WO2022109913A1 - 一种纺织用纱线筒收纳架 - Google Patents
一种纺织用纱线筒收纳架 Download PDFInfo
- Publication number
- WO2022109913A1 WO2022109913A1 PCT/CN2020/131714 CN2020131714W WO2022109913A1 WO 2022109913 A1 WO2022109913 A1 WO 2022109913A1 CN 2020131714 W CN2020131714 W CN 2020131714W WO 2022109913 A1 WO2022109913 A1 WO 2022109913A1
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- Prior art keywords
- plate
- limit
- slot
- support
- positioning
- Prior art date
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- 239000004753 textile Substances 0.000 title claims abstract description 12
- 230000000670 limiting effect Effects 0.000 claims abstract description 15
- 230000000712 assembly Effects 0.000 claims abstract description 8
- 238000000429 assembly Methods 0.000 claims abstract description 8
- 238000009434 installation Methods 0.000 claims description 57
- 239000000969 carrier Substances 0.000 claims description 3
- 238000010586 diagram Methods 0.000 description 14
- 238000003780 insertion Methods 0.000 description 9
- 230000037431 insertion Effects 0.000 description 9
- 238000006073 displacement reaction Methods 0.000 description 4
- 238000000034 method Methods 0.000 description 4
- 210000002268 wool Anatomy 0.000 description 4
- 230000001360 synchronised effect Effects 0.000 description 3
- 230000000903 blocking effect Effects 0.000 description 2
- 239000000835 fiber Substances 0.000 description 2
- 238000000926 separation method Methods 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000000694 effects Effects 0.000 description 1
- 238000009940 knitting Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 238000009941 weaving Methods 0.000 description 1
Images
Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H49/00—Unwinding or paying-out filamentary material; Supporting, storing or transporting packages from which filamentary material is to be withdrawn or paid-out
- B65H49/38—Skips, cages, racks, or containers, adapted solely for the transport or storage of bobbins, cops, or the like
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B65—CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
- B65H—HANDLING THIN OR FILAMENTARY MATERIAL, e.g. SHEETS, WEBS, CABLES
- B65H75/00—Storing webs, tapes, or filamentary material, e.g. on reels
- B65H75/02—Cores, formers, supports, or holders for coiled, wound, or folded material, e.g. reels, spindles, bobbins, cop tubes, cans, mandrels or chucks
- B65H75/34—Cores, formers, supports, or holders for coiled, wound, or folded material, e.g. reels, spindles, bobbins, cop tubes, cans, mandrels or chucks specially adapted or mounted for storing and repeatedly paying-out and re-storing lengths of material provided for particular purposes, e.g. anchored hoses, power cables
Definitions
- the invention belongs to the technical field of textiles, and in particular relates to a yarn bobbin storage rack for textiles.
- Yarn is a kind of textile, which is processed into products of a certain fineness with various textile fibers. It is used for weaving, rope making, thread making, knitting and embroidery, etc. It is divided into short fiber yarn, continuous filament, etc. There are many ways to express the fineness of yarn, such as number, metric count, imperial count, denier, etc. (see count). Yarn twist is expressed in turns per meter or inch. Wool yarns and yarns are generally used to weave wool sweaters, wool pants, wool vests, scarves, hats and gloves and to weave various spring and autumn clothing items.
- the yarn bobbin is wound by yarn, and the existing yarn bobbins are generally stacked directly, which is not easy to organize and arrange the yarn bobbins, and the yarn surface is easily polluted.
- Some yarn bobbins are placed through a simple storage rack, but it is not easy to handle the yarn bobbins stacked inside the storage rack, and because the height of the racks is the same, the scope of use of the storage rack is limited.
- the purpose of the present invention is to provide a technical solution for a yarn spool storage rack for textiles in view of the shortcomings of the prior art.
- the overall structure design is ingenious and reasonable, and the practicability is strong.
- the support component supports the bearing rack to ensure the stable storage of the yarn spool.
- the position of the support component on the central column can be adjusted, so that the distance between the two adjacent support components can be adjusted according to the actual height of the yarn drum, and the carrier can be rotated forward, so that the The yarn spool is completely exposed, which facilitates the handling of the yarn spool, and the height of the support rod that supports the yarn spool is adjustable.
- the support rod can be adjusted according to the height of the yarn spool to ensure that the support rod can extend out of the yarn.
- the top of the cylinder has a certain length to ensure the stability of the placement of the yarn cylinder, and when the bearing frame does not rotate, the limit component at the end can limit and fix the bearing frame to ensure the firmness of the bearing frame and improve the overall structural strength of the storage frame and safety performance.
- the present invention adopts the following technical solutions:
- a yarn spool storage rack for textiles comprising a bracket body, characterized in that: the bracket body includes a bottom plate, a side plate, a central column and a shielding plate, the side plates are symmetrically arranged on the left and right sides of the bottom plate, and the central column is located on the top surface of the bottom plate
- a support assembly is adjustable and installed on the central column, and a U-shaped connecting rod is arranged on the rear side of the support assembly.
- the side plate is limited and fixed, and two bearing frames are arranged symmetrically on the left and right sides of the support assembly.
- the bearing frame includes a bearing plate and a balance support plate. The bearing plate and the balance support plate are movably inserted.
- threaded holes are evenly arranged on the protruding strips, and support rods are inserted into the threaded holes, the end of the bearing plate away from the central column is provided with an end pull handle, the front side of the bearing plate is provided with a side pull handle, the balance support plate and the support
- the components are connected in rotation, the opposite ends of the two carriers are provided with limit components, the limit components are fixedly connected with the U-shaped link, and the shielding plate is clamped on the top surfaces of the two side plates.
- the bottom of the load-bearing plate is provided with a slot
- the balance support plate is provided with a plug-in board
- the plug-in board is matched with the slot
- the plug-in board is movably inserted in the slot
- both sides of the slot are provided with limit card slots
- the limit card blocks are set on both sides of the plug board, the limit block blocks match the limit card slots, and the limit card blocks are movably clamped in the limit card grooves.
- the blocking method with the limit blocking block can limit the up and down displacement of the load-bearing plate, further improve the structural strength of the load-bearing frame after the load-bearing plate and the balance support plate are assembled, and the installation and disassembly are convenient and simple.
- the top surface of the bearing plate is provided with an installation slot, the installation slot is located between the two protruding strips, the installation slot is connected with the slot, the limit block is inserted in the installation slot, and an adjustment slot is arranged on the plug-in board, and the adjustment slot,
- the installation grooves are all matched with the limit blocks, the limit blocks extend through the installation grooves into the adjustment grooves, the limit top plate is set on the top of the limit block, and the limit top plate is fixed on the top surface of the load-bearing plate, and the installation groove
- the design can facilitate the installation of the limit block, and through the further ingenious design of the adjustment groove, the limit block extends all the way into the adjustment groove, so that the clamping between the load-bearing plate and the balance support plate is more stable and reliable, and the limit block is at the same time.
- the top of the limit block ensures the clamping stability of the limit block, and then further installs and fixes the limit top plate and the load-bearing plate, thereby effectively ensuring the installation stability of the limit block and the distance between the limit blocks.
- the connecting length ensures the structural stability of the bearing frame, improves the operation safety performance, and effectively prevents the separation of the bearing plate and the balance support plate.
- the support assembly includes a support plate, the support plate is provided with perforations, the perforations are matched with the center column, the support plate is sleeved on the center column through the through holes, the bottom surface of the support plate is provided with a support nut, and the support nut is screwed on the center column.
- the support plate is set on the center column through the perforated movable sleeve, and then cooperates with the support nut to support the limit support plate, and by adjusting the position of the support nut on the center column, the actual installation position of the support component can be adjusted, so that the actual installation position of the support component can be adjusted according to the support component.
- the height of the yarn bobbin placed on the upper carrier is actually adjusted to ensure that there is a certain distance between the two adjacent support components, so as to realize the normal placement of the yarn bobbin.
- two positioning sleeve columns are arranged on the top surface of the support plate, and the two positioning sleeve columns are in one-to-one correspondence with the two bearing brackets.
- the plate is sleeved on the positioning sleeve column through the sleeve hole, and a limit nut is arranged on the positioning sleeve column.
- the limit nut is in contact and limited on the top surface of the balance support plate.
- the movable socket between them enables the entire bearing frame to rotate axially around the corresponding positioning sleeve, and then limit the top of the balance support plate through the limit nut to limit the up and down displacement of the balance support plate without affecting the bearing frame. It can effectively ensure the stable performance of the rotating structure of the bearing frame and improve the operation safety performance.
- a rear baffle is arranged at the rear end of the support plate, a support frame is arranged at the bottom of the rear baffle, the middle part of the U-shaped link is clamped in the support slot of the support frame, and the support frame is connected to the U-shaped link.
- the design of the rear baffle can play a limiting role on the back side of the support plate, so that the carrier can not be rotated to the rear side, but can only be rotated to the front side, which is convenient for taking the yarn spool, and in the load
- the frame is turned back to its original position, when it touches the rear baffle, the bearing frame rotates in place, and the rear baffle can facilitate the setting of the support frame.
- the U-shaped link and the support assembly can be installed and fixed through the support frame.
- the clamping groove realizes the clamping connection with the U-shaped connecting rod, and then the support frame and the U-shaped connecting rod are installed and fixed by screws, which can effectively ensure the connection firmness between the U-shaped connecting rod and the supporting frame, so that the U-shaped connecting rod and the U-shaped connecting rod are firmly connected.
- the support assembly is connected and fixed as a whole, so as to ensure the synchronous movement adjustment of the U-shaped link and the support assembly.
- the limit component includes a limit plate, a double-axis cylinder and a mounting frame
- the limit plate and the double-axis cylinder are both located in the card slots
- the length of the limit plate is the same as that of the two-axis cylinder.
- the width of the card slot is matched, the limit plate is movably clamped in the card slot, the top of the limit plate is provided with a limit bump, and the limit bump is clamped in the handle groove of the end handle.
- the limit plates are connected, and the double-axis cylinder is fixed on the mounting frame.
- the design of the card slot provides a cavity for the placement of the limit plate and the double-axis cylinder.
- the mounting bracket provides an installation support surface for the installation of the dual-axis cylinder.
- the design cooperates with the handle groove of the end handle, and the limit bump is clamped in the handle groove, so that the movable end of the carrier cannot be rotated.
- the dual-axis cylinder drives the limit.
- the position plate moves down, so that the limit bump is detached from the handle groove, the carrier can be rotated, and the design is reasonable.
- the structure is stable, and when the carrier needs to be rotated, the position of the limit plate can be adjusted, the adjustment is convenient and simple, and the use and operation are automated.
- the middle part of the card slot is provided with a longitudinal slot
- the mounting bracket is matched with the longitudinal slot
- one end of the mounting bracket extends through the longitudinal slot to the outside of the side plate
- the end of the mounting bracket extending out of the side plate is provided with an extension plate.
- the extension plate is fixed with the U-shaped connecting rod screw
- the two sides of the longitudinal groove are symmetrically arranged with guide chute
- the limit plate is provided with a guide slider
- the guide slider matches with the guide slider
- the guide slider is movably clamped
- the design of the longitudinal chute can facilitate the installation of the mounting bracket.
- the end of the mounting bracket connected to the dual-axis cylinder extends through the longitudinal chute into the slot to achieve the fixed support of the dual-axis cylinder, while the mounting bracket
- the end located on the outer side of the side plate is provided with an extension plate, and the extension plate is attached to the end side of the corresponding U-shaped connecting rod, and then the installation and fixing between the installation frame and the U-shaped connecting rod are realized by screw fixing, so as to ensure the limit assembly.
- the installation firmness, the overall design is compact and reasonable, which is convenient for actual disassembly and assembly, and through the further design of the guide chute and the guide slider, the further clamping limit between the limit plate and the side plate can be realized. Play a further auxiliary guiding role, making the up and down movement of the limit plate more stable and reliable.
- the positioning frame is provided with a U-shaped slot, the U-shaped slot is matched with the U-shaped connecting rod, the positioning frame is clamped on the U-shaped connecting rod through the U-shaped slot, and the positioning frame is connected to the side plate through the set screw.
- the rear end surface of the side plate is provided with a socketing chute, the socketing chute is matched with the set screw, and the end of the set screw passes through the positioning frame and the U-shaped connecting rod extends into the socketing chute Abut against the limit of the side plate, realize the clamping limit between the positioning frame and the U-shaped connecting rod through the U-shaped slot, and then fix the positioning frame and the side plate to the limit through the set screw, thereby indirectly realizing the U-shaped connection.
- the fixation between the rod and the side plate makes the U-shaped link unable to move up and down, and the U-shaped link itself is fixedly connected with the support assembly, so as to ensure that the support assembly cannot move up and down, and the installation of the support assembly on the center column is firm.
- the contact area between the end of the set screw and the side plate can be increased, so that the limiting effect of the set screw is more stable and reliable.
- a positioning slot is arranged on the positioning frame, the positioning slot is connected with the U-shaped card slot, a positioning insertion rod is arranged on the U-shaped connecting rod, the positioning insertion rod is matched with the positioning slot, and the end of the positioning insertion rod passes through the positioning slot.
- the precise positioning between the positioning frame and the U-shaped connecting rod is achieved through the ingenious setting of the positioning groove and the positioning rod, so as to ensure the firmness of the locking between the positioning frame and the U-shaped connecting rod.
- the positioning frame acts as an auxiliary support for the U-shaped card frame, so as to facilitate the actual installation and fixation.
- the overall structure design of the invention is ingenious and reasonable, and has strong practicability.
- the support component supports the bearing frame to ensure the stable storage and placement of the yarn tube.
- the position of the support component on the central column is adjustable, so that the phase can be adjusted according to the actual height of the yarn tube.
- the distance between the two supporting components is adjacent, and the carrier can be rotated to the front side, so that all the yarn spools on the carrier are exposed, so as to facilitate the handling of the yarn spool and place the support supporting the yam spool.
- the height of the rod is adjustable, and the support rod can be adjusted according to the height of the yarn drum to ensure that the support rod can extend a certain length from the top of the yarn drum, so as to ensure the stability of the placement of the yarn drum and to pass the end when the carrier does not rotate.
- the limit component can limit and fix the carrier, ensure the firmness of the carrier, and improve the overall structural strength and safety performance of the storage rack.
- the bracket body ensures the overall structural stability of the entire storage rack, and mounting holes are reserved on the bottom plate, through which the entire storage rack and the placement surface can be installed and fixed, thereby ensuring the placement firmness of the storage rack and improving the Structural safety performance
- the shielding plate is located on the top of the bracket body, and the shielding plate is used for shielding protection to prevent yarn pollution, etc.
- the center column realizes the installation of the supporting components.
- the number of supporting components installed is not fixed, and the actual supporting components can be adjusted as required
- the number of installations, and the distance between two adjacent support components is adjustable, so that it can be adjusted according to the actual height size of the yarn drum placed on the carrier frame of the support component below, so that the storage rack can be used to accommodate different heights. It can effectively expand the scope of application of the storage rack.
- the support assembly provides an installation support surface for the installation of the bearing frame
- the support plate supports the bottom of the bearing frame to ensure the stability of the placement of the bearing frame
- the support plate itself is supported and limited by the support nut at the bottom, so that the support plate can limit the position It is fixed at the appropriate height of the central column.
- Two sets of bearing racks are arranged symmetrically on each support component to ensure the storage capacity of the storage rack.
- the bearing rack cooperates with the positioning sleeve to realize the rotation and socket connection with the support plate.
- the limit component can be used to limit and fix the carrier frame, so that during the normal placement process, due to the limitation of the limit component, the carrier frame cannot be rotated, thereby effectively ensuring the structural stability of the carrier frame.
- the biaxial air cylinder in the limit assembly corresponding to the carrier drives the limit plate to move down, so that the limit bump is completely detached from the handle groove of the end handle, so that the carrier can be rotated and operated. , the user then pulls the side handle of the carrier to rotate out the carrier.
- the load-bearing plate can be pulled forward for a certain length, thereby It is convenient to take the yarn bobbins at various positions on the carrier frame. After taking it, push the end handle until the load-bearing plate touches the balance support plate and cannot continue to move.
- the shaft cylinder drives the limit plate to move, so that the limit bump is clamped in the handle groove of the end handle to ensure the placement stability of the bearing frame.
- the ingenious design of the U-shaped connecting rod makes the placement of the support assembly more stable. After the support plate is placed on the central column, it is only supported by the bottom support nut, and the stability is average. The space between them is connected and fixed through the support frame, so that the two can keep moving synchronously, and the two ends of the U-shaped link are limited and fixed by the positioning frame and the side plate, so that the U-shaped link cannot move, so that the support plate cannot be moved. Move, effectively ensure the structural stability of the support plate, so that the bearing frame placed on the support plate is more stable and firm, and effectively improve the structural safety performance. When the support component needs to be moved, loosen the set screws on the positioning frame, and then adjust The height of the support nut is sufficient.
- the U-shaped link can also realize the installation and fixation of the limit components.
- Each support component corresponds to a U-shaped link.
- the two limit components on the corresponding support component can be installed and fixed to ensure the limit The installation stability of the component, and the U-shaped link and the support component can move synchronously with the support component after being connected and fixed, and the limit component is fixed with the U-shaped link, so that the limit component can also move synchronously with the support component , so as to ensure that the limit component can follow the adjustment of the upper and lower positions of the support component for synchronous movement adjustment, to ensure the precise positioning and installation of the limit component and the carrier, to ensure that the limit component can move synchronously with the adjustment of the position of the carrier, so as to ensure that the limit The limit and stability of the position components.
- Fig. 1 is the structural representation after the yarn cylinder of the present invention is placed
- Figure 2 is a schematic structural diagram of a yarn spool storage rack for textiles according to the present invention
- FIG. 3 is a schematic view of the rear side structure of FIG. 2;
- Fig. 4 is the structural schematic diagram when the carrier frame is rotated out in the present invention.
- FIG. 5 is a schematic diagram of the installation structure of the support assembly and the central column in the present invention.
- FIG. 6 is a schematic view of the rear side structure of FIG. 5;
- FIG. 7 is a schematic structural diagram of a support assembly in the present invention.
- FIG. 8 is a schematic structural diagram of a U-shaped connecting rod in the present invention.
- FIG. 9 is a schematic structural diagram of a carrier in the present invention.
- Fig. 10 is the bottom structure schematic diagram of Fig. 9;
- FIG. 11 is a schematic structural diagram of the state in which the load-bearing plate is pulled out from the balance support plate in the present invention
- Fig. 12 is the structural schematic diagram of the load-bearing plate in the present invention.
- Fig. 13 is the bottom structure schematic diagram of Fig. 12;
- FIG. 14 is a schematic structural diagram of a balance support plate in the present invention.
- FIG. 15 is a schematic structural diagram of a positioning frame in the present invention.
- FIG. 16 is a schematic structural diagram of a stent body in the present invention.
- FIG. 17 is a schematic structural diagram of the limiting assembly in the present invention.
- FIGS. 1 to 17 it is a yarn spool storage rack for textiles according to the present invention, which includes a bracket body 1 .
- the bracket body 1 includes a bottom plate 2 , a side plate 3 , a central column 4 and a shielding plate 5 , and the side plate 3 is symmetrical It is arranged on the left and right sides of the bottom plate 2, the center column 4 is located at the center of the top surface of the bottom plate 2, the support assembly 6 is adjustable and installed on the center column 4, and the rear side of the support assembly 6 is provided with a U-shaped connecting rod 7.
- the middle part of the rod 7 is fixedly connected with the support assembly 6, the two ends of the U-shaped connecting rod 7 are limited and fixed with the two side plates 3 through the positioning frame 8, and the support assembly 6 is provided with two bearing frames 9 symmetrically left and right, and the bearing frame 9 Including a load-bearing plate 10 and a balance support plate 11, the load-bearing plate 10 and the balance support plate 11 are movably plugged, the top of the load-bearing plate 10 is symmetrically arranged with two convex strips 12, and the convex strips 12 are evenly provided with threaded holes 13, threaded holes
- the support rod 14 is inserted into the inner thread of 13, and the screw connection of the support rod 14 and the threaded hole 13 can effectively ensure the installation firmness of the support rod 14, which is more conducive to the limit storage of the yarn tube 48 by the support rod 14, and the bearing plate 10 is far away from
- the end of the central column 4 is provided with an end handle 15
- the front side of the bearing plate 10 is provided with a side handle 16
- the limit assembly 17 is fixedly connected with the U-shaped connecting rod 7, the shielding plate 5 is clamped on the top surfaces of the two side plates 3, and the shielding plate 5 plays the role of shielding and protection to avoid the yarn on the uppermost carrier 9. At the same time, the shielding plate 5 connects the distance between the two side plates 3, so that the structure of the entire bracket body 1 is more stable and reliable.
- the bottom end of the central column 4 is screwed into the mounting collar in the center of the base plate 2 .
- the bottom of the load-bearing plate 10 is provided with a slot 18, the balance support plate 11 is provided with a plug-in board 19, the plug-in board 19 is matched with the slot 18, the plug-in board 19 is movably inserted in the slot 18, and the two sides of the slot 18 Limit card slots 20 are provided on both sides of the insert board 19, and limit card blocks 21 are provided on both sides of the plug board 19.
- the limit card blocks 21 are matched with the limit card slots 20, and the limit card blocks 21 are movably connected to the limit card slots 20.
- the limit card slot 20 and the limit card block 21 are further limited and clamped to make the load-bearing
- the clamping connection between the plate 10 and the balance support plate 11 is more firm and reliable, and at the same time, the clamping method of the limit slot 20 and the limit block 21 can limit the up and down displacement of the load bearing plate 10, and further improve the connection between the load bearing plate 10 and the balance support.
- the structural strength of the carrier frame 9 after the plate 11 is assembled is convenient and simple to install and disassemble.
- the top surface of the bearing plate 10 is provided with an installation slot 22, the installation slot 22 is located between the two protruding strips 12, the installation slot 22 is connected with the slot 18, the limit block 23 is inserted in the installation slot 22, and the insertion plate 19 is provided with There is an adjustment slot 24, the adjustment slot 24 and the installation slot 22 are matched with the limit block 23, the limit block 23 extends through the installation slot 22 into the adjustment slot 24, and a limit top plate 25 is arranged on the top of the limit block 23 to limit The top plate 25 is limited and fixed on the top surface of the bearing plate 10.
- the design of the installation slot 22 can facilitate the installation of the limit block 23, and through the further ingenious design of the adjustment slot 24, the limit block 23 extends all the way into the adjustment slot 24.
- the top of the limit block 23 is due to the limiting effect of the limit top plate 25 to ensure the clamping stability of the limit block 23, and then Further installation and fixing between the limit top plate 25 and the bearing plate 10 can effectively ensure the installation stability of the limit block 23.
- the relative balance support plate 11 is pulled to the outside for a certain length, so that it is more convenient to take and place the yarn drum 48 on the load-bearing plate 10, and due to the limiting effect of the limit block 23, when the load-bearing plate 10 is pulled forward by a certain length , the end of the adjustment slot 24 is in contact with the limit block 23, so that the bearing plate 10 cannot continue to move, so as to ensure that the bearing plate 10 is always pulled to the outermost side.
- the structural stability of the 9 is improved, the operation safety performance is improved, and the separation of the load-bearing plate 10 and the balance support plate 11 is effectively prevented.
- the support assembly 6 includes a support plate 26, the support plate 26 is provided with a through hole 27, the through hole 27 is matched with the center column 4, the support plate 26 is sleeved on the center column 4 through the through hole 27, and the bottom surface of the support plate 26 is provided with a support nut 28,
- the support nut 28 is screwed on the center column 4, the support plate 26 is movably sleeved on the center column 4 through the through hole 27, and then cooperates with the support nut 28 to support the limit support plate 26, and the support nut 28 is adjusted on the center column 4.
- the actual installation position of the support assembly 6 can be adjusted according to the actual installation position of the support assembly 6, so that the actual adjustment can be made according to the height of the yarn drum 48 placed on the carrier 9 on the support assembly 6, so as to ensure that there is no space between the two adjacent support assemblies 6. With a certain distance, the normal placement of the yarn drum 48 is achieved.
- Two positioning sleeves 29 are arranged on the top surface of the support plate 26, and the two positioning sleeves 29 are in one-to-one correspondence with the two bearing brackets 9.
- the balance support plate 11 is provided with sleeve holes 30, and the sleeve holes 30 are connected with the positioning sleeves.
- the balance support plate 11 is sleeved on the positioning sleeve column 29 through the sleeve hole 30, the positioning sleeve column 29 is provided with a limit nut 31, and the limit nut 31 abuts on the top surface of the balance support plate 11, positioning
- the sleeve column 29 cooperates with the sleeve hole 30 to realize the movable sleeve connection between the balance support plate 11 and the support plate 26, so that the overall bearing frame 9 can rotate axially around the corresponding positioning sleeve column 29, and then limit the balance through the limit nut 31.
- the top of the support plate 11 limits the up and down displacement of the balance support plate 11 without affecting the rotation of the bearing frame 9, effectively ensuring the stable performance of the rotating structure of the bearing frame 9 and improving the operation safety performance.
- the rear end of the support plate 26 is provided with a tailgate 32, the bottom of the tailgate 32 is set with a support frame 33, the middle of the U-shaped link 7 is clamped in the support slot 34 of the support frame 33, and the support frame 33 is fixed with screws in the middle of the U-shaped link 7, and the design of the rear baffle 32 can play a limiting role on the rear side of the support plate 26, so that the carrier 9 cannot be rotated to the rear side, but can only be rotated to the front side, which is convenient for
- the yarn spool 48 is taken out, and when the carrier frame 9 is turned back to its original position, when it abuts against the rear baffle 32, the carrier frame 9 is rotated in place, and the rear baffle 32 can facilitate the setting of the support frame 33, through the support frame 33 realizes the installation and fixation of the U-shaped link 7 and the support assembly 6, the support frame 33 realizes the clamping connection with the U-shaped link 7 through the support slot 34, and then installs the support frame 33 and the U-
- the opposite surfaces of the two side plates 3 are provided with card slots 35 .
- the limit assembly 17 includes a limit plate 36 , a biaxial cylinder 37 and a mounting frame 38 .
- the length of the limit plate 36 matches the width of the card slot 35
- the limit plate 36 is movably clamped in the card slot 35
- the top of the limit plate 36 is provided with a limit bump 39
- the limit bump 39 is a limit card Connected to the handle groove of the end handle 15, the double-axis cylinder 37 is connected with the limit plate 36, the double-axis cylinder 37 is fixed on the mounting frame 38, and the card slot 35 is designed as the limit plate 36 and the double-axis cylinder 37.
- the placement provides a cavity, and due to the design of the width of the limit plate 36, the limit plate 36 is just limited in the slot 35, which not only facilitates the actual installation and positioning of the limit plate 36, but also facilitates the biaxial cylinder 37 to drive the limiter.
- the smooth movement of the position plate 36, the mounting bracket 38 provides an installation support surface for the installation of the double-axis cylinder 37, the design of the limit bump 39 at the top of the limit plate 36 is matched with the handle groove of the end handle 15, and the limit bump 39 is limited.
- the biaxial cylinder 37 drives the limit plate 36 to move down, so that the limit bump 39 moves from When the handle slot is disengaged, the carrier 9 can be rotated, and the design is reasonable.
- the design of the limit component 17 is used to limit the position of the carrier 9 when it does not need to be rotated, thereby ensuring the structural stability of the carrier 9.
- the position of the limiting plate 36 can be adjusted, the adjustment is convenient and simple, and the use and operation are automated.
- the middle of the card slot 35 is provided with a longitudinal through slot 40
- the mounting bracket 38 is matched with the longitudinal through slot 40
- one end of the mounting bracket 38 extends through the longitudinal through slot 40 to the outside of the side plate 3
- the mounting bracket 38 extends out of the side plate 3
- An extension plate 41 is provided at the end of the cam, and the extension plate 41 is screwed to the U-shaped connecting rod 7.
- the two sides of the longitudinal groove 40 are symmetrically provided with guide chute 42, and the limit plate 36 is provided with a guide slider 43.
- the slot 42 is matched with the guide slider 43, and the guide slider 43 is movably clamped in the guide slot 42.
- the design of the longitudinal slot can facilitate the installation of the mounting bracket 38.
- the overall design is compact and reasonable, which is convenient for actual disassembly and assembly.
- the further design of the groove 42 and the guide slider 43 can realize the further clamping limit between the limit plate 36 and the side plate 3, and the guide slider 43 also plays a further auxiliary guiding role, so that the limit plate 36 can Moving up and down is more stable and reliable.
- the positioning frame 8 is provided with a U-shaped slot 44, the U-shaped slot 44 is matched with the U-shaped connecting rod 7, the positioning frame 8 is clamped on the U-shaped connecting rod 7 through the U-shaped slot 44, and the positioning frame 8 passes through the U-shaped connecting rod 7.
- the set screw 45 is tightly fixed with the side plate 3, and the rear end surface of the side plate 3 is provided with a nesting slot 46, the nesting slot 46 is matched with the set screw 45, and the end of the set screw 45 passes through the positioning
- the frame 8 and the U-shaped connecting rod 7 extend into the clamping chute 46 to abut against the side plate 3, and realize the clamping limit between the positioning frame 8 and the U-shaped connecting rod 7 through the U-shaped clamping groove 44, and then
- the positioning frame 8 and the side plate 3 are limited and fixed by the set screws 45, thereby indirectly realizing the fixing between the U-shaped link 7 and the side plate 3, so that the U-shaped link 7 cannot move up and down, and the U-shaped link 7 It is fixedly connected to the support assembly 6, so as to ensure that the support assembly 6 cannot move up and down, to ensure the firm performance of the support assembly 6 on the central column 4, to ensure the structural stability of the support assembly 6, and to pass through the locking chute 46.
- Ingenious design can increase the contact area between the end of the
- the positioning frame 8 is provided with a positioning slot 47, the positioning slot 47 communicates with the U-shaped card slot 44, and the U-shaped connecting rod 7 is provided with a positioning insertion rod 48, the positioning insertion rod 48 matches the positioning slot 47, and the positioning insertion rod 48
- the end of the locating frame 8 extends to the outside of the locating frame 8 through the locating slot 47.
- the firmness of the clamping connection between 8 and the U-shaped connecting rod 7 ensures that the positioning frame 8 has an auxiliary support, lifting and limiting effect on the U-shaped clamping frame, which is convenient for actual installation and fixation.
- the overall structure design of the present invention is ingenious and reasonable, and has strong practicability.
- the support component 6 supports the carrier frame 9 to ensure the stable storage and placement of the yarn tube 48.
- the position of the support component 6 on the center column 4 is adjustable, so that the yarn tube can be adjusted according to the position of the support component 6.
- the actual height of 48 adjusts the distance between the two adjacent support assemblies 6, and the carrier 9 can be rotated forward, so that all the yarn tubes 48 on the carrier 9 are exposed, so as to facilitate the installation of the yarn tubes 48
- the height of the support bar 14 that supports the yarn drum 48 is adjustable, and the support bar 14 can be adjusted according to the height of the yarn drum 48 to ensure that the support bar 14 can extend out of the top of the yarn drum 48 for a certain length, so as to ensure that the yarn
- the placement stability of the bobbin 48, and when the carrier 9 does not rotate, the carrier 9 can be limited and fixed by the limit component 17 at the end, so as to ensure the firmness of the carrier 9 and improve the overall structural strength and safety performance of the storage rack .
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Abstract
本发明公开了一种纺织用纱线筒收纳架,包括支架体,支架体包括底板、侧板、中心柱和遮挡板,中心柱上可调节安装有支撑组件,支撑组件的后侧设置有U型连杆,支撑组件上左右对称设置有两个承载架,两个承载架的相反端均设置有限位组件,限位组件与U型连杆固定连接。本发明支撑组件支撑承载架,保证纱线筒的平稳收纳放置,同时支撑组件在中心柱上的位置可调,从而可以根据纱线筒的实际高度调整相邻两个支撑组件之间的间距,而且承载架可以往前侧转动,从而将承载架上的纱线筒全部裸露出,从而便于对纱线筒的拿放,并且在承载架不转动时通过端部的限位组件可以限位固定承载架,保证承载架的牢固性,提高收纳架的整体结构强度和安全性能。
Description
本发明属于纺织技术领域,具体涉及一种纺织用纱线筒收纳架。
纱线是一种纺织品,用各种纺织纤维加工成一定细度的产品,用于织布、制绳、制线、针织和刺绣等,分为短纤维纱,连续长丝等。纱线的细度有多种表示方法,例如号数、公制支数、英制支数、旦尼尔等(见支数)。纱线的捻度用每米或每英寸的捻回数表示。毛纱及毛线一般用于纺织羊毛衫、毛裤、毛背心、围巾、帽子及手套和编织各种春秋季节服饰用品,除保暖外还有装饰作用。纱线筒是由纱线卷绕而成,现有纱线筒一般直接堆放,不易于纱线筒的归纳整理,而且使得纱线表面容易受到污染。还有的纱线筒通过简单的收纳架放置,但是对于收纳架内部堆放的纱线筒不易于拿放,而且由于架层的高度一致,限制了收纳架的使用范围。
发明内容
本发明目的在于针对现有技术所存在的不足而提供一种纺织用纱线筒收纳架的技术方案,整体结构设计巧妙合理,实用性强,支撑组件支撑承载架,保证纱线筒的平稳收纳放置,同时支撑组件在中心柱上的位置可调,从而可以根据纱线筒的实际高度调整相邻两个支撑组件之间的间距,而且承载架可以往前侧转动,从而将承载架上的纱线筒全部裸露出,从而便于对纱线筒的拿放,并且放置支撑纱线筒的支撑棒的高度可调,可以根据纱线筒的高度调整支撑棒,确保支撑棒可以延伸出纱线筒顶部一定长度,从而保证纱线筒的放置稳固性,并且在承载架不转动时通过端部的限位组件可以限位固定承载架,保证承载架的牢固性,提高收纳架的整体结构强度和安全性能。
为了解决上述技术问题,本发明采用如下技术方案:
一种纺织用纱线筒收纳架,包括支架体,其特征在于:支架体包括底板、侧板、中心柱和遮挡板,侧板对称设置在底板的左右两侧,中心柱位于底板的顶面中心处,中心柱上可调节安装有支撑组件,支撑组件的后侧设置有U型连杆,U型连杆的中部与支撑组件固定连接,U型连杆的两端通过定位框与两个侧板限位固定,支撑组件上左右对称设置有两个承载架,承载架包括承重板和平衡支板,承重板与平衡支板活动插接,承重板的顶部前后对称设置有两个凸条,凸条上均匀设置有螺纹孔,螺纹孔内螺纹插接有支撑棒,承重板远离中心柱的端部设置有端拉柄,承重板的前侧设置有侧拉柄,平衡支板与支撑组件转动连接,两个承载架的相反端均设置有限位组件,限位组件与U型连杆固定连接,遮挡板卡接在两个侧板的顶面上。
进一步,承重板的底部设置有插槽,平衡支板上设置有插板,插板与插槽相匹配,插板活动插接在插槽内,插槽的两侧均设置有限位卡槽,插板的两侧均设置有限位卡块,限位卡块与限位卡槽相匹配,限位卡块活动卡接在限位卡槽内,通过插槽和插板的巧妙设计,实现承重板与平衡支板的插接固定,再配合限位卡槽和限位卡块的进一步限位卡接,使得承重板与平衡支板的之间的卡接更牢固可靠,同时限位卡槽和限位卡块的卡块方式可以限制承重板的上下位移,进一步提高承重板与平衡支板组装后的承载架的结构强度,安装拆卸方便简单。
进一步,承重板的顶面设置有安装槽,安装槽位于两个凸条之间,安装槽与插槽相贯通,安装槽内插接有限位块,插板上设置有调节槽,调节槽、安装槽均与限位块相匹配,限位块穿过安装槽延伸至调节槽内,限位块的顶部设置有限位顶板,限位顶板限位固定在承重板的顶面上,安装槽的设计可以便于限位块的安装,并且通过调节槽的进一步巧妙设计,限位块一直延伸至调节槽内,从而使得承重板与平衡支板之间的卡接更加的稳固可靠,同时限位块的顶部由于限位顶板的限位作用,保证限位块的卡接稳固性,再将限位顶板与承重板之间进一步安装固定,从而有效保证限位块的安装稳固性,限位块距离插槽的封闭端留有一定的间距,从而保证承重板可以相对平衡支板往外侧拉动一定的长 度,从而更便于对承重板上纱线筒的拿放,而且由于限位块的限位作用,当承重板往前侧拉动一定长度后,调节槽的端部抵触到限位块,使得承重板无法继续移动,从而保证承重板在拉动到最外侧时也始终与平衡支板保持一定的卡接长度,保证承载架的结构稳固性能,提高操作安全性能,有效防止承重板与平衡支板的脱离。
进一步,支撑组件包括支撑板,支撑板上设置有穿孔,穿孔与中心柱相匹配,支撑板通过穿孔套设在中心柱,支撑板的底面设置有支撑螺母,支撑螺母螺纹旋接在中心柱上,支撑板通过穿孔活动套设在中心柱上,再配合支撑螺母支撑限位支撑板,而通过调整支撑螺母在中心柱上的位置可以对支撑组件的实际安装位置进行调整,从而可以根据支撑组件上的承载架上所放置的纱线筒的高度进行实际调整,保证相邻两个支撑组件之间留有一定的间距,实现纱线筒的正常放置。
进一步,支撑板的顶面上设置有两个定位套柱,两个定位套柱与两个承载架一一对应,平衡支板上设置有套孔,套孔与定位套柱相匹配,平衡支板通过套孔套设在定位套柱上,定位套柱上设置有限位螺母,限位螺母抵触限位在平衡支板的顶面上,定位套柱与套孔配合实现平衡支板与支撑板之间的活动套接,使得承载架整体可以环绕对应的定位套柱轴向转动,再通过限位螺母限位平衡支板的顶部,限制平衡支板的上下位移,同时又不影响到承载架的转动,有效保证承载架转动的结构平稳性能,提高操作安全性能。
进一步,支撑板的后端设置有后挡板,后挡板的底部设置有支撑框,U型连杆的中部限位卡接在支撑框的支撑卡槽内,且支撑框与U型连杆的中部螺钉固定,后挡板的设计可以起到支撑板后侧的限位作用,使得承载架无法往后侧转动,只能够往前侧转动,便于对纱线筒的拿取,而且在承载架转回原位时当其抵触到后挡板时,承载架转动到位,同时后挡板可以便于支撑框的设置,通过支撑框实现U型连杆与支撑组件的安装固定,支撑框通过支撑卡槽实现与U型连杆的卡接,再通过螺钉将支撑框与U型连杆之间安装固定,有效保证U型连杆与支撑框之间的连接牢固性,使得U型连杆与支撑组件连接固定成一体,从而保证 U型连杆与支撑组件的同步移动调整。
进一步,两个侧板的相对面上均设置有卡槽,限位组件包括限位板、双轴气缸和安装架,限位板和双轴气缸均位于卡槽内,限位板的长度与卡槽的宽度相匹配,限位板活动卡接在卡槽内,限位板的顶部设置有限位凸块,限位凸块限位卡接在端拉柄的拉手槽内,双轴气缸与限位板相连接,双轴气缸固定在安装架上,卡槽的设计为限位板和双轴气缸的放置提供了腔体,并且由于限位板宽度的设计,使得限位板又正好限位在卡槽内,既便于限位板实际的安装定位,又便于双轴气缸带动限位板的平稳移动,安装架为双轴气缸的安装提供安装支撑面,限位板顶部限位凸块的设计与端拉柄的拉手槽配合,限位凸块限位卡接在拉手槽内,使得承载架的活动端限位固定无法转动,当需要转动对应的承载架时,双轴气缸带动限位板下移,使得限位凸块从拉手槽内脱离,承载架可以转动,设计合理,采用限位组件的设计在不需要转动承载架的时候将其限位卡死,从而保证承载架的结构稳固性,而当需要转动承载架时,则调整限位板的位置即可,调节方便简单,使用操作自动化。
进一步,卡槽的中部设置有纵向穿槽,安装架与纵向穿槽相匹配,安装架的一端穿过纵向穿槽延伸至侧板的外侧,安装架延伸出侧板的端部设置有延伸板,延伸板与U型连杆螺钉固定,纵向穿槽的两侧对称设置有导向滑槽,限位板上设置有导向滑块,导向滑槽与导向滑块相匹配,导向滑块活动卡接在导向滑槽内,通过纵向滑槽的设计可以便于安装架的安装,安装架与双轴气缸连接的端部穿过纵向滑槽延伸至卡槽内实现双轴气缸的固定支撑,而安装架位于侧板外侧的端部设置了延伸板,延伸板贴附在对应的U型连杆的端侧面上,再通过螺钉固定实现安装架与U型连杆之间的安装固定,保证限位组件的安装牢固性,整体设计紧凑合理,便于实际拆装,而且通过导向滑槽和导向滑块的进一步设计,可以实现限位板与侧板之间的进一步卡接限位,同时导向滑块也起到进一步的辅助导向作用,使得限位板的上下移动更加的平稳可靠。
进一步,定位框上设置有U型卡槽,U型卡槽与U型连杆相匹配,定位框通过U型卡槽卡接在U型连杆上,且定位框通过紧定螺钉与侧板抵紧固定,侧板的 后端面上设置有嵌位滑槽,嵌位滑槽与紧定螺钉相匹配,紧定螺钉的端部穿过定位框、U型连杆延伸至嵌位滑槽内与侧板限位抵紧,通过U型卡槽实现定位框与U型连杆之间的卡接限位,再通过紧定螺钉将定位框与侧板限位固定,从而间接实现U型连杆与侧板之间的固定,使得U型连杆无法上下移动,而U型连杆本身与支撑组件固定连接,从而确保支撑组件也无法上下移动,保证支撑组件在中心柱上的安装牢固性能,确保支撑组件的自身结构稳固性,同时通过嵌位滑槽的巧妙设计,可以增大紧定螺钉端部与侧板之间的接触面积,使得紧定螺钉的限位抵紧效果更稳固可靠。
进一步,定位框上设置有定位槽,定位槽与U型卡槽相贯通,U型连杆上设置有定位插杆,定位插杆与定位槽相匹配,定位插杆的端部穿过定位槽延伸至定位框的外侧,通过定位槽和定位插杆的巧妙设置,实现定位框与U型连杆之间的精准卡接定位,保证定位框与U型连杆之间的卡接牢固性,确保定位框对U型卡框的辅助支撑托举限位作用,便于实际的安装固定。
本发明由于采用了上述技术方案,具有以下有益效果:
本发明整体结构设计巧妙合理,实用性强,支撑组件支撑承载架,保证纱线筒的平稳收纳放置,同时支撑组件在中心柱上的位置可调,从而可以根据纱线筒的实际高度调整相邻两个支撑组件之间的间距,而且承载架可以往前侧转动,从而将承载架上的纱线筒全部裸露出,从而便于对纱线筒的拿放,并且放置支撑纱线筒的支撑棒的高度可调,可以根据纱线筒的高度调整支撑棒,确保支撑棒可以延伸出纱线筒顶部一定长度,从而保证纱线筒的放置稳固性,并且在承载架不转动时通过端部的限位组件可以限位固定承载架,保证承载架的牢固性,提高收纳架的整体结构强度和安全性能。
本发明中支架体保证整个收纳架的整体结构稳固性,在底板上预留了安装孔,通过安装孔可以将整个收纳架与放置面之间安装固定,从而确保收纳架的放置牢固性,提高结构安全性能,遮挡板位于支架体的顶部,通过遮挡板进行遮挡保护,防止纱线的污染等,中心柱实现支撑组件的安装,支撑组件的安装个数不定,可以根据需求调整支撑组件的实际安装个数,而且相邻两个支撑组 件之间的间距可调,从而可以根据下方支撑组件的承载架上放置的纱线筒的实际高度尺寸进行调整,使得收纳架可以用于收纳不同高度尺寸的纱线筒,有效扩大收纳架的适用范围。
本发明中支撑组件为承载架的安装提供安装支撑面,支撑板支撑承载架的底部,保证承载架的放置平稳性,而支撑板自身通过底部的支撑螺母支撑限位,使得支撑板可以限位固定在中心柱的合适高度,每个支撑组件上左右对称设置了两组承载架,保证收纳架的收纳容量,同时承载架与定位套柱配合实现与支撑板的转动套接,当需要拿放纱线筒时,将对应的承载架转出,从而便于纱线筒的拿取,设计更加的人性化,而且为了保证承载架实际放置的结构稳固性,在承载架未套接的端部设置了限位组件,通过限位组件可以将承载架限位固定,使得在正常放置过程中,由于受到限位组件的限制,使得承载架无法转动,从而有效保证承载架的结构稳固性,当需要转动承载架时,该承载架对应的限位组件中的双轴气缸气缸,带动限位板下移,使得限位凸块完全从端拉柄的拉手槽中脱离,从而使得承载架可转动操作,使用者再拉动该承载架的侧拉柄实现承载架的转出。并且由于承载架自身结构的设置,当承载架转出后,由于后方的纱线筒会受到该承载架上方部件的影响,通过拉动端拉柄,可以将承重板往前拉动一定的长度,从而便于承载架上各个位置纱线筒的拿取,拿取好后,推动端拉柄,直至承重板抵触到平衡支板无法继续推移,在将承载架转回到原位,转动到位后,双轴气缸带动限位板上移,使得限位凸块卡接在端拉柄的拉手槽中保证承载架的放置稳固性。
本发明中通过U型连杆的巧妙设计,使得支撑组件的放置更加的稳固,支撑板放置到中心柱上后只收到底部支撑螺母的支撑,稳定性一般,而支撑板与U型连杆之间通过支撑框实现间距连接固定,使得两者保持同步移动,而U型连杆的两端又通过定位框与侧板限位固定,使得U型连杆无法移动,从而使得支撑板也无法移动,有效保证支撑板的结构稳固性,从而使得支撑板上放置的承载架更加的平稳牢固,有效提高结构安全性能,当需要移动支撑组件时,拧松定位框上的紧定螺钉,再调整支撑螺母的高度即可。而且U型连杆还可以实现 限位组件的安装固定,每个支撑组件对应一个U型连杆,通过该U型连杆可以将对应支撑组件上的两个限位组件安装固定,保证限位组件的安装稳固性,并且U型连杆与支撑组件连接固定后可以与支撑组件实现同步移动,而限位组件又与U型连杆固定,从而使得限位组件也可与支撑组件保持同步移动,从而确保限位组件可以跟随支撑组件上下位置的调整进行同步移动调节,确保限位组件与承载架的精准定位安装,保证限位组件可以随着承载架位置的调整进行同步移动,从而确保限位组件的限位稳固作用。
下面结合附图对本发明作进一步说明:
图1为本发明纱线筒放置后的结构示意图;
图2为本发明一种纺织用纱线筒收纳架的结构示意图;
图3为图2的后侧结构示意图;
图4为本发明中承载架转出时的结构示意图;
图5为本发明中支撑组件与中心柱的安装结构示意图;
图6为图5的后侧结构示意图;
图7为本发明中支撑组件的结构示意图;
图8为本发明中U型连杆的结构示意图;
图9为本发明中承载架的结构示意图;
图10为图9的底部结构示意图;
图11为本发明中承重板从平衡支板拉出的状态结构示意图;
图12为本发明中承重板的结构示意图;
图13为图12的底部结构示意图;
图14为本发明中平衡支板的结构示意图;
图15为本发明中定位框的结构示意图;
图16为本发明中支架体的结构示意图;
图17为本发明中限位组件的结构示意图。
图中:1-支架体;2-底板;3-侧板;4-中心柱;5-遮挡板;6-支撑组件;7-U型连杆;8-定位框;9-承载架;10-承重板;11-平衡支板;12-凸条;13-螺纹孔;14-支撑棒;15-端拉柄;16-侧拉柄;17-限位组件;18-插槽;19-插板;20-限位卡槽;21-限位卡块;22-安装槽;23-限位块;24-调节槽;25-限位顶板;26-支撑板;27-穿孔;28-支撑螺母;29-定位套柱;30-套孔;31-限位螺母;32-后挡板;33-支撑框;34-支撑卡槽;35-卡槽;36-限位板;37-双轴气缸;38-安装架;39-限位凸块;40-纵向穿槽;41-延伸板;42-导向滑槽;43-导向滑块;44-U型卡槽;45-紧定螺钉;46-嵌位滑槽;47-定位槽;4-定位插杆;48-纱线筒。
如图1至图17所示,为本发明一种纺织用纱线筒收纳架,包括支架体1,支架体1包括底板2、侧板3、中心柱4和遮挡板5,侧板3对称设置在底板2的左右两侧,中心柱4位于底板2的顶面中心处,中心柱4上可调节安装有支撑组件6,支撑组件6的后侧设置有U型连杆7,U型连杆7的中部与支撑组件6固定连接,U型连杆7的两端通过定位框8与两个侧板3限位固定,支撑组件6上左右对称设置有两个承载架9,承载架9包括承重板10和平衡支板11,承重板10与平衡支板11活动插接,承重板10的顶部前后对称设置有两个凸条12,凸条12上均匀设置有螺纹孔13,螺纹孔13内螺纹插接有支撑棒14,支撑棒14与螺纹孔13螺纹连接有效保证支撑棒14的安装牢固性,从而更有利于支撑棒14对纱线筒48的限位收纳,承重板10远离中心柱4的端部设置有端拉柄15,承重板10的前侧设置有侧拉柄16,平衡支板11与支撑组件6转动连接,两个承载架9的相反端均设置有限位组件17,限位组件17与U型连杆7固定连接,遮挡板5卡接在两个侧板3的顶面上,遮挡板5起到遮挡保护的作用,避免最上方承载架9上纱线的污染,同时遮挡板5将两个侧板3之间间距连接,从而使得整个支架体1的结构更稳固可靠,遮挡板5的中部还设置了限位卡接中心柱4顶端的套环,而中心柱4的底端螺纹旋接在底板2中心的安装套环内。
承重板10的底部设置有插槽18,平衡支板11上设置有插板19,插板19与插槽18相匹配,插板19活动插接在插槽18内,插槽18的两侧均设置有限位卡槽20,插板19的两侧均设置有限位卡块21,限位卡块21与限位卡槽20相匹配,限位卡块21活动卡接在限位卡槽20内,通过插槽18和插板19的巧妙设计,实现承重板10与平衡支板11的插接固定,再配合限位卡槽20和限位卡块21的进一步限位卡接,使得承重板10与平衡支板11的之间的卡接更牢固可靠,同时限位卡槽20和限位卡块21的卡块方式可以限制承重板10的上下位移,进一步提高承重板10与平衡支板11组装后的承载架9的结构强度,安装拆卸方便简单。
承重板10的顶面设置有安装槽22,安装槽22位于两个凸条12之间,安装槽22与插槽18相贯通,安装槽22内插接有限位块23,插板19上设置有调节槽24,调节槽24、安装槽22均与限位块23相匹配,限位块23穿过安装槽22延伸至调节槽24内,限位块23的顶部设置有限位顶板25,限位顶板25限位固定在承重板10的顶面上,安装槽22的设计可以便于限位块23的安装,并且通过调节槽24的进一步巧妙设计,限位块23一直延伸至调节槽24内,从而使得承重板10与平衡支板11之间的卡接更加的稳固可靠,同时限位块23的顶部由于限位顶板25的限位作用,保证限位块23的卡接稳固性,再将限位顶板25与承重板10之间进一步安装固定,从而有效保证限位块23的安装稳固性,限位块23距离插槽18的封闭端留有一定的间距,从而保证承重板10可以相对平衡支板11往外侧拉动一定的长度,从而更便于对承重板10上纱线筒48的拿放,而且由于限位块23的限位作用,当承重板10往前侧拉动一定长度后,调节槽24的端部抵触到限位块23,使得承重板10无法继续移动,从而保证承重板10在拉动到最外侧时也始终与平衡支板11保持一定的卡接长度,保证承载架9的结构稳固性能,提高操作安全性能,有效防止承重板10与平衡支板11的脱离。
支撑组件6包括支撑板26,支撑板26上设置有穿孔27,穿孔27与中心柱4相匹配,支撑板26通过穿孔27套设在中心柱4,支撑板26的底面设置有支撑螺母28,支撑螺母28螺纹旋接在中心柱4上,支撑板26通过穿孔27活动套设在中心柱4上,再配合支撑螺母28支撑限位支撑板26,而通过调整支撑螺母28在中心柱4上的位 置可以对支撑组件6的实际安装位置进行调整,从而可以根据支撑组件6上的承载架9上所放置的纱线筒48的高度进行实际调整,保证相邻两个支撑组件6之间留有一定的间距,实现纱线筒48的正常放置。
支撑板26的顶面上设置有两个定位套柱29,两个定位套柱29与两个承载架9一一对应,平衡支板11上设置有套孔30,套孔30与定位套柱29相匹配,平衡支板11通过套孔30套设在定位套柱29上,定位套柱29上设置有限位螺母31,限位螺母31抵触限位在平衡支板11的顶面上,定位套柱29与套孔30配合实现平衡支板11与支撑板26之间的活动套接,使得承载架9整体可以环绕对应的定位套柱29轴向转动,再通过限位螺母31限位平衡支板11的顶部,限制平衡支板11的上下位移,同时又不影响到承载架9的转动,有效保证承载架9转动的结构平稳性能,提高操作安全性能。
支撑板26的后端设置有后挡板32,后挡板32的底部设置有支撑框33,U型连杆7的中部限位卡接在支撑框33的支撑卡槽34内,且支撑框33与U型连杆7的中部螺钉固定,后挡板32的设计可以起到支撑板26后侧的限位作用,使得承载架9无法往后侧转动,只能够往前侧转动,便于对纱线筒48的拿取,而且在承载架9转回原位时当其抵触到后挡板32时,承载架9转动到位,同时后挡板32可以便于支撑框33的设置,通过支撑框33实现U型连杆7与支撑组件6的安装固定,支撑框33通过支撑卡槽34实现与U型连杆7的卡接,再通过螺钉将支撑框33与U型连杆7之间安装固定,有效保证U型连杆7与支撑框33之间的连接牢固性,使得U型连杆7与支撑组件6连接固定成一体,从而保证U型连杆7与支撑组件6的同步移动调整。
两个侧板3的相对面上均设置有卡槽35,限位组件17包括限位板36、双轴气缸37和安装架38,限位板36和双轴气缸37均位于卡槽35内,限位板36的长度与卡槽35的宽度相匹配,限位板36活动卡接在卡槽35内,限位板36的顶部设置有限位凸块39,限位凸块39限位卡接在端拉柄15的拉手槽内,双轴气缸37与限位板36相连接,双轴气缸37固定在安装架38上,卡槽35的设计为限位板36和双轴气缸37的放置提供了腔体,并且由于限位板36宽度的设计,使得限位板36又正好限位在卡槽35内,既便于限位板36实际的安装定位,又便于双轴气缸37带动 限位板36的平稳移动,安装架38为双轴气缸37的安装提供安装支撑面,限位板36顶部限位凸块39的设计与端拉柄15的拉手槽配合,限位凸块39限位卡接在拉手槽内,使得承载架9的活动端限位固定无法转动,当需要转动对应的承载架9时,双轴气缸37带动限位板36下移,使得限位凸块39从拉手槽内脱离,承载架9可以转动,设计合理,采用限位组件17的设计在不需要转动承载架9的时候将其限位卡死,从而保证承载架9的结构稳固性,而当需要转动承载架9时,则调整限位板36的位置即可,调节方便简单,使用操作自动化。
卡槽35的中部设置有纵向穿槽40,安装架38与纵向穿槽40相匹配,安装架38的一端穿过纵向穿槽40延伸至侧板3的外侧,安装架38延伸出侧板3的端部设置有延伸板41,延伸板41与U型连杆7螺钉固定,纵向穿槽40的两侧对称设置有导向滑槽42,限位板36上设置有导向滑块43,导向滑槽42与导向滑块43相匹配,导向滑块43活动卡接在导向滑槽42内,通过纵向滑槽的设计可以便于安装架38的安装,安装架38与双轴气缸37连接的端部穿过纵向滑槽延伸至卡槽35内实现双轴气缸37的固定支撑,而安装架38位于侧板3外侧的端部设置了延伸板41,延伸板41贴附在对应的U型连杆7的端侧面上,再通过螺钉固定实现安装架38与U型连杆7之间的安装固定,保证限位组件17的安装牢固性,整体设计紧凑合理,便于实际拆装,而且通过导向滑槽42和导向滑块43的进一步设计,可以实现限位板36与侧板3之间的进一步卡接限位,同时导向滑块43也起到进一步的辅助导向作用,使得限位板36的上下移动更加的平稳可靠。
定位框8上设置有U型卡槽44,U型卡槽44与U型连杆7相匹配,定位框8通过U型卡槽44卡接在U型连杆7上,且定位框8通过紧定螺钉45与侧板3抵紧固定,侧板3的后端面上设置有嵌位滑槽46,嵌位滑槽46与紧定螺钉45相匹配,紧定螺钉45的端部穿过定位框8、U型连杆7延伸至嵌位滑槽46内与侧板3限位抵紧,通过U型卡槽44实现定位框8与U型连杆7之间的卡接限位,再通过紧定螺钉45将定位框8与侧板3限位固定,从而间接实现U型连杆7与侧板3之间的固定,使得U型连杆7无法上下移动,而U型连杆7本身与支撑组件6固定连接,从而确保支撑组件6也无法上下移动,保证支撑组件6在中心柱4上的安装牢固性能,确保支撑组 件6的自身结构稳固性,同时通过嵌位滑槽46的巧妙设计,可以增大紧定螺钉45端部与侧板3之间的接触面积,使得紧定螺钉45的限位抵紧效果更稳固可靠。
定位框8上设置有定位槽47,定位槽47与U型卡槽44相贯通,U型连杆7上设置有定位插杆48,定位插杆48与定位槽47相匹配,定位插杆48的端部穿过定位槽47延伸至定位框8的外侧,通过定位槽47和定位插杆48的巧妙设置,实现定位框8与U型连杆7之间的精准卡接定位,保证定位框8与U型连杆7之间的卡接牢固性,确保定位框8对U型卡框的辅助支撑托举限位作用,便于实际的安装固定。
本发明整体结构设计巧妙合理,实用性强,支撑组件6支撑承载架9,保证纱线筒48的平稳收纳放置,同时支撑组件6在中心柱4上的位置可调,从而可以根据纱线筒48的实际高度调整相邻两个支撑组件6之间的间距,而且承载架9可以往前侧转动,从而将承载架9上的纱线筒48全部裸露出,从而便于对纱线筒48的拿放,并且放置支撑纱线筒48的支撑棒14的高度可调,可以根据纱线筒48的高度调整支撑棒14,确保支撑棒14可以延伸出纱线筒48顶部一定长度,从而保证纱线筒48的放置稳固性,并且在承载架9不转动时通过端部的限位组件17可以限位固定承载架9,保证承载架9的牢固性,提高收纳架的整体结构强度和安全性能。
以上仅为本发明的具体实施例,但本发明的技术特征并不局限于此。任何以本发明为基础,为实现基本相同的技术效果,所作出地简单变化、等同替换或者修饰等,皆涵盖于本发明的保护范围之中。
Claims (10)
- 一种纺织用纱线筒收纳架,包括支架体,其特征在于:所述支架体包括底板、侧板、中心柱和遮挡板,所述侧板对称设置在所述底板的左右两侧,所述中心柱位于所述底板的顶面中心处,所述中心柱上可调节安装有支撑组件,所述支撑组件的后侧设置有U型连杆,所述U型连杆的中部与所述支撑组件固定连接,所述U型连杆的两端通过定位框与两个所述侧板限位固定,所述支撑组件上左右对称设置有两个承载架,所述承载架包括承重板和平衡支板,所述承重板与所述平衡支板活动插接,所述承重板的顶部前后对称设置有两个凸条,所述凸条上均匀设置有螺纹孔,所述螺纹孔内螺纹插接有支撑棒,所述承重板远离所述中心柱的端部设置有端拉柄,所述承重板的前侧设置有侧拉柄,所述平衡支板与所述支撑组件转动连接,两个所述承载架的相反端均设置有限位组件,所述限位组件与所述U型连杆固定连接,所述遮挡板卡接在两个所述侧板的顶面上。
- 根据权利要求1所述的一种纺织用纱线筒收纳架,其特征在于:所述承重板的底部设置有插槽,所述平衡支板上设置有插板,所述插板与所述插槽相匹配,所述插板活动插接在所述插槽内,所述插槽的两侧均设置有限位卡槽,所述插板的两侧均设置有限位卡块,所述限位卡块与所述限位卡槽相匹配,所述限位卡块活动卡接在所述限位卡槽内。
- 根据权利要求2所述的一种纺织用纱线筒收纳架,其特征在于:所述承重板的顶面设置有安装槽,所述安装槽位于两个所述凸条之间,所述安装槽与所述插槽相贯通,所述安装槽内插接有限位块,所述插板上设置有调节槽,所述调节槽、所述安装槽均与所述限位块相匹配,所述限位块穿过所述安装槽延伸至所述调节槽内,所述限位块的顶部设置有限位顶板,所述限位顶板限位固定在所述承重板的顶面上。
- 根据权利要求1所述的一种纺织用纱线筒收纳架,其特征在于:所述支撑组 件包括支撑板,所述支撑板上设置有穿孔,所述穿孔与所述中心柱相匹配,所述支撑板通过所述穿孔套设在所述中心柱,所述支撑板的底面设置有支撑螺母,所述支撑螺母螺纹旋接在所述中心柱上。
- 根据权利要求4所述的一种纺织用纱线筒收纳架,其特征在于:所述支撑板的顶面上设置有两个定位套柱,两个所述定位套柱与两个所述承载架一一对应,所述平衡支板上设置有套孔,所述套孔与所述定位套柱相匹配,所述平衡支板通过所述套孔套设在所述定位套柱上,所述定位套柱上设置有限位螺母,所述限位螺母抵触限位在所述平衡支板的顶面上。
- 根据权利要求4所述的一种纺织用纱线筒收纳架,其特征在于:所述支撑板的后端设置有后挡板,所述后挡板的底部设置有支撑框,所述U型连杆的中部限位卡接在所述支撑框的支撑卡槽内,且所述支撑框与所述U型连杆的中部螺钉固定。
- 根据权利要求1所述的一种纺织用纱线筒收纳架,其特征在于:两个所述侧板的相对面上均设置有卡槽,所述限位组件包括限位板、双轴气缸和安装架,所述限位板和所述双轴气缸均位于所述卡槽内,所述限位板的长度与所述卡槽的宽度相匹配,所述限位板活动卡接在所述卡槽内,所述限位板的顶部设置有限位凸块,所述限位凸块限位卡接在所述端拉柄的拉手槽内,所述双轴气缸与所述限位板相连接,所述双轴气缸固定在所述安装架上。
- 根据权利要求7所述的一种纺织用纱线筒收纳架,其特征在于:所述卡槽的中部设置有纵向穿槽,所述安装架与所述纵向穿槽相匹配,所述安装架的一端穿过所述纵向穿槽延伸至所述侧板的外侧,所述安装架延伸出所述侧板的端部设置有延伸板,所述延伸板与所述U型连杆螺钉固定,所述纵向穿槽的两侧对称设置有导向滑槽,所述限位板上设置有导向滑块,所述导向滑槽与所述导向滑块相匹配,所述导向滑块活动卡接在所述导向滑槽内。
- 根据权利要求8所述的一种纺织用纱线筒收纳架,其特征在于:所述定位框上设置有U型卡槽,所述U型卡槽与所述U型连杆相匹配,所述定位框通过所述U型卡槽卡接在所述U型连杆上,且所述定位框通过紧定螺钉与所述侧板抵紧固定,所述侧板的后端面上设置有嵌位滑槽,所述嵌位滑槽与所述紧定螺钉相匹配,所述紧定螺钉的端部穿过所述定位框、所述U型连杆延伸至所述嵌位滑槽内与所述侧板限位抵紧。
- 根据权利要求1所述的一种纺织用纱线筒收纳架,其特征在于:所述定位框上设置有定位槽,所述定位槽与所述U型卡槽相贯通,所述U型连杆上设置有定位插杆,所述定位插杆与所述定位槽相匹配,所述定位插杆的端部穿过所述定位槽延伸至所述定位框的外侧。
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