A clear digital printing equipment for clothes
By designing an automatic leveling device, the problem of uneven garment placement in digital garment printing was solved, achieving efficient and uniform printing results and improving the clarity and efficiency of garment printing.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- 泉州市博绅仁中服饰有限公司
- Filing Date
- 2024-05-29
- Publication Date
- 2026-07-14
AI Technical Summary
In existing digital printing equipment for clothing, uneven placement of garments during the printing process can cause wrinkles, affecting the clarity and uniformity of the printed product. Furthermore, manual operation is time-consuming and labor-intensive.
A device comprising a digital printing equipment body, a conveyor belt assembly, a digital printing assembly, a leveling assembly, and an adjustment assembly is designed. The device automatically levels the surface of the garment by driving a moving plate with a hydraulic rod, combined with a magnetic suction device and a storage plate, ensuring that the printing area is flat.
It improves the clarity and efficiency of garment printing, reduces the time and labor intensity of manual operation, and ensures the uniformity of printing effect.
Smart Images

Figure CN118478600B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of garment processing technology, and in particular to a clear digital printing device for garments. Background Technology
[0002] Clothing is a general term encompassing clothes, shoes, accessories, etc., but primarily refers to clothing. In national standards, clothing is defined as products that are sewn and worn on the human body for protection and decoration.
[0003] Digital garment printing machines enable the printing of images onto garments. These machines are a new type of full-color digital printing equipment that overcomes the limitations of traditional printing equipment, which can only print on paper. They can directly print on various materials without the need for plate making, achieving full-color image printing in a single pass. Utilizing advanced digital printing solutions, digital garment printing machines make the printing process more efficient and convenient, and can achieve high-quality printing effects on garments of different materials.
[0004] When printing on garments using a digital printing machine, the printed surface of the garment needs to be laid flat to prevent wrinkles. Wrinkles affect the overall effect and clarity of the print, leading to problems such as unclear patterns and uneven colors. Currently, this is done manually, which is not only time-consuming and labor-intensive, but also yields unsatisfactory results, with wrinkles still appearing as the garments move on the conveyor belt. Therefore, there is an urgent need for a device to assist workers in placing garments correctly. Summary of the Invention
[0005] The purpose of this invention is to address the shortcomings of existing technologies by providing a clear digital printing device for clothing.
[0006] To achieve the above objectives, the present invention adopts the following technical solution:
[0007] A clear digital printing device for clothing includes a digital printing device body. A conveyor belt assembly is installed on the top of the digital printing device body, a digital printing component is installed above the conveyor belt assembly, and a leveling component is arranged above the conveyor belt assembly and in front of the digital printing component. A movable plate is movably arranged inside the leveling component, and a leveling plate is assembled below the movable plate. An adjustment component is arranged on one side of the leveling component, and multiple storage plates are assembled on the adjustment component. The adjustment component pushes the storage plates into the leveling component in sequence.
[0008] In addition, in a preferred configuration, multiple support columns are fixedly and vertically installed at the corners above the leveling component, the tops of the support columns are connected to the top plate, and a hydraulic rod assembly is fixedly installed in the middle of the top plate. The top extension of the hydraulic rod assembly passes through the top plate and points vertically downward, and the top extension of the hydraulic rod assembly is fixedly connected to the top of the moving plate.
[0009] Furthermore, in a preferred configuration, the top of the leveling component has a tightening cavity extending downwards, the cavity wall of the tightening cavity gradually narrows from top to bottom, and a discharge cavity is connected below the tightening cavity, the discharge cavity passes through the bottom of the leveling component, and a connecting cavity is horizontally opened outwards on one side between the tightening cavity and the discharge cavity.
[0010] Furthermore, in a preferred configuration, an adjustment component is fixedly and vertically arranged on the outer side of the leveling component below the connecting cavity. The top of the adjustment component has a cavity opening downwards, and slide rails are fixedly arranged on both side walls of the cavity. A movable block is movably arranged inside the cavity, and electric sliders are adapted to the slide rails on both sides of the movable block.
[0011] In addition, a preferred structure is that a support frame is fixedly installed on the side of the adjustment component near the connecting cavity, and storage plates are stacked vertically in sequence inside the support frame. The bottom of the support frame is hollow, so that the storage plates can fall into the adjustment component from inside the support frame.
[0012] In addition, a preferred structure is that a support groove is provided on the side of the movable block facing the connecting cavity, the support groove is adapted to the storage plate, and when the movable block moves toward the connecting cavity, the support groove is adapted to move through the connecting cavity into the interior of the leveling component.
[0013] In addition, a preferred structure is that the flat plate is mounted below the movable plate, the garment is wrapped on the flat plate, and the edges and corners of the flat plate are vertically perforated with mounting cavities, each of which is fitted with a magnetic column, the top of which is the S pole and the bottom of which is the N pole.
[0014] Furthermore, in a preferred configuration, an electromagnet is fitted to the bottom of the movable plate corresponding to the flat plate, and the electromagnet is fitted to a magnetic column on the flat plate.
[0015] In addition, the preferred structure is that the storage plate is assembled below the whole plate, the top of the storage plate has a storage cavity opening downward, and magnetic blocks are fixedly and vertically arranged at the corners of the storage cavity. The top of the magnetic block is the S pole and it attracts each other to the bottom of the magnetic column. Furthermore, the conveyor belt assembly has multiple positioning slots corresponding to the array of storage plates.
[0016] The beneficial effects of this invention are as follows: By setting up the digital printing component, printing on clothing can be achieved. By coordinating the leveling component and the adjustment component, the parts of the clothing that need to be printed can be leveled by the moving plate, the leveling plate and the storage plate before printing on the clothing. This not only has high leveling efficiency, but also good leveling effect, which improves the clarity of the clothing print. Attached Figure Description
[0017] Figure 1This is a schematic diagram of the structure of a clear digital printing device for clothing proposed in this invention;
[0018] Figure 2 This is a schematic diagram of the leveling component and the adjusting component of a clear digital printing device for clothing proposed in this invention;
[0019] Figure 3 This is a schematic diagram of the internal structure of the leveling component of a clear digital printing device for clothing proposed in this invention.
[0020] Figure 4 This is a schematic diagram of the top plate of a clear digital printing device for clothing proposed in this invention.
[0021] Figure 5 This is a schematic diagram of the internal structure of the adjustment component and the leveling component of a clear digital printing device for clothing proposed in this invention.
[0022] Figure 6 for Figure 5 A schematic diagram of the structure when the movable plate retracts;
[0023] Figure 7 This is an exploded view of the adjustment component of a clear digital printing device for clothing proposed in this invention.
[0024] Figure 8 This is a schematic diagram of the moving plate, the flat plate, and the storage plate of a clear digital printing device for clothing proposed in this invention.
[0025] Figure 9 for Figure 8 A schematic diagram of the structure when the moving plate, the flat plate, and the storage plate are separated;
[0026] Figure 10 for Figure 9 A schematic diagram of the structure viewed from below.
[0027] In the diagram: 1 Digital printing equipment body, 11 Digital printing components, 2 Conveyor belt components, 21 Positioning slots, 3 Leveling components, 31 Tightening chamber, 32 Connecting chamber, 33 Discharge chamber, 4 Top plate, 41 Support column, 42 Hydraulic rod components, 5 Adjustment components, 51 Movable block, 52 Slide rail, 53 Electric slider, 54 Support slot, 6 Moving plate, 61 Electromagnet, 7 Flat plate, 71 Magnetic column, 8 Storage plate, 81 Magnetic block, 82 Storage chamber, 83 Support frame. Detailed Implementation
[0028] The technical solutions of the present invention will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present invention. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments.
[0029] Reference Figure 1-10 A clear digital printing device for garments includes a digital printing device body 1, a conveyor belt assembly 2 mounted on top of the digital printing device body 1, a digital printing assembly 11 mounted above the conveyor belt assembly 2, and a leveling assembly 3 positioned above the conveyor belt assembly 2 and in front of the digital printing assembly 11. A movable plate 6 is movably disposed inside the leveling assembly 3, a leveling plate 7 is mounted below the movable plate 6, and an adjusting assembly 5 is disposed on one side of the leveling assembly 3. Multiple storage plates 8 are mounted on the adjusting assembly 5, and the adjusting assembly 5 pushes the storage plates 8 sequentially into the leveling assembly 3.
[0030] The conveyor belt assembly 2 allows clothing to be conveyed to the area below the digital printing assembly 11, thus enabling printing on the clothing. It should be noted that the specific structures and operating methods of the conveyor belt assembly 2, the digital printing equipment body 1, and the digital printing assembly 11 are all existing technologies already publicly available on the market, and are not part of the main technical features addressed in this invention; therefore, they will not be elaborated upon further in this invention.
[0031] In this invention, multiple support columns 41 are vertically fixed upwards at the corners of the leveling component 3. The tops of the support columns 41 are connected to the top plate 4. A hydraulic rod assembly 42 is fixedly installed in the middle of the top plate 4. The extended end of the hydraulic rod assembly 42 passes through the top plate 4 and points vertically downwards, and is fixedly connected to the top of the moving plate 6. The hydraulic rod assembly 42 allows the moving plate 6 to be moved, thereby controlling its height. It should be noted that the specific structure and operation of the hydraulic rod assembly 42 are existing technologies already publicly available and are not part of the main technical features addressed in this invention; therefore, they will not be elaborated upon further in this paper.
[0032] The leveling component 3 has a tightening cavity 31 at the top and downwards. The cavity wall of the tightening cavity 31 gradually narrows from top to bottom. The lower part of the tightening cavity 31 is connected to the discharge cavity 33, which passes through the bottom of the leveling component 3. A connecting cavity 32 is horizontally opened outwards on one side between the tightening cavity 31 and the discharge cavity 33.
[0033] Among them, an adjustment component 5 is fixedly and vertically arranged on the outside of the leveling component 3 below the connecting cavity 32. The top of the adjustment component 5 has a cavity opening downward. Slide rails 52 are fixedly arranged on both sides of the cavity. A movable block 51 is movably arranged in the cavity, and electric sliders 53 are adapted to the slide rails 52 on both sides of the movable block 51.
[0034] Among them, a support frame 83 is fixedly installed on the side of the adjustment component 5 near the connecting cavity 32. Storage plates 8 are stacked vertically in sequence inside the support frame 83, and the bottom of the support frame 83 is hollow, so that the storage plates 8 can fall into the adjustment component 5 from inside the support frame 83.
[0035] The movable block 5 has a downward-facing support groove 54 on the side facing the connecting cavity 32. The support groove 54 is adapted to the storage plate 8, and when the movable block 5 moves towards the connecting cavity 32, the support groove 54 adapts to move through the connecting cavity 32 into the interior of the leveling component 3. By adjusting the setting of the component 5, the storage plate 8 can be moved into the interior of the leveling component 3.
[0036] The flat panel 7 is mounted below the movable panel 6. The clothing is wrapped around the flat panel 7, and each corner of the flat panel 7 has a vertically extending mounting cavity. Magnetic posts 71 are inserted into each mounting cavity, with the top of the magnetic post 71 being the S pole and the bottom being the N pole. The magnetic posts 71 allow the flat panel 7 to adhere to both the movable panel 6 above it and the storage panel 8 below it.
[0037] Among them, the bottom of the movable plate 6 is fitted with an electromagnet 61 corresponding to the flat plate 7, and the electromagnet 61 is fitted with the magnetic column on the flat plate 7.
[0038] The storage plate 8 is mounted below the flat plate 7. A storage cavity 82 is formed on the top of the storage plate 8, facing downwards. Magnetic blocks 81 are fixed vertically at the corners of the storage cavity 82. The top of each magnetic block 81 is an S-pole and attracts the bottom of the magnetic column 71. Multiple positioning slots 21 are formed on the conveyor belt assembly 2 corresponding to the array of storage plates 8. The storage cavity 82 within the storage plate 8 allows for the storage of remaining fabric from the garment, preventing contamination of other parts of the garment during printing.
[0039] In this invention, when the staff needs to print on the clothing, they can first wrap the clothing on the flat plate 7, wrap the part to be printed on the top of the flat plate 7, and manually flatten the clothing on the top of the flat plate 7, while the rest of the clothing is located below the flat plate 7.
[0040] Furthermore, the user can then place the flat plate 7 below the movable plate 6. Due to the magnetic attraction between the electromagnet 61 on the movable plate 6 and the magnetic column 71 on the flat plate 7, the flat plate 7 is fixed below the movable plate 6. The user can then control the extending end of the hydraulic rod assembly 42 to extend downwards, at which point the movable plate 6 will move the flat plate 7 downwards.
[0041] As the flat plate 7 moves downwards, the fabric below the flat plate 7 gradually moves towards the center via the ramp in the tightening cavity 31. When the flat plate 7 moves above the storage plate 8, the fabric below the flat plate 7 enters the storage cavity 82, and the magnetic attraction between the magnetic block 81 on the storage plate 8 and the magnetic post 71 on the flat plate 7 fixes the storage plate 8 below the flat plate 7. This allows the storage plate 8 to press the fabric below the flat plate 7 firmly, ensuring the fabric above the flat plate 7 that needs printing remains flat.
[0042] Next, the user simply controls the movable block 51 to retract into the adjusting component 5 and controls the electromagnet 61 to be de-energized. At this time, the flat plate 7 and the storage plate 8 can fall through the discharge chamber 33 into the positioning groove 21 on the conveyor belt assembly 2. Thus, the conveyor belt assembly 2 can move the flat plate 7, the storage plate 8, and the garment to the bottom of the digital printing assembly 2 to achieve printing. It is worth noting that the positioning groove 21 on the conveyor belt assembly 2 will always be stopped below the discharge chamber 33. This procedure is existing technology and will not be described in detail.
[0043] Furthermore, when the movable block 51 moves into the adjusting component 5 via the electric slider 53, the support groove 53 on the movable block 51 will automatically reset to below the support frame 83, allowing a storage plate 8 on the support frame 83 to fall into the support groove 54 under its own weight. Subsequently, the movable block 51 continues to move towards the leveling component 3, thereby sequentially feeding the storage plate 8 into the leveling component 3.
[0044] In this invention, the digital printing component 2 enables the printing of clothing. By coordinating the leveling component 3 and the adjusting component 5, the parts of the clothing to be printed can be leveled by the moving plate 6, the leveling plate 7, and the storage plate 8 before printing. This not only improves the leveling efficiency but also the leveling effect, thus enhancing the clarity of the printed clothing.
[0045] The above description is only a preferred embodiment of the present invention, but the scope of protection of the present invention is not limited thereto. Any equivalent substitutions or modifications made by those skilled in the art within the scope of the technology disclosed in the present invention, based on the technical solution and inventive concept of the present invention, should be covered within the scope of protection of the present invention.
Claims
1. A clear digital printing device for garments, comprising a digital printing device body (1), characterized in that, The digital printing equipment body (1) is equipped with a conveyor belt assembly (2) on top, a digital printing assembly (11) is installed above the conveyor belt assembly (2), and a leveling assembly (3) is provided above the conveyor belt assembly (2) in front of the digital printing assembly (11). The leveling component (3) is equipped with a movable plate (6) inside, and a leveling plate (7) is mounted below the movable plate (6). An adjustment component (5) is provided on one side of the leveling component (3). Multiple storage plates (8) are mounted on the adjustment component (5), and the adjustment component (5) pushes the storage plates (8) into the leveling component (3) in sequence. The top of the leveling component (3) is provided with a tightening cavity (31) facing downwards. The cavity wall of the tightening cavity (31) gradually shrinks from top to bottom. The lower part of the tightening cavity (31) is connected to the discharge cavity (33). The discharge cavity (33) passes through the bottom of the leveling component (3), and a connecting cavity (32) is provided horizontally outwards on one side between the tightening cavity (31) and the discharge cavity (33). The flat plate (7) is mounted below the movable plate (6), the clothing is wrapped on the flat plate (7), and the edges and corners of the flat plate (7) are vertically through-holes with mounting cavities. Magnetic columns (71) are inserted into the mounting cavities. The top of the magnetic column (71) is the S pole and the bottom is the N pole. The bottom of the movable plate (6) is fitted with an electromagnet (61) corresponding to the flat plate (7), and the electromagnet (61) is fitted with the magnetic column on the flat plate (7). The storage plate (8) is mounted below the flat plate (7). The top of the storage plate (8) has a storage cavity (82) facing downward. Magnetic blocks (81) are fixedly and vertically arranged at the corners of the storage cavity (82). The top of the magnetic block (81) is the S pole and it attracts each other to the bottom of the magnetic column (71). Multiple positioning slots (21) are opened on the conveyor belt assembly (2) corresponding to the array of storage plates (8).
2. The clear digital printing equipment for clothing according to claim 1, characterized in that, Multiple support columns (41) are fixedly and vertically installed at the corners above the leveling component (3). The top of each support column (41) is connected to the top plate (4). A hydraulic rod assembly (42) is fixedly installed in the middle of the top plate (4). The top extension of the hydraulic rod assembly (42) passes through the top plate (4) and is vertically downward. The top extension of the hydraulic rod assembly (42) is fixedly connected to the top of the moving plate (6).
3. The clear digital printing equipment for clothing according to claim 1, characterized in that, An adjustment component (5) is fixedly and vertically arranged on the outside of the leveling component (3) below the connecting cavity (32). The top of the adjustment component (5) has a cavity opening downwards. Slide rails (52) are fixedly arranged on both sides of the cavity. A movable block (51) is movably arranged in the cavity, and electric sliders (53) are adapted to the slide rails (52) on both sides of the movable block (51).
4. The clear digital printing equipment for clothing according to claim 3, characterized in that, A support frame (83) is fixedly installed on the side of the adjustment component (5) near the connecting cavity (32). Storage plates (8) are stacked vertically inside the support frame (83), and the bottom of the support frame (83) is hollow, so that the storage plates (8) can fall from the support frame (83) onto the adjustment component (5).
5. A clear digital printing device for clothing according to claim 4, characterized in that, The movable block (51) has a support groove (54) on the side facing the connecting cavity (32) and is adapted to the storage plate (8). When the movable block (51) moves to the connecting cavity (32), the support groove (54) is adapted to move through the connecting cavity (32) into the interior of the leveling component (3).