CN216917360U - Laminated material storage machine for motorcycle wheel production line - Google Patents

Laminated material storage machine for motorcycle wheel production line Download PDF

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Publication number
CN216917360U
CN216917360U CN202220416590.6U CN202220416590U CN216917360U CN 216917360 U CN216917360 U CN 216917360U CN 202220416590 U CN202220416590 U CN 202220416590U CN 216917360 U CN216917360 U CN 216917360U
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China
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lifting
wheel
horizontal
production line
trays
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CN202220416590.6U
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Inventor
戴云峰
杨志钢
范嘉峻
王嘉玮
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Zhejiang Jinfeizhi Friction Wheel Co ltd
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Zhejiang Jinfeizhi Friction Wheel Co ltd
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Abstract

The utility model relates to a laminated material storage machine for a motorcycle wheel production line, which belongs to the technical field of wheel production and comprises a machine body, wherein a feeding hole and a discharging hole for feeding and discharging a motorcycle wheel workpiece are formed on two opposite sides of the machine body, a horizontal conveying mechanism which extends from the feeding hole to the discharging hole and conveys the motorcycle wheel workpiece from the feeding hole to the discharging hole is arranged in the machine body, a material storage mechanism which is positioned on the transverse outer side of the horizontal conveying mechanism and has an up-and-down laminated structure is also arranged in the machine body, the material storage mechanism comprises a plurality of lifting parts which are used for lifting and storing the motorcycle wheel workpiece positioned on the horizontal conveying mechanism one by one, the plurality of lifting parts are connected with a lifting mechanism to realize up-and-down synchronous lifting, and a detection mechanism which is used for detecting whether the motorcycle wheel workpiece on the horizontal conveying mechanism is positioned at a position which can be lifted by the lifting parts is arranged in the machine body. The utility model has the advantages of ensuring the continuity of the production line and effectively improving the production efficiency.

Description

Laminated material storage machine for motorcycle wheel production line
Technical Field
The utility model relates to a stacked material storage machine for a motorcycle wheel production line, and belongs to the technical field of wheel production.
Background
At present, in order to ensure the production efficiency, a motorcycle wheel production line generally adopts a conveying line to continuously feed materials, and the following problems exist in the feeding method: when wheels are continuously fed on the conveying line, the situation that the previous wheel is still in a processing state and the next wheel is conveyed to a position to be processed easily occurs, so that the wheels are stacked on the conveying line, and at the moment, the conveying line needs to be closed to stop feeding; when the staff does not in time add the wheel to the transfer chain on, the processing station just is in the state of waiting to expect always, makes the continuity of production line difficult to guarantee from this to lead to production efficiency to reduce.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a laminated material storage machine for a motorcycle wheel production line, which solves the problem that the continuity of the production line is difficult to guarantee so as to reduce the production efficiency in the prior art.
The technical purpose of the utility model is mainly solved by the following technical scheme: the utility model provides a motorcycle wheels is range upon range of formula storage machine for production line, includes the organism, the both sides that the organism is relative are formed with feed inlet and discharge gate that supplies the business turn over of wheel work piece, be equipped with in the organism and extend to the horizontal conveyor who carries the wheel work piece from the feed inlet to the discharge gate from the feed inlet, still be equipped with in the organism and be located the horizontal outside of horizontal conveyor and be the storage mechanism of range upon range of formula structure from top to bottom, storage mechanism is including being used for carrying out a plurality of portions of lifting that store with the wheel work piece that is located horizontal conveyor one by one lifting, and is a plurality of it realizes going up and down synchronous lifting with elevating system to lift the portion, and is a plurality of it sets up to lift the portion along vertical direction equidistant, be equipped with in the organism and be used for detecting whether the wheel work piece on the horizontal conveyor is in the detection mechanism that can be by lifting position of lifting portion.
When the device is used, the utility model is firstly arranged between a processing station of a wheel workpiece and a feeding conveying line, and an input end of a horizontal conveying mechanism at a feeding port and an output end of a discharging port are respectively aligned with an output end of the feeding conveying line and a working platform of the processing station, when the processing station has no wheel workpiece requirement and the feeding conveying line has the wheel workpiece input, the wheel workpiece is conveyed from the feeding port to the horizontal conveying mechanism through the feeding conveying line, then the wheel workpiece is continuously conveyed forwards through the horizontal conveying mechanism, when the detection mechanism detects that the wheel workpiece is positioned at a position which can be lifted by a lifting part, the horizontal conveying mechanism is controlled to stop working, the lifting mechanism starts to work and drives a plurality of lifting parts to synchronously lift for a certain distance, the lifting distance is greater than the axial maximum width of the wheel workpiece, and a lifting part positioned below the wheel workpiece on the horizontal conveying mechanism can lift the wheel workpiece upwards for a certain distance to enable the wheel workpiece to be separated from the lifting part Leaving the horizontal conveying mechanism, thereby finishing the material storage action of one wheel workpiece, and storing the material of the subsequent wheel workpiece according to the step; when the wheel-free workpieces are input into the feeding conveying line and the machining station has the requirements of the wheel workpieces, the lifting mechanism starts to work to drive the plurality of lifting parts to synchronously descend for the same distance, so that the wheel workpieces on the lifting parts above the horizontal conveying mechanism can be placed on the horizontal conveying mechanism, then the wheel workpieces are conveyed to a working platform of the machining station from the discharge port through the horizontal conveying mechanism, the discharging action of one wheel workpiece is finished, and the subsequent wheel workpieces are discharged according to the step; when the wheel workpieces are required at the processing station and just input into the feeding conveying line, the wheel workpieces are conveyed to the horizontal conveying mechanism from the feeding hole through the feeding conveying line and then are directly conveyed to the working platform of the processing station from the discharging hole through the horizontal conveying mechanism.
Preferably, the lifting parts comprise two trays which are positioned on two sides of the horizontal conveying mechanism in the width direction perpendicular to the conveying direction of the horizontal conveying mechanism and are consistent in height, and when the wheel workpiece is positioned on the horizontal conveying mechanism, two opposite ends of the wheel workpiece in the radial direction are suspended and positioned between the two trays in the two adjacent lifting parts.
The two trays which are positioned on two sides of the width direction of the horizontal conveying mechanism perpendicular to the conveying direction of the horizontal conveying mechanism and are consistent in height are arranged in the lifting portion, when the wheel workpiece is positioned on the horizontal conveying mechanism, two ends of the wheel workpiece which are opposite in the radial direction are suspended and positioned between the two trays in the two adjacent lifting portions, when the two trays in the same lifting portion are lifted, the two ends of the wheel workpiece which are suspended in the air can act on the horizontal conveying mechanism to lift the wheel workpiece for a certain distance, so that the wheel workpiece is separated from the horizontal conveying mechanism, and therefore the material storage action of the wheel workpiece is completed.
Preferably, the detection mechanism comprises two sets of in-place photoelectricity which are respectively positioned on the outer sides of the two trays in the width direction, the in-place photoelectricity is used for detecting whether the wheel workpiece on the horizontal conveying mechanism is conveyed to a position aligned with the center of the tray, and the number of the in-place photoelectricity in each set is two at intervals.
Through be equipped with two sets of photoelectricity that target in place that are located two tray width direction outsides respectively in detection mechanism, every group photoelectric quantity that targets in place is two that the interval set up for horizontal transport mechanism can in time stop carrying when the wheel work piece on the horizontal transport mechanism carries to the position of aliging with the tray center, so that can accurately be with horizontal transport mechanism's wheel work piece lifting when the tray rises.
Preferably, the horizontal conveying mechanism is a chain conveyor, the horizontal conveying mechanism comprises two groups of conveying chains which are arranged at intervals and extend along the horizontal direction and a conveying driver for driving the conveying chains to run in a surrounding mode, and the horizontal distance between the two groups of conveying chains is smaller than the diameter of the innermost circle of the rim part of the wheel workpiece, so that the two ends of the wheel workpiece, which are opposite in the radial direction, are suspended during conveying.
The horizontal conveying mechanism is set as a chain conveyor and comprises two groups of conveying chains which are arranged at intervals and extend along the horizontal direction and a conveying driver for driving the conveying chains to run in a surrounding manner, the horizontal distance between the two groups of conveying chains is smaller than the diameter of the innermost circle of the rim part of the wheel workpiece, so that the two opposite radial ends of the wheel workpiece are suspended during conveying, the conveying driver can drive the conveying chains to run in a surrounding manner during working so as to realize the conveying of the wheel workpiece, a gap between the two groups of conveying chains can abdicate the raised structure at the center of the wheel workpiece during conveying so as to realize the stable conveying of the wheel workpiece, and the two opposite radial ends of the wheel workpiece can be suspended during conveying through the two groups of conveying chains, so that the tray can be contacted with the edge parts at the two suspended ends of the wheel workpiece during ascending so as to lift the tray and separate the wheel workpiece from the conveying chains, thereby realizing the storage of the wheel workpieces.
Preferably, the vertical distance between the two trays in the two adjacent lifting parts is greater than the maximum axial width of the wheel workpiece, the two trays in the same lifting part are respectively positioned on the outer sides of the two groups of conveying chains in the width direction, the horizontal distance between the inner ends of the two trays is smaller than the diameter of the outermost circle of the rim part of the wheel workpiece, and the trays extend in parallel to the length direction of the conveying chains.
The vertical distance of the upper and lower intervals of the trays in the two adjacent lifting parts is set to be larger than the axial maximum width of the wheel workpiece, the two trays in the same lifting part are respectively positioned on the outer sides of the width directions of the two groups of conveying chains, and the horizontal distance between the inner ends of the two trays is smaller than the diameter of the outermost circle of the rim part of the wheel workpiece, the trays extend in parallel to the length direction of the conveying chains, so that the wheel workpieces on the trays in the two adjacent lifting parts cannot interfere, so that multilayer material storage is realized, and in addition, the two trays in the same lifting part can be ensured to be contacted with the edge parts at the two suspended ends of the wheel workpiece when rising, so that the wheel workpiece is lifted to be separated from the conveying chains.
Preferably, a cushion block is fixed to the top of each tray, and the cushion block is made of rubber.
The cushion blocks are fixed at the tops of all the trays and made of rubber, so that the trays can be prevented from being in rigid contact with the surfaces of the trays directly, the surfaces of the wheel workpieces are prevented from being scratched or abraded, the friction force between the wheel workpieces and the contact of the trays can be increased, and the risk of displacement of the wheel workpieces on the trays can be reduced.
Preferably, a positioning protrusion is formed on the top of each cushion block, the positioning protrusion comprises an upper pointed cone part and a lower straight cylinder part, and the horizontal distance between two positioning protrusions in the same lifting part is smaller than the diameter of the innermost ring of the rim part of the wheel workpiece.
The positioning protrusions are formed at the top of each cushion block and comprise a pointed cone part above and a straight barrel part below, the horizontal distance between the two positioning protrusions in the same lifting part is smaller than the diameter of the innermost ring of a rim part of a wheel workpiece, so that the two positioning protrusions can limit the wheel workpiece in the horizontal direction after the wheel workpiece is lifted by the two trays, the wheel workpiece on the trays can be effectively prevented from being excessively displaced in the horizontal direction, the wheel workpiece can be accurately placed on the two sets of conveying chains when the trays descend to discharge, and the wheel workpiece can be accurately conveyed to a machining station by the two sets of conveying chains to be machined.
Preferably, the lifting mechanism is a chain elevator, the lifting mechanism comprises four groups of lifting chains extending in the vertical direction and a lifting driver for driving the lifting chains to run around, the four groups of lifting chains are symmetrically distributed on the outer side of the tray in the width direction in a group two by two manner, and the tray is fixed between the two groups of lifting chains in the same group.
Through setting up elevating system into chain elevator, elevating system includes four sets of lifting chain that extend along vertical direction and is used for driving lifting chain to encircle the lift driver of operation, two liang of a set of symmetric distribution of four sets of lifting chain is in the width direction outside of tray, the tray is fixed in between two sets of lifting chain in same group, make the lift driver during operation can drive two sets of lifting chain and encircle the operation in order to drive the tray oscilaltion, so that realize the storage and the ejection of compact of wheel work piece, and the tray can follow lifting chain and make the elevating movement of return ring formula, compare required vertical height when can effectively reduce the tray and go up and down in linear elevating movement, thereby can effectively reduce the vertical height of equipment.
Preferably, the lifting mechanism further comprises a rotary encoder connected with a driving shaft of the lifting chain to measure the displacement of the tray on the lifting chain in the vertical direction.
Through still being equipped with the displacement volume that the tray that goes up and down along vertical direction on in order to measure the lift chain at elevating system with the driving shaft of lift chain connected rotary encoder for can measure the displacement volume that the tray that goes up and down along vertical direction goes up and down through rotary encoder, so that the distance that control tray goes up and down when carrying out the storage of a wheel work piece and ejection of compact is unanimous, with the continuity of assurance storage and ejection of compact.
Preferably, the feed inlet and the discharge outlet are both provided with protective photoelectricity for enabling a lifting driver in the lifting mechanism to be in a closed state.
The protection photoelectricity used for enabling the lifting driver in the lifting mechanism to be in the closed state is arranged at the feed inlet and the discharge outlet, so that when the protection photoelectricity at the feed inlet or the discharge outlet detects that a wheel workpiece passes through, the lifting driver in the lifting mechanism can be in the closed state, the tray can not be lifted at the moment, and entry protection and exit protection are achieved.
Therefore, the utility model has the advantages of ensuring the continuity of the production line and effectively improving the production efficiency.
Drawings
FIG. 1 is a schematic perspective view of the present invention;
FIG. 2 is a schematic front view of the present invention;
FIG. 3 is a schematic side view of the present invention;
FIG. 4 is a schematic top view of the present invention;
fig. 5 is a perspective view of the lift portion of the present invention.
The scores in the figures are as follows: 1. a body; 2. a feed inlet; 3. a discharge port; 4. a horizontal conveying mechanism; 5. a material storage mechanism; 6. a lifting part; 7. a lifting mechanism; 8. a tray; 9. a conveying chain; 10. a conveyance driver; 11. cushion blocks; 12. positioning the projection; 13. a lifting chain; 14. a lift drive; 15. a rotary encoder; 16. an auxiliary conveying mechanism; 17. an auxiliary roller; 18. a detection mechanism; 19. photoelectric in place; 20. protecting the photoelectricity.
Detailed Description
The technical scheme of the utility model is further specifically described by the following embodiments and the accompanying drawings.
As shown in fig. 1, 2 and 3, the stacked material storage machine for a motorcycle wheel production line according to the present invention includes a stacked machine body 1, the machine body 1 is a hollow frame structure, a feeding port 2 and a discharging port 3 for feeding wheel workpieces in and out are formed on two opposite sides of the machine body 1, a horizontal conveying mechanism 4 is disposed in the machine body 1 and extends from the feeding port 2 to the discharging port 3 to convey the wheel workpieces from the feeding port 2 to the discharging port 3, the horizontal conveying mechanism 4 may be a chain conveyor or two sets of conveying roller beds disposed at intervals, specifically, the horizontal conveying mechanism 4 includes two sets of conveying chains 9 disposed at intervals and extending along a horizontal direction and a conveying driver 10 for driving the conveying chains 9 to run around, the conveying driver 10 is a driving motor, and the driving motor is in power connection with a driving shaft of the conveying chains 9 through chain transmission, the horizontal distance between the two groups of conveying chains 9 is smaller than the diameter of the innermost circle of the rim part of the wheel workpiece, so that the two opposite radial ends of the wheel workpiece are suspended during conveying.
As shown in fig. 1, 2 and 5, a storing mechanism 5 which is located on the horizontal outer side of the horizontal conveying mechanism 4 and has an up-down stacking structure is further arranged in the machine body 1, the storing mechanism 5 comprises a plurality of lifting portions 6 which are used for lifting wheel workpieces located on the horizontal conveying mechanism 4 one by one, the plurality of lifting portions 6 are arranged at equal intervals along the vertical direction, each lifting portion 6 comprises two trays 8 which are located on two sides of the horizontal conveying mechanism 4 in the width direction perpendicular to the conveying direction and have the same height, when the wheel workpieces are located on the horizontal conveying mechanism 4, two opposite radial ends of the wheel workpieces are suspended and located between the two trays 8 in the two adjacent lifting portions 6, the vertical distance between the two trays 8 in the two adjacent lifting portions 6 is larger than the axial maximum width of the wheel workpieces, the two trays 8 in the same lifting portion 6 are respectively located on the outer sides of the width direction of the two groups of conveying chains 9, and the horizontal distance between the inner ends of the two trays 8 is smaller than the rim portion of the wheel workpieces Outermost circle diameter, tray 8 is L form and is on a parallel with the length direction horizontal extension of conveying chain 9, two tray 8 symmetries in same lift portion 6 set up, the top of every tray 8 all is fixed with cushion 11, cushion 11 is made by rubber, the top of every cushion 11 all is formed with location arch 12, location arch 12 includes the straight section of thick bamboo portion of pointed pyramis and below of top, the horizontal distance between two location archs 12 in same lift portion 6 is less than the innermost circle diameter of wheel work piece rim part.
As shown in fig. 1, 3 and 4, the plurality of lifting portions 6 are connected with the lifting mechanism 7 to realize synchronous lifting up and down, the lifting mechanism 7 is a chain lifter, the lifting mechanism 7 includes four sets of lifting chains 13 extending along the vertical direction and a lifting driver 14 for driving the lifting chains 13 to move around, the lifting driver 14 is a driving motor, this driving motor passes through chain drive and is connected with the drive shaft power of lift chain 13, the two liang a set of symmetric distribution of four sets of lift chain 13 is in the width direction outside of tray 8, tray 8 is fixed in between two sets of lift chain 13 in the same group, elevating system 7 still includes the rotary encoder 15 who is connected with the drive shaft of lift chain 13 in order to measure the displacement volume that tray 8 on the lift chain 13 goes up and down along vertical direction, feed inlet 2 and discharge gate 3 department all are equipped with the protection photoelectricity 20 that is used for making the lift driver 14 in elevating system 7 be in the closed condition.
As shown in fig. 2 and fig. 3, a detection mechanism 18 for detecting whether the wheel workpiece on the horizontal conveying mechanism 4 is at a position that can be lifted by the lifting part 6 is arranged in the machine body 1, the detection mechanism 18 includes two sets of in-position photoelectric cells 19 respectively located on the outer sides in the width direction of the two trays 8, the photoelectricity that targets in place 19 is used for detecting wheel work piece on the horizontal conveying mechanism 4 and carries to the position of lining up with tray 8 center, every group targets in place the quantity of photoelectricity 19 and is two that the interval set up, feed inlet 2 and discharge gate 3 department all are equipped with auxiliary conveyor 16, auxiliary conveyor 16 includes two auxiliary rollers 17 that are located the 9 width direction outsides of two sets of conveyor chains respectively, auxiliary roller 17 both ends are supported on organism 1 by indirect or direct rotation, auxiliary roller 17 is located the length direction outside of tray 8, auxiliary roller 17's top and conveyor chain 9's top parallel and level.
In the specific implementation of the embodiment, the device is firstly arranged between the processing station of the wheel workpiece and the feeding conveyor line, the input end of the horizontal conveyor mechanism 4 at the position of the feeding port 2 and the output end of the horizontal conveyor mechanism 4 at the position of the discharging port 3 are respectively aligned with the output end of the feeding conveyor line and the working platform of the processing station, when the processing station has no requirement for the wheel workpiece and the wheel workpiece is input into the feeding conveyor line, the wheel workpiece is conveyed from the feeding port 2 to the two sets of conveyor chains 9 in the horizontal conveyor mechanism 4 through the feeding conveyor line, then the wheel workpiece is continuously conveyed forwards through the operation of the conveyor chains 9 driven by the conveyor driver 10, when the in-place photoelectric device 19 detects that the wheel workpiece is conveyed to the specified position, the specified position is the position where the wheel workpiece moves to be aligned with the center of the tray 8, and then the two sets of lifting chains 13 are driven to operate by the lifting driver 14 in the lifting mechanism 7, the lifting parts 6 are driven to synchronously lift for a certain distance, the lifting distance is equal to the distance between two adjacent lifting parts 6, the lifting displacement of the lifting parts 6 can be measured through the rotary encoder 15, and therefore two trays 8 in one lifting part 6 below the wheel workpieces on the two groups of conveying chains 9 can act on the two suspended ends of the wheel workpieces to lift the wheel workpieces for a certain distance to separate the wheel workpieces from the two groups of conveying chains 9, so that the material storage action of one wheel workpiece is finished, and the subsequent wheel workpieces are stored according to the step; when no wheel workpiece is input into the feeding conveying line and the machining station has a wheel workpiece demand, the lifting mechanism 7 starts to work to drive the plurality of lifting parts 6 to synchronously descend for the same distance, so that the wheel workpieces on the two trays 8 in the lifting parts 6 above the two groups of conveying chains 9 can be placed on the two groups of conveying chains 9, then the wheel workpieces are conveyed to the working platform of the machining station from the discharge port 3 through the two groups of conveying chains 9, the discharging action of one wheel workpiece is finished, and the subsequent wheel workpieces are discharged according to the step; when the wheel workpiece is required at the machining station and the wheel workpiece is just input into the feeding conveying line, the wheel workpiece is conveyed to the two groups of conveying chains 9 from the feeding hole 2 through the feeding conveying line, and then the wheel workpiece is directly conveyed to the working platform of the machining station from the discharging hole 3 through the two groups of conveying chains 9.
The utility model has the advantages of ensuring the continuity of the production line and effectively improving the production efficiency.

Claims (10)

1. The utility model provides a motorcycle is range upon range of formula storage machine for wheel production line which characterized in that: including organism (1), the both sides that organism (1) is relative are formed with feed inlet (2) and discharge gate (3) that supply the wheel work piece business turn over, be equipped with in organism (1) from feed inlet (2) extend to discharge gate (3) in order to carry horizontal conveying mechanism (4) of wheel work piece from feed inlet (2) to discharge gate (3), still be equipped with in organism (1) and be located horizontal conveying mechanism (4) horizontal outside and for range upon range of formula structure storage mechanism (5) from top to bottom, storage mechanism (5) are including being used for lifting a plurality of portions of lifting (6) that store are carried out to the wheel work piece that is located same position on horizontal conveying mechanism (4) one by one, and are a plurality of lift portion (6) along vertical direction equidistant setting, and a plurality of lift portion (6) are connected with elevating system (7) and realize synchronous lift from top to bottom, be equipped with in organism (1) and be used for detecting whether the wheel work piece on horizontal conveying mechanism (4) is in and can be by the portion of lifting (6) A lifting position detecting mechanism (18).
2. The stacked storage machine for a motorcycle wheel production line as claimed in claim 1, wherein: the lifting parts (6) comprise two trays (8) which are positioned on two sides of the horizontal conveying mechanism (4) in the width direction perpendicular to the conveying direction of the horizontal conveying mechanism and are consistent in height, and when the wheel workpieces are positioned on the horizontal conveying mechanism (4), two opposite radial ends of the wheel workpieces are suspended and positioned between the two trays (8) in the two adjacent lifting parts (6).
3. The stacked storage machine for a motorcycle wheel production line as claimed in claim 2, wherein: the detection mechanism (18) comprises two groups of in-place photoelectricity (19) which are respectively positioned on the outer sides of the two trays (8) in the width direction, the in-place photoelectricity (19) is used for detecting whether the wheel workpieces on the horizontal conveying mechanism (4) are conveyed to the position aligned with the centers of the trays (8), and the number of the in-place photoelectricity (19) in each group is two in interval arrangement.
4. The stacked type storage machine for a motorcycle wheel production line as claimed in claim 2, wherein: horizontal conveyor (4) are chain conveyor, horizontal conveyor (4) include that two sets of intervals set up and follow conveying chain (9) that the horizontal direction extends and be used for driving conveying chain (9) and encircle transport driver (10) of operation, two sets of conveying chain (9) spaced horizontal distance is less than the wheel work piece rim part the innermost circle diameter so that the radial opposite both ends of wheel work piece are unsettled when carrying.
5. The stacked storage machine for a motorcycle wheel production line as claimed in claim 4, wherein: the vertical distance of the trays (8) in the two adjacent lifting parts (6) at intervals up and down is larger than the maximum axial width of the wheel workpiece, the two trays (8) in the same lifting part (6) are respectively positioned on the outer sides of the two groups of conveying chains (9) in the width direction, the horizontal distance between the inner ends of the two trays (8) is smaller than the diameter of the outermost circle of the rim part of the wheel workpiece, and the trays (8) extend in parallel to the length direction of the conveying chains (9).
6. The stacked stocker for motorcycle wheel production line according to claim 2, 3, 4 or 5, wherein: the top of each tray (8) is fixed with a cushion block (11), and the cushion blocks (11) are made of rubber.
7. The stacked storage machine for a motorcycle wheel production line as claimed in claim 6, wherein: and a positioning bulge (12) is formed at the top of each cushion block (11), each positioning bulge (12) comprises an upper pointed cone part and a lower straight tube part, and the horizontal distance between the two positioning bulges (12) in the same lifting part (6) is smaller than the diameter of the innermost ring of the rim part of the wheel workpiece.
8. The stacked stocker for motorcycle wheel production line according to claim 2, 3, 4 or 5, wherein: elevating system (7) are chain elevator, elevating system (7) include four sets of lifting chain (13) that extend along vertical direction and be used for driving lifting chain (13) to encircle lift driver (14) of operation, four sets of two liang of a set of symmetric distribution in the width direction outside of tray (8) lifting chain (13), tray (8) are fixed in between two sets of lifting chain (13) in the same group.
9. The stacked storage machine for a motorcycle wheel production line as claimed in claim 8, wherein: the lifting mechanism (7) further comprises a rotary encoder (15) connected with a driving shaft of the lifting chain (13) to measure the lifting displacement of the tray (8) on the lifting chain (13) along the vertical direction.
10. The stacked storage machine for a motorcycle wheel production line as claimed in claim 9, wherein: and protective photoelectricity (20) used for enabling a lifting driver (14) in the lifting mechanism (7) to be in a closed state are arranged at the feed port (2) and the discharge port (3).
CN202220416590.6U 2022-02-28 2022-02-28 Laminated material storage machine for motorcycle wheel production line Active CN216917360U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202220416590.6U CN216917360U (en) 2022-02-28 2022-02-28 Laminated material storage machine for motorcycle wheel production line

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202220416590.6U CN216917360U (en) 2022-02-28 2022-02-28 Laminated material storage machine for motorcycle wheel production line

Publications (1)

Publication Number Publication Date
CN216917360U true CN216917360U (en) 2022-07-08

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Application Number Title Priority Date Filing Date
CN202220416590.6U Active CN216917360U (en) 2022-02-28 2022-02-28 Laminated material storage machine for motorcycle wheel production line

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN116081155A (en) * 2022-12-01 2023-05-09 吉讴工业设计(上海)有限公司 Pallet material rack mechanism

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN116081155A (en) * 2022-12-01 2023-05-09 吉讴工业设计(上海)有限公司 Pallet material rack mechanism

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