WO2008128410A1

WO2008128410A1 - An embossing device with radio frequency interefere protection

Info

Publication number: WO2008128410A1
Application number: PCT/CN2008/000276
Authority: WO
Inventors: Jakov Makover; Bar Cochva Mardlx; Yaacov Sadeh
Original assignee: Orisol Asia Ltd.
Priority date: 2007-04-19
Filing date: 2008-02-02
Publication date: 2008-10-30
Also published as: CN101288512A; CN101288512B

Abstract

An embossing device with radio frequency interefere protection comprises a closure metal operating chamber (1) around the metal operating platform of the high-frequency embossing device, a slide cover (2) disposed on the front side of the metal operating chamber (1), a transport pipe (30) with shield function, to transport high-frequency electric current from a power supply to said embossing device, a lamp (20) disposed in the metal chamber (1) and an observing window (9) in front of the metal chamber (1). The embossing device of the invention can protect the operator and the environment from being polluted by high-frequency radiation duringoperation.

Description

Embossing system with radio frequency interference protection

The present invention relates to an embossing machine, and more particularly to an embossing system for an embossing machine. Background technique

High-frequency or high-power embossing machines for embossing of smaller workpieces, which are more traditional in the past, such as embossing machines used in the footwear industry, are manually operated. In other industries, machines are also used to automatically place the parts to be machined on the metal workbench. However, due to the inaccuracy of automatic positioning, the operator is required to manually adjust the position of the parts to be processed to ensure the quality of the embossing.

The above embossing machines do not have protection devices for shielding high frequency and high energy radiation, and the workers and their surroundings are exposed to the high frequency and high energy radiation generated by the machine, thus causing a great health to the workers. The great harm, over time, will lead to occupational diseases caused by high frequency and high energy radiation for a long time; and high frequency and high energy radiation will cause electromagnetic radiation pollution to the surrounding environment, causing serious damage to human beings, animals and plants living in the environment. harm. Summary of the invention

The technical problem to be solved by the present invention is to provide an embossing system for an embossing machine, which has a radio frequency interference protection function, can cover high frequency and high energy radiation generated during the embossing operation, and protects the health and protection of workers. The surrounding environment is not contaminated by radiation.

In order to solve the above technical problem, the embossing system with radio frequency interference protection of the present invention comprises a closed metal working chamber disposed around the metal working table of the high frequency radiation embossing machine, and conveying high frequency current from the power source to the embossing A shielding current-carrying pipe of the machine, the front side of the casing has a slidable cover body, and the cover body slides up and down to shield or expose the radiation environment. The current-carrying pipeline for transmitting high-frequency current is made of a metal visor, and is also covered with a plurality of insulating plastic beads inside. The current-carrying belt for transmitting high-frequency current is located in a space formed by the insulating plastic beads, and the current-carrying pipeline, the insulating plastic beads and the current-carrying belt maintain a certain safe distance from each other. In order to make it easier for the operator to operate, an observation window for observing the working condition may be provided on the front side cover of the metal working room, and an illumination device may be provided in the metal working chamber.

The embossing system with radio frequency interference protection of the invention can make the position of the workpiece to be processed under the embossing machine as convenient and effective as before, and then the processing chamber will be quickly and safely closed to form an effective Faraday cavity (Faraday). Chamber), thereby preventing energy leakage during the embossing process; the current-carrying pipeline for conveying high-frequency currents uses a metal visor and insulating plastic beads, and the high-frequency current is generated during the transmission process. Leakage of frequency radiation. In addition, additional lighting and viewing window devices allow the operator to view and monitor the entire process. The present invention adds only a small amount of additional processing time compared to previously fully exposed operations, so production efficiency is almost unaffected and maximized. The ground prevents electromagnetic radiation leakage, protects the personal health of the workers, and avoids electromagnetic pollution of the surrounding environment. DRAWINGS

The present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments. FIG. 1 is a perspective view of the metal working chamber of the present invention in an open state;

Figure 2 is a perspective view showing the metal working chamber of the present invention in a closed state;

Figure 3 is a side view of Figure 1;

4 is a front view of a ventilation and lighting device inside a metal working chamber of the present invention; FIG. 5 is a schematic view showing a fan and a lighting device inside the metal working chamber of the present invention connected to a power source through a power cord having a high frequency filter;

Figure 6 is a perspective view showing the exterior of the high-frequency current carrying pipeline of the present invention;

Figure 7 is a transverse cross-sectional enlarged view of the high frequency current carrying line of the present invention;

Figure 8 is a side elevational view of the high frequency current carrying conduit of the present invention; Figure 9 is an enlarged longitudinal sectional view of an insulating plastic bead and a high-frequency current carrier tape of the high-frequency current-carrying pipe of the present invention;

Figure 10 is a perspective assembled view of an embossing machine incorporating the radio frequency interference protection embossing system of the present invention. detailed description

1 and 2, the embossing system with radio frequency interference protection of the present invention is formed by forming a sealed metal working chamber 1 around the pressing bar 4 and the pressing die 6 of the embossing machine, and the metal working chamber 1 is three. The sides are fixed on the embossing machine metal table 7, and the pressing bar 4 passes through the top of the working chamber 1, which is in sealing contact with the top contact portion of the working chamber 1, and the sealing can be carried out by a common sealing method.

A cover body 2 is disposed in front of the workroom 1, and a vertical guide member 10 is disposed on each of the two end faces of the workroom 1, and the cover body 2 is slidably mounted on each of the guide members 10, and guided by the guide member 10. The cover body 2 is slidably slidably displaced up and down on the guide member 10 when the force is applied. The height of the cover body 2 is equal to or greater than the height of the work chamber 1. When the cover body 2 is slid down, the work room 1 becomes a closed state. The working room, because it is a working room made of metal, when it is sealed, forms a Faraday Chamber with shielding electromagnetic radiation, so the high-frequency radiation is shielded during the embossing process. In the closed metal working room 1, it is prevented from leaking into the working environment, and the purpose of protecting the health of the workers and protecting the environment from electromagnetic pollution is achieved.

In order to achieve a better sealing effect, a flexible finger copper strip 3 is attached to the lower side of the cover body 2. When the cover body 2 moves downward, the finger copper strip 3 contacts the top surface of the table and seals the cover body. 2 and all gaps between the workbench. Therefore, the metal working chamber 1 forms a completely sealed Faraday Chamber to prevent high frequency radiation from leaking out of the working chamber.

In order to enable the lid body 2 to be vertically raised and lowered, a fixing member 5 is disposed on the upper portion of the lid body 2, and the fixing member 5 is connected to the piston rod 81 of the two (or liquid) cylinders 8 through a gas (or liquid) pressure cylinder. When the piston rod 81 moves up and down, the fixing member 5 and the cover body 2 can be driven to perform the lifting movement. An observation window 9 may be disposed on the cover body 2, and a metal mesh 11 is disposed on the observation window 9. Through the observation window 9, the inside of the workroom 1 can be seen after the cover body 2 is closed, and the observation window 9 is The metal mesh 11 can prevent leakage of high frequency radiation.

At least one illumination lamp 20 (two illumination lamps in this embodiment) may be disposed in the workroom 1 to illuminate the interior of the workroom (see FIGS. 3 and 4), and at least one fan 21 is provided (this embodiment) For example, two fans) blow the pressing die 6 of the embossing machine to cool the hot pressing die 6. The opening of the fan 21 in the working room 1 is covered with a metal mesh 26 (see Fig. 5) to prevent high-frequency radiation from leaking into the working chamber 1.

The illuminating lamp 20 and the fan 21 receive a power supply voltage (see FIG. 5) through a radio frequency filter 23 composed of a coil and a capacitor, and the radio frequency filter 23 is located in a casing 22 provided in the working chamber 1, for transmitting a high-frequency current. The electric wire 25 is connected to the radio frequency filter 23, filtered by the radio frequency filter 23, and then supplied with electric energy to the illumination lamp 20 and the fan 21. Since the radio frequency filter 23 filters the high frequency energy on the power supply line 25, there is no The radio frequency radiation leaks through the electric wires 25 to the workroom 1.

The high-frequency current generated by the power source is transmitted through a current-carrying pipe 30 to the embossing die 6 in the working chamber 1 (see Fig. 6), and the current-carrying pipe 30 is made of a flexible metal visor (see Figs. 7 to 9). a current-carrying strip 33 carrying a high-step page current (the current-carrying strip 33 may be a current-carrying copper strip, or a carrier carrier other than copper) may be disposed inside the current-carrying conduit 30 and loaded with A certain safe separation distance is left between the inner walls of the flow pipe 30, and a plurality of insulating plastic beads 32 are disposed on the current-carrying copper strip 33, and a certain safe separation distance is left between the inner wall of the insulating plastic beads 32 and the current-carrying copper strip 33. The outer wall also has a certain safe separation distance from the inner wall of the current-carrying pipe 30, and the insulating plastic beads 32 are spaced apart from each other, thereby causing the current-carrying copper strip 33 to bend at any angle, so as to generate high-frequency current by power generation. The machine is transported to the press mold 6 in the working chamber 1. Since the current carrying pipe 30 is made of a flexible metal shield, the current carrying pipe 30 is equivalent to a Faraday chamber (Faraday). Chamber), which prevents high frequency radiation from leaking into the surrounding environment through the current carrying pipe 30. Figure 10 is an embossing machine equipped with the metal working chamber 1 and the current-carrying pipe 30 of the present invention, which prevents the high frequency by using the metal working chamber 1 of the present invention and the current-carrying pipe 30 with the metal Shielding mesh. Radiation leakage protects the health of workers and avoids electromagnetic radiation from the environment

Claims

An embossing system with radio frequency interference protection, characterized in that it comprises a closed metal working chamber disposed around a metal working table of a high frequency radiation embossing machine, and conveying high frequency current from the power source to the pressure a shimming current-carrying pipe of the flower machine, a slidable cover body is disposed on the front side of the metal working chamber, and the cover ring body is controlled to slide up and down to shield or expose the radiation ring right

territory.

2. The embossing system with radio frequency interference protection according to claim 1, wherein: a finger-shaped copper strip is disposed on a lower side of the cover body, and when the cover body is slidably displaced to a lowermost position, the A finger copper strip fits the metal work surface.

begging

3. The embossing system with radio frequency interference protection according to claim 1, wherein a guide member is disposed at each of the two sides of the working chamber corresponding to the cover body, by means of the guide members The bow guide causes the cover to be slidably displaced up and down.

The embossing system with radio frequency interference protection according to any one of claims 1 to 3, wherein: the displacement of the cover body by sliding up and down is controlled by using a two-pneumatic cylinder, The piston rod of each pneumatic cylinder is connected to the cover body to control the lifting operation of the cover body.

The embossing system with radio frequency interference protection according to any one of claims 1 to 3, characterized in that: the displacement of the cover body by sliding up and down is controlled by using two hydraulic cylinders, The piston rod of each hydraulic cylinder is connected to the cover body to control the lifting movement of the cover body.

6. The embossing system with radio frequency interference protection according to claim 1, wherein: a viewing window with a metal mesh is disposed on the cover.

7. The embossing system with radio frequency interference protection according to claim 1, wherein: at least one illumination device is disposed in the enclosed metal working chamber.

8. The embossing system with radio frequency interference protection according to claim 1, wherein: at least one fan is disposed on the wall of the closed metal working chamber, and the fan is disposed at an opening of the working room. It is covered with a metal mesh.

9. The embossing system with radio frequency interference protection according to claim 1, wherein: said current-carrying pipe is made of a metal shielding net, and is further covered inside said current-carrying pipe. Insulating plastic beads, the plurality of insulating plastic beads are disposed on a current-carrying belt located inside the current-carrying pipeline, and the current-carrying pipeline, the insulating plastic beads and the current-carrying belt are kept at a certain safety interval from each other. distance.

10. The embossing system of claim 9 having a radio frequency interference protection claim, _wherein: said insulating plastic beads are disposed in a spaced apart from each other like, so that the carrier tape can be bent at any angle.