CN117228234A - Glass bottle conveying device - Google Patents

Abstract

The application relates to a glass bottle conveying device, which comprises a vibrating plate, a lifting rail part and a glass bottle conveying device, wherein the vibrating plate is provided with a center object placing part and a lifting rail part, and the lifting rail part is arranged around the center object placing part; the processing track, the upper end is linked together with the highest department of ascending track portion, and the lower extreme is used for preparing a position intercommunication with the material loading, and the processing track includes conveying part and upset portion, and the slope angle of upset portion is greater than conveying part's slope angle, and upset portion is provided with the barrier, and when the arc bottle end of work piece and barrier butt, the work piece passes the barrier with former gesture, and when the bottleneck of work piece and barrier butt, let the work piece overturn under the vibration of vibration dish with the help of the slope angle of upset portion and make bottleneck and bottle end exchange. The application has the effect of enabling the postures of a plurality of glass bottles leaving the conveying device to be more consistent, and facilitating the subsequent centralized transfer of the glass bottles.

Description

Glass bottle conveying device

Technical Field

The application relates to the technical field of biological medicine related accessories, in particular to a glass bottle conveying device.

Background

In the biomedical field, reagent liquid is usually loaded by using small-sized glass bottles, wherein in an automatic reagent liquid filling device for glass bottles, glass bottle conveying devices are used for conveying the glass bottles to a preset loading preparation position, so that a plurality of subsequent glass bottles are convenient to be intensively transferred to a station where the glass bottles are filled.

In the related art, a vibration plate is selected as the glass bottle conveying device, when the glass bottle conveying device is used, a plurality of glass bottles are intensively placed on the central position of the vibration plate, the central position is located at the lowest position of the vibration plate, then the glass bottles are gradually conveyed to a track on the periphery side of the vibration plate through the vibration of the vibration plate until reaching the highest position of the track, and then the glass bottles leave the track of the vibration plate, so that the glass bottles are conveyed to a preset feeding preparation position.

For the related art, the glass bottles are randomly arranged on the center of the vibration disc, so that the postures of the glass bottles in the track are not unique, the bottle mouth is likely to face forward, and the bottle bottom is likely to face forward, and the postures of the glass bottles at the feeding preparation position are not completely consistent, so that the defect that the means for transferring the glass bottles to the filling station later is complicated is caused.

Disclosure of Invention

In order to make the postures of a plurality of glass bottles positioned at a loading preparation position consistent, the application provides a glass bottle conveying device.

The application provides a glass bottle conveying device which adopts the following technical scheme:

a carafe conveyor comprising:

a vibration plate having a center storage portion and a rising rail portion provided around the center storage portion;

the processing track, the upper end with the highest department of ascending track portion is linked together, and the lower extreme is used for with material loading preparation position intercommunication, the processing track includes conveying part and turning part, the slope angle of turning part is greater than the slope angle of conveying part, the turning part is provided with the barrier, at the arc bottle end of work piece with when barrier butt, the work piece is crossed with former gesture barrier, when the bottleneck of work piece with barrier butt, with the help of the slope angle of turning part lets the work piece turn over under the vibration of vibration dish and makes bottleneck and bottle end exchange.

Through adopting above-mentioned technical scheme, because of the setting of blocking piece, then the glass bottle is at the in-process that descends gradually through vibration of vibration dish, if the glass bottle is at the bottle bottom forward motion, after the bottle bottom and blocking piece butt of glass bottle, then let the glass bottle directly cross blocking piece with the help of curved bottle bottom, let the glass bottle of qualified gesture continue to transport forward, if the glass bottle is the bottleneck forward motion, after the bottleneck that the glass bottle is planar shape and blocking piece butt, the glass bottle can be blocked by blocking piece and slide, at this moment the glass bottle can be in the upset portion, then through the vibration of vibration dish and the slope angle of upset portion, make the glass bottle receive the vibration component that is perpendicular to the inclined plane that the upset portion is located and be greater than the component that glass bottle gravity is perpendicular to the inclined plane that the upset portion is located, then the glass bottle can rotate around blocking piece, so that bottleneck and bottle bottom are to be exchanged, let the glass bottle of disqualified gesture change and move forward after the qualified gesture again, thereby make the gesture that a plurality of glass bottles of material loading preparation position place more unanimous.

Preferably, the overturning part is provided with a blocking forming notch, one side of the blocking forming notch, which is far away from the ascending track part, is used for being abutted against a workpiece, and one end of the conveying part, which is close to one side of the blocking forming notch, which is far away from the ascending track part, forms the blocking piece.

By adopting the technical scheme, on one hand, due to the arrangement of the blocking forming notch, when the bottle mouth of the glass bottle moves to the position, the bottle mouth of the glass bottle can partially fall into the blocking forming notch, and then the bottle mouth of the glass bottle can be abutted with one end of the conveying part, which is close to the blocking forming notch and is far away from the ascending track part, so that the blocking piece for blocking the glass bottle from continuously sliding is formed; on the other hand, compared with the mode that a block is protruded on the slope of the turnover part to form the blocking piece or a groove is recessed to enable the bottle mouth part of the glass bottle to fall down to play the same role of blocking the sliding of the glass bottle, the design mode is simpler in the forming and manufacturing method of the blocking piece no matter the blocking piece is integrally formed on the turnover part or is additionally formed on the turnover part, and therefore the manufacturing cost of the conveying device is reduced.

Preferably, one end of the turning part is connected with the highest part of the ascending track part; one end of the conveying part and one end of the overturning part far away from the ascending track part are separated to form the blocking forming notch, and the other end of the conveying part is communicated with the feeding preparation phase.

By adopting the technical scheme, compared with the structural form that the processing track is continuously molded along the length direction, the design mode has the advantages that on one hand, the overturning part and the conveying part can be manufactured separately; on the other hand, the space between the turnover part and the conveying part is directly used for forming the blocking forming notch, so that the manufacturing cost of the whole conveying device can be reduced.

Preferably, the processing track further comprises a dumping portion arranged at the break of the conveying portion, the dumping portion is located on one side, far away from the ascending track portion, of the overturning portion, the slope angle of the dumping portion is larger than that of the conveying portion, and when the workpiece passes through the dumping portion in a standing posture that the bottle mouth is downward, the workpiece is dumped in a direction far away from the overturning portion.

Through adopting above-mentioned technical scheme, because every glass bottle is when the barrier, the motion speed and the gesture of glass bottle are all incomplete unanimous, so have partial glass bottle be in bottleneck decurrent standing gesture after the upset, so setting up of portion of falling down can further adjust the gesture of glass bottle to help promoting the gesture uniformity of a plurality of glass bottles of material loading preparation position department.

Preferably, the conveying part is provided with a screening gap, the screening gap is positioned on one side of the dumping part away from the overturning part, the length of the screening gap along the conveying direction of the conveying part is smaller than the length of the workpiece, when the bottle mouth of the workpiece enters one side of the screening gap close to the overturning part, the gravity center of the workpiece is positioned on the conveying part, and when the bottle bottom of the workpiece enters one side of the screening gap close to the overturning part, the gravity center of the workpiece is positioned at the screening gap; the vibration plate is also connected with a first recovery component used for transferring the workpiece entering the screening gap back to the center storage part.

Through adopting above-mentioned technical scheme, because after blocking piece and falling portion, still can exist the gesture of a small amount of glass bottle and be unqualified, namely the bottleneck is preceding, the bottle bottom is behind, so follow-up glass bottle when passing through the screening breach, can let the glass bottle of qualified gesture pass through the screening breach with the help of the focus position of glass bottle, the glass bottle of unqualified gesture can fall into the screening breach to can further promote the gesture uniformity of a plurality of glass bottles of material loading preparation position department, first recovery subassembly in addition also can retrieve the glass bottle of unqualified gesture in the vibration dish, with repeatedly usable glass bottle.

Preferably, the conveying part is provided with an accelerating layer in a covering manner on the surface between the laying part and the screening notch, and the friction coefficient of the accelerating layer is smaller than that of the conveying part.

Through adopting above-mentioned technical scheme, because glass bottle is when passing through the screening breach, is through self focus to pay separately to involution gesture and unqualified gesture, so the setting of acceleration layer can accelerate the glass bottle and pass through the screening breach to prevent that the glass bottle of later glass bottle from being blocked by preceding glass bottle, and the condition that the glass bottle of qualified gesture falls into the screening breach appears, thereby can reduce the screening error rate, and then when promoting a plurality of glass bottle gesture uniformity of material loading preparation position, can keep the ejection of compact efficiency of glass bottle.

Preferably, the conveying part comprises an attitude processing part and a single-row processing part, the attitude processing part is used for arranging the falling part and the screening notch, and one side of the attitude processing part, which is close to the center object placing part, is used for separating a workpiece; the single-row processing part is communicated with one end of the gesture processing part, which is far away from the ascending track part, the width of the single-row processing part is smaller than that of the gesture processing part, the single-row processing part and the gesture processing part are arranged in a staggered manner, and one side of the single-row processing part, which is far away from the center object placing part, is used for separating a workpiece; the vibration plate is also connected with a second recovery assembly, and after the workpiece is separated from one end of the gesture processing part, which is close to the single-row processing part, the workpiece moves back to the center storage part through the second recovery assembly.

Through adopting above-mentioned technical scheme, when the glass bottle moves to the position that gesture processing part and list processing part are linked together, the multiseriate glass bottle both can break away from the gesture processing part and be close to the side of center put thing portion, also can break away from the side that the center put thing portion was kept away from to list processing part, so that the glass bottle that realizes moving in list processing part is single-row distribution setting, thereby can realize that the glass bottle is inputed one by one to the material loading and prepare the position, and then be convenient for follow-up glass bottle transfer with material loading preparation position department, simultaneously this kind of mode breaks away from when the glass bottle of other rows breaks away from, so can also keep the motion smoothness of glass bottle on whole conveying part, in addition, the setting of second recovery subassembly, also can realize the reuse to the glass bottle.

Preferably, the conveying part further comprises a standing guide part, the standing guide part is communicated with one end of the single-row processing part far away from the gesture processing part, an anti-blocking discharging part is formed at one end of the single-row processing part communicated with the standing guide part, the width of the anti-blocking discharging part is smaller than the diameter of the workpiece, and after the standing guide part is filled with a plurality of workpieces, the workpieces are separated from the anti-blocking discharging part through the vibration of the vibration disc; the vibration plate is connected with a third recovery assembly for transferring the workpiece leaving the anti-blocking unloading part back to the center storage part.

By adopting the technical scheme, on one hand, due to the arrangement of the standing guide part, the glass bottle can be converted from a lying posture to a standing posture after passing through the standing guide part, so that the glass bottle at the feeding preparation position can be conveniently transferred subsequently; on the other hand, because the vibration dish is continuous ejection of compact, but the transfer of material loading preparation position department glass bottle is interval work, so prevent stifled discharge part's setting, after standing guiding portion is filled with the glass bottle, the glass bottle can not stay on single processing portion of lining up to be difficult for letting whole processing track take place to block up, and lead to the glass bottle upset, fall and processing means failure such as screening.

Preferably, the gesture processing part and the single-column processing part extend around the central object placing part, the first recovery assembly, the second recovery assembly and the third recovery assembly form a total recovery mechanism, the total recovery mechanism comprises a collection bucket and a partition plate, the collection bucket is connected to the outer wall of the central object placing part and is used for collecting workpieces separated from the screening notch, the gesture processing part, the single-column processing part, the near end of the single-column processing part and the anti-blocking discharging part; the central storage part is provided with a recovery hole communicated with the lowest position of the collecting hopper, and the recovery hole extends around the axis direction of the central storage part; the separation plate is respectively connected with the inner wall of the collecting hopper and the outer wall of the central storage part, the separation plate is positioned at one end of the length direction of the recovery hole, the screening notch and the communicating position of the gesture processing part and the single-row processing part are positioned on one side of the separation plate, and the anti-blocking discharging part is positioned on the other side of the separation plate.

By adopting the technical scheme, on one hand, the conveying part extends around the central storage part, and meanwhile, the first recovery assembly, the second recovery assembly and the third recovery assembly form a structure form of the total recovery mechanism matched with the conveying part, so that glass bottles falling from different positions can be directly collected through the collecting hopper and moved back to the central storage part, and the structure form of the whole conveying device is more concise; on the other hand, because the anti-blocking unloading part, the screening notch and the gesture processing part are communicated with the single-row processing part, the distribution interval of the three positions is larger, so that all glass bottles falling into the collecting hopper flow into the recovery hole from one direction through the arrangement of the partition plate, and meanwhile, the movement direction of the glass bottles in the central storage part is consistent with the direction of the glass bottles flowing back to the central storage part, so that the interference of transporting the glass bottles to the ascending track part can be reduced.

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

1. because of the arrangement of the blocking piece, if the glass bottle moves forwards through the vibration of the vibration disc, after the bottle bottom of the glass bottle is abutted against the blocking piece, the glass bottle directly passes through the blocking piece by means of the arc-shaped bottle bottom, so that the glass bottle in a qualified posture continues to move forwards, if the glass bottle moves forwards through the arc-shaped bottle bottom, after the bottle opening in a plane shape of the glass bottle is abutted against the blocking piece, the glass bottle is blocked by the blocking piece and slides, at the moment, the glass bottle is positioned on the overturning part, then the vibration component force perpendicular to the inclined plane where the overturning part is positioned is larger than the component force perpendicular to the inclined plane where the overturning part is positioned through the vibration of the vibration disc, and then the glass bottle rotates around the blocking piece, so that the bottle opening and the bottle bottom are exchanged, the glass bottle in an unqualified posture is converted into the qualified posture, and then the glass bottle continues to move forwards, and the postures of a plurality of glass bottles at the feeding preparation position are more consistent;

2. on the one hand, due to the arrangement of the blocking forming notch, when the bottle mouth of the glass bottle moves to the position, the bottle mouth of the glass bottle can partially fall into the blocking forming notch, and then the bottle mouth of the glass bottle can be abutted with one end of the conveying part, which is close to the blocking forming notch and far away from the ascending track part, so as to be blocked from sliding, thereby forming a blocking piece for blocking the glass bottle from sliding continuously; on the other hand, compared with the mode that a block is protruded on the slope of the turnover part to form the blocking piece or a groove is recessed to enable the bottle mouth part of the glass bottle to fall down to play the same role of blocking the sliding of the glass bottle, the design mode is simpler in the forming and manufacturing method of the blocking piece no matter the blocking piece is integrally formed on the turnover part or is additionally formed on the turnover part, and therefore the manufacturing cost of the conveying device is reduced.

Drawings

Fig. 1 is a schematic view of a glass bottle conveying device according to an embodiment of the present application.

Fig. 2 is an enlarged schematic view of a specific structural form of the blocking member according to the embodiment of the present application.

Fig. 3 is an enlarged schematic view of the structure of the conveying part at the screening gap according to the embodiment of the present application.

Fig. 4 is an enlarged view showing how the glass bottles fall down in the posture processing section and the single row processing section in the embodiment of the present application.

FIG. 5 is a schematic diagram showing a specific structure of the total recycling mechanism according to an embodiment of the present application.

Reference numerals illustrate: 1. a vibration plate; 11. a central object placing part; 12. a rising track section; 2. processing the track; 21. a conveying section; 211. an attitude processing unit; 212. a single-column processing unit; 213. a standing guide; 22. a turnover part; 221. a blocking member; 222. blocking the forming notch; 23. a falling part; 3. screening the notch; 31. an acceleration layer; 4. an anti-blocking discharging part; 5. a total recovery mechanism; 51. a collection bucket; 52. a partition plate; 6. a recovery hole; 7. and a baffle.

Detailed Description

The application is described in further detail below with reference to fig. 1-5.

The embodiment of the application discloses a glass bottle conveying device. Referring to fig. 1 and 2, the glass bottle conveying device comprises a vibration plate 1 and a processing track 2, specifically, the vibration plate 1 is generally horizontally arranged, the vibration plate 1 is provided with a central object placing part 11 and a lifting track part 12, the central object placing part 11 is used for storing a plurality of glass bottles, the lifting track part 12 is arranged around the central object placing part 11, and when in operation, the vibration plate 1 can gradually move the glass bottles into the lifting track part 12 through self vibration so as to realize the purpose of gradually conveying the glass bottles forwards; the upper end of the processing track 2 is communicated with the highest position of the ascending track 12, the lower end of the processing track 2 is communicated with an external feeding preparation position, the whole processing track 2 is divided into a conveying part 21 and a turnover part 22, glass bottles are normally conveyed forwards in the conveying part 21, the slope angle of the turnover part 22 is larger than that of the conveying part 21, and the slope angle of the turnover part 22 is set according to the gravity of the glass bottles so as to be taken as a necessary factor for realizing rotation and turnover of the subsequent glass bottles.

Referring to fig. 2, the overturning part 22 is provided with a blocking piece 221, the blocking piece 221 is abutted against two end parts of the glass bottle, if the arc flat bottom of the glass bottle is abutted against the blocking piece 221, the glass bottle can directly cross the blocking piece 221 due to the shape of the arc bottle bottom, at the moment, the glass bottle with a qualified posture continues to be transported forwards, if the glass bottle is abutted against the blocking piece 221 through a bottleneck with a plane shape, the glass bottle is blocked from sliding by the blocking piece 221, at the moment, the glass bottle is positioned on the overturning part 22, then the vibration component of the slope of the vibrating disc 1 and the slope angle of the overturning part 22 is used for enabling the glass bottle to be subjected to a component force perpendicular to the slope of the overturning part 22 and a component force perpendicular to the slope of the overturning part 22, and then the glass bottle can rotate around the blocking piece 221, so that the postures of the glass bottles at the loading preparation position are more consistent, namely the postures of the glass bottles are more consistent when leaving the conveying device.

Referring to fig. 2, in this embodiment, in order to reduce the manufacturing cost of the stopper 221, the conveying portion 21 and the turning portion 22 are two independent elements, the lower end of the conveying portion 21 is communicated with the loading preparation place, the upper end of the turning portion 22 is fixedly connected with the rising track portion 12, a space exists between the lower end and the upper end of the conveying portion 21, the space forms a blocking forming notch 222 for embedding a bottle mouth portion of a glass bottle, and at the same time, one end, close to the blocking forming notch 222, far from the rising track portion 12, of the conveying portion 21 is abutted with the glass bottle to serve as the stopper 221, so that the purpose of stopping sliding of the glass bottle when the bottle mouth of the glass bottle abuts against the stopper 221 can be achieved.

In other embodiments, the blocking member 221 may be formed by protruding a block on the inversion portion 22 or recessing a groove on the surface of the inversion portion 22, regardless of manufacturing costs.

Referring to fig. 2 and 3, since the glass bottles have a partially unqualified posture after passing through the blocking member 221, only half of posture adjustment is completed, that is, the glass bottles are in a standing posture with the bottle mouth downward, in order to further improve posture consistency of a plurality of glass bottles at the loading preparation position, the following arrangement is correspondingly provided, specifically, an actual structure form of the conveying portion 21 is distributed in multiple stages, wherein two stages are fixed together through the integrally arranged dumping portion 23, so that an independent element is formed between two stages of the conveying portion 21 connected with the dumping portion 23 and the dumping portion 23, wherein the dumping portion 23 is located on one side of the overturning portion 22 away from the ascending track portion 12, a slope angle of the dumping portion 23 is larger than a slope angle of the conveying portion 21, and when the glass bottles pass through the dumping portion 23 in a standing posture with the bottle mouth downward, the glass bottles are vibrated by the vibrating disk 1 to be far away from the overturning portion 22, thereby completing posture adjustment of a half of the glass bottles at the loading preparation position is completed, and further improving posture consistency of a plurality of glass bottles at the loading preparation position.

Referring to fig. 2 and 3, after the glass bottle passes through the dumping portion 23, there is a small part of glass bottles still in an unqualified posture, meanwhile, the simplicity of the structure of the conveying device, even the readjustment success rate and the utilization rate are considered, so that the glass bottles in the unqualified posture can be screened out from the conveying portion 21 in a screening manner, the following arrangement is correspondingly provided, the conveying portion 21 is provided with a screening notch 3, the screening notch 3 is located on one side of the dumping portion 23 far away from the overturning portion 22, the length of the screening notch 3 is smaller than that of the glass bottles, wherein the screening principle of the screening notch 3 is related to the gravity center of the glass bottle, the gravity center of the glass bottle is not located in the middle position in the length direction, but is located closer to the bottle bottom, if the glass bottle moves in the forward posture of the bottle bottom, the glass bottle is located on the conveying portion 21 when the glass bottle opening leaves the conveying portion 21 and enters the screening notch 3, the gravity center of the glass bottle can be located on the conveying portion 21, the glass bottle can move beyond the screening notch 3 in the forward state, and the glass bottle can be further in the qualified posture, and the quality can be further screened out, and the qualified posture can be achieved, and the quality of the glass bottles can be more than in the qualified posture, and the quality can be more than the glass bottles.

In addition, in the present embodiment, in the case where the width of the conveying portion 21 is small, a baffle 7 may be added to the position where the glass bottles leave the screening gap 3 and enter the conveying portion 21 again, so as to maintain the smoothness of movement of the glass bottles through the screening gap 3.

Referring to fig. 1 and 3, since the glass bottles need to maintain a certain moving speed when passing through the screening gap 3, the surface of the conveying part 21 between the laying part 23 and the screening gap 3 is covered with an accelerating layer 31, the friction coefficient of the accelerating layer 31 is smaller than that of the conveying part 21, and the friction force between the glass bottles and the surface of the conveying part 21 is reduced, so that the glass bottles can be accelerated to pass through the screening gap 3, the glass bottles are prevented from being blocked by the previous glass bottles, and the glass bottles with qualified postures fall into the screening gap 3, thereby reducing the screening error rate.

Referring to fig. 4 and 5, in the present embodiment, the conveying portion 21 is distributed in four segments as a whole, two segments are connected by the tilting portion 23 to form an independent element, and the remaining two segments are only spliced together along the moving direction of the glass bottle, so the other two segments are respectively used as independent elements, so the conveying portion 21 includes an attitude processing portion 211, a single-row processing portion 212 and a standing guiding portion 213, the upper end of the attitude processing portion 211 is close to the tilting portion 22 to form a blocking forming notch 222 as described above, the attitude processing portion 211 is provided for the tilting portion 23 and the screening notch 3, and the side of the attitude processing portion 211 close to the center storage portion 11 is not blocked so that the glass bottle is separated from the attitude processing portion 211; the upper end of the single-row processing portion 212 is communicated with the lower end of the gesture processing portion 211, wherein the single-row processing portion 212 and the gesture processing portion 211 are arranged in a staggered manner at the communicating position, the position is staggered in the width direction and the height direction, in addition, the width of the single-row processing portion 212 is smaller than that of the gesture processing portion 211, and one side of the single-row processing portion 212 far away from the center storage portion 11 is not shielded, so that glass bottles can be separated from one side of the single-row processing portion 212 far away from the center storage portion 11, when a plurality of glass bottles move to the communicating position of the gesture processing portion 211 and the single-row processing portion 212, the glass bottles can be separated from one side of the gesture processing portion 211 close to the center storage portion 11 or one side of the single-row processing portion 212 far away from the center storage portion 11, and a plurality of glass bottles can be sent out from the single-row processing portion 212 in a single-row mode, so that the glass bottles can be transferred conveniently.

Referring to fig. 5, the upper end of the standing guiding portion 213 is connected to the lower end of the single-row processing portion 212, and the lower end is vertically and downwardly extended, so that the glass bottle is converted from a lying posture to a standing posture position, so that the glass bottle is transferred from the lying posture to the standing posture, and meanwhile, in this embodiment, the vibration plate 1 continuously discharges, but the glass bottle is transferred for multiple times, so that the glass bottle cannot be sent out from the standing guiding portion 213 during the transferring process, so that one end of the single-row processing portion 212, which is connected to the standing guiding portion 213, is formed with an anti-blocking unloading portion 4, and the width of the anti-blocking unloading portion 4 is smaller than the diameter of the glass bottle, so that after the standing guiding portion 213 is filled with the glass bottle, the glass bottle is dropped from the side of the anti-blocking unloading portion 4, which is far from the central storage portion 11, through the vibration of the vibration plate 1, so that the whole processing track 2 is not blocked, and the glass bottle cannot be turned over, and the processing means such as screening are not failed.

Referring to fig. 5, since the glass bottles fall from the screening gap 3, from the connection between the posture processing portion 211 and the single-row processing portion 212, and from the anti-blocking unloading portion 4, the vibration plate 1 is further connected with a first recycling assembly, a second recycling assembly, and a third recycling assembly, so as to recycle the glass bottles into the central storage portion 11 repeatedly, and meanwhile, considering the structural simplicity of the whole conveying device, the posture processing portion 211 and the single-row processing portion 212 are extended around the central storage portion 11, and meanwhile, the first recycling assembly, the second recycling assembly, and the third recycling assembly are integrated into one total recycling mechanism 5.

Referring to fig. 5, specifically, the total recycling mechanism 5 includes a collecting bucket 51 and a partition plate 52, the collecting bucket 51 is connected with the peripheral outer wall of the central storage part 11, the collecting bucket 51 is disposed around the central storage part 11, and the inner side of the collecting bucket 51 is located below the positions of the screening gap 3, the communicating position of the gesture processing part 211 and the single-row processing part 212, and the anti-blocking discharging part 4, so that glass bottles falling from different positions can be collected, in addition, the central storage part 11 is also provided with a recycling hole 6 communicated with the inner side of the collecting bucket 51, and the recycling hole 6 extends around the central storage part 11; the two ends of the partition plate 52 are respectively connected with the inner wall of the collecting hopper 51 and the outer wall of the central storage part 11, and one end of the partition plate 52 connected with the central storage part 11 is positioned at one end of the length direction of the recovery hole 6, wherein the communicating positions of the screening notch 3 and the gesture processing part 211 and the single-row processing part 212 are positioned on one side of the partition plate 52, and the anti-blocking discharging part 4 is positioned on the other side of the partition plate 52, so that glass bottles falling from three positions flow back into the central storage part 11 from the recovery hole 6 in one movement direction, and at the moment, the movement direction of the glass bottles in the central storage part 11 is consistent with the movement direction of the reflowed glass bottles, so that normal conveying of the glass bottles can not be disturbed while recovery is realized.

The implementation principle of the glass bottle conveying device provided by the embodiment of the application is as follows: because of the arrangement of the blocking piece 221, if the glass bottle moves forwards when the glass bottle is vibrated by the vibrating disc 1 and gradually descends, after the glass bottle bottom is abutted against the blocking piece 221, the glass bottle directly passes over the blocking piece 221 by means of the arc-shaped bottle bottom to enable the glass bottle in a qualified posture to continue to move forwards, if the glass bottle moves forwards for the bottle mouth, after the bottle mouth in a plane shape of the glass bottle is abutted against the blocking piece 221, the glass bottle can be blocked by the blocking piece 221 to slide, at the moment, the glass bottle is located on the overturning part 22, then the vibration component perpendicular to the inclined plane of the overturning part 22 is greater than the component perpendicular to the inclined plane of the overturning part 22 by the vibration of the vibrating disc 1 and the slope angle of the overturning part 22, and then the glass bottle can rotate around the blocking piece 221, so that the bottle mouth and the bottle bottom are exchanged to enable the glass bottle in the unqualified posture to be converted into the qualified posture and then to continue to move forwards, and the postures of a plurality of glass bottles at the feeding preparation position are more consistent.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (9)

1. A glass bottle conveyor, characterized in that: comprising the following steps:

a vibration plate (1) having a center placement portion (11) and a rising track portion (12), the rising track portion (12) being disposed around the center placement portion (11);

the processing track (2), the upper end with the highest department of rising track portion (12) is linked together, and the lower extreme is used for with material loading preparation position intercommunication, processing track (2) are including conveying portion (21) and upset portion (22), the slope angle of upset portion (22) is greater than the slope angle of conveying portion (21), upset portion (22) are provided with barrier (221), when the arc bottle end of work piece with barrier (221) butt, the work piece is with former gesture crossing barrier (221), when the bottleneck of work piece with barrier (221) butt, let work piece change over under the vibration of vibration dish (1) with the help of the slope angle of upset portion (22) and make bottleneck and bottle end.

2. The carafe conveyor according to claim 1, wherein: the turnover part (22) is provided with a blocking forming notch (222), one side of the blocking forming notch (222) away from the ascending track part (12) is used for being abutted against a workpiece, and one end of the conveying part (21) close to the blocking forming notch (222) away from one side of the ascending track part (12) forms a blocking piece (221).

3. The carafe conveyor according to claim 2, wherein: one end of the turning part (22) is connected with the highest part of the ascending track part (12); one end of the conveying part (21) and one end of the overturning part (22) far away from the ascending track part (12) are provided with a space to form the blocking forming notch (222), and the other end is communicated with a feeding preparation position.

4. The carafe conveyor according to claim 1, wherein: the processing track (2) further comprises a dumping portion (23) arranged at the break of the conveying portion (21), the dumping portion (23) is located on one side, far away from the ascending track portion (12), of the overturning portion (22), the slope angle of the dumping portion (23) is larger than that of the conveying portion (21), and when a workpiece passes through the dumping portion (23) in a bottle opening downward standing posture, the workpiece is dumped in a direction far away from the overturning portion (22).

5. The carafe conveyor as claimed in claim 4, wherein: the conveying part (21) is provided with a screening gap (3), the screening gap (3) is positioned on one side of the falling part (23) away from the overturning part (22), the length of the screening gap (3) along the conveying direction of the conveying part (21) is smaller than the length of a workpiece, when a bottle mouth of the workpiece enters the screening gap (3) to be close to one side of the overturning part (22), the gravity center of the workpiece is positioned on the conveying part (21), and when the bottle bottom of the workpiece enters the screening gap (3) to be close to one side of the overturning part (22), the gravity center of the workpiece is positioned at the screening gap (3); the vibration disc (1) is also connected with a first recovery component used for transferring the workpiece entering the screening gap (3) back to the center storage part (11).

6. The carafe conveyor as claimed in claim 5, wherein: the conveying part (21) is provided with an acceleration layer (31) in a covering manner on the surface between the laying part (23) and the screening notch (3), and the friction coefficient of the acceleration layer (31) is smaller than that of the conveying part (21).

7. The carafe conveyor as claimed in claim 5, wherein: the conveying part (21) comprises an attitude processing part (211) and a single-row processing part (212), the attitude processing part (211) is provided for the falling part (23) and the screening notch (3), and the attitude processing part (211) is close to one side of the center object placing part (11) for separating a workpiece; the single-row processing part (212) is communicated with one end of the gesture processing part (211) far away from the ascending track part (12), the width of the single-row processing part (212) is smaller than that of the gesture processing part (211), the single-row processing part (212) and the gesture processing part (211) are arranged in a staggered mode, and the side of the single-row processing part (212) far away from the center object placing part (11) is used for separating workpieces; the vibration plate (1) is also connected with a second recovery assembly, and after the workpiece is separated from one end, close to each other, of the gesture processing part (211) and the single-row processing part (212), the workpiece moves back to the center object placing part (11) through the second recovery assembly.

8. The carafe conveyor as claimed in claim 7, wherein: the conveying part (21) further comprises a standing guide part (213), the standing guide part (213) is communicated with one end, far away from the gesture processing part (211), of the single-row processing part (212), an anti-blocking discharging part (4) is formed at one end, communicated with the standing guide part (213), of the single-row processing part (212), the width of the anti-blocking discharging part (4) is smaller than the diameter of a workpiece, and after the standing guide part (213) is filled with a plurality of workpieces, the workpieces are separated from the anti-blocking discharging part (4) through vibration of the vibration disc (1); the vibration disc (1) is connected with a third recovery assembly for transferring the workpiece leaving the anti-blocking unloading part (4) back to the central storage part (11).

9. The carafe conveyor as claimed in claim 8, wherein: the gesture processing part (211) and the single-row processing part (212) are arranged around the central object placing part (11) in an extending mode, the first recycling component, the second recycling component and the third recycling component form a total recycling mechanism (5), the total recycling mechanism (5) comprises a collecting hopper (51) and a partition plate (52), the collecting hopper (51) is connected to the outer wall of the central object placing part (11) and is used for collecting workpieces separated from the screening notch (3), the gesture processing part (211) and the single-row processing part (212) which are close to one end and the anti-blocking discharging part (4); the central storage part (11) is provided with a recovery hole (6) communicated with the lowest position of the collecting hopper (51), and the recovery hole (6) extends around the axis direction of the central storage part (11); the separation plate (52) is respectively connected with the inner wall of the collecting hopper (51) and the outer wall of the center storage part (11), the separation plate (52) is positioned at one end of the length direction of the recovery hole (6), the screening notch (3) and the communicating position of the gesture processing part (211) and the single-row processing part (212) are positioned on one side of the separation plate (52), and the anti-blocking discharging part (4) is positioned on the other side of the separation plate (52).