CN215438525U - Conveyor belt buckle arranges in order and uses vibration dish - Google Patents

Abstract

The application discloses a vibrating disk for arranging a conveyor belt buckle, which comprises a disk body and a vibrating motor arranged on the lower side of the disk body, wherein a storage wall for storing the conveyor belt buckle is arranged on the disk body, the storage wall is arranged in a hollow cylinder shape, a feeding track is arranged on the inner wall of the storage wall, the feeding track is arranged in a spiral shape and is coiled and ascended, the highest point of the feeding track is communicated with a screening track, the screening track is coiled on the outer wall of the storage wall, and with depositing being formed with the clearance that slides between the outer wall of wall, and be provided with the branch material subassembly that is used for screening conveyer belt buckle on the sieve material track, this application is favorable to truning into the mode of artifical range to mechanical arrangement through the vibration of vibration dish and the screening of dividing the material subassembly, has reduced the conveyer belt buckle in the very big degree and has easily appeared the condition of erroneous judgement when arranging, has improved work efficiency, has the characteristics of arranging the accuracy, arranges efficiently.

Description

Conveyor belt buckle arranges in order and uses vibration dish

Technical Field

The application relates to the field of conveyor belt buckle production, in particular to a vibrating disc for arranging conveyor belt buckles.

Background

The conveyer belt buckle is a part for connecting two wide edges of a conveyer belt, the shape of a single conveyer belt buckle is similar to a C shape, a plurality of conveyer belt buckles are combined to form a zipper shape, when the conveyer belt is connected, the two wide edges of the conveyer belt are respectively provided with the plurality of conveyer belt buckles and fixedly connected, after the conveyer belt buckles on the two wide edges are mutually inserted, a fixed shaft is inserted into a hole formed in the middle, and the connection of the wide edges of the conveyer belt can be completed.

In the related art, as shown in fig. 1, a product diagram of a conveyor belt buckle is provided, which includes a bent portion 10, a first fixing portion 20 and a second fixing portion 30 are integrally formed at two ends of the bent portion 10, respectively, and a length of the first fixing portion 20 is greater than a length of the second fixing portion 30.

Because the first fixing parts and the second fixing parts are different in length, when the conveyor belt is installed on a conveyor belt, a plurality of conveyor belt buckles need to be arranged orderly and are pre-fixed according to the specification of the conveyor belt, namely, the first fixing parts of all the conveyor belt buckles are arranged on one side, all the second fixing parts are arranged on the other side, the arranging process usually needs manual operation of workers, and the situation of misjudgment can exist, so that the conveyor belt buckles are arranged irregularly, and a part to be improved exists.

SUMMERY OF THE UTILITY MODEL

In order to make the conveyer belt buckle can not appear the condition of erroneous judgement when arranging, this application provides a conveyer belt buckle arrangement and uses vibration dish.

The application provides a conveyer belt buckle arranges with vibration dish adopts following technical scheme:

the utility model provides a conveyer belt buckle arrangement is with vibration dish, includes the disk body and installs the vibrating motor in the disk body downside, be provided with the wall of depositing that is used for depositing the conveyer belt buckle on the disk body, it is the hollow cylinder setting to deposit the wall, it is provided with the material loading track on the wall inner wall to deposit, the material loading track is the heliciform setting and coils and rises, the orbital peak intercommunication of material loading has the sieve material track, the sieve material track coils the outer wall of depositing the wall to be formed with the clearance of sliding between the outer wall of depositing the wall, just be provided with the branch material subassembly that is used for screening the conveyer belt buckle on the sieve material track.

Through adopting above-mentioned technical scheme, when needs arrange in order the conveyer belt buckle, pour into a large amount of conveyer belt buckles and deposit in the wall, make these conveyer belts buckle and rise along the material loading track gradually under vibrating motor's the vibrating action, finally get into sieve material track, conveyer belt buckle's kink overlap joint is on sieve material track, through the selection of dividing the material subassembly, finally obtain the neat conveyer belt buckle of range on the pipeline of next track, be favorable to making the conveyer belt buckle become more neat when arranging through the vibrations screening of vibration dish.

Preferably, the screening track includes first screening track and second screening track, the orbital initiating terminal of first screening is connected with the material loading track, the orbital end of first screening is close to the orbital initiating terminal of second screening, just be formed with the blanking clearance between orbital end of first screening and the orbital initiating terminal of second screening, orbital end and the lower production line intercommunication of second screening, divide the material subassembly to set up between first screening track and second screening track.

Through adopting above-mentioned technical scheme, will divide the material subassembly to set up between first sieve material track and second sieve material track, be favorable to selecting through dividing the material subassembly, make the conveyer belt that is not conform to the range requirement detain at the in-process that goes to second sieve material track from first sieve material track, is screened and goes out and fall from blanking clearance, is favorable to specifically realizing the screening mode of sieve material track to conveyer belt buckle.

Preferably, a primary screening track for primarily screening the conveyor belt buckle is arranged between the feeding track and the first screening track.

Through adopting above-mentioned technical scheme, the orbital setting of prescreening is favorable to putting in order the conveyer belt buckle that will be sent to on the first sieve material track, will obviously can't send the orbital conveyer belt buckle of first sieve material to send back again and deposit the wall, and the transportation of making progress again under vibrating motor's vibration, until all conveyer belt buckles all sent first sieve track, be favorable to reducing conveyer belt buckle when the conveyer belt buckle removes from material loading track to first sieve material track, because can't send the first sieve material track to lead to the conveyer belt buckle to follow the condition that first sieve material track dropped.

Preferably, the material distributing assembly comprises a material guide plate used for turning up the conveyor belt buckle and a detection plate used for detecting whether the conveyor belt buckle meets the arrangement standard, the material guide plate is fixedly arranged on one side, close to the second screening track, of the first screening track, and the detection plate is fixedly arranged on one side, close to the blanking gap, of the storage wall.

Through adopting above-mentioned technical scheme, the in-process that the setting of stock guide can make conveyer belt buckle transport on first stock guide is gradually turned up and is infinitely tending to the level, when reacing pick-up plate department, first fixed part can the overlap joint on the pick-up plate at last conveyer belt buckle to continue to sieve material rail transport to the second, the unable overlap joint of conveyer belt buckle that second fixed part was last drops on the pick-up plate and from the blanking clearance, has specifically realized dividing the screening mode of material subassembly to conveyer belt buckle.

Preferably, one side of the second screening track, which is close to the first screening track, is arranged at an oblique angle.

Through adopting above-mentioned technical scheme, set up the orbital initiating terminal of second sieve material into the oblique angle, be favorable to further increasing the size in blanking clearance, the conveyer belt buckle that the second fixed part is in the last of being convenient for falls from the blanking clearance after the screening of dividing the material subassembly, has improved the accuracy of dividing the material subassembly screening.

Preferably, the first screening track is provided with a limiting arc edge.

Through adopting above-mentioned technical scheme, the in-process that the setting up on spacing arc limit can make the conveyer belt buckle transport on first sieve material track can remain kink and the laminating of first sieve material track throughout, is favorable to preventing that the kink of conveyer belt buckle from receiving vibrating motor's vibration in the transportation, keeps away from the orbital condition of first sieve material to the false judgement appears in the pick-up plate that leads to dividing the material subassembly.

Preferably, a material blocking wall is further arranged on the tray body, and a charging chute is formed between the material blocking wall and the storage wall.

Through adopting above-mentioned technical scheme, the setting of charging chute can be to when following the material loading subassembly to first sieve material rail transport on the one hand, because the unable overlap joint of kink is gone up to first sieve material track and the conveyor belt buckle that drops collects, on the other hand, can be to when following first sieve material track to second sieve material rail transport, the conveyor belt buckle that is sieved and drops from the blanking clearance by the branch material subassembly is collected, and the two all is favorable to collecting the conveyor belt buckle that drops from the vibration dish.

Preferably, the material blocking wall is provided with a taking window for taking the conveyor belt buckle in the blanking groove.

Through adopting above-mentioned technical scheme, through the setting of the window of taking, be favorable to making the staff to take the conveyer belt buckle in the charging conduit to put back again and deposit in the wall.

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

1. the conveying belt buckles on the screening track can be selected by utilizing the material distributing assembly arranged on the vibrating disc, the conveying belt buckles meeting the arrangement requirement are left on the screening track to be continuously transported to a next production line, the arrangement of the conveying belt buckles is more orderly, meanwhile, the manual arrangement mode is changed into mechanical arrangement through the vibrating screening of the vibrating motor, the automation degree is high, and the condition that the conveying belt buckles are misjudged in the arrangement process is avoided to the great extent;

2. by means of the arrangement of the limiting arc edge and the distributing assembly, the conveyer belt buckles which do not meet the arrangement requirement, namely the conveyer belt buckles on the second fixing part, can be screened out and fall from the blanking gap, and the screening accuracy can be improved;

3. through the arrangement of the charging chute and the taking window, the belt buckle falling down due to various reasons can be collected, and the belt buckle in the charging chute can be taken by workers and placed back to the storage wall for continuous arrangement.

Drawings

FIG. 1 is a schematic axial view of a conveyor belt buckle structure according to the related art;

FIG. 2 is a schematic axial view of an embodiment of the present application, which mainly shows an overall structure of a vibrating plate for arranging conveyor belts;

fig. 3 is a schematic axial view mainly showing a connection manner of a first screening rail and a material guide plate according to an embodiment of the present application;

fig. 4 is a partial enlarged view of portion a of fig. 2, which mainly shows the structure in the vicinity of the first screen track and the second screen track.

Reference numerals: 1. a tray body; 11. a vibration motor; 12. a storage wall; 13. a material blocking wall; 131. taking a window; 14. a charging chute; 15. a feeding track; 16. primarily screening the track; 2. a material screening track; 21. a first screening track; 211. limiting the arc edge; 22. a second screening track; 23. a blanking gap; 3. a material distributing component; 31. a material guide plate; 32. and (6) detecting the board.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses conveyer belt buckle arranges and uses vibration dish.

Referring to fig. 2, the vibrating plate for arranging the conveyor belt buckle comprises a plate body 1, a vibrating motor 11 is arranged below the plate body 1, a storage wall 12 and a material blocking wall 13 are enclosed above the plate body 1 in a welding mode, the storage wall 12 and the material blocking wall 13 are both arranged in a cylindrical shape and are concentric, the storage wall 12 is positioned on the inner side of the material blocking wall 13, and deposit wall 12, be formed with the charging chute 14 that is cyclic annular setting between retaining wall 13 and the 1 three of disk body, offer the window 131 of taking that is arranged in taking the charging chute 14 to take on retaining wall 13, be provided with material loading track 15 on the inner wall of depositing wall 12, material loading track 15 is the heliciform setting and coils and rises, it is provided with sieve material track 2 to coil directly over charging chute 14 to be located the outer wall of depositing wall 12, sieve material track 2 coils and sets up and is depositing the wall 12 outside and with deposit and form the clearance of sliding between the wall 12, be provided with on the sieve material track 2 and be used for screening branch material subassembly 3 that the conveyer belt buckled.

When the conveyor belt buckles need to be arranged, a large number of conveyor belt buckles are guided into the storage wall 12, the vibration motor 11 is started, the conveyor belt buckles gradually rise along the feeding track 15 under the vibration action of the vibration motor 11 and enter the screening track 2, the bent parts of the conveyor belt buckles are lapped on the screening track 2 at the moment and are transported continuously along with the vibration of the vibration motor 11, the conveyor belt buckles which are arranged orderly are finally obtained on the lower flow line through the selection of the distribution component 3, the manual arrangement mode is favorably converted into mechanical arrangement through the vibration of the vibration disc and the screening of the distribution component 3, the condition that the conveyor belt buckles are prone to be misjudged during arrangement is greatly reduced, the working efficiency is improved, and meanwhile, the arrangement of the blanking groove 14 is favorable for collecting the conveyor belt buckles which fall from the screening track 2 during transportation or in the screening of the distribution component 3, the access window 131 is provided to facilitate the removal and replacement of the belt collected by the chute 14 by the worker into the storage wall 12.

Referring to fig. 2 and 4, the screening track 2 includes a first screening track 21, a screening track 2 and a second screening track 22, the starting end of the screening track 2 of the first screening track 21 is connected to the end of the feeding track 15, a primary screening track 16 is disposed between the starting end of the screening track 2 of the first screening track 21 and the end of the feeding track 15, the end of the screening track 2 of the first screening track 21 is close to the starting end of the screening track 2 of the second screening track 22, a blanking gap 23 is formed between the screening track 2 of the first screening track 21 and the screening track 2 of the second screening track 22, and the screening track of the second screening is communicated with a next production line.

Referring to fig. 3, divide material subassembly 3 to include stock guide 31 and pick-up plate 32, stock guide 31 is the heliciform setting and fixed setting and sieves one side that material track 2 is close to second sieve material track 22 at first sieve material track 21, and the one end that second sieve material track 22 sieve material track 2 was kept away from to stock guide 31 is vertical setting, the one end that stock guide 31 is close to second sieve material track 22 sieve material track 2 is approximate level setting and is close to and deposits wall 12, pick-up plate 32 is fixed to be set up on depositing wall 12 and is close to one side of blanking clearance 23, and second sieve material track 22 sieve material track 2 initiating terminal is the oblique angle setting.

In actual use, the preliminary screening track 16 is arranged to preliminarily screen the conveyor belt buckle which is about to be conveyed from the feeding track 15 to the screening track 2 of the first screening track 21, and the conveyor belt buckle which is obviously incapable of being conveyed to the screening track 2 of the first screening track 21 is returned to the storage wall 12, so that the conveyor belt buckle is conveyed upwards again under the vibration of the vibration motor 11.

When the conveyor belt buckle is transported from the first screening track 21 to the second screening track 22 to the screening track 2, firstly, the conveying belt buckle is limited by the material guiding plate 31 and gradually rotates towards the horizontal direction, when the conveying belt buckle reaches the blanking gap 23, the conveyor belt buckle on which the first fixing portion is located will overlap the detecting plate 32, and continue to be transported toward the screening track 2 of the second screening track 22, the conveyor belt buckle on which the second fixing portion is located cannot be lapped on the detection plate 32 due to its short length, and falls from the blanking gap 23, at this time, the screening of the conveyor belt buckle is completed, and at the same time, because the initiating terminal of second sieve material track 22 sieve material track 2 is the oblique angle setting, is favorable to suitably increasing the size in blanking clearance 23, and the transportation area of being convenient for second fixed part on is detained and is hung down from blanking clearance 23 after the screening of dividing material subassembly 3, is favorable to improving the accuracy of the screening of dividing material subassembly 3.

Referring to fig. 2 and 4, a limiting arc edge 211 is arranged on the screening track 2 of the first screening track 21, and the limiting arc edge 211 is located on one side of the screening track 2 of the first screening track 21, which is far away from the storage wall 12.

In actual use, the setting of spacing arc limit 211 can make the conveyer belt buckle when accepting the screening of dividing material subassembly 3, can make kink and first sieve material track 21 sieve material track 2 laminate all the time, is favorable to preventing in the transportation owing to receive vibrating motor 11's influence, makes the kink keep away from first sieve material track 21 sieve material track 2 to lead to dividing the condition emergence that material subassembly 3 leaks the conveyer belt buckle that accords with the range requirement.

The implementation principle of conveyer belt buckle arrangement vibration dish is: when the conveyor belt buckles need to be arranged, a large number of conveyor belt buckles are poured into the storage wall 12, at the moment, the vibration motor 11 is started, the vibration motor 11 drives the disc body 1 to vibrate, the conveyor belt buckles gradually rise along the feeding rail 15 under the action of the vibration motor 11 and enter the primary screening rail 16 to carry out primary screening, the conveyor belt buckles obviously incapable of being fed with the screening rail 2 of the first screening rail 21 are sent back to the storage wall 12 to be transported again, the conveyor belt buckles capable of being fed with the screening rail 2 of the first screening rail 21 enter from the primary screening rail 16 and gradually change to a horizontal state along the screening rail 2 of the first screening rail 21 under the limitation of the guide plate 31 and move to the detection plate 32, the detection plate 32 conveys the conveyor belt buckles with the first fixing parts on the second screening rail 22 to the screening rail 2 and move to a lower production line, and the conveyor belt buckles with the second fixing parts on the blanking gaps 23 fall into the chute 14, during staff's accessible window 131 takes out the conveyer belt buckle in the charging chute 14 and sends back again and deposit wall 12, through the vibration of vibration dish and the screening of dividing material subassembly 3, be favorable to changeing into mechanical arrangement with the mode of artifical range, reduced the conveyer belt buckle in the very big degree and easily appeared the condition of erroneous judgement when arranging, improved work efficiency.

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

Claims (8)

1. The utility model provides a conveyer belt buckle arranges in order and uses vibration dish which characterized in that: including disk body (1) and install vibrating motor (11) in disk body (1) downside, be provided with on disk body (1) and be used for depositing conveyer belt buckle deposit wall (12), it is the hollow cylinder setting to deposit wall (12), be provided with material loading track (15) on depositing wall (12) inner wall, material loading track (15) are the heliciform setting and coil and rise, the peak intercommunication of material loading track (15) has sieve material track (2), sieve material track (2) coil the outer wall of depositing wall (12) to be formed with the clearance of sliding between the outer wall of depositing wall (12), just be provided with branch material subassembly (3) that are used for screening conveyer belt buckle on sieve material track (2).

2. The vibrating plate for arranging conveyor buckles according to claim 1, wherein: the screening track (2) comprises a first screening track (21), a screening track (2) and a second screening track (22), the screening track (2), the starting end of the screening track (2) of the first screening track (21) is connected with the feeding track (15), the tail end of the screening track (2) of the first screening track (21) is close to the starting end of the screening track (2) of the second screening track (22), and a blanking gap (23) is formed between the tail end of the screening track (2) of the first screening track (21) and the starting end of the screening track (2) of the second screening track (22), the tail end of the screening track (2) of the second screening track (22) is communicated with a next production line, the material distributing assembly (3) is arranged between the material sieving track (2) of the first material sieving track (21) and the material sieving track (2) of the second material sieving track (22).

3. The vibrating plate for arranging conveyor buckles according to claim 2, wherein: a primary screening track (16) used for carrying out primary screening on the conveyor belt buckle is arranged between the feeding track (15) and the screening track (2) of the first screening track (21).

4. The vibrating plate for arranging conveyor buckles according to claim 3, wherein: the material distributing assembly (3) comprises a material guide plate (31) used for turning up the conveyor belt buckle and a detection plate (32) used for detecting whether the conveyor belt buckle meets the arrangement standard, the material guide plate (31) is fixedly arranged on one side, close to the screening track (2) of the second screening track (22), of the screening track (2) of the first screening track (21), and the detection plate (32) is fixedly arranged on one side, close to the blanking gap (23), of the storage wall (12).

5. The vibrating plate for arranging conveyor buckles according to claim 4, wherein: one side that second sieve material track (22) sieve material track (2) are close to first sieve material track (21) sieve material track (2) is the bevel setting.

6. The vibrating plate for arranging conveyor buckles according to claim 5, wherein: and a limiting arc edge (211) is arranged on the screening track (2) of the first screening track (21).

7. The vibrating plate for arranging conveyor buckles according to claim 1, wherein: the tray body (1) is further provided with a material blocking wall (13), and a blanking groove (14) is formed between the material blocking wall (13) and the storage wall (12).

8. The vibrating plate for arranging conveyor buckles according to claim 7, wherein: and the material blocking wall (13) is provided with a taking window (131) for taking the conveyor belt buckle in the charging chute (14).

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