A new type of ink-jet code fixing device for emulsion packaging bottle production
By combining the support, clamping, and rotating parts, the problem of coding quality caused by shaking in the production of emulsion packaging bottles is solved, and the stable fixing and angle adjustment of the packaging bottles are achieved, thereby improving production efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- SICHUAN XINSHENG PACKAGING TECH CO LTD
- Filing Date
- 2025-05-14
- Publication Date
- 2026-07-10
AI Technical Summary
Existing inkjet printing devices for emulsion packaging bottles are susceptible to external disturbances or equipment vibrations during high-speed printing, causing the bottle to shake, affecting the printing quality, requiring frequent machine stops for calibration, and reducing production efficiency.
The design incorporates a combination of a support section, a clamping section, and a rotating section. The clamping section uses an arc-shaped clamp and an anti-slip silicone layer to increase friction and secure the packaging bottle. The rotating section uses a worm gear transmission structure to adjust the coding angle and self-lock, ensuring fixation and angle stability.
It achieves stable fixation and angle adjustment of packaging bottles, avoiding shaking and angle deviation caused by external forces, and improving coding quality and production efficiency.
Smart Images

Figure CN224476742U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of packaging bottle production technology, and in particular relates to a novel inkjet coding fixing device for emulsion packaging bottle production. Background Technology
[0002] A novel inkjet coding and fixing device for emulsion packaging bottle production is an automated inkjet coding and positioning equipment designed specifically for emulsion packaging bottle production lines. It adopts high-precision sensors and adjustable mechanical clamps, which can quickly identify the position of the bottle and fix it stably, ensuring that the coding content is clear and without offset on curved or irregularly shaped bottles.
[0003] This device typically integrates an intelligent control system, supports multi-angle printing, is compatible with different bottle types, and features anti-shake and automatic calibration functions to improve production efficiency and coding qualification rate.
[0004] Existing inkjet printing and fixing devices for emulsion packaging bottles rely solely on the contact and fixation of two clamping plates, which cannot constrain the packaging bottles in all directions. When printing at high speed, the bottles are easily disturbed by external forces or equipment vibrations, causing them to shake and affecting the printing quality. Frequent machine stops are required for calibration, which reduces production efficiency. Utility Model Content
[0005] The purpose of this invention is to provide a novel inkjet coding fixing device for the production of emulsion packaging bottles, so as to solve the problems mentioned in the background art.
[0006] The technical solution adopted in this utility model is:
[0007] A novel inkjet printing and fixing device for producing emulsion packaging bottles includes: a support plate, and further includes: a support part disposed on the top plate of the support plate for supporting a clamping part; four clamping parts disposed on the support part for fixing the packaging bottle; and a rotating part disposed at the bottom of the support plate for rotating the fixed packaging bottle; wherein the support part connects the clamping part and the rotating part, the clamping part is used to fix the packaging bottle, and the rotating part is used to rotate the packaging bottle after it is fixed by the clamping part.
[0008] Optionally, the support includes a ring fixedly connected to the top plate of the support plate, and the ring has a plurality of T-slots; wherein the plurality of T-slots will provide sliding support for the clamping part.
[0009] Optionally, the clamping part includes a clamping assembly disposed on a ring for clamping the packaging bottle; and a driving assembly disposed on the top plate of the support plate for providing power output to the clamping assembly; wherein, before clamping the packaging bottle, the packaging bottle can be placed between the clamping assemblies, and then the driving assembly is activated, which drives the clamping assembly to clamp the packaging bottle.
[0010] Optionally, the rotating part includes a rotating assembly disposed at the bottom of the support plate for rotating the packaging bottle after it has been fixed by the clamping part; thereby, a rotating component is mounted on the rotating assembly for driving the packaging bottle clamped on the clamping assembly to rotate; wherein, after the packaging bottle is clamped, the rotating assembly can be rotated to drive the rotating assembly to rotate the fixed packaging bottle.
[0011] Optionally, the clamping assembly includes T-shaped semi-toothed rods slidably connected to the inner walls of several T-shaped slots. Each of the T-shaped semi-toothed rods has an arc-shaped clamp fixedly connected to one end near each other. An internal gear is fixedly connected to the inner wall of the ring. Several rotating rods are rotatably connected to the top plate of the support plate. Each rotating rod has a gear sleeved at one end near the internal gear, and all gears mesh with the internal gear. By driving the gears to rotate synchronously with the internal gear, and the internal gear meshing with the multiple T-shaped semi-toothed rods sliding on the ring, the rotation of the internal gear can drive the multiple T-shaped semi-toothed rods and their arc-shaped clamps to converge centrally, thus fixing the packaging bottle.
[0012] Optionally, the drive assembly includes a motor slot formed on the top plate of the support plate, a motor is fitted on the inner wall of the motor slot, the output shaft of the motor is fixedly connected to a rotating shaft via a coupling, and a drive gear is fitted on the outer wall of the rotating shaft. The drive gear meshes with an internal gear. The motor drives the drive gear via the rotating shaft, and since the drive gear meshes with the internal gear, the drive gear can drive the internal gear to rotate synchronously through the drive of the motor.
[0013] Optionally, the rotating assembly includes a rotating base frame disposed at the bottom of the support plate, a rotating rod two is rotatably connected to the rotating base frame, and a worm gear is sleeved on the outer wall of the rotating rod two; wherein, the top end of the rotating rod two passes through the rotating base frame and is fixedly connected to the support plate.
[0014] Optionally, the rotating assembly includes a rotating rod three rotatably connected to the rotating base frame. The rotating rod three passes through the rotating base frame and is rotatably connected to it. A worm gear is sleeved on the outer wall of the rotating rod three, and the worm gear meshes with a worm wheel. A manual knob is sleeved on the outer wall of the right end of the rotating rod three. By rotating the manual knob on the outer wall of the rotating rod three, the rotating rod three can drive the worm wheel on it to mesh with the worm wheel on the outer wall of the rotating rod two, thereby enabling the rotating rod two to drive the packaging bottle clamped on the support to rotate.
[0015] Compared with the prior art, the beneficial effects of this utility model are:
[0016] 1. By setting up a clamping part, the packaging bottle can be placed between multiple arc-shaped clamps during use. The inner surface of the arc-shaped clamps is provided with an anti-slip silicone layer to increase the friction with the surface of the packaging bottle and prevent slippage during clamping. Then, the motor is started, and the motor will drive the drive gear through the rotating shaft. Since the drive gear meshes with the internal gear rotating on the ring, the drive gear can drive the internal gear to rotate synchronously. When the internal gear rotates, the internal gear will mesh and link with the gears on multiple rotating rods, so that the T-shaped half-tooth rods meshing with the multiple gears can drive the arc-shaped clamps on them to converge in the center and fix the packaging bottle from different directions.
[0017] 2. By setting up a rotating part, once the packaging bottle is fixed, if it is necessary to adjust the coding angle of the packaging bottle, the manual knob on the rotating rod three can be turned. The surface of the manual knob is designed with anti-slip texture to facilitate the operator to apply force. Turning the manual knob will cause the rotating rod three to drive the worm gear on it to mesh with the worm wheel on the rotating rod two. The worm gear transmission structure has a self-locking function, which can ensure that the packaging bottle is fixed after being adjusted to a suitable angle and will not shift due to external force. Thus, the rotating rod two can drive the packaging bottle held on the support plate to adjust the coding angle, thereby meeting different coding angle requirements. Attached Figure Description
[0018] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0019] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0020] Figure 2 This is a schematic diagram of the clamping part of this utility model;
[0021] Figure 3 This is a schematic diagram of the rotating part structure of this utility model;
[0022] Figure 4 for Figure 2 A magnified view of part A in the diagram;
[0023] Figure 5 for Figure 3 A magnified view of part B in the diagram.
[0024] Figure label:
[0025] 1. Support section; 111. Support plate; 112. Ring; 113. T-slot; 2. Clamping section; 21. Clamping assembly; 211. T-shaped half-tooth rod; 212. Arc-shaped clamp; 213. Internal gear; 214. Rotating rod one; 215. Gear; 22. Drive assembly; 221. Motor slot; 222. Motor; 223. Rotating shaft; 224. Drive gear; 3. Rotating section; 31. Rotating assembly; 311. Rotating base frame; 312. Rotating rod two; 313. Worm gear; 32. Rotating assembly; 321. Rotating rod three; 322. Worm; 323. Manual knob. Detailed Implementation
[0026] In the description of this utility model, it should be understood that the terms "center," "longitudinal," "transverse," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," and "circumferential" indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings, or the orientation or positional relationship commonly used when the product of this utility model is in use, or the orientation or positional relationship commonly understood by those skilled in the art. They are only used to facilitate the description of this utility model and to simplify the description, and are not intended to indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.
[0027] Furthermore, the terms "first" and "second" are used for descriptive purposes only and should not be construed as indicating or implying relative importance or implicitly specifying the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of this utility model, "a plurality of" means two or more, unless otherwise explicitly specified.
[0028] Given that the current technology requires disassembling or installing multiple bolts one by one to disassemble or install the blind flange, the operation is not only time-consuming and labor-intensive, but also the bolts and gaskets of the blind flange are prone to deformation due to uneven stress after repeated disassembly and installation, which leads to sealing failure, resulting in pressure loss in the circulation pipeline and failure of pressure maintenance.
[0029] like Figure 1-5 As shown, this utility model embodiment provides a novel inkjet printing and fixing device for producing emulsion packaging bottles, including a support plate 111, and further including: a support part 1, which is disposed on the top plate of the support plate 111 and is used to support the clamping part 2; four clamping parts 2 are disposed on the support part 1 and are used to fix the packaging bottle; and a rotating part 3, which is disposed on the bottom of the support plate 111 and is used to rotate the fixed packaging bottle; wherein, the support part 1 can connect the clamping part 2 and the rotating part 3, the clamping part 2 is used to fix the packaging bottle, and the rotating part 3 is used to rotate the packaging bottle after it is fixed by the clamping part 2. The support part 1 includes a ring 112 fixedly connected to the top plate of the support plate 111, and the ring 112 is provided with a plurality of T-slots 113.
[0030] The clamping part 2 includes a clamping assembly 21 disposed on the ring 112 for clamping the packaging bottle; and a driving assembly 22 disposed on the top plate of the support plate 111 for providing power output to the clamping assembly 21. Before clamping the packaging bottle, the bottle can be placed between the clamping assemblies 21. Then, the driving assembly 22 is activated, driving the clamping assembly 21 to clamp the bottle. The clamping assembly 21 includes T-shaped semi-toothed rods 211 slidably connected to the inner walls of several T-slots 113. An arc-shaped clamp 212 is fixedly connected to the ends of the rings 111 that are close to each other. An internal gear 213 is fixedly connected to the inner wall of the ring 112. Several rotating rods 214 are rotatably connected to the top plate of the support plate 111. Gears 215 are sleeved on the ends of the rotating rods 214 that are close to the internal gear 213. The gears 215 mesh with the internal gear 213. The drive assembly 22 includes a motor slot 221 opened on the top plate of the support plate 111. A motor 222 is sleeved on the inner wall of the motor slot 221. The output shaft of the motor 222 is fixedly connected to a rotating shaft 223 through a coupling. A drive gear 224 is fitted onto the outer wall, meshing with an inner gear 213. A drive motor 222 drives the drive gear 224 via a rotating shaft 223. Since the drive gear 224 meshes with the inner gear 213, the motor 222 drives the inner gear 213 to rotate synchronously. By providing the clamping part 2, the packaging bottle can be placed between multiple arc-shaped clamps 212 during use. The inner surface of the arc-shaped clamps 212 is provided with an anti-slip silicone layer to increase friction with the surface of the packaging bottle and prevent over-clamping. If slippage occurs during the process, then start the motor 222. The motor 222 will drive the drive gear 224 through the rotating shaft 223. Since the drive gear 224 meshes with the internal gear 213 rotating on the ring 112, the drive gear 224 can drive the internal gear 213 to rotate synchronously. When the internal gear 213 is rotating, the internal gear 213 will mesh with the gears 215 on the multiple rotating rods 214, so that the T-shaped half-tooth rods 211 meshing with the multiple gears 215 can drive the arc-shaped clamps 212 on them to converge in the center and fix the packaging bottle from different directions.
[0031] The rotating part 3 includes a rotating assembly 31, which is disposed at the bottom of the support plate 111 and is used to rotate the packaging bottle after it is fixed by the clamping part 2. A rotating assembly 32, mounted on the rotating assembly 31, is used to drive the packaging bottle clamped on the clamping assembly 21 to rotate. The rotating assembly 31 includes a rotating base frame 311 disposed at the bottom of the support plate 111, on which a rotating rod 312 is rotatably connected. A worm gear 313 is sleeved on the outer wall of the rotating rod 312. The top end of the rotating rod 312 passes through the rotating base frame 311 and is fixedly connected to the support plate 111. The rotating assembly 32 includes a rotating rod 312 rotatably connected to the rotating base frame 311. 321, Rotating rod 321 passes through and is rotatably connected to the rotating base frame 311. A worm gear 322 is sleeved on the outer wall of rotating rod 321, meshing with a worm wheel 313. A manual knob 323 is sleeved on the right end of rotating rod 321. By setting the rotating part 3, when the packaging bottle is fixed, if it is necessary to adjust the coding angle of the packaging bottle, the manual knob 323 on rotating rod 321 can be rotated. The surface of the manual knob 323 is designed with anti-slip textures to facilitate the operator's application of force. Rotating the manual knob 323 causes rotating rod 321 to drive the worm gear 322 on it to mesh with the worm wheel 313 on rotating rod 312. The worm gear transmission structure has a self-locking function, ensuring that the packaging bottle is adjusted to the desired angle.
[0032] In use, the packaging bottle can be placed between multiple arc-shaped clamps 212. The inner surface of the arc-shaped clamps 212 is provided with an anti-slip silicone layer to increase the friction with the surface of the packaging bottle and prevent slippage during clamping. Then, the motor 222 is started, and the motor 222 drives the drive gear 224 through the rotating shaft 223. Since the drive gear 224 meshes with the internal gear 213 rotating on the ring 112, the drive gear 224 can drive the internal gear 213 to rotate synchronously. When the internal gear 213 rotates, the internal gear 213 will mesh with the gears 215 on the multiple rotating rods 214, thereby enabling the T-shaped semi-tooth rods 211 meshing with them on the multiple gears 215 to drive the arc-shaped semi-tooth rods on them. The clamps 212 are centered and converge to fix the packaging bottle from different directions. After the packaging bottle is fixed, if it is necessary to adjust the coding angle of the packaging bottle, the manual knob 323 on the rotating rod 321 can be rotated. The surface of the manual knob 323 is designed with anti-slip texture to facilitate the operator to apply force. Rotating the manual knob 323 causes the rotating rod 321 to drive the worm gear 322 on it to mesh with the worm wheel 313 on the rotating rod 212. The worm gear transmission structure has a self-locking function, which can ensure that the packaging bottle is fixed after being adjusted to a suitable angle and will not shift due to external force. Thus, the rotating rod 212 can drive the packaging bottle held on the support plate 111 to adjust the coding angle to meet different coding angle requirements.
[0033] Finally, it should be noted that the above description is merely a preferred embodiment of this utility model and is not intended to limit the utility model. Although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art can still modify the technical solutions described in the foregoing embodiments or make equivalent substitutions for some of the technical features. Any modifications, equivalent substitutions, improvements, etc., made within the spirit and principles of this utility model should be included within the protection scope of this utility model.
Claims
1. A novel inkjet printing and fixing device for producing emulsion packaging bottles, wherein the support plate is characterized in that, Also includes: A support portion is disposed on the top plate of the support plate and is used to support the clamping portion; The support plate includes four clamping parts for fixing the packaging bottle and a rotating part for rotating the fixed packaging bottle. The support plate connects the clamping and rotating parts. The clamping parts are used to fix the packaging bottle, and the rotating parts are used to rotate the fixed packaging bottle.
2. The novel inkjet coding and fixing device for producing emulsion packaging bottles according to claim 1, characterized in that, The support includes a ring fixedly connected to the top plate of the support plate, and the ring has a plurality of T-slots; wherein the plurality of T-slots will provide sliding support for the clamping part.
3. The novel inkjet coding and fixing device for producing emulsion packaging bottles according to claim 2, characterized in that, The clamping part includes a clamping assembly disposed on a ring for clamping the packaging bottle; and a driving assembly disposed on the top plate of the support plate for providing power output to the clamping assembly; wherein, before clamping the packaging bottle, the packaging bottle can be placed between the clamping assemblies, and then the driving assembly is activated, which will drive the clamping assembly to clamp the packaging bottle.
4. The novel inkjet coding and fixing device for producing emulsion packaging bottles according to claim 3, characterized in that, The rotating part includes a rotating assembly, which is disposed at the bottom of the support plate and is used to rotate the packaging bottle after it is fixed by the clamping part. The rotating assembly is mounted on the rotating component and is used to drive the packaging bottle clamped on the clamping component to rotate. When the packaging bottle is clamped, the rotating assembly can be rotated to drive the rotating component to rotate the fixed packaging bottle.
5. The novel inkjet coding and fixing device for producing emulsion packaging bottles according to claim 4, characterized in that, The clamping assembly includes T-shaped semi-toothed rods slidably connected to the inner walls of several T-shaped slots. Each of the T-shaped semi-toothed rods has an arc-shaped clamp fixedly connected to one end near each other. An internal gear is fixedly connected to the inner wall of the ring. Several rotating rods are rotatably connected to the top plate of the support plate. Each rotating rod has a gear sleeved at one end near the internal gear, and all gears mesh with the internal gear. By driving the gears to rotate synchronously with the internal gear, and the internal gear meshing with the multiple T-shaped semi-toothed rods sliding on the ring, the rotation of the internal gear can drive the multiple T-shaped semi-toothed rods and their arc-shaped clamps to converge centrally, thus securing the packaging bottle.
6. The novel inkjet coding and fixing device for producing emulsion packaging bottles according to claim 5, characterized in that, The drive assembly includes a motor slot formed on the top plate of the support plate. A motor is fitted inside the motor slot. The output shaft of the motor is fixedly connected to a rotating shaft via a coupling. A drive gear is fitted on the outer wall of the rotating shaft. The drive gear meshes with an internal gear. The motor drives the drive gear via the rotating shaft. Since the drive gear meshes with the internal gear, the drive gear can drive the internal gear to rotate synchronously through the drive of the motor.
7. A novel inkjet coding and fixing device for producing emulsion packaging bottles according to claim 6, characterized in that, The rotating assembly includes a rotating base frame disposed at the bottom of the support plate, a rotating rod two is rotatably connected to the rotating base frame, and a worm gear is sleeved on the outer wall of the rotating rod two; wherein, the top end of the rotating rod two passes through the rotating base frame and is fixedly connected to the support plate.
8. The novel inkjet coding and fixing device for producing emulsion packaging bottles according to claim 7, characterized in that, The rotating assembly includes a rotating rod three rotatably connected to a rotating base frame. The rotating rod three passes through the rotating base frame and is rotatably connected to it. A worm gear is sleeved on the outer wall of the rotating rod three, and the worm gear meshes with a worm wheel. A manual knob is sleeved on the outer wall of the right end of the rotating rod three. By rotating the manual knob on the outer wall of the rotating rod three, the rotating rod three can drive the worm wheel on it to mesh with the worm wheel on the outer wall of the rotating rod two, thereby enabling the rotating rod two to drive the packaging bottle held on the support to rotate.