KR102547390B1 - Protective Gate Frame Manufacturing Device - Google Patents

Abstract

The present invention is a quarantine gate panel frame manufacturing device that can automatically perform perforation and cutting of a frame material for manufacturing a quarantine gate according to the purpose at the same time, and then automatically perform a bending operation for forming various shapes. More specifically, it is composed of a cutting unit for perforating and cutting the panel frame of the quarantine gate, and a bending unit for shaping the panel frame whose work has been completed in the cutting unit; Perforation, cutting, and bending operations for processing the panel frame of a standardized quarantine gate can be performed in an automated manner, which has the effect of mass production, equalization of quality, and standardization of products.

Description

Prevention gate panel frame manufacturing device {Protective Gate Frame Manufacturing Device}

The present invention relates to a quarantine gate panel frame, and more particularly, to a device that automatically operates perforation, cutting, and bending operations in a frame for manufacturing a quarantine gate, including the gate manufacturing industry, gate repair industry, gate management industry, and the like. It relates to a quarantine gate panel frame manufacturing device that can be applied to industries for processing plate-type materials.

In general, a disinfection operation is performed in advance to sterilize the body, hands, and feet by chemicals before workers enter a room where the inflow of germs or foreign substances must be blocked.

In various fields such as public facilities such as schools, hospitals, sanatoriums, hotels, saunas, and public baths where periodic sterilization and disinfection are required, food processing facilities, industrial water cooling towers, meat processing facilities, food and food preparation equipment, etc. Cleaning, sterilization, and disinfection are always being done.

These places are sterilized and disinfected by workers using simple chemical devices each time as needed, but this is accompanied by the hassle of having to manually move around and work in various places, so in most buildings the main parts Disinfection is carried out only through internal disinfection.

In such a disinfection method, washing with a disinfectant is the most common method, and in the process, it is common for harmful bacteria introduced from visitors to be left unprotected.

On the other hand, a disinfection spray device of Publication No. 10-2011-0080726 (20110713) has been proposed, and the proposed disinfection spray device has a plurality of discharge holes and optical sensors on both sides of a square frame shape. , An ultrasonic humidifier that generates water vapor is provided on both sides of the pipe part so that it is sprayed in the form of water vapor, thereby preventing a phenomenon in which water drop-shaped liquid particles form on a person's body and clothes and cause discomfort, and a gate shape through a sensor When a person passes through the piping of the water vapor is injected, and when the passage is completed, the water vapor injection is stopped so that the medicine can be saved, and wheels are installed to enable movement.

The square frame of the disinfection spray device as described above should be perforated for ventilation, perforated for nozzles, perforated for wires, and cutting and bending for assembly according to the purpose of use.

The square frame of the disinfecting spray device according to the prior art has a problem in that it takes a lot of time because the operator has to manufacture it through various processes as it has various area sizes.

In addition, the method of manufacturing the square frame of the disinfection spray device according to the prior art is mainly made by the manual method of the operator, so there is a problem in that the quality is difficult to maintain uniformity due to the decrease in precision.

In addition, the manufacture of the square frame of the disinfection spray device according to the prior art had a problem that the production amount could not be increased in most of the manual methods.

For this reason, when manufacturing a panel frame used for a disinfection spray device, a quarantine gate, a clean gate, a disinfection gate, etc., a manufacturing device that automates the punching process, cutting process, and bending process for assembly and coupling is desperately needed.

Patent Publication No. 10-2022-0006250 (disassembly and assembly type clean gate structure) Registered Patent No. 10-2411054 (Gate type sterilization and disinfection device) Registered Patent No. 10-2303659 (Quarantine Gate) Publication No. 10-2022-0103874 (Cleangate with improved spraying efficiency)

The present invention has been made to solve the above problems, and provides a quarantine gate panel frame manufacturing device that can automatically perform perforation, cutting, and bending operations for processing the panel frame of a standardized quarantine gate. There is a purpose.

In addition, another object of the present invention is to enable perforation and laser cutting of the panel frame to be performed independently or simultaneously in one device depending on whether there is interference according to the position of the working point.

In addition, another object of the present invention is to be able to perform a bending operation in an automated manner for forming a panel frame.

And, another object of the present invention is to manufacture a bending mold in the form of a step in order to improve the precision of bending when forming and bending a panel frame.

On the other hand, another object of the present invention is to adjust the interval according to the size of the panel frame so as not to be restricted in perforation, cutting, and bending operations.

An apparatus for manufacturing a quarantine gate panel frame according to an embodiment of the present invention is a perforation cutting unit composed of a perforation for ventilation, a nozzle for perforation, and a perforation for wires in a panel frame for manufacturing a quarantine gate, and a cutting unit for cutting. , The perforation cutting part is located on the upper part of the perforation frame and the panel frame is raised and lowered on the inner lower part of the rectangular perforated frame, and the perforation part is located on the upper part of the perforation frame and performs perforation work on the panel frame placed on the support operation part, A cutting part located on the upper part of the perforated frame and located on one side so as not to interfere with the perforated part and performing a cutting operation on the panel frame, and a bending operation for assembling the panel frame completed in the perforated cutting unit in the form of a quarantine gate The support operation unit forms a transfer bracket coupled to the support spindle axis connected to the support spindle installed inside the perforated frame, and the panel is installed on the upper part of the lift actuator installed on the inside of the transfer bracket A support plate on which the frame is mounted is provided.

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In addition, the perforated cutting part forms a perforated part and a cutting part to move in a horizontal direction along the conveying spindle axis connected to the conveying spindle installed on the upper part of the perforated frame, the perforated part is connected to the perforating spindle connected to the conveying spindle axis A punching press installed on a punching spindle axis is provided.

In addition, the punching press provides a punching operation unit installed above the perforation block connected to the perforation spindle axis, and a perforation blade that operates vertically to the bottom of the perforation block by the operation of the perforation operation unit.

In addition, the cutting unit provides a cutting block installed on the cutting spindle axis connected to the cutting spindle connected to the transfer spindle axis, and a laser cutter radiating a laser to the lower portion of the cutting block.

Here, the bending part is located at the inner lower part of the bending frame, and the panel frame is installed on the upper part of the bending mold part, which operates horizontally moving and ascending and descending for bending, and the panel frame is installed on the upper part of the bending frame and operates in correspondence with the bending mold part. Provides a bending press for pressing downward.

On the other hand, the bending mold unit is installed on a bending spindle installed on a bending frame, a bending spindle axis connected to the bending spindle, a bending block connected to the bending spindle axis and moving horizontally, and an upper portion of the bending block to generate lifting and lowering operation force. It provides a bending actuator and a bending mold installed on top of the bending actuator.

In addition, the bending press unit includes a press frame installed on the upper portion of the bending frame, a press spindle axis connected to the press spindle installed on the press frame, a press block connected to the press spindle axis and horizontally moving, and an upper portion of the press block. Provided is a press actuator that is installed to generate a lifting and lowering operation force, and a press mold installed under the press actuator.

In addition, the bending mold is provided by configuring a first bending mold and a second bending mold having a radius when projecting a cross section in the longitudinal direction in a step shape.

According to an embodiment of the present invention, perforation, cutting, and bending operations for processing the panel frame of a standardized quarantine gate can be performed in an automated manner, thereby achieving mass production, equalization of quality, and standardization of products.

In addition, perforation and laser cutting of the panel frame can be performed independently or simultaneously depending on whether or not interference is caused by the position of the working point in one device, which has the effect of simplifying the working process and shortening the process time.

In addition, since the bending work for forming the panel frame can be performed in an automated manner, there is an effect of replacing manpower and reducing costs.

In addition, in order to improve the precision of bending when molding and bending the panel frame, it is effective to set various bending ranges by manufacturing the bending mold in the form of a step.

On the other hand, by adjusting the interval according to the size of the panel frame, there is no restriction on perforation, cutting, and bending work, and there is an effect of increasing the versatility of the work target.

1 is a perspective view and an exploded perspective view for showing a panel frame of a quarantine gate according to a general example;
2 is an overall configuration diagram of an apparatus for manufacturing a quarantine gate panel frame according to the present invention;
Figure 3 is a perspective view of the perforated cutting part of the quarantine gate panel frame manufacturing apparatus according to the present invention;
Figure 4 is a perspective view of the supporting operation unit of the quarantine gate panel frame manufacturing device according to the present invention;
5 is a perspective view of a perforated part and a cutting part of the device for manufacturing a quarantine gate panel frame according to the present invention;
6 is a front view of the perforated cutting part of the quarantine gate panel frame manufacturing apparatus according to the present invention;
7 is a side view of the perforated cutting part of the quarantine gate panel frame manufacturing apparatus according to the present invention;
8 is a plan view and operation view of the perforated cutting unit of the quarantine gate panel frame manufacturing apparatus according to the present invention;
9 is a perspective view of a bent portion of the device for manufacturing a quarantine gate panel frame according to the present invention;
10 is a perspective view of the bending mold part of the bending part of the quarantine gate panel frame manufacturing apparatus according to the present invention;
11 is a perspective view of the bending press of the bending part of the quarantine gate panel frame manufacturing apparatus according to the present invention;
12 is a front view of the bent part of the quarantine gate panel frame manufacturing apparatus according to the present invention;
13 to 15 are operation diagrams of bending and manufacturing a panel frame using a side view of a bending part of an apparatus for manufacturing a quarantine gate panel frame according to the present invention;
16 is a plan view of a bent portion of the device for manufacturing a quarantine gate panel frame according to the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings so that those skilled in the art can easily carry out the present invention. However, the present invention may be implemented in many different forms and is not limited to the embodiments described herein. Like reference numerals have been assigned to like parts throughout the specification.

As shown in FIGS. 1 to 16, referring to the accompanying drawings, the configuration of the present invention is described, the quarantine gate panel frame manufacturing apparatus performs punching and cutting operations on the panel frame 2 of the quarantine gate 1 The manufacturing apparatus 100 is constituted by a cutting part 30 to be performed and a bending part 40 for forming the panel frame 2 whose work has been completed in the cutting part 30 .

The manufacturing apparatus 100 has a perforated part 20 for ventilation, nozzle perforation, and wire perforation in the panel frame 2 for manufacturing the quarantine gate 1, and a cutting part 30 for cutting. ) Constituting the perforated cutting unit 10 made of.

The perforated cutting unit 10 constitutes a supporting operation unit 12 that lifts and lowers the panel frame 2 on the inner lower portion of the rectangular perforated frame 11 .

The support operation unit 12 forms a transfer bracket 15 coupled to the support spindle shaft 14 connected to the support spindle 13 installed inside the perforated frame 11, the support spindle 13 4 are arranged in a square shape, and one receiving spindle 13 forms a receiving spindle motor 13a, and the receiving spindle shaft 14 is connected to two opposing receiving spindles 13, and one receiving spindle 13 A square male spiral is formed on the outer surface of the spindle shaft 14, and one support spindle shaft 14 is configured to serve as an axis that functions as a guide.

The transfer bracket 15 is connected to a pair of support spindle shafts 14, and a female spiral is formed in the transfer bracket 15 connected to the support spindle shaft 14 having a male spiral, and a male spiral is formed. The transfer bracket 15 connected to the shaft 14 is formed to slide without forming a female spiral.

The inside of the pair of transfer brackets 15 coupled to the support spindle shaft 14 constitutes a support plate 17 on which the panel frame 2 is placed on top of the lift actuator 16 to be installed.

The lifting actuator 16 is applied in an actuator method using hydraulic force, and the support plate 17 is formed in the shape of a digger open to the bottom.

When the support spindle shaft 14 rotates, the transfer bracket 15 is configured to reciprocate horizontally due to screw fastening.

It is located on the upper part of the perforated frame 11 and constitutes a perforated part 20 for performing a perforating operation on the panel frame 2 placed on the supporting operation unit 12. The perforated part 20 is a perforated frame ( 11) is formed to move in the horizontal direction along the feed spindle axis 19 connected to the feed spindle 18 installed on the top.

Four of the feed spindles 18 are arranged in a square shape, one feed spindle 18 forms a feed spindle motor 18a, and the feed spindle shaft 19 has two feed spindles 18 facing each other It is connected to and forms a square male spiral on the outer surface of one transfer spindle axis 19, and one transfer spindle axis 19 is configured to serve as an axis that functions as a guide.

The punching unit 20 constitutes a punching press 23 installed on a pair of punching spindle shafts 22 connected to the punching spindle 21 connected to the transfer spindle axis 19, and the punching spindle 21 ), a punching spindle motor 21a is formed on one side of the punching spindle, and a male spiral is formed on one of the punching spindle shafts 22.

The punching press 23 forms a punching operation unit 25 installed on the upper part of the punching block 24 connected to the punching spindle shaft 22.

The perforation operation unit 25 constitutes a perforation blade 26 that operates vertically to the lower part of the perforation block 24, and the perforation blade 26 is transferred to the perforation block 24 from a separate hydraulic device. It is configured to operate with supplied hydraulic power, and the number of perforated blades 26 can be adjusted as needed.

The perforated block 24 is connected to a pair of perforated spindle shafts 22, and a female spiral is formed in the perforated bracket 27 connected to the perforated spindle shaft 22 on which the male spiral is formed, and the perforated spindle on which the male spiral is formed. The perforated block 24 connected to the shaft 22 is configured to slide without forming a female spiral.

It is located on the upper part of the perforated frame 11 and is located on one side so as not to interfere with the perforated part 20 and constitutes a cutting part 30 that performs a cutting operation on the panel frame 2.

The cutting unit 30 is configured to move in a horizontal direction along a transfer spindle shaft 19 connected to a transfer spindle 18 installed on the perforated frame 11 .

The cutting unit 30 constitutes a cutting block 33 installed on the cutting spindle shaft 32 connected to the cutting spindle 31 connected to the transfer spindle shaft 19.

The lower part of the cutting block 33 constitutes a laser cutter 34 for irradiating a laser.

The cutting unit 30 constitutes a cutting spindle 31 installed on a pair of cutting spindle shafts 32 connected to a cutting spindle 31 connected to the transfer spindle shaft 19, and the cutting spindle 31 ), a cutting spindle motor 31a is formed on one side, and a male spiral is formed on one of the cutting spindle shafts 32.

The laser cutter 34 of the cutting unit 30 is configured to receive power using a separate laser supply device.

In addition, the bending part 40 for the bending work for assembling the panel frame 2, which has been completed in the perforated cutting part 10, in the form of a quarantine gate is configured.

The bending part 40 is located at the inner lower part of the bending frame 41 and constitutes the bending mold part 50 which horizontally moves and lifts and lowers for bending when the panel frame 2 is raised.

The bending mold part 50 constitutes a bending spindle 51 installed in the bending frame 41 .

A pair of bending spindle shafts 52 connected to the bending spindle 51 are configured.

It is connected to the bending spindle shaft 52 and constitutes one-phase bending block 53 that moves horizontally.

It is installed on the upper part of the bending block 53 to form a bending actuator 54 that generates a lifting and lowering operating force.

It constitutes a bending mold 55 installed on the upper part of the bending actuator 54.

The bending part 40 constitutes a bending spindle 51 installed on a pair of bending spindle shafts 52 connected to the bending spindle 51 connected to the bending spindle axis 52, and the bending spindle 51 ), a bending spindle motor 51a is formed on one side, a male spiral is formed on one of the bending spindle shafts 52, and a female spiral connected to the male spiral is formed on one bending block 53.

It is installed on the upper part of the bending frame 41 and constitutes a bending press unit 60 that presses the panel frame 2 downward to correspond to the bending mold unit 50.

The bending press unit 60 constitutes a press frame 61 installed on the upper portion of the bending frame 41 .

A press spindle shaft 63 connected to the press spindle 62 installed in the press frame 61 is constituted.

It is connected to the press spindle shaft 63 and constitutes a press block 64 that moves horizontally.

It is installed on the upper part of the press block 64 to form a press actuator 65 that generates a lifting and lowering operation force.

A press mold 66 installed under the press actuator 65 is constituted.

The bending press unit 60 constitutes a press spindle 62 installed on a pair of press spindle shafts 63 connected to a press spindle 62 connected to the press spindle shaft 63, the press spindle ( A press spindle motor 62a is formed on one side of 62), a male spiral is formed on one of the press spindle shafts 63, and a female spiral connected to the male spiral is formed on one press block 64.

The bending mold 55 is composed of a first bending mold 55a and a second bending mold 55b having a large radius when projecting a cross section in the longitudinal direction in a stepped shape.

Looking at the use state of the manufacturing apparatus 100 configured as described above is as follows.

In order to process the panel frame 2 using the perforation 20 and the cutting part 30 forming the perforation cutting part 10 of the manufacturing apparatus 100, a separate manufacturing apparatus is first used to obtain an appropriate size. After cutting the panel frame 2, it is installed in the perforated cutting unit 10.

Before placing the panel frame (2) on the perforated cutting unit (10), the support spindle (13) of the support operation unit (12) is operated to rotate the support spindle shaft (14) and move up and down by the movement of the transfer bracket (15) After adjusting the position and spacing of the support plate 17 together with the actuator 16, the panel frame 2 is placed on it, and then the height is adjusted by operating the lift actuator 16 under the control of a separate control unit.

After that, the perforation or cutting operation in the panel frame 2 can be performed by using a separate control unit to set the perforation or cutting position. By the operation of the transfer spindle shaft 19 is rotated to move in the left and right directions to adjust the position, and the perforating block 24 is rotated while the perforating spindle shaft 22 is rotated by operating the perforating spindle motor 21a of the perforating spindle 21. ) is positioned above the perforation position of the panel frame 2, and then the perforation press 23 of the perforation operation unit 25 is operated to form a slit while perforating the panel frame 2 using the perforation blade 26. is to punch

In addition, when cutting the panel frame 2 using the cutting unit 30, the cutting position is set using a separate control unit, and then transferred by operating the transfer spindle motor 18a of the perforation cutting unit 10. The spindle shaft 19 is rotated to move in the left and right directions to adjust the position, and the cutting spindle motor 31a is operated to rotate the cutting spindle shaft 32 to move the cutting block 33 to the position to be cut. It is to cut using a laser cutter (34).

In addition, when adjusting the shape or area to be cut using the cutting unit 30, the transfer spindle motor 18a of the perforation cutting unit 10 is operated to rotate the transfer spindle shaft 19 and the cutting spindle motor 31a While rotating the cutting spindle shaft 32 by operating, it can be adjusted while moving in the left and right forward and backward directions.

In this way, when the perforation and cutting of the panel frame 2 is completed using the perforation cutting unit 10, the first bending mold of the bending mold 55 of the bending mold unit 50 is moved to the bending unit 40 ( 55a) Put it on top.

The bending mold of the bending part 40 operates the bending spindle 51 installed on the bending frame 41 to rotate the bending spindle shaft 52, thereby adjusting the width interval of the bending blocks 53.

Thereafter, the height of the panel frame 2 is adjusted by operating the bending actuator 54 installed on the bending block 53, and then the press frame installed on top of the bending frame 41 formed in the bending press unit 60 ( The press spindle motor 62a of the press spindle 62 installed in 61 is operated to rotate the press spindle shaft 63 to move the press block 64 to a position to be bent.

Next, when the press actuator 65 is operated and transferred downward, the press mold 66 moves downward while the panel frame 2 is placed on the first bending mold 55a of the bending mold 55. It is bent by the curvature of the first bending mold 55a, and when the bending by the first bending mold 55a is completed, the bending spindle 51 installed in the bending frame 41 is operated to rotate the bending spindle shaft 52. After adjusting the part bent by the first mold to be placed on the upper part of the second bending mold 55b of the bending mold 55, and then operating the press actuator 65 to transfer it to the lower part, the press mold 66 While moving downward, the panel frame (2) is bent.

In the manufacturing apparatus 100 of the present invention, when manufacturing the panel frame 2, the order of operations using the perforated cutting unit 10 and the bending unit 40 can be operated by changing the operation sequence according to manufacturing conditions.

The manufacturing apparatus 100 of the present invention can perform punching, cutting, and bending operations for processing the panel frame 2 of the standardized quarantine gate 1 in an automated manner, resulting in mass production, equalization of quality, and standardization of products There are features that make up

The manufacturing apparatus 100 of the present invention can perform perforation and laser cutting of the panel frame 2 independently or simultaneously depending on whether there is interference according to the position of the working point in one device, thereby simplifying the work process and reducing the process time. It has a shortening feature.

The manufacturing apparatus 100 of the present invention is characterized in that a bending operation for forming the panel frame 2 can be performed in an automated manner, thereby replacing manpower and reducing costs.

The manufacturing apparatus 100 of the present invention has a feature of setting various bending ranges by manufacturing a bending mold in a step shape in order to improve the precision of bending when molding and bending the panel frame 2 .

The manufacturing apparatus 100 of the present invention is characterized by increasing the versatility of the work target by adjusting the interval according to the size of the panel frame 2 so that there is no restriction on perforation, cutting, and bending work.

In the above description of the manufacturing apparatus of the present invention with reference to the accompanying drawings, the specific shape and direction have been mainly described, but the present invention is capable of various modifications and changes by those skilled in the art, and these modifications and changes do not fall within the scope of the present invention. should be interpreted as including

1: quarantine gate 2: panel frame
10: perforated cutting unit 11: perforated frame
12: support operation part 13: support spindle
13a: support spindle motor
14: support spindle axis 15: transfer bracket
16: lifting actuator 17: support plate
18: feed spindle 18: feed spindle motor
19: feed spindle axis
20: perforated part 21: perforated spindle
21a: perforation spindle motor
22: perforation spindle axis 23: perforation press
24: perforated block 25: perforated operation unit
26: perforated blade 27: perforated bracket
30: cutting unit 31: cutting spindle
31a: cutting spindle motor
32: cutting spindle axis 33: cutting block
34: laser cutter
40: bending part 41: bending frame
50: bending mold part 51: bending spindle
51a: bending spindle motor
52: bending spindle axis 53: bending block
54: bending actuator 55: bending mold
55a: first bending mold 55b: second bending mold
60: bending press unit 61: press frame
62: press spindle 62a: press spindle motor
63: press spindle axis
64: press block 65: press actuator
66: press mold 100: manufacturing device

Claims (10)

A perforation cutting unit composed of a perforation 20 for perforation for ventilation, a perforation for nozzles, and a perforation for wires in the panel frame 2 for manufacturing the quarantine gate 1 and a cutting unit 30 for cutting ( 10), the perforated cutting part 10 is located on the upper part of the perforated frame 11, the supporting operation part 12 that raises and lowers the panel frame 2 on the inner lower part of the rectangular perforated frame 11 The perforated part 20, which performs perforation work on the panel frame 2 placed on the supporting operation part 12, is located on the upper part of the perforated frame 11 and is located on one side so as not to interfere with the perforated part 20 and a cutting unit 30 for performing a cutting operation on the panel frame 2, and a bending unit 40 for a bending operation to assemble the panel frame 2, which has been completed in the perforated cutting unit 10, in the form of a quarantine gate. ), but composed of
The support operation unit 12 forms a transfer bracket 15 coupled to the support spindle shaft 14 connected to the support spindle 13 installed inside the perforated frame 11,
Quarantine gate panel frame manufacturing apparatus, characterized in that the support plate 17 on which the panel frame 2 is lifted on the upper part of the lift actuator 16 installed inside the transfer bracket 15.
delete delete According to claim 1, wherein the perforated cutting part (10) perforated part (20) to move in the horizontal direction along the transfer spindle axis (19) connected to the transfer spindle (18) installed on the upper part of the perforated frame (11) And forming a cutting portion 30,
The perforation part 20 is characterized in that it constitutes a perforation press 23 installed on the perforation spindle axis 22 connected to the perforation spindle 21 connected to the transfer spindle axis 19. Device.
The method of claim 4, wherein the punching press 23 is a punching operation unit 25 installed on the upper part of the punching block 24 connected to the punching spindle shaft 22,
The quarantine gate panel frame manufacturing device, characterized in that the perforation blade 26 operating in the vertical direction to the lower part of the perforation block 24 by the operation of the perforation operation unit 25.
The method of claim 4, wherein the cutting unit 30 is a cutting block 33 installed on the cutting spindle shaft 32 connected to the cutting spindle 31 connected to the transfer spindle shaft 19,
A quarantine gate panel frame manufacturing device characterized in that a laser cutter 34 for irradiating a laser is configured at the bottom of the cutting block 33.
The bending mold part 50 of claim 1, wherein the bending part 40 is located at the inner lower part of the bending frame 41 and the panel frame 2 is lifted to move horizontally and move up and down for bending.
Disinfection gate panel frame manufacturing device characterized in that it constitutes a bending press unit 60 that is installed on the upper part of the bending frame 41 and presses the panel frame 2 downward to correspond with the bending mold unit 50 .
The method of claim 7, wherein the bending mold part 50 is a bending spindle 51 installed in the bending frame 41,
A bending spindle shaft 52 connected to the bending spindle 51;
A bending block 53 connected to the bending spindle shaft 52 and horizontally moving;
A bending actuator 54 installed on the top of the bending block 53 to generate a lifting and lowering operating force;
Quarantine gate panel frame manufacturing apparatus, characterized in that it constitutes a bending mold (55) installed on the top of the bending actuator (54).
The method of claim 7, wherein the bending press unit 60 is a press frame 61 installed on top of the bending frame 41,
A press spindle shaft 63 connected to the press spindle 62 installed in the press frame 61,
A press block 64 connected to the press spindle shaft 63 and horizontally moving;
A press actuator 65 installed on the upper part of the press block 64 to generate a lifting and lowering operation force;
Quarantine gate panel frame manufacturing apparatus, characterized in that it constitutes a press mold (66) installed in the lower part of the press actuator (65).
The quarantine gate according to claim 8, wherein the bending mold (55) has a first bending mold (55a) and a second bending mold (55b) having a large radius when projecting a cross section in the longitudinal direction in a stepped form. Panel frame manufacturing equipment.

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