CN113526027A - Conveying belt for conveying motor magnetic cores - Google Patents
Conveying belt for conveying motor magnetic cores Download PDFInfo
- Publication number
- CN113526027A CN113526027A CN202110876468.7A CN202110876468A CN113526027A CN 113526027 A CN113526027 A CN 113526027A CN 202110876468 A CN202110876468 A CN 202110876468A CN 113526027 A CN113526027 A CN 113526027A
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- China
- Prior art keywords
- conveying
- carrier
- driving
- conveyor belt
- detection
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G23/00—Driving gear for endless conveyors; Belt- or chain-tensioning arrangements
- B65G23/22—Arrangements or mountings of driving motors
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G15/00—Conveyors having endless load-conveying surfaces, i.e. belts and like continuous members, to which tractive effort is transmitted by means other than endless driving elements of similar configuration
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G21/00—Supporting or protective framework or housings for endless load-carriers or traction elements of belt or chain conveyors
- B65G21/20—Means incorporated in, or attached to, framework or housings for guiding load-carriers, traction elements or loads supported on moving surfaces
- B65G21/2045—Mechanical means for guiding or retaining the load on the load-carrying surface
- B65G21/2063—Mechanical means for guiding or retaining the load on the load-carrying surface comprising elements not movable in the direction of load-transport
- B65G21/2072—Laterial guidance means
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G23/00—Driving gear for endless conveyors; Belt- or chain-tensioning arrangements
- B65G23/24—Gearing between driving motor and belt- or chain-engaging elements
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65G—TRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
- B65G43/00—Control devices, e.g. for safety, warning or fault-correcting
- B65G43/08—Control devices operated by article or material being fed, conveyed or discharged
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Control Of Conveyors (AREA)
Abstract
The invention relates to a conveying belt for conveying a motor magnetic core. The conveying belt for conveying the motor magnetic core comprises a driving assembly and a conveying belt assembly provided with an output end; the driving assembly comprises a driving carrier provided with a connecting part; the conveying belt assembly comprises a conveying carrier and a conveying belt body with a conveying section, and the conveying section is arranged in the conveying carrier; the conveyor belt body is directly or indirectly in driving connection with the output end, the driving carrier is detachably connected with the conveying carrier, and the conveying carrier is completely positioned in the driving carrier in the width direction in overlooking. The invention can achieve the purposes that the driving carrier and the conveying carrier can be sequentially installed in a smaller space, the installation is convenient, and the conveying belt body is convenient to replace; the driving force connection between the driving component and the conveying belt component is convenient, and the positions between the driving component and the conveying belt component are adjusted according to the requirement; can prevent that motor core from piling up at the conveyer belt subassembly and causing motor core to drop, conveyer belt body damage etc..
Description
Technical Field
The invention relates to the technical field of motor magnetic core production, in particular to a conveying belt.
Background
In the field of motor core production, it is common that after a motor core W is formed at an apparatus upstream of a cell forming punch press, the motor core W is conveyed to a next process by a conveyor belt.
However, due to the limitations of the production field, the installation of the conveyor belt for the conveyance of the motor core usually needs to be done in a small space. The traditional conveyer belt for conveying the motor magnetic core is directly driven by the output end of the conveyer belt component driving component, and the driving component is integrally arranged on the side face of the conveyer belt component.
In summary, the prior art has at least the following technical problems,
first, drive assembly, conveyer belt subassembly need be fixed through the frame respectively, are not convenient for install in succession in less space.
Second, what the conveyer belt subassembly was worn and torn the back when needing to change, the difficult conveyer belt of changing of conveyer belt subassembly.
Disclosure of Invention
It is an object of the present invention to solve or alleviate the first technical problem mentioned above.
The conveying belt for conveying the motor magnetic core comprises a driving assembly and a conveying belt assembly provided with an output end; the driving assembly comprises a driving carrier provided with a connecting part; the conveying belt assembly comprises a conveying carrier and a conveying belt body with a conveying section, and the conveying section is arranged in the conveying carrier; the conveyor belt body is directly or indirectly in driving connection with the output end, the driving carrier is detachably connected with the conveying carrier, and the conveying carrier is completely positioned in the driving carrier in the width direction in overlooking.
The invention has the advantages that the driving carrier and the conveying carrier can be sequentially installed in a smaller space, the installation is convenient, and the conveying belt body is convenient to replace.
According to a further technical scheme, the conveying belt assembly comprises a power wheel and a connecting piece; the power wheel is hinged with a connecting piece, the connecting piece is connected with the conveying carrier and detachably connected with a connecting part, and the connecting part is provided with a push-in groove communicated with the outside; the end of the power wheel penetrates out of the connecting piece and the connecting part and is indirectly connected with the output end in a driving way.
The sequential installation of the driving component and the conveying belt component which are respectively two integral bodies is convenient.
According to the further technical scheme, the power wheel is provided with a pin shaft, the connecting piece is fixedly connected with the connecting part in a sliding mode, the connecting part is provided with a large-diameter hole communicated with the push-in groove, and the diameter of an circumscribed circle of the pin shaft is smaller than that of an inscribed circle of the large-diameter hole; when the connecting piece is fixed with the connecting part, a gap exists between the pin shaft and the lowest point of the large-diameter hole.
The driving force connection between the driving component and the conveying belt component is convenient, and the position between the driving component and the conveying belt component is adjusted according to the requirement.
According to the further technical scheme, at least one of the connecting part and the connecting piece is provided with at least two adjusting holes which are long holes approximately along the translation direction of the conveyor belt body.
Further facilitating the driving force connection between the driving component and the conveyor belt component and adjusting the position between the driving component and the conveyor belt component according to requirements.
Further technical scheme still including preventing stifled subassembly and being used for driving the power device of output, prevents stifled subassembly including detecting the roof and being used for detecting the detection switch that detects the roof position, detection switch and power device electric connection, the conveyer belt body walks around the detection roof, detects that the relative carrier of carrying of roof has ascending trend.
Can prevent that motor core from piling up at the conveyer belt subassembly and causing motor core to drop, conveyer belt body damage etc..
According to a further technical scheme, the anti-blocking component further comprises an elastic piece and a supporting bottom plate connected with the conveying carrier, and two ends of the elastic piece are respectively connected with the detection top plate and the supporting bottom plate.
The assembly of the anti-blocking component is convenient.
In a further technical scheme, a fixing block is arranged on the supporting bottom plate; the drive carrier is provided with a fixing groove, and the fixing block is embedded into the fixing groove.
The assembly of the anti-blocking component is convenient.
According to the technical scheme, the conveying carrier is provided with a conveying base plate, the detection top plate is provided with a limiting body, the driving carrier is provided with a limiting groove, the limiting body is inserted into the limiting groove and abuts against the inner wall of the top end of the limiting groove, and the top end face of the detection top plate is approximately flush with the top end face of the conveying base plate.
The motor magnetic core can be ensured to move to the upper part of the conveying base plate from the upper part of the detection top plate smoothly.
According to the technical scheme, a transition gap is formed between the detection top plate and the conveying base plate, the length of the detection top plate is smaller than that of the motor magnetic core W, and the height of the transition gap is larger than or equal to that of the limiting groove and is smaller than half of the length of the motor magnetic core W.
The reliability of the anti-blocking assembly can be improved.
Further technical scheme, detection switch is for possessing the touch switch of trigger end and be more than two, and detection switch is located the both sides of the central plane that detect the roof respectively, and the trigger end is provided with the detection clearance with detecting between the bottom face of roof.
The reliability of the anti-blocking assembly can be improved.
In conclusion, the invention can achieve the following technical effects,
1, the driving carrier and the conveying carrier can be sequentially installed in a smaller space, so that the installation is convenient, and the conveying belt body is convenient to replace.
2, the driving force connection between the driving component and the conveying belt component is convenient, and the position between the driving component and the conveying belt component is adjusted according to the requirement.
3, the motor magnetic core can be prevented from falling off, the conveyor belt body is prevented from being damaged and the like due to the accumulation of the motor magnetic core on the conveyor belt assembly.
Drawings
FIG. 1 is a perspective schematic view of a conveyor belt for motor core transport according to an embodiment of the present invention; the protective cover 19 is not shown.
Fig. 2 is a perspective view of a conveyor belt for motor core transport according to an embodiment of the present invention.
Fig. 3 is an exploded perspective view of a conveyor belt for motor core transport according to an embodiment of the present invention.
Fig. 4 is an exploded perspective view of the conveyor belt assembly 2 according to an embodiment of the invention.
Fig. 5 is an exploded perspective view of the conveyor belt assembly 2 according to an embodiment of the invention.
Fig. 6 is a schematic top view of a conveyor belt assembly 2 according to an embodiment of the invention.
FIG. 7 is a schematic illustration of section one SEC 1; arrow ARR1 indicates the direction of conveyance of the motor core W.
Fig. 8 is a schematic diagram of profile two SEC 2.
Fig. 9 is a schematic diagram of profile three SEC 3.
Arrow one ARR 1; arrow two ARR 2; section one SEC 1; section two SEC 2; section three SEC 3; a drive assembly 1; a drive carrier 11; a connecting portion 111; side panels 112; a limiting groove 113; a fixing groove 114; a push-in slot 115; a large-diameter hole 116; an output end 12; a power plant 121; a speed governor 122; a transmission member 13; a fixed pull rod 14; a protective cover 19; a conveyor belt assembly 2; a transport carrier 21; a transport mat 219; a conveyor belt body 22; a power wheel 221; a driven wheel 222; a pin 223; a delivery segment 228; a drive wheel 229; a connecting member 23; an adjusting member 24; an adjustment seat 241; an adjustment hole 242; an anti-blocking component 3; the top plate 31 is detected; a transition gap 311; a resilient member post 312; a stopper body 313; a detection switch 32; the trigger end 321; a detection gap 322; a detection switch bracket 329; an elastic member 33; a support base plate 34; a fixing block 344; a motor core W.
Detailed Description
The following description will be made in conjunction with the accompanying drawings.
As a specific embodiment, the conveyor belt for conveying the motor magnetic core according to the embodiment of the present invention includes a driving assembly 1 and a conveyor belt assembly 2 provided with an output end 12. The output end 12 is used for outputting a driving force to a conveyor belt body 22 described later. For example, the drive carrier 11 described later is box-shaped as a whole, a power device 121 is disposed in the drive carrier 11, the power device 121 is a motor, etc., an output end of the power device 121 is an output end 12 and penetrates out of the drive carrier 11; a speed governor 122 electrically connected to the power unit 121 is optionally provided in the driving carrier 11 to adjust the rotational speed of the power unit 121 and the translational speed of the conveying section 228, which will be described later.
The drive assembly 1 comprises a drive carrier 11 provided with a connection portion 111. Generally, the drive carrier 11 has a box shape as a whole, and a side wall of the drive carrier 11 extends upward to form a connecting portion 111.
The conveyor assembly 2 includes a conveyor carrier 21 and a conveyor belt body 22 having a conveyor segment 228, and the conveyor segment 228 is disposed in the conveyor carrier 21. The conveying carrier 21 comprises two conveying carrier side plates (not shown in the figure) and a conveying base plate 219, so that the section of the conveying carrier 21 is integrally I-shaped; the conveyance carrier side plates and the conveyance base plate 219 are fixed by laser welding, so that deformation can be reduced and the forming accuracy of the conveyance carrier 21 can be ensured.
The driving carrier 11 is detachably connected to the conveyance carrier 21, and the conveyance carrier 21 is completely located in the driving carrier 11 in the width direction in a plan view. Typically, the transport carrier 21 is located at one end of the drive carrier 11 and partially beyond the drive carrier 11.
The operation principle is that the conveyer belt for conveying the motor core of the present embodiment is installed to a desired position before use, for example, the output end of the pressing process for forming the motor core W by pressing and fixing after sheets installed on the motor core are sequentially stacked, and the input end of the conveyer section 228 is connected to the output end of the pressing process.
Since the driving carrier 11 is detachably connected to the transport carrier 21, the transport carrier 21 is completely located in the driving carrier 11 in the width direction in a plan view; when the conveyer belt for conveying the motor magnetic core is installed, after the driving carrier 11 is installed on a rack (not shown in the drawing, for example, a rack made of a section bar or the like and used for setting the position of the driving carrier 11), the conveying carrier 21 does not exceed the driving carrier 11 in the width direction, so that the driving carrier 11 and the conveying carrier 21 can be installed in a smaller space (for example, the width is smaller) in sequence, the installation is convenient, and when the conveyer belt body 22 is replaced, the conveying carrier 21 can be replaced in a larger space after being integrally detached, and the conveyer belt body 22 is convenient to replace.
The conveyor belt assembly 2 comprises a power wheel 221 and a connecting piece 23; the power wheel 221 is hinged with the connecting piece 23 (for example, hinged through a bearing), the connecting piece 23 is connected with the conveying carrier 21 and detachably connected with the connecting part 111, and the connecting part 111 is provided with a push-in groove 115 communicated with the outside; the ends (i.e., one or both ends) of power wheel 221 extend through connecting member 23 and connecting portion 111 and are indirectly drivingly connected to output end 12. Usually, the pushing groove 115 is disposed substantially along the translation direction of the conveying section 228, but may be disposed obliquely from top to bottom with respect to the translation direction of the conveying section 228, in other words, the gap of the pushing groove 115 communicating with the outside is higher than the end of the pushing groove 115 located in the connecting portion 111. During installation, after the driving carrier 11 is installed on the rack, the integrated conveyor belt assembly 2 is moved, so that the end of the power wheel 221 penetrates through the pushing groove 115, and then the connecting piece 23 and the connecting part 111 are fixed, in other words, the two integrated driving assemblies 1 and the two integrated conveyor belt assemblies 2 are installed in sequence.
The power wheel 221 is provided with a pin 223, one end of the pin 223 is detachably provided with a driving wheel 229, and the connecting piece 23 which is a synchronous belt bypasses the driving wheel 229 and the output end 12, so that the end of the power wheel 221 is indirectly connected with the output end 12 in a driving way. The connecting member 23 is slidably and fixedly connected to the connecting portion 111, for example, at least one of the connecting portion 111 and the connecting member 23 is provided with an adjusting hole 242, a bolt is screwed into one of the connecting member 23 and the connecting portion 111 through the adjusting hole 242, so that the connecting member 23 is slidably and fixedly connected to the connecting portion 111, the adjusting hole 242 is a long hole substantially along the translation direction of the conveyor belt body 22, so that the connecting member 23 can linearly slide relative to the connecting portion 111, and of course, the cross section of the adjusting hole 242 may also be a circular ring or other shape as a whole, so that the connecting member 23 can circumferentially slide or slide along other tracks relative to the connecting portion 111. The connecting part 111 is provided with a large-diameter hole 116 communicated with the push-in groove 115, and the diameter of a circumscribed circle of the pin 223 is smaller than that of an inscribed circle of the large-diameter hole 116; when the connecting member 23 is fixed to the connecting portion 111, a gap is formed between the pin 223 and the lowest point of the large-diameter hole 116. During installation, after the driving carrier 11 is installed on the rack, the conveying belt assembly 2 which is a whole moves, so that the pin shaft 223 penetrates through the pushing groove 115, then the conveying belt assembly 2 moves downwards until the pin shaft 223 abuts against the lowest point of the large-diameter hole 116, at the moment, the distance between the output end 12 and the driving wheel 229 is small, the transmission piece 13 which is a synchronous belt and the like can directly bypass the output end 12 and the driving wheel 229, and the driving force between the driving assembly 1 and the conveying belt assembly 2 is convenient to connect. Then, the conveyor belt assembly 2 is moved upward so that a gap is formed between the pin 223 and the lowest point of the large-diameter hole 116, and the link 23 is fixed relative to the connection portion 111 after sliding (by screwing the screw), so that the position between the drive assembly 1 and the conveyor belt assembly 2 can be easily adjusted as needed (for example, as needed for the tension of the timing belt).
At least one of the connecting portions 111 and the connecting members 23 is provided with at least two adjustment holes 242, and the adjustment holes 242 are long holes substantially along the translation direction of the conveyor belt body 22. The adjustment holes 242 are all arranged along the translation direction of the conveyor belt body 22, after a bolt is screwed into one of the connecting part 111 and the connecting part 23 from one adjustment hole 242 penetrating through the farthest power wheel 221, the whole conveyor belt assembly 2 rotates around the bolt, after the transmission member 13 such as a synchronous belt is wound around the output end 12 and the transmission wheel 229, a downward force (such as placing a heavy object) is applied to the other end of the conveyor belt assembly 2 (in other words, the conveyor belt assembly 2 is provided with one end of the power wheel 221 and passes over one end of the bolt), so that one end of the conveyor belt assembly 2 provided with the power wheel 221 can be upwarped until the other bolt can be screwed into one connecting part 23 of the connecting part 111 through the adjustment hole 242, and the conveyor belt assembly 2 can be conveniently pushed to slide relative to the driving assembly 1, in other words, the driving assembly 1, and the driving assembly 2 can be conveniently pushed, The driving force between the conveyer belt components 2 is connected, and the positions between the driving component 1 and the conveyer belt components 2 are adjusted according to requirements.
The conveyor belt for conveying the motor magnetic core further comprises an anti-blocking assembly 3 and a power device 121 for driving the output end 12, wherein the anti-blocking assembly 3 comprises a detection top plate 31 and a detection switch 32 for detecting the position of the detection top plate 31, the detection switch 32 is electrically connected with the power device 121, for example, the detection switch 32 and the power device 121 are respectively electrically connected with a speed regulator 122 or a controller such as a PLC, so that the detection switch 32 is electrically connected with the power device 121; conveyor belt body 22 passes around detection ceiling 31, and detection ceiling 31 has an upward trend relative to conveyor carrier 21. The detection switch 32 includes, but is not limited to, a photoelectric switch, a magnetic switch, a contact switch, and the like capable of detecting the position of the detection top plate 31; for example, the detection switch 32 is a magnetic switch disposed on a side surface of the detection top plate 31 and facing the detection top plate 31, the detection top plate 31 is made of magnetic metal, and the detection switch, which is the magnetic switch, is disconnected after the detection top plate 31 is displaced, thereby detecting the position of the detection top plate 31. The detection switch 32 is electrically connected to an upstream device (not shown in the drawings, for example, an upstream cell forming punch), and when the motor core W output by the upstream device (not shown in the drawings) enters the conveyor belt assembly 2 and normally moves to a position below the motor core W above the detection top plate 31 through the translational conveying section 228, the gravity of one motor core W makes the detection top plate 31 overcome the upward trend of the detection top plate 31 relative to the conveying carrier 21, so that the detection top plate 31 does not move downward or moves downward by a small distance, and the upstream device and the power device 121 are not stopped; in a special case (for example), when the number of the motor cores W moved to the upper side of the detection top plate 31 by the translational conveying segment 228 is two or more, the gravity of the two or more motor cores W makes the detection top plate 31 have an upward trend against the relative conveying carrier 21 of the detection top plate 31, so that the detection top plate 31 moves downward by a large distance, the detection switch 32 is triggered, the upstream device and the power device 121 are controlled to stop working, the upstream device stops inputting the motor cores W to the conveyor belt assembly 2, and the motor cores W can be prevented from dropping down, the conveyor belt assembly 22 is prevented from being damaged, and the like due to the accumulation of the motor cores W on the conveyor belt assembly 2. After the blockage is cleared manually, for example, the motor core W is moved manually so that the number of the motor cores W on the detection top plate 31 is smaller than one, and the upstream device and the power unit 121 can operate normally.
The anti-blocking component 3 further comprises an elastic member 33 and a supporting bottom plate 34 connected with the conveying carrier 21, and two ends of the elastic member 33 are respectively connected with the detection top plate 31 and the supporting bottom plate 34. The elastic members 33 are springs and are located at substantially four corners of the detection top plate 31 having a rectangular cross section, respectively, and the detection switch 32 is located between the four elastic members 33. The support base 34 is provided with a detection switch bracket 329 for mounting the detection switch 32. The assembly of the anti-blocking component 3 is convenient.
The support base plate 34 is provided with a fixing block 344; the driving carrier 11 is provided with a fixing groove 114, and the fixing block 344 is inserted into the fixing groove 114, thereby coupling the support base 34 with the transport carrier 21. The assembly of the anti-blocking component 3 is convenient.
The conveying carrier 21 is provided with a conveying base plate 219, the detection top plate 31 is provided with a limiting body 313, the driving carrier 11 is provided with a limiting groove 113, the limiting body 313 is inserted into the limiting groove 113 and abuts against the inner wall of the top end of the limiting groove 113, and the top end face of the detection top plate 31 is approximately flush with the top end face of the conveying base plate 219. It is possible to ensure that the motor core W smoothly moves from above the detection top plate 31 to above the conveyance mat 219.
A transition gap 311 is arranged between the detection top plate 31 and the conveying backing plate 219, the length of the detection top plate 31 is smaller than that of the motor core W, and the transition gap 311 is larger than or equal to the height of the limiting groove 113 and smaller than half of the length of the motor core W. In a special case (for example), when the number of the motor cores W moved to the upper side of the detection top plate 31 by the translational conveying segment 228 is two or more, it can be ensured that most of the gravity of at least two motor cores W acts on the detection top plate 31, and at the same time, it can be ensured that the conveying segment 228 corresponding to the transition gap 311 is not excessively recessed so as to have a risk of being stuck against the bottom end of the motor core W, in other words, the reliability of the anti-blocking assembly 3 can be improved.
The detection switches 32 are two or more contact switches having trigger ends 321, the detection switches 32 are respectively located on both sides of the central surface of the detection top plate 31, and a detection gap 322 is provided between the trigger ends 321 and the bottom end surface of the detection top plate 31. When the gravity of one or less motor cores W acts on the detection top plate 31, the trigger end 321 is not triggered even if the detection top plate 31 moves downward, so that the reliability of the anti-blocking assembly 3 can be improved.
As used in the present invention, the wording: first, second, etc. do not denote any order, quantity, or importance, but rather are used to distinguish one element from another.
As used in the present invention, the wording: one, etc. do not denote a limitation of quantity, but rather denote the presence of at least one of the referenced item.
As used in the present invention, the term indicating orientation or position: top, bottom, side, longitudinal, lateral, middle, center, outer, inner, horizontal, vertical, left, right, above, below, and the like are intended to reflect relative positions, not absolute positions.
The term as used in the present invention: approximate, whole, approximate, close, etc., are words of definition that specify the presence of stated features but allow for certain deviations. The amount of tolerance for a certain deviation may vary depending on the particular context; for example, the specific context in which deviations from size may be relied upon includes, but is not limited to, national standards for dimensional tolerances.
Claims (10)
1. The conveying belt for conveying the motor magnetic core comprises a driving assembly (1) and a conveying belt assembly (2) provided with an output end (12);
the device is characterized in that the driving component (1) comprises a driving carrier (11) provided with a connecting part (111); the conveyor belt assembly (2) comprises a conveyor carrier (21) and a conveyor belt body (22) with a conveyor section (228), wherein the conveyor section (228) is arranged in the conveyor carrier (21); the conveyor belt body (22) is directly or indirectly connected with the output end (12) in a driving way, the driving carrier (11) is detachably connected with the conveying carrier (21), and the conveying carrier (21) is completely positioned in the driving carrier (11) in the width direction in a top view.
2. The conveyor belt for conveying the motor magnetic cores according to claim 1, wherein the conveyor belt assembly (2) comprises power wheels (221) and a connecting piece (23); the power wheel (221) is hinged with the connecting piece (23), the connecting piece (23) is connected with the conveying carrier (21) and detachably connected with the connecting part (111), and the connecting part (111) is provided with a push-in groove (115) communicated with the outside; the end of the power wheel (221) penetrates through the connecting piece (23) and the connecting part (111) and is indirectly connected with the output end (12) in a driving way.
3. The conveyor belt for conveying the motor magnetic cores as claimed in claim 2, wherein the power wheel (221) is provided with a pin shaft (223), the connecting member (23) is slidably and fixedly connected with the connecting portion (111), the connecting portion (111) is provided with a large-diameter hole (116) communicated with the pushing groove (115), and the diameter of a circumscribed circle of the pin shaft (223) is smaller than that of an inscribed circle of the large-diameter hole (116); when the connecting piece (23) is fixed with the connecting part (111), a gap exists between the pin shaft (223) and the lowest point of the large-diameter hole (116).
4. The conveyor belt for conveying the motor core according to claim 3, wherein at least one of the connecting part (111) and the connecting part (23) is provided with at least two adjustment holes (242), and the adjustment holes (242) are long holes substantially along the translation direction of the conveyor belt body (22).
5. The conveyor belt for conveying the motor magnetic cores according to any one of claims 1 to 4, further comprising an anti-blocking assembly (3) and a power device (121) for driving the output end (12), wherein the anti-blocking assembly (3) comprises a detection top plate (31) and a detection switch (32) for detecting the position of the detection top plate (31), the detection switch (32) is electrically connected with the power device (121), the conveyor belt body (22) bypasses the detection top plate (31), and the detection top plate (31) has an upward trend relative to the conveying carrier (21).
6. The conveyor belt for conveying the motor magnetic cores according to claim 5, wherein the anti-blocking assembly (3) further comprises an elastic member (33) and a supporting bottom plate (34) connected with the conveying carrier (21), and two ends of the elastic member (33) are respectively connected with the detection top plate (31) and the supporting bottom plate (34).
7. The conveyor belt for conveying the motor magnetic cores as claimed in claim 6, wherein the supporting base plate (34) is provided with a fixing block (344); the drive carrier (11) is provided with a fixing groove (114), and the fixing block (344) is embedded into the fixing groove (114).
8. The conveyor belt for conveying the motor magnetic cores according to claim 5, wherein the conveying carrier (21) is provided with a conveying base plate (219), the detection top plate (31) is provided with a limiting body (313), the driving carrier (11) is provided with a limiting groove (113), the limiting body (313) is inserted into the limiting groove (113) and abuts against the inner wall of the top end of the limiting groove (113), and the top end face of the detection top plate (31) is approximately flush with the top end face of the conveying base plate (219).
9. The conveyor belt for conveying the motor magnetic core according to claim 8, wherein a transition gap (311) is arranged between the detection top plate (31) and the conveying backing plate (219), the length of the detection top plate (31) is smaller than the length of the motor magnetic core W, and the transition gap (311) is greater than or equal to the height of the limiting groove (113) and smaller than half of the length of the motor magnetic core W.
10. The conveyor belt according to claim 8, wherein the number of the detection switches (32) is two or more than two contact switches having trigger ends (321), the detection switches (32) are respectively located on two sides of the central plane of the detection top plate (31), and a detection gap (322) is provided between the trigger ends (321) and the bottom end plane of the detection top plate (31).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202110876468.7A CN113526027A (en) | 2021-07-30 | 2021-07-30 | Conveying belt for conveying motor magnetic cores |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202110876468.7A CN113526027A (en) | 2021-07-30 | 2021-07-30 | Conveying belt for conveying motor magnetic cores |
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CN113526027A true CN113526027A (en) | 2021-10-22 |
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CN202110876468.7A Pending CN113526027A (en) | 2021-07-30 | 2021-07-30 | Conveying belt for conveying motor magnetic cores |
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CN (1) | CN113526027A (en) |
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2021
- 2021-07-30 CN CN202110876468.7A patent/CN113526027A/en active Pending
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