CN214113912U - Feeding channel structure of vibration disc for tubular object - Google Patents
Feeding channel structure of vibration disc for tubular object Download PDFInfo
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- CN214113912U CN214113912U CN202023194680.5U CN202023194680U CN214113912U CN 214113912 U CN214113912 U CN 214113912U CN 202023194680 U CN202023194680 U CN 202023194680U CN 214113912 U CN214113912 U CN 214113912U
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Abstract
The utility model discloses a tubular object is with feedstock channel structure of vibration dish, it includes: vibration dish, directional subassembly and letter sorting subassembly, the letter sorting subassembly sets up on the vibration dish, the letter sorting subassembly includes the pay-off track, prevents down the passageway and arranges the passageway, the pay-off track encircles and sets up on the vibration dish, directional subassembly sets up on the vibration dish and is located the orbital top of pay-off, prevent down the head end of passageway and be connected with the pay-off track tail end, prevent down the tail end of passageway and be connected with the head end of arranging the passageway, prevent down and set up the pouring groove on the passageway, it is corrugated structure to pour the groove into. The utility model discloses collect vibration dish, directional subassembly and letter sorting subassembly in structural design of an organic whole, can orient, carry and shift tubular object fast, integrated nature is good, and work efficiency is high, can stably carry out the pay-off, makes the tubular object tie lie the form and change into the form of standing vertically and derive, and the practicality is strong.
Description
Technical Field
The utility model relates to a tubulose object pay-off technical field, in particular to feed channel structure of vibration dish for tubulose object.
Background
In recent years, with the continuous development of society and the continuous progress of scientific level, the automatic production slowly replaces manual work for processing and transporting, the vibration disc is an auxiliary feeding device of automatic assembly or automatic processing machinery, the vibration disc realizes the automatic conveying function through a frequency converter and a motor, and the vibration disc is widely applied to the field of conveying of tubular objects at present, and the development of a tubular object production line is driven. In order to accelerate the distribution efficiency of automobile parts, the vibration disc is used for conveying, which is an efficient and simple method, but the existing vibration disc for tubular objects has the defects; secondly, current tubulose object does not possess the direction function with the vibration dish, and the tubulose object form of deriving generally is the formula of putting upside down and derives the vibration dish, and the packing of being not convenient for is handled with unified, and the vibration dish carries out the product and places in a pile after coming out, causes the outside to press from both sides the problem of getting the equipment clamp and getting the difficulty.
Therefore, a feeding channel structure of a vibrating disk for a tubular object is urgently needed in the market to solve the problem.
SUMMERY OF THE UTILITY MODEL
The utility model discloses to the disappearance that prior art exists, provide a tubular object is with feedstock channel structure of vibration dish, collect vibration dish, directional subassembly and letter sorting subassembly in structural design of an organic whole, can orient, carry and shift tubular object fast, integrated nature is good, makes the flat form of lying of tubular object change into upright form and derives, and integrated nature is good, and work efficiency is high, can stably carry out the pay-off, makes things convenient for the external equipment clamp to get, and the practicality is strong.
In order to achieve the above purpose, the utility model adopts the following technical scheme:
a feed channel structure of a vibratory tray for a tubular object, comprising: vibration dish, directional subassembly and letter sorting subassembly, the letter sorting subassembly sets up on the vibration dish, the letter sorting subassembly includes the pay-off track, prevents down the passageway and arranges the passageway, the pay-off track encircles and sets up on the vibration dish, directional subassembly sets up on the vibration dish and is located the orbital top of pay-off, prevent down the head end of passageway and be connected with the pay-off track tail end, prevent down the tail end of passageway and be connected with the head end of arranging the passageway, prevent down and set up the pouring groove on the passageway, it is corrugated structure to pour the groove into.
As a further elaboration of the above technical solution:
in the above technical scheme, the feeding rails include a first feeding rail and a second feeding rail, the first feeding rail and the second feeding rail are in a step-shaped structure, the height of the first feeding rail is higher than that of the second feeding rail, and the orientation assembly is disposed between the first feeding rail and the second feeding rail.
In the above technical scheme, first orbital tail end of pay-off is provided with the guide way, the guide way sets up between first pay-off track and orientation subassembly, orientation subassembly includes fixed plate and deflector, the one end of fixed plate is fixed in on the vibration dish, the other end of fixed plate is connected with the deflector, the deflector sets up in the terminal one side of guide way and is located the orbital top of second pay-off.
In the technical scheme, the tail end of the second feeding track is connected with the head end of the anti-falling channel, a limiting block is arranged on the anti-falling channel and on one side of the pouring groove, and the limiting block is used for enabling the tubular objects to be vertically poured into the pouring groove.
In the above technical scheme, limiting plates are arranged on two sides and the upper end of the arrangement channel, and the limiting plates are used for preventing the vertical tubular object from falling down.
In the technical scheme, the two sides of the feeding track are provided with the shockproof falling plates which are used for preventing the tubular object from being shaken off due to the vibration of the vibrating disk.
Compared with the prior art, the utility model has obvious advantages and beneficial effects, particularly, the structural design of integrating the vibration disk, the feeding component and the sorting component into a whole leads a single tubular object into the vibration disk, provides a power source through the vibration disk to lead the tubular object to move along the track of the vibration disk and enter the first feeding track, and moves the tubular object to the guide groove through the first feeding track; if the heavier end of the tubular object is positioned at the front end, the heavier end of the tubular object directly falls into the guide groove downwards and is transferred to the second feeding track, if the lighter end of the tubular object is positioned at the front end, the lighter end of the tubular object moves to the upper end of the guide plate, when the heavier end of the tubular object leaves the first feeding track, the heavier end of the tubular object directly falls into the guide groove downwards and is transferred to the second feeding track according to the gravity principle, the heavier end of the tubular object falls downwards through the structure of the guide plate, the tubular object is conveyed to the anti-falling channel through the second feeding track 212 and is poured into the pouring groove according to the gravity principle, the tubular object is erected inside the pouring groove through the limiting block and the corrugated structure of the pouring groove and is transferred to the arrangement channel, and finally the tubular object is arranged and guided out through the arrangement channel, collect the packing by external equipment, can carry and shift tubular object fast, the integrated nature is good, and work efficiency is high, and the structure is firm, and the practicality is strong.
To more clearly illustrate the structural features and technical means of the present invention and the specific objects and functions achieved thereby, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments:
drawings
Fig. 1 is a schematic view of the overall structure of the present invention.
The attached drawings indicate the following: 1. a vibrating pan; 2. a sorting assembly; 21. a feeding track; 211. a first feed track; 212. a second feed track; 213. a guide groove; 22. an anti-fall channel; 221. pouring the mixture into a groove; 23. arranging channels; 3. an orientation assembly; 31. a fixing plate; 32. a guide plate.
Detailed Description
In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the indicated position or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.
In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood as appropriate by those of ordinary skill in the art.
As shown in fig. 1, a feed channel structure of a vibratory pan for a tubular object, comprising: vibration dish 1, letter sorting subassembly 2 and orientation subassembly 3, letter sorting subassembly 2 sets up on vibration dish 1, letter sorting subassembly 2 includes pay-off track 21, prevents down passageway 22 and arranges passageway 23, pay-off track 21 encircles and sets up on vibration dish 1, orientation subassembly 3 sets up on vibration dish 1 and is located the top of pay-off track 21, the head end that prevents down passageway 22 is connected with pay-off track 21 tail end, the tail end that prevents down passageway 22 is connected with the head end of arranging passageway 23, prevent setting up the groove 221 that falls on the passageway 22, it is corrugated structure to fall the groove 221.
As a further improvement of the present invention, the feeding track 21 includes a first feeding track 211 and a second feeding track 212, the first feeding track 211 and the second feeding track 212 are in a step-like structure, the height of the first feeding track 211 is higher than that of the second feeding track 212, and the orientation assembly 3 is disposed between the first feeding track 211 and the second feeding track 212.
As a further improvement of the utility model, the tail end of first pay-off track 211 is provided with guide way 213, guide way 213 sets up between first pay-off track 211 and directional subassembly 3, directional subassembly 3 includes fixed plate 31 and deflector 32, the one end of fixed plate 31 is fixed in on the vibration dish 1, the other end of fixed plate 31 is connected with deflector 32, deflector 32 sets up in the top that terminal one side of guide way 213 just is located second pay-off track 212.
As a further improvement of the utility model, the end of second pay-off track 212 is connected with the head end of preventing down passageway 22, it is provided with the stopper to prevent down the passageway 22 and be located one side of pouring groove 221, the stopper is arranged in making upright pouring of tubulose object fall into among the groove 221.
As a further improvement of the present invention, both sides and the upper end of the arrangement passage 23 are provided with a limiting plate, which is used for preventing the vertical tubular object from falling down.
As a further improvement of the present invention, both sides of the feeding rail 21 are provided with shock-proof falling plates for preventing the tubular object from being vibrated by the vibration plate 1.
The working process is as follows: a single tubular object is introduced into the vibration disc 1, the vibration disc 1 provides a power source to enable the tubular object to move along the track of the vibration disc 1 and enter the first feeding track 211, and the tubular object is moved to the guide groove 213 through the first feeding track 211; the heavier end of the tubular object falls directly downwards into the guide slot 213 to be transferred to the second feed track 212, provided that it is located at the front end, and, provided that it is located at the front end, the lighter end of the tubular object moves to the upper end of the guide plate 32, and when the heavier end of the tubular object leaves the first feed track 211, according to the principle of gravity, the heavier end of the tubular object falls directly downwards into the guide slot 213 and is transferred to the second feed track 212, the heavier end of the tubular object drops downward by the structure of the guide plate 32, the tubular object is fed to the falling prevention passage 22 through the second feeding rail 212 and is poured into the falling groove 221 according to the principle of gravity, the tubular object is erected inside the pouring groove 221 by the stopper of the pouring groove 221 and the corrugated structure, and transferred to the arranging channel 23, and finally the tubular objects are arranged and led out through the arranging channel 23.
The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention, so any modifications, equivalent replacements, improvements, etc. made to the above embodiments by the technology of the present invention are all within the scope of the technical solution of the present invention.
Claims (6)
1. A feed channel structure of a vibratory tray for a tubular object, comprising: vibration dish, directional subassembly and letter sorting subassembly, the letter sorting subassembly sets up on the vibration dish, the letter sorting subassembly includes the pay-off track, prevents down the passageway and arranges the passageway, the pay-off track encircles and sets up on the vibration dish, directional subassembly sets up on the vibration dish and is located the orbital top of pay-off, prevent down the head end of passageway and be connected with the pay-off track tail end, prevent down the tail end of passageway and be connected with the head end of arranging the passageway, prevent down and set up the pouring groove on the passageway, it is corrugated structure to pour the groove into.
2. The feeding channel structure of a vibration disk for tubular objects as claimed in claim 1, wherein the feeding track comprises a first feeding track and a second feeding track, the first feeding track and the second feeding track are in a step-like structure, the height of the first feeding track is higher than that of the second feeding track, and the orientation assembly is disposed between the first feeding track and the second feeding track.
3. The feeding channel structure of the vibration disk for tubular objects as claimed in claim 2, wherein the tail end of the first feeding track is provided with a guide groove, the guide groove is arranged between the first feeding track and the orientation component, the orientation component comprises a fixing plate and a guide plate, one end of the fixing plate is fixed on the vibration disk, the other end of the fixing plate is connected with the guide plate, and the guide plate is arranged on one side of the tail end of the guide groove and is located above the second feeding track.
4. The feeding channel structure of a vibration disk for tubular objects as claimed in claim 3, wherein the second feeding track has a tail end connected to a head end of the falling prevention channel, and a stopper is disposed on the falling prevention channel and at one side of the falling groove, and the stopper is used for vertically falling the tubular object into the falling groove.
5. The structure of a feeding channel of a vibration disk for tubular objects as claimed in claim 4, wherein the arrangement channel is provided at both sides and at the upper end thereof with limiting plates for preventing the vertical tubular objects from falling down.
6. The feeding channel structure of a vibration disk for tubular objects as claimed in claim 1, wherein vibration-proof falling plates are provided on both sides of the feeding rail, and the vibration-proof falling plates are used for preventing the tubular objects from being shaken off by the vibration of the vibration disk.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202023194680.5U CN214113912U (en) | 2020-12-23 | 2020-12-23 | Feeding channel structure of vibration disc for tubular object |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202023194680.5U CN214113912U (en) | 2020-12-23 | 2020-12-23 | Feeding channel structure of vibration disc for tubular object |
Publications (1)
Publication Number | Publication Date |
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CN214113912U true CN214113912U (en) | 2021-09-03 |
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CN202023194680.5U Active CN214113912U (en) | 2020-12-23 | 2020-12-23 | Feeding channel structure of vibration disc for tubular object |
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CN (1) | CN214113912U (en) |
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2020
- 2020-12-23 CN CN202023194680.5U patent/CN214113912U/en active Active
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