Patent Grant
12084800
This application is the national phase entry of International Application No. PCT/CN2022/082509, filed on Mar. 23, 2022, which is based upon and claims priority to Chinese Patent Application No. 202110464385.7, filed on Apr. 28, 2021, the entire contents of which are incorporated herein by reference.
The present disclosure relates to the technical field of hat-making equipment, and in particular, to a flip-over assembly for automatic hat-making production line equipment.
Hats are a kind of clothing worn on the head, most of which can cover the entire top of the head and are mainly used to protect the head. Some hats have protruding edges to prevent from the sunshine. During hat sewing, double-needle sewing is required after lamination, and the cloth subjected to lamination needs to be opened before the double-needle sewing. However, prior hat-making processing equipment has poor overall processing accuracy, and cannot perform double-needle sewing and subsequent separation and opening on the cloth, which increases secondary operation intensity of the staff. In addition, the prior processing equipment has a small working range and cannot complete cloth processing in a designated area.
The prior art has the following shortcomings. The prior hat-making processing equipment has poor overall processing accuracy, and cannot perform double-needle sewing and subsequent separation and opening on the cloth, which increases secondary operation intensity of the staff, and affects an overall processing effect. In addition, the prior processing equipment has a small working range, cannot complete cloth processing in a designated area, and cannot dynamically adjust a processing angle and a processing range according to actual use requirements.
An objective of the present disclosure is to provide a flip-over assembly for automatic hat-making production line equipment, so as to solve problems in the above background art.
To achieve the above objective, the present disclosure provides the following technical solutions. A flip-over assembly for automatic hat-making production line equipment includes an installation seat, a flip-over component, two groups of driving components, a translation component, and an angle adjustment component. The flip-over component is correspondingly installed at a top end of the installation seat. The two groups of driving components are matchingly installed on both side walls of the installation seat. Output ends of the driving components are in a transmission connection with the flip-over component. The angle adjustment component is installed on a lower surface of the installation seat. The translation component is matchingly installed on a lower surface of the angle adjustment component.
Preferably, the installation seat may have a rectangular structure as a whole, and the installation seat may be pressed with steel.
Preferably, the installation seat may be provided with a sliding rail on each of both side walls, and the sliding rail may be arranged corresponding to each of the driving components.
Preferably, the flip-over component may include a rotating shaft, a first supporting member, a second supporting member, a left side plate, and a right side plate. The rotating shaft may be installed at a center of the top end of the installation seat through a bracket. The first supporting member may be rotatably installed on one side of the rotating shaft. The second supporting member may be rotatably installed on one side of the rotating shaft. The left side plate may be correspondingly locked with and installed on the first supporting member. The right side plate may be correspondingly locked with and installed on the second supporting member. The left side plate and the right side plate may be symmetrically arranged along the rotating shaft.
Preferably, two groups of left side sucking discs may be arranged in parallel on one side of an upper surface of the left side plate. Two groups of right side sucking discs may be arranged in parallel on one side of an upper surface of the right side plate. The left side sucking discs and the right side sucking discs may be distributed in parallel.
Preferably, each of the driving components may include a positioning plate, a fixing member, a cylinder, and a connecting member. The positioning plates may be installed in parallel on both side walls of the installation seat. The positioning plate may be correspondingly engaged with a sliding rail slidably. The fixing member may be locked with and installed on one side of the positioning plate. A bottom end of the cylinder may be rotatably connected with a head end of the fixing member through a pin shaft. The connecting members may be correspondingly installed at middle parts of lower surfaces of a first supporting member and a second supporting member. An output end of the cylinder may be movably connected with the connecting member through a hinge.
Preferably, the fixing member may be locked and fixed with the positioning plate through a bolt, and the fixing member may have a concave structure as a whole.
Preferably, the translation component may include a movement chamber, a driving motor, a lead screw, a driving piece, and a moving plate. The movement chamber may be arranged beneath the installation seat. The driving motor may be installed on a side wall of the movement chamber through a bracket. Both ends of the lead screw may be rotatably connected with both sides of an inner wall of the movement chamber through bearings. An output end of the driving motor may be in a transmission connection with the lead screw. The driving piece may be sleeved outside the lead screw by screwing with a screw and may be slidably attached with the inner wall of the movement chamber. The moving plate may be slidably installed on an upper surface of the movement chamber and may be connected with the driving piece.
Preferably, limiting plates may be installed in parallel at bottom ends of both side walls of the movement chamber, and installation holes may penetrate the limiting plates.
Preferably, the angle adjustment component may include a fixing column, a top plate, a stepping motor, a driving gear, and a transmission gear. The fixing column may be rotatably installed on an upper surface of a moving plate. The top plate may be installed at a top end of the fixing column. The top plate may be locked and fixed with the installation seat through a bolt. The stepping motor may be installed on one side of the fixing column through a bracket. The driving gear may be installed at an output end of the stepping motor. The transmission gear may be sleeved outside the fixing column. The driving gear may be in meshing and transmission connection with the transmission gear.
Compared with the prior art, the present disclosure has the following beneficial effects:
Reference numerals: 1, an installation seat; 2, a flip-over component; 3, a driving component; 4, a translation component; 5, an angle adjustment component; 6, a sliding rail; 7, a rotating shaft; 8, a first supporting member; 9, a second supporting member; 10, a left side plate; 11, a right side plate; 12, a left side sucking disc; 13, a right side sucking disc; 14, a positioning plate; 15, a fixing member; 16, a cylinder; 17, a connecting member; 18, a movement chamber; 19, a driving motor; 20, a lead screw; 21, a driving piece; 22, a moving plate; 23, a limiting plate; 24, a fixing column; 25, a top plate; 26, a stepping motor; 27, a driving gear; and 28, a transmission gear.
The technical solutions in the embodiments of the present disclosure will be described below clearly and completely with reference to the accompanying drawings in the embodiments of the present disclosure. The described embodiments are merely some rather than all of the embodiments of the present disclosure. All other embodiments obtained by those of ordinary skill in the art based on the embodiments of the present disclosure without creative efforts shall fall within the protection scope of the present disclosure.
Referring to
The installation seat 1 of the present disclosure has a rectangular structure as a whole, and the installation seat 1 is pressed with steel.
The installation seat 1 of the present disclosure is provided with a sliding rail 6 on each of both side walls, and the sliding rail 6 is arranged corresponding to each of the driving components 3.
The flip-over component 2 of the present disclosure includes a rotating shaft 7, a first supporting member 8, a second supporting member 9, a left side plate 10, and a right side plate 11. The rotating shaft 7 is installed at a center of the top end of the installation seat 1 through a bracket. The first supporting member 8 is rotatably installed on one side of the rotating shaft 7. The second supporting member 9 is rotatably installed on one side of the rotating shaft 7. The left side plate 10 is correspondingly locked with and installed on the first supporting member 8. The right side plate 11 is correspondingly locked with and installed on the second supporting member 9. The left side plate 10 and the right side plate 11 are symmetrically arranged along the rotating shaft 7. The cloth falls on the left side plate 10 and the right side plate 11 after conveying. The cloth can be collected using the left side plate 10 and the right side plate 11, and the cloth can be clamped and opened. Double-needle sewing is performed on the cloth and subsequent cloth opening is performed, which can be controlled by the operator.
Two groups of left side sucking discs 12 are arranged in parallel on one side of an upper surface of the left side plate 10 of the present disclosure. Two groups of right side sucking discs 13 are arranged in parallel on one side of an upper surface of the right side plate 11. The left side sucking discs 12 and the right side sucking discs 13 are distributed in parallel. With the assistance of the left side sucking discs 12 and the right side sucking discs 13, stability of the cloth is ensured and falling is avoided.
Each of the driving components 3 of the present disclosure includes a positioning plate 14, a fixing member 15, a cylinder 16, and a connecting member 17. The positioning plates 14 are installed in parallel on both side walls of the installation seat 1. The positioning plates 14 each are correspondingly engaged with a sliding rail 6 slidably. The fixing member 15 is locked with and installed on one side of the positioning plate 14. A bottom end of the cylinder 16 is rotatably connected with a head end of the fixing member 15 through a pin shaft. The connecting members 17 are correspondingly installed at middle parts of lower surfaces of a first supporting member 8 and a second supporting member 9. An output end of the cylinder 16 is movably connected with the connecting member 17 through a hinge. The operator controls the cylinder 16 electrically, and under the transmission of the connecting member 17, the left side plate 10 and the right side plate 11 perform clamping and opening work, so as to provide a stable power source for the left side plate 10 and the right side plate 11 subsequently.
The fixing member 15 of the present disclosure is locked and fixed with the positioning plate 14 through a bolt, and the fixing member 15 has a concave structure as a whole.
The translation component 4 of the present disclosure includes a movement chamber 18, a driving motor 19, a lead screw 20, a driving piece 21, and a moving plate 22. The movement chamber 18 is arranged beneath the installation seat 1. The driving motor 19 is installed on a side wall of the movement chamber 18 through a bracket. Both ends of the lead screw 20 are rotatably connected with both sides of an inner wall of the movement chamber 18 through bearings. An output end of the driving motor 19 is in a transmission connection with the lead screw 20. The driving piece 21 is sleeved outside the lead screw 20 by screwing with a screw and is slidably attached with the inner wall of the movement chamber 18. The moving plate 22 is slidably installed on an upper surface of the movement chamber 18 and is connected with the driving piece 21. The moving plate 22 is driven to slide left and right on the upper surface of the movement chamber 18, and the installation seat 1 is linked to perform a translation action on the upper surface of the movement chamber 18, which increases the overall processing range, and can stably process the cloth in the designated area.
Limiting plates 23 are installed in parallel at bottom ends of both side walls of the movement chamber 18 of the present disclosure, and installation holes penetrate the limiting plates 23, which facilitates assembly by the operator.
The angle adjustment component 5 of the present disclosure includes a fixing column 24, a top plate 25, a stepping motor 26, a driving gear 27, and a transmission gear 28. The fixing column 24 is rotatably installed on an upper surface of a moving plate 22. The top plate 25 is installed at a top end of the fixing column 24. The top plate 25 is locked and fixed with the installation seat 1 through a bolt. The stepping motor 26 is installed on one side of the fixing column 24 through a bracket. The driving gear 27 is installed at an output end of the stepping motor 26. The transmission gear 28 is sleeved outside the fixing column 24. The driving gear 27 is in meshing and transmission connection with the transmission gear 28. Since the driving gear 27 is in meshing and transmission connection with the transmission gear 28, the transmission gear 28 and the fixing column 24 rotate, so as to realize an overall angle adjustment of the equipment, which can be dynamically regulated and used during processing, and can process the cloth of different angles synchronously and quickly.
Working principle: During use, the operator first positions and fixes the whole equipment using the limiting plate 23, which ensures efficient stable operation of subsequent processing work. The flip-over component 2 is arranged, such that the cloth falls on the left side plate 10 and the right side plate 11 after conveying. The cloth can be collected using the left side plate 10 and the right side plate 11, and the cloth can be clamped and opened. Double-needle sewing is performed on the cloth and subsequent cloth opening is performed, which can be controlled by the operator. In addition, with the assistance of the left side sucking discs 12 and the right side sucking discs 13, stability of the cloth is ensured and falling is avoided, which improves the overall processing accuracy. With the cooperation of the driving component 3, the guide of the positioning plate 14 is realized by the sliding rail 6, which is convenient for the operator to install and operate. Subsequently, the operator controls the cylinder 16 electrically, and under the transmission of the connecting member 17, the left side plate 10 and the right side plate 11 perform clamping and opening work, so as to provide a stable power source for the left side plate 10 and the right side plate 11 subsequently. The overall operation is quick and convenient for the operator to run and use. The angle adjustment component 5 is arranged, and a connection between the movement chamber 18 and the installation seat 1 is realized using the fixing column 24. The operator controls the stepping motor 26 electrically to drive the driving gear 27 to rotate, and since the driving gear 27 is in meshing and transmission connection with the transmission gear 28, the transmission gear 28 and the fixing column 24 rotate, so as to realize an overall angle adjustment of the equipment, which can be dynamically regulated and used during processing, and can process the cloth of different angles synchronously and quickly. The translation component 4 is arranged, and the operator controls the driving motor 19 electrically to drive the lead screw 20 to rotate. Since the driving piece 21 is connected with the lead screw 20 by screwing, the moving plate 22 is driven to slide left and right on the upper surface of the movement chamber 18, and the installation seat 1 is linked to perform a translation action on the upper surface of the movement chamber 18, which increases the overall processing range, can stably process the cloth in the designated area, and enhances the overall processing effect.
It should be noted that relational terms herein such as first and second are merely used to distinguish one entity or operation from another entity or operation without necessarily requiring or implying any actual such relationship or order between such entities or operations. In addition, terms “include”, “comprise”, or any other variations thereof are intended to cover a non-exclusive inclusion, so that a process, a method, an article, or a device including a series of elements not only includes those elements, but also includes other elements that are not explicitly listed, or also includes inherent elements of the process, the method, the article, or the device.
Although the embodiments of the present disclosure have been illustrated and described, it should be understood that those of ordinary skill in the art may make various changes, modifications, replacements, and variations to the above embodiments without departing from the principle and spirit of the present disclosure, and the scope of the present disclosure is limited by the appended claims and their legal equivalents.
| Number | Date | Country | Kind |
|---|---|---|---|
| 202110464385.7 | Apr 2021 | CN | national |
| Filing Document | Filing Date | Country | Kind |
|---|---|---|---|
| PCT/CN2022/082509 | 3/23/2022 | WO |
| Publishing Document | Publishing Date | Country | Kind |
|---|---|---|---|
| WO2022/227951 | 11/3/2022 | WO | A |
| Number | Name | Date | Kind |
|---|---|---|---|
| 3917249 | Constantine | Nov 1975 | A |
| 5456434 | Lomauro | Oct 1995 | A |
| 10281440 | Brandlhuber | May 2019 | B2 |
| 20080223996 | Joanisse | Sep 2008 | A1 |
| 20190344974 | Wicks | Nov 2019 | A1 |
| 20190372514 | Almy | Dec 2019 | A1 |
| Number | Date | Country |
|---|---|---|
| 103485083 | Jan 2014 | CN |
| 205636064 | Oct 2016 | CN |
| 208899126 | May 2019 | CN |
| 210561097 | May 2020 | CN |
| 113235233 | Aug 2021 | CN |
| H0360695 | Mar 1991 | JP |
| H10273871 | Oct 1998 | JP |
| 2008133603 | Nov 2008 | WO |
| Number | Date | Country | |
|---|---|---|---|
| 20230304204 A1 | Sep 2023 | US |
