, the bottom mechanism includes the bottom plate and the subassembly that opens the door, the bottom plate is located rotary drum mechanism below, so that rotary drum mechanism is rotatory on the bottom plate top surface, unload the bottleneck and offer on the bottom plate, the subassembly that opens the door locates the below of bottom plate, in order to be used for unloading the bottleneck and seal or open.

As a further improvement, the door opening assembly comprises a door opening cylinder and a door plate, the door opening cylinder drives the door plate to move below the bottom plate so as to be used for unloading the bottle mouth of the door plate to seal or open.

As the utility model discloses a further improvement, rotary drum mechanism includes pivot and upper and lower parallel arrangement's upper junction plate, lower connecting plate, and is a plurality of the rotary drum is in proper order around establishing on the periphery that is fixed in upper junction plate, lower connecting plate in order to be used for forming the rotary drum mechanism that is the tube-shape, the pivot is vertical to be worn to locate on upper junction plate and the lower connecting plate, the upper and lower both ends of pivot are all rotatably fixed in the frame through a bearing frame, rotary driving mechanism drive pivot is rotatory, rotate simultaneously in order to drive all rotary drums.

As a further improvement, every the bottle groove that blocks of parallel arrangement about all highly transversely seting up the twice more than according to different appearance bottles on the lateral wall of rotary drum, limiting plate subassembly detachable install in the frame, adjust the mounted position, block the bottle inslot with the card income co-altitude with the different appearance bottles that are used for loading in the rotary drum.

As a further improvement, the frame includes the side lever and the foundatin plate of roof, two vertical settings, two the upper and lower both ends of side lever are connected with roof, foundatin plate respectively, the limiting plate subassembly includes the limiting plate of horizontal setting and is fixed in the mounting panel at limiting plate both ends, two the mounting panel is installed respectively on two side levers.

As a further improvement, the rotary driving mechanism comprises a stepping motor and a shaft coupler, the stepping motor is fixed on the top of the frame and the driving shaft is connected with the top of the rotating shaft through the shaft coupler.

As the utility model discloses a further improvement, every the bottle of appearance bottle all is equipped with the interior concave part of round on one's body, blocks in the bottle inslot when limiting plate subassembly card goes into and block in the bottle inslot just in time the card in, in order to be used for carrying on spacingly to the appearance bottle.

As the utility model discloses a further improvement, the below of bottom plate is close to unloads bottleneck department and locates spacing slide rail, install on spacing slide rail door plant slidable, the drive end and the door plant of the cylinder that opens the door are connected, are used for driving the door plant and make a round trip to slide in order to unload the bottleneck sealed or open.

Compared with the prior art, the utility model has the advantages of:

firstly the utility model discloses a rotary drum reason bottle machine for material sampling ization accomplishes the reason bottle of different appearance bottles through the rotary drum that sets up a plurality of vertical layout (the quantity of rotary drum can increase and decrease in a flexible way as required), utilizes self gravity to accomplish the reason bottle in earlier stage and piles up and the unified transport in later stage, is different from the mode that current belt carried completely, greatly reduced cost of manufacture and maintenance cost. And the structure greatly reduces the space occupation, so that the equipment integration level is higher.

Secondly the utility model discloses a rotary drum reason bottle machine for material sampling ization utilizes self gravity to accomplish the reason bottle in earlier stage and piles up with the unified transport in later stage, has overcome the frictional force between appearance bottle and the belt among the prior art completely and has come lateral shifting's the problem of skidding or turn over the bottle problem, has improved work efficiency and operating stability greatly, the development of the automatic operation of being very convenient for.

Thirdly, the utility model discloses a rotary drum reason bottle machine for material sampling ization through rotary design for all rotary drums all through same unloading the bottleneck, also can directly dock next operation station in the below of unloading the bottleneck, and need not to set up the sample bottle transport mechanism after the bottle again, greatly reduced cost of manufacture and maintenance cost, improved automation and work efficiency, avoided the push pedal among the prior art to promote a great deal of technical problem that the sample bottle appears moreover.

Fourthly the utility model discloses a rotary drum reason bottle machine for material sampling ization, strong adaptability, the size of all rotary drums is unanimous, and the inside both can load big bottle, can load the small bottle again, and the appearance bottle that is in the rotary drum can not overturn for throw a bottle loading convenient and fast, work efficiency improves greatly.

Fifthly the utility model discloses a rotary drum reason bottle machine for material is adopted and is makeed the change blocks bottle groove and limiting plate subassembly through the setting for only need to set up a stop gear and can correspond a plurality of rotary drums, no longer need every runner to set up a stop gear like the technique before, limit structure is simple, easily preparation and maintenance.

Six is the utility model discloses a rotary drum reason bottle machine for material is adopted and is made has utilized rotary drum mechanism itself to accomplish the spacing operation of limiting plate subassembly with regard to the rotatory action that needs go on, need not to set up spacing power to limiting plate subassembly, and rotatory coming is spacing promptly, rotatory walking breaks away from promptly spacing, and limit structure and spacing operation are all simple, easily preparation and maintenance.

Seventhly, the utility model discloses a design that is used for rotary drum reason bottle machine of material sampling ization, and the appearance bottle is erect in spacing board subassembly cooperation, has overcome the spacing problem of hindering or spacing falling the bottle that prior art exists, has improved work efficiency and stability greatly.

Drawings

Fig. 1 is a schematic diagram of the front perspective three-dimensional structure of the rotary cylinder bottle unscrambler for material collection and preparation of the present invention.

Fig. 2 is a schematic view of the front view structure principle of the rotary cylinder bottle arranging machine for material collection and preparation of the present invention.

Fig. 3 isbase:Sub>A schematic view of the sectional structurebase:Sub>A-base:Sub>A of fig. 2.

Fig. 4 is a schematic view of the overlooking three-dimensional structure of the rotary cylinder bottle unscrambler for material sampling of the present invention.

Fig. 5 is a schematic view of the three-dimensional structure of the rotating drum and the limiting plate assembly of the present invention.

Fig. 6 is a schematic view of the internal structure of the rotary drum when loading the sample bottles.

Illustration of the drawings:

1. a frame; 11. a top plate; 12. a side lever; 13. a foundation plate; 2. a rotation driving mechanism; 21. a stepping motor; 22. a coupling; 3. a drum mechanism; 31. a rotating drum; 311. a bottle blocking groove; 32. a rotating shaft; 33. an upper connecting plate; 34. a lower connecting plate; 35. a bearing seat; 4. a bottom mechanism; 41. a base plate; 42. a door opening assembly; 421. a door opening cylinder; 422. a door panel; 5. a limiting plate component; 51. a limiting plate; 52. and (7) mounting the plate.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments and drawings.

As shown in fig. 1 to 6, the utility model provides a rotary drum bottle unscrambler for material is adopted and is made up, including frame 1, be equipped with a plurality of fixed hole sites and mounting in frame 1 and be used for with this frame 1 fixed mounting on the operation station. The rack 1 is provided with a rotary driving mechanism 2, a rotary drum mechanism 3 and a bottom mechanism 4, the rotary driving mechanism 2 drives the rotary drum mechanism 3 to do rotary motion on the bottom mechanism 4, the rotary drum mechanism 3 comprises a plurality of vertically arranged rotary drums 31, each rotary drum 31 can be sequentially and vertically stacked into a drum through a top opening (such as B in the attached drawing is a sample bottle), a bottle unloading opening for the sample bottle to pass through is formed in the bottom mechanism 4, a bottle blocking groove 311 is transversely formed in the side wall of each rotary drum 31, the rack 1 is further fixed with a transversely arranged limiting plate assembly 5, when the rotary drum 31 for driving the bottles to be unloaded is driven by the rotary driving mechanism 2 to stop to the bottle unloading opening, the limiting plate assembly 5 is just clamped into the bottle blocking groove 311 of the rotary drum 31 for the bottles to be unloaded, so that the sample bottles above the limiting plate assembly 5 are limited and cannot fall downwards.

During bottle arranging operation, the upstream manipulator (or other transmission equipment or manual work) puts the sample bottles into the rotary drum 31 from the top opening of the rotary drum 31, for example, the sample bottles of the same sample variety are all put into the same rotary drum 31, sample bottles loaded with different samples are loaded in different rotary drums 31, or sample bottles loaded with different weight specifications are loaded in different rotary drums 31, so that classification processing of different sample bottles is completed, and the purpose of bottle arranging is achieved.

In the loading process, the rotary drum 31 right on the bottle discharging opening is inserted into the bottle stopping groove 311 by the limiting plate component 5, so that the first sample bottle put in the rotary drum 31 can only fall on the limiting plate component 5 and then is stacked in sequence; while the other bottommost sample bottles in each drum 31 can be directly dropped onto the bottom mechanism 4 and then stacked in sequence for storage. For example, if 10 sample bottles can be placed in each drum 31 and the bottle blocking slot 311 of the drum 31 is opened between the 1 st and the 2 nd bottles from bottom to top, then only 9 sample bottles can be stacked in the drum 31 right above the mouth of the bottle, and 10 sample bottles can be stacked in each of the other drums 31.

In order to convey the sample bottles of the rotary cylinder bottle arranging machine to the next station one by one, the sample bottles are convenient to be carried and processed by the next station. The utility model discloses spacing board subassembly 5 has been set up. The limiting plate component 5 is correspondingly arranged at the bottle unloading opening. In this embodiment, the height of the limiting plate assembly 5 is just higher than the top of the bottommost sample bottle in the drum 31, so that the bottommost sample bottle is not limited and can fall off. Of course, the height of the stopper plate assembly 5 may be set to the height of two sample bottles so that two sample bottles are dropped at a time. The method is specifically set according to requirements. The specific implementation principle is as follows:

in this embodiment, after the sample bottles are all sorted and loaded, the sample bottles are transported to the next station. At this time, the rotary driving mechanism 2 drives the drum mechanism 3 to rotate, so as to stop a certain drum 31 for discharging bottles to the bottle discharge opening. When the sample bottle is rotated, the limiting plate assembly 5 is firstly clamped into the bottle blocking groove 311 of the bottle-to-be-unloaded rotary drum 31 to limit the penultimate sample bottle, and at this time, the sample bottle at the bottommost part cannot fall off because the sample bottle is not completely rotated in place. When the rotating drum 31 is completely rotated and stopped at the bottle-discharging opening, the sample bottle at the bottommost part of the rotating drum 31 falls downwards to the next station through the bottle-discharging opening, and the sample bottles above the penultimate sample bottle are limited and cannot fall. After the rotary drum 31 unloads the bottle, the rotary drum mechanism 3 is driven to rotate by the rotary driving mechanism 2, and at the moment, the rotary drum 31 to be unloaded breaks away from the limit of the limit plate component 5, so that the original penultimate sample bottle falls off and becomes the current bottommost sample bottle. During this rotation, the drum 31 in the second position performs the rotary bottle discharge operation as described above. And so on. Since the limiting plate assembly 5 is clamped into the bottle blocking groove 311 of the rotary drum 31, the limiting plate assembly protrudes and limits the sample bottles. As for the specific limiting manner, the limiting plate assembly may be clamped into an inner concave portion on the body of the sample bottle as described below, or may be directly squeezed into a gap between two sample bottles (as long as the limiting plate assembly 5 is made thin, the high and low positions are set corresponding to the gap between two sample bottles, and naturally squeezed into the gap between two sample bottles).

Through the special design, the following technical advantages are achieved:

firstly the utility model discloses a rotary drum reason bottle machine for material sampling ization accomplishes the reason bottle of different appearance bottles through the rotary drum 31 that sets up a plurality of vertical layout (the quantity of rotary drum 31 can increase and decrease in a flexible way as required), utilizes self gravity to accomplish the reason bottle in earlier stage and piles up and the unified transport in later stage, is different from the mode that current belt carried completely, greatly reduced cost of manufacture and maintenance cost. And the structure greatly reduces the space occupation, so that the equipment integration level is higher.

Secondly the utility model discloses a rotary drum reason bottle machine for material sampling ization utilizes self gravity to accomplish the reason bottle in earlier stage and piles up with the unified transport in later stage, has overcome the frictional force between appearance bottle and the belt among the prior art completely and has come lateral shifting's the problem of skidding or turn over the bottle problem, has improved work efficiency and operating stability greatly, the development of the automatic operation of being very convenient for.

Thirdly, the utility model discloses a rotary drum reason bottle machine for material sampling ization through rotary design for all rotary drums 31 all unload the bottleneck through same, also can directly dock next operation station in the below of unloading the bottleneck, and need not to set up the sample bottle transport mechanism after the bottle again, greatly reduced cost of manufacture and maintenance cost, improved automation and work efficiency, avoided the push pedal among the prior art to promote a great deal of technical problem that the sample bottle appears moreover.

Fourthly the utility model discloses a rotary drum reason bottle machine for material sampling ization, strong adaptability, all rotary drums 31's size all is unanimous, and the inside both can load big bottle, can load the small bottle again, and the appearance bottle that is located in rotary drum 31 can not overturn for throw a bottle loading convenient and fast, work efficiency improves greatly.

Fifthly the utility model discloses a rotary drum reason bottle machine for material is adopted and is makeed the change blocks bottle groove 311 and limiting plate subassembly 5 through the setting for only need set up a stop gear and can correspond a plurality of rotary drums 31, no longer need every runner all to set up a stop gear like the technique before, limit structure is simple, easily preparation and maintenance.

Six is the utility model discloses a rotary drum reason bottle machine for material is adopted and is made, utilized rotary drum mechanism 3 itself and accomplished limiting plate subassembly 5's spacing operation with regard to the rotary motion that needs go on, need not to set up spacing power to limiting plate subassembly 5, rotatory coming spacing promptly, rotatory walking promptly break away from spacing, limit structure and spacing operation are all simple, easily preparation and maintenance.

Seventhly, the utility model discloses a design that is used for material to adopt rotary drum reason bottle machine of system, and sample bottle is erect in the cooperation of limiting plate subassembly 5, has overcome the spacing problem of hindering or spacing falling the bottle that prior art exists, has improved work efficiency and stability greatly.

As shown in fig. 1 to 4, further, in the preferred embodiment, the bottom mechanism 4 includes a bottom plate 41 and a door opening assembly 42, the bottom plate 41 is disposed below the drum mechanism 3 to rotate the drum mechanism 3 on the top surface of the bottom plate 41, the discharge spout is opened on the bottom plate 41, and the door opening assembly 42 is disposed below the bottom plate 41 to seal or open the discharge spout. In this embodiment, the bottom plate 41 is a circular plate, and is designed to fit with the drum mechanism 3 having a cylindrical shape at the top, so that the bottom plate 41 can support the bottoms of all the drums 31 without occupying too much area. The spout can be designed to be exactly the diameter of the drum 31 or slightly larger than the diameter of the drum 31. In the present embodiment, the door opening assembly 42 includes a door opening cylinder 421 and a door panel 422, and the door opening cylinder 421 drives the door panel 422 to move under the bottom plate 41 for enabling the door panel 422 to seal or open the discharge opening. The lower part of the bottom plate 41 is arranged on a limiting sliding rail near the bottle unloading opening, the door panel 422 is slidably arranged on the limiting sliding rail, and the driving end of the door opening cylinder 421 is connected with the door panel 422 and is used for driving the door panel 422 to slide back and forth.

By arranging the door opening assembly 42, when the bottle unloading of one rotary drum 31 is finished and the second rotary drum 31 is rotated to the bottle unloading opening, if the bottle unloading of the second rotary drum 31 is not carried out immediately at the moment, the bottle unloading opening can be sealed by the door opening assembly 42. And opening the bottle-unloading mouth when the bottle can be unloaded. The arrangement further meets the requirements of other sample preparation equipment, for example, downstream butt joint equipment needs to suddenly pause bottle unloading, namely the bottle unloading can be immediately realized. Further, in the preferred embodiment, the drum mechanism 3 includes a rotating shaft 32, and an upper connecting plate 33 and a lower connecting plate 34 which are arranged in parallel from top to bottom, the plurality of drums 31 are sequentially wound and fixed on the circumferential surfaces of the upper connecting plate 33 and the lower connecting plate 34 to form the drum mechanism 3 in a cylindrical shape, the rotating shaft 32 vertically penetrates through the upper connecting plate 33 and the lower connecting plate 34 (fixedly connected), the upper end and the lower end of the rotating shaft 32 are rotatably fixed on the frame 1 through a bearing seat 35, and the rotary driving mechanism 2 drives the rotating shaft 32 to rotate so as to drive all the drums 31 to rotate simultaneously.

As shown in fig. 1 to 6, in a preferred embodiment, the sidewall of each drum 31 is transversely provided with more than two bottle stopping grooves 311 arranged in parallel up and down according to different heights of the sample bottles, and the limiting plate assembly 5 is detachably mounted on the frame 1 for adjusting the mounting position according to the different sample bottles loaded in the drum 31 to be clamped into the bottle stopping grooves 311 with different heights. In this embodiment, two bottle stopping grooves 311 are formed in the side wall of each drum 31, and the bottle stopping grooves 311 at the lower positions are just used for limiting the short sample bottles. When the rotating drum 31 is loaded with the tall-sample bottles, the limiting plate assembly 5 can be detached and installed corresponding to the bottle blocking groove 311 at the high position for limiting the tall-sample bottles. The design ensures that the rotary cylinder bottle unscrambler has strong adaptability and can adapt to sample bottles with various heights.

As shown in fig. 1 to 4, further, in the preferred embodiment, the rack 1 includes a top plate 11, two side bars 12 and a base plate 13, wherein the two side bars 12 are vertically disposed, the upper and lower ends of the two side bars 12 are respectively connected to the top plate 11 and the base plate 13, the limiting plate assembly 5 includes a limiting plate 51 disposed horizontally and mounting plates 52 fixed at two ends of the limiting plate 51, and the two mounting plates 52 are respectively mounted on the two side bars 12. The top plate 11 is used for mounting the rotation driving mechanism 2, the upper end and the lower end of the rotation shaft 32 are both rotatably fixed on the top plate 11 and the base plate 13 through a bearing seat 35, and the bottom plate 41 is also fixed on the base plate 13. This structure makes the operation stable.

Further, in the preferred embodiment, the rotary driving mechanism 2 includes a stepping motor 21 and a coupling 22, the stepping motor 21 is fixed on the top of the frame 1, and the driving shaft is connected with the top of the rotating shaft 32 through the coupling 22.

As shown in fig. 5 and fig. 6, further, in a preferred embodiment, the utility model discloses a rotary drum reason bottle machine for material sampling still matches and is equipped with a plurality of sample bottles, all is equipped with round indent portion (as shown in the figure C) on the body of every sample bottle, just blocks in the indent portion when spacing board subassembly 5 card goes into to block in the bottle groove 311, in order to be used for carrying on spacingly to sample bottle. The design ensures that the position limitation is simple, convenient and stable.

Above only the utility model discloses a preferred embodiment, the utility model discloses a scope not only limits in above-mentioned embodiment, and the fan belongs to the utility model discloses a technical scheme under the thinking all belongs to the utility model discloses a scope. It should be noted that various modifications and decorations can be made by those skilled in the art without departing from the principle of the present invention, and the scope of the present invention should be considered as the protection scope of the present invention.

Claims (9)

1. The utility model provides a rotary drum bottle unscrambler for material sampling ization, which comprises a frame (1), be equipped with rotary driving mechanism (2), rotary drum mechanism (3) and bottom mechanism (4) on frame (1), rotary driving mechanism (2) drive rotary drum mechanism (3) are rotary motion on bottom mechanism (4), rotary drum mechanism (3) include a plurality of vertical arrangement rotary drum (31), every rotary drum (31) can vertically pile up a plurality of sample bottles in proper order towards the section of thick bamboo through the open-top, set up the unloading bottleneck that supplies the sample bottle to pass through on bottom mechanism (4), every all transversely seted up on the lateral wall of rotary drum (31) and blocked bottle groove (311), still be fixed in a limiting plate subassembly (5) that transversely arranges on frame (1), when rotary drum (31) that the drive waited to unload the bottle stopped to unloading bottleneck department rotary drum (5) spacing board subassembly (5) just in time card blocked in limiting plate (311) of this waited to unload bottle (31) in order to be used for making the sample bottle more than subassembly (5) by the spacing can not drop down.

2. The rotary cylinder bottle unscrambler for material mining according to claim 1, wherein the bottom mechanism (4) comprises a bottom plate (41) and a door opening assembly (42), the bottom plate (41) is arranged below the rotary cylinder mechanism (3) to rotate the rotary cylinder mechanism (3) on the top surface of the bottom plate (41), the bottle discharging opening is arranged on the bottom plate (41), and the door opening assembly (42) is arranged below the bottom plate (41) to seal or open the bottle discharging opening.

3. The rotary barrel bottle unscrambler for material sampling according to claim 2, wherein the door opening assembly (42) comprises a door opening cylinder (421) and a door panel (422), the door opening cylinder (421) driving the door panel (422) to move under the bottom plate (41) for the door panel (422) to seal or open the discharge spout.

4. The rotary cylinder bottle unscrambler for material mining according to claim 1, wherein the rotary cylinder mechanism (3) comprises a rotary shaft (32), and an upper connecting plate (33) and a lower connecting plate (34) which are arranged in parallel up and down, the plurality of rotary cylinders (31) are sequentially wound and fixed on the circumferential surfaces of the upper connecting plate (33) and the lower connecting plate (34) to form the cylindrical rotary cylinder mechanism (3), the rotary shaft (32) vertically penetrates through the upper connecting plate (33) and the lower connecting plate (34), the upper end and the lower end of the rotary shaft (32) are rotatably fixed on the rack (1) through a bearing seat (35), and the rotary driving mechanism (2) drives the rotary shaft (32) to rotate so as to drive all the rotary cylinders (31) to rotate simultaneously.

5. The rotary cylinder bottle unscrambler for material sampling according to claim 1, wherein more than two bottle blocking grooves (311) arranged in parallel up and down are transversely formed on the side wall of each rotary cylinder (31) according to different heights of the sample bottles, and the limiting plate assembly (5) is detachably mounted on the rack (1) to adjust the mounting position according to the different sample bottles loaded in the rotary cylinder (31) to be clamped into the bottle blocking grooves (311) with different heights.

6. The rotary cylinder bottle straightening machine for material sampling according to claim 1, wherein the rack (1) comprises a top plate (11), two vertically arranged side rods (12) and a base plate (13), the upper ends and the lower ends of the two side rods (12) are respectively connected with the top plate (11) and the base plate (13), the limiting plate component (5) comprises a transversely arranged limiting plate (51) and mounting plates (52) fixed at two ends of the limiting plate (51), and the two mounting plates (52) are respectively mounted on the two side rods (12).

7. The rotary bottle unscrambler for material sampling according to claim 4, wherein the rotary driving mechanism (2) comprises a stepping motor (21) and a coupling (22), the stepping motor (21) is fixed on the top of the frame (1), and the driving shaft is connected with the top of the rotating shaft (32) through the coupling (22).

8. The rotary drum bottle unscrambler for material sampling according to claim 1, wherein each sample bottle is provided with a circle of concave portion on the bottle body, and when the limiting plate assembly (5) is clamped into the bottle blocking groove (311), the limiting plate assembly is just clamped into the concave portion to limit the sample bottle.

9. The rotary cylinder bottle unscrambler for material sampling according to claim 3, wherein a limit slide rail is arranged below the bottom plate (41) near the bottle discharge opening, the door panel (422) is slidably mounted on the limit slide rail, and the driving end of the door opening cylinder (421) is connected with the door panel (422) and is used for driving the door panel (422) to slide back and forth to seal or open the bottle discharge opening.

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