WO2024093896A1 - Shaping device for artificial pine needle - Google Patents

Abstract

A shaping device for an artificial pine needle (6), the shaping device comprising a shaping tube (1), an electromagnetic generator (3) and an electromagnetic heating copper coil (2), wherein the electromagnetic heating copper coil (2) is connected to the electromagnetic generator (3); the electromagnetic heating copper coil (2) is connected to the shaping tube (1); and the shaping tube (1) has a feeding end and a discharging end. An artificial pine needle (6) is fed into the shaping tube (1) and is shaped by means of the electromagnetic heating copper coil (2) in a heating manner. By using the electromagnetic heating principle, the shaping device shapes the artificial pine needle (6) in a heating manner, such that the effect is better and the efficiency is high.

Description

A shaping device for simulating pine needles Technical Field

The utility model relates to a shaping device, in particular to a shaping device mainly used for simulating pine needles of a Christmas tree.

Background technique

Simulated Christmas trees are often used for decoration during Christmas. Simulated Christmas trees are usually assembled from multiple simulated Christmas pine leaves. Existing simulated Christmas trees are composed of simulated Christmas pine leaves at various levels fixed on the trunk of the Christmas tree. The simulated Christmas tree has multiple simulated pine needles, and during the production process of the simulated pine needles, the entire simulated pine needle pine strip needs to be shaped to form a pine needle shape. The current shaping method is often manually pressed with the help of a mold, or pressed with a pressing device, and the pressure is maintained for a certain period of time before forming. This processing method is slow and has a poor shaping effect.

technical problem

The needle of the utility model is used to solve the problems of poor shaping effect and low efficiency of simulated pine needles.

Technical Solutions

A shaping device for simulated pine needles comprises a shaping cylinder, an electromagnetic generator and an electromagnetic heating copper ring, wherein the electromagnetic heating copper ring is connected to the electromagnetic generator, and the electromagnetic heating copper ring is connected to the shaping cylinder, the shaping cylinder has a feeding end and a discharging end, the simulated pine needles are fed into the shaping cylinder, and are heated and shaped by the electromagnetic heating copper ring, and the shaping cylinder is conical.

The electromagnetic heating copper coil is wound to form a spiral circular coil with a hollow interior. The electromagnetic heating copper coil is sleeved on the outer wall of the shaping cylinder, and the simulated pine needles enter the shaping cylinder through the feeding end of the shaping cylinder.

The electromagnetic heating copper ring is wound into a spiral circular coil with a hollow interior, and the electromagnetic heating copper ring is connected to the feed end of the shaping cylinder. The simulated pine needles pass through the electromagnetic heating copper ring and the feed end of the shaping cylinder and enter the shaping cylinder.

A magnetic rod is installed on the electromagnetic heating copper ring, and the magnetic rod is arranged on one side of the feeding end of the shaping cylinder. The simulated pine needles enter the shaping cylinder through the feeding end of the shaping cylinder.

The electromagnetic heating copper coil is wound to form a groove cavity, which is arranged at the feeding end of the shaping cylinder, or the shaping cylinder is placed in the groove cavity.

The discharge end of the shaping cylinder is also provided with a shaping clamping claw, which extends into the shaping cylinder to clamp the simulated pine needles.

The outer wall of the shaping cylinder is provided with a groove for assembling the coil.

The groove is wound several times along the circumferential direction of the outer surface of the shaping cylinder.

The shaping cylinder comprises a straight section and a tapered section, and a port of the tapered section is smaller than a port of the straight section.

The inner wall of the shaping cylinder is provided with a plurality of circles of recessed grooves.

Beneficial Effects

The utility model adopts electromagnetic heating to shape the simulated pine needles, and cooperates with a shaping cylinder to realize a variety of different heating copper ring structures, with high shaping efficiency and fast forming.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG1 is a schematic structural diagram of a first embodiment of the present invention;

FIG2 is a schematic diagram of the structure of the second embodiment of the present utility model;

FIG3 is a schematic diagram of the structure of the third embodiment of the present invention;

FIG. 4 is a schematic structural diagram of a fourth embodiment of the present utility model.

Best Mode for Carrying Out the Invention

In order to further understand the features, technical means, specific objectives and functions of the present invention, the present invention is further described in detail below in conjunction with the accompanying drawings and specific implementation methods.

Embodiment 1

Referring to FIG1 , a shaping device for simulating pine needles includes a shaping cylinder 1, an electromagnetic generator 3 and an electromagnetic heating copper ring 2. The shaping cylinder is conical, and the electromagnetic heating copper ring 2 is connected to the electromagnetic generator 3, and the electromagnetic heating copper ring 2 is connected to the shaping cylinder 1. The shaping cylinder 1 has a feed end and a discharge end. The shaping cylinder is a hollow structure, and the internal shape is designed with reference to the pine needles, forming a structural form with one end large and the other end small. The small mouth end is the feed end, and the large mouth end is the discharge end. The simulated pine needles are restricted from entering from the small mouth end of the shaping end, and are pulled out from the large mouth end after being heated and shaped by the electromagnetic heating copper ring 2. More specifically, the shaping cylinder includes a conical section and a straight section, the port of the conical section is the small mouth end as the feed end, and the port of the straight section is the large mouth end as the discharge end.

The electromagnetic heating copper coil is wound to form a spiral circular coil with a hollow interior, and the electromagnetic heating copper coil is sleeved on the outer wall of the shaping cylinder, and the simulated pine needles enter the shaping cylinder through the feeding end of the shaping cylinder. In the first embodiment, the electromagnetic heating copper coil heats the outside of the shaping cylinder, so that the inside of the shaping cylinder is heated, and then the simulated pine needles in the shaping cylinder 1 are shaped to obtain the finished simulated pine needles.

The electromagnetic heater is a well-known device having a positive pole and a negative pole. The electromagnetic heating copper ring has two connection ends, which are respectively connected to the positive pole and the negative pole of the electromagnetic heater.

Embodiment 2

Referring to FIG. 2, a shaping device for simulated pine needles includes a shaping cylinder 1, an electromagnetic generator 3 and an electromagnetic heating copper ring 2, wherein the electromagnetic heating copper ring 2 is connected to the electromagnetic generator 3, and the electromagnetic heating copper ring 2 is connected to the shaping cylinder 1, and the shaping cylinder 1 has a feeding end and a discharging end. The winding structure of the electromagnetic heating copper ring 2 is different from that of the first embodiment. In the second embodiment, the electromagnetic heating copper ring 2 is wound into a spiral circular coil with a hollow interior, and the size is substantially the same as the size of the small mouth end of the shaping cylinder 1. This electromagnetic heating copper ring is not mounted on the shaping cylinder, but is connected to the feeding end of the shaping cylinder, and the electromagnetic heating copper ring is connected to the feeding end of the shaping cylinder. The simulated pine needles 6 enter the shaping cylinder 1 after passing through the electromagnetic heating copper ring 2 and the feeding end of the shaping cylinder 1. The simulated pine needles 6 pass through the electromagnetic heating copper ring 2 to be heated, deformed, and then enter the shaping cylinder for shaping to obtain a simulated pine needle finished product 7.

Embodiment 3

Referring to FIG3, a shaping device for simulated pine needles includes a shaping cylinder 1, an electromagnetic generator 3 and an electromagnetic heating copper ring 2, wherein the electromagnetic heating copper ring 2 is connected to the electromagnetic generator 3, and the electromagnetic heating copper ring 2 is connected to the shaping cylinder 1, and the shaping cylinder 1 has a feeding end and a discharging end. The winding structure of the electromagnetic heating copper ring 2 is different from that of the first embodiment. In the third embodiment, the electromagnetic heating copper ring 2 is first wound into a spiral structure, and then a magnetic rod 8 is installed. The magnetic rod 8 is arranged on one side of the feeding end of the shaping cylinder 1, and the simulated pine needles 6 pass through one side of the magnetic rod 8, are heated and deformed, and then enter the shaping cylinder 1 through the feeding end of the shaping cylinder 1 for shaping treatment, and finally obtain the simulated pine needles 7. By arranging the magnetic rod, the heating can be more concentrated.

Embodiment 4

As shown in reference product 4, different from the second embodiment, the winding structure of the electromagnetic heating copper ring 2 is different. In the fourth embodiment, the electromagnetic heating copper ring 2 is wound to form a groove cavity 9, which is arranged at the feeding end of the shaping cylinder 1, or the shaping cylinder is placed in the groove cavity. That is, the electromagnetic heating copper ring is a semicircular shape, which can hold the shaping cylinder and heat the shaping cylinder from the outside, so that the simulated pine needles 6 inside the shaping cylinder are heated and shaped to obtain the simulated pine needles finished product 7.

In addition, the discharge end of the shaping cylinder 1 is also provided with a shaping clamp 4, which extends into the shaping cylinder to clamp the simulated pine needles. The shaping clamp facilitates the clamping and positioning of the simulated pine needles, ensuring stability during the shaping process.

The outer wall of the shaping cylinder 1 is provided with a groove 5 for assembling the coil, which is convenient for assembling the electromagnetic heating copper ring. The inner wall of the shaping cylinder 1 is provided with a plurality of circles of concave grooves, which are conducive to the conduction of heat.

In the present application, the simulated pine needles are heated and shaped by electromagnetic heating, and the winding structure of the electromagnetic heating copper coil has a variety of styles, which can flexibly meet different usage requirements.

It should be noted that the above are only preferred embodiments of the present invention and are not intended to limit the present invention. Although the present invention has been described in detail with reference to the embodiments, it is still possible for those skilled in the art to modify the technical solutions described in the aforementioned embodiments or to make equivalent substitutions for some of the technical features therein. However, any modifications, equivalent substitutions, improvements, etc. made within the spirit and principles of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A shaping device for simulated pine needles is characterized in that it comprises a shaping cylinder, an electromagnetic generator and an electromagnetic heating copper ring, wherein the electromagnetic heating copper ring is connected to the electromagnetic generator, and the electromagnetic heating copper ring is connected to the shaping cylinder, the shaping cylinder has a feeding end and a discharging end, and the simulated pine needles are fed into the shaping cylinder and are heated and shaped by the electromagnetic heating copper ring.
2. According to the shaping device of simulated pine needles as described in claim 1, it is characterized in that the electromagnetic heating copper ring is wound to form a spiral circular coil with a hollow interior, the electromagnetic heating copper ring is sleeved on the outer wall of the shaping cylinder, and the simulated pine needles enter the shaping cylinder through the feeding end of the shaping cylinder.
3. The shaping device for simulated pine needles according to claim 2 is characterized in that the electromagnetic heating copper ring is wound into a spiral circular coil with a hollow interior, and the electromagnetic heating copper ring is connected to the feed end of the shaping cylinder, and the simulated pine needles enter the shaping cylinder after passing through the electromagnetic heating copper ring and the feed end of the shaping cylinder.
4. The shaping device for simulated pine needles according to claim 1 is characterized in that a magnetic rod is installed on the electromagnetic heating copper ring, and the magnetic rod is arranged on one side of the feed end of the shaping cylinder, and the simulated pine needles enter the shaping cylinder through the feed end of the shaping cylinder.
5. According to the shaping device for simulated pine needles according to claim 1, it is characterized in that the electromagnetic heating copper coil is wound to form a groove cavity, which is arranged at the feeding end of the shaping cylinder, or the shaping cylinder is placed in the groove cavity.
6. The shaping device for simulated pine needles according to any one of claims 1 to 5 is characterized in that a shaping claw is also provided at the discharge end of the shaping cylinder, and the shaping claw is used to extend into the shaping cylinder to clamp the simulated pine needles.
7. The artificial pine needle shaping device according to claim 1 is characterized in that a groove for assembling the coil is provided on the outer wall of the shaping cylinder.
8. The simulated pine needle shaping device according to claim 7 is characterized in that the groove is wound several times along the circumferential direction of the outer surface of the shaping cylinder.
9. The shaping device for simulated pine needles according to claim 1 is characterized in that the shaping cylinder has a straight section and a tapered section, and the port of the tapered section is smaller than the port of the straight section.
10. The simulated pine needle shaping device according to claim 6 is characterized in that the inner wall of the shaping cylinder is provided with a plurality of circles of recessed grooves.