JP3195545U - Radial riveting machine - Google Patents

Abstract

Disclosed is a radial rivet driving machine capable of stably ensuring vertical movement of a rivet head. A spindle 31 of a vertical motor 30 is interlocked so that a main shaft 33 is rotated via a coupling 32, and is interlocked so that a lower seat 35 rolls by the main shaft, and is biased inside the lower seat. A core hole 36 is formed, and an eccentric gear shaft 37 is mounted in the eccentric hole by the needle bearing B2. The fixed element 15 is installed below the lower fixed seat 12, and the inner ring gear 38 is installed inside the fixed element. The eccentric gear shaft rolls into a plum flower-shaped locus in the inner ring gear, and further, a spherical seat 17 and a spherical rivet seat 18 are installed inside the fixed element, and a rivet head 19 is installed below the spherical rivet seat. The spherical rivet seat is interlocked along a petal-like locus surrounding the spherical origin by an eccentric gear shaft, and the strained portion of the rivet rolls from the outside to the central origin at the rivet head. To do. [Selection] Figure 4

Description

    The present invention relates to a radial rivet hammer, and more particularly, to a technique applicable to a radial rivet hammer capable of stably securing the vertical movement of a rivet head.

    Many conventional spin rivet machines are squeezed by distorting the rivet with an axial impact force.

    The above-described spin rivet machine does not set upward pressure on the cylinder in advance, so that the axial impact force is too large, the vertical operation is not stable, and the internal structure of the rivet itself is destroyed. And there is a problem that there is friction and the surface layer cannot be applied to the treated rivet and has to be resolved.

    The present inventor proposes the present invention in which the above-mentioned drawbacks are studied carefully, and the above-mentioned disadvantages can be effectively eliminated by utilizing the theory, and the design is rational.

    An object of the present invention is to provide a radial rivet hammer, which may be an upright hydraulic radial rivet hammer or a desktop hydraulic radial rivet hammer, or an upright pneumatic radial rivet hammer. Or a desktop type pneumatic radial rivet hammer. In the hydraulic type, when the worker is standing upright, the switch is stepped on with a leg, and on the desk type, the switch trigger is driven with both hands. In the case of the hydraulic type described above, the pressurized oil liquid is sprinkled using the rolling of the motor and flows in the oil passage plate, and the bi-directional solenoid valve is used to stabilize the vertical operation. And pressure support (oil pressure is about 50-100 kg) like a spring. In the case of the above atmospheric pressure type, a preset air pressure of about 5 Bar is generated by the air compressor, and in the descending direction of the air cylinder, two sets of one-way control valves and two sets of control valves are used. As the descent is controlled and the workpiece is approached, the secondary valve is turned off, thereby reducing the speed and obtaining a better effect.

    In the first aspect of the invention, an upper fixed seat and a lower fixed seat are mainly installed above and below the cylinder, a piston is provided inside the cylinder, and a hydraulic device and a pneumatic device are provided outside the cylinder. In the cylinder, a preset rising pressure is generated, a first self-lubricating sleeve is provided between the lower fixed seat and the piston, and a vertical motor is disposed above the upper fixed seat. Is installed, a coupling is installed below the spindle of the vertical motor, a main shaft penetrates the coupling, and a second self-lubricating sleeve and an O-ring are provided between the upper fixed seat and the main shaft. It is installed and is linked with the spindle of the vertical motor via a coupling so that the main shaft rotates, a lower seat is provided below the main shaft, and a thrust bearing is installed between the piston and the lower seat The above spindle Therefore, the lower seat is interlocked so as to roll, and an eccentric hole is formed in the lower seat, and an eccentric gear shaft is mounted in the eccentric hole by a needle bearing, and below the lower fixed seat. A fixed element is installed, a protective taper lid is installed below the fixed element, an inner ring gear is installed inside the fixed element, and the eccentric gear shaft rolls into a plum-shaped locus in the inner ring gear. Further, a spherical seat and a spherical rivet seat are installed inside the fixed element, a rivet head is installed below the spherical rivet seat, and the spherical rivet seat surrounds the spherical center origin by an eccentric gear shaft. A radial rivet driving machine which is interlocked along a petal-like locus and rolls a strained portion of the rivet from the outside to the center origin by the rivet head.

    The invention of claim 2 is the radial rivet driving machine according to claim 1, wherein the radial rivet driving machine is an upright type or a desktop type.

    The invention of claim 3 is characterized in that the hydraulic device pressurizes oil liquid by a motor and inputs it from the oil tank into the cylinder, and uses a bidirectional electromagnetic valve to set about 50 to 50 preset in the cylinder. The radial rivet hammer according to claim 1, wherein an oil pressure of 100 kilograms is generated.

    The invention according to claim 4 is the radial rivet driving machine according to claim 1, wherein a cooling device is installed in the hydraulic device to reduce the generated high temperature when it operates.

    In the invention of claim 5, the air pressure device inputs air pressurized by an air compressor from a gas tank into a circle, and a preset air pressure of about 5 Bar is generated in the cylinder. An air compressor is directly connected in the direction in which the air cylinder rises, and a two-stage descent is performed in the direction in which the air cylinder descends using two sets of one-way control valves and two sets of control valves. 2. In the process of controlling and operating downward, two sets of directional valves are simultaneously turned on to increase the descending speed, and when approaching the workpiece, the secondary directional valve is turned off to reduce the speed. Is a radial rivet hammer.

    The invention of claim 6 is the radial rivet driving machine according to claim 1, wherein the pressure device is provided with a throttle for adjusting a descending speed.

    Hereinafter, the features and technical contents of the present invention will be described in detail with reference to the drawings. However, the drawings and the like are for reference and explanation, and the present invention is not limited thereby.

1 is an assembly plan view of an upright hydraulic radial rivet hammer according to the present invention. 1 is a plan assembly diagram of a desktop hydraulic radial rivet hammer according to the present invention. It is a plane assembly drawing of the desktop type atmospheric pressure type radial rivet hammer according to the present invention. 1 is a cross-sectional assembly view of a desktop hydraulic radial rivet hammer according to the present invention. It is BB sectional drawing of FIG. It is the E section enlarged view of FIG. It is the F section enlarged view of FIG. FIG. 3 is a transmission state diagram of a desktop hydraulic radial rivet hammer according to the present invention. FIG. 9 is a sectional view taken along line TT in FIG. It is a state figure at the time of the scrambling of the desktop hydraulic radial rivet hammer according to the present invention. It is a state figure at the time of the completion of the welding of the desktop type hydraulic radial rivet hammer according to the present invention.

The radial rivet hammer according to the present invention may be an upright hydraulic radial rivet hammer (as shown in FIG. 1) or a desktop hydraulic radial rivet hammer (as shown in FIG. 2). Further, it may be an upright type pneumatic radial rivet hammer or a desktop pneumatic radial rivet hammer (as shown in FIG. 3). In the above hydraulic type, the pressurized oil is input from the oil tank 22 into the cylinder 10 by the motor 21 of the hydraulic device 20, and the operator can use an upright type foot switch or a desktop type two-hand drive switch trigger. The hydraulic pump is operated and the motor 21 rolls, so that the pressurized oil is squeezed out and flows into the oil passage plate, and the two-way solenoid valve and other auxiliary parts are combined. , Its up and down operation stability is ensured, and also like a spring, pressure supported (oil pressure is about 50-100 kg), the pressure generated by the pump is required for work by the relief valve It can be adjusted to the pressure, and a stable cooling operation of the hydraulic circuit can be attempted, and a cooling device can be added to the system to reduce the high temperature due to the operation of the machine.

In the above atmospheric pressure type, air pressurized by the compressor of the atmospheric pressure device is input into the cylinder 10 from the gas tank, and the operator operates it with an upright type foot switch or a desktop type two-hand drive switch trigger. The preset pressure of 5Bar is generated by the air compressor, and the basic principle of this equipment is to use the effective area ratio difference of the piston in the cylinder to ensure the stability of the vertical operation process, the cylinder Directly connected to the air compressor in the ascending direction, and in the descending direction of the air cylinder, two-stage descending control is realized using two sets of one-way control valves and two sets of control valves. . In the process of moving the machine down, the two sets of directional valves are turned on at the same time, the descending speed is increased, and when approaching the workpiece, the secondary directional valve is turned off and the speed is reduced. It is a two-stage control that uses the dynamic principle. The descent speed can be adjusted with the throttle.

As shown in FIGS. 4 to 7, according to the present invention, an upper fixed seat 11 and a lower fixed seat 12 are mainly installed above and below the cylinder 10, respectively, and a piston 13 is placed inside the cylinder 10. The hydraulic device 20 is provided outside the cylinder 10, and the pressurized oil is input from the oil tank 22 to the cylinder 10 by the motor 21 of the hydraulic device 20 to apply a force downward or upward. The piston 13 is actuated by this, the first self-lubricating sleeve 14 is provided between the lower fixed seat 12 and the piston 13, and the vertical motor 30 is installed above the upper fixed seat 11, and the vertical motor A coupling 32 is installed below the 30 spindle 31, a main shaft 33 is passed through the coupling 32, and a second self-lubricating sleeve 34 and an O-ring Q are interposed between the upper fixed seat 11 and the main shaft 33. Is installed on the spindle 31 of the vertical motor 30 through the coupling 32, The shaft 33 is interlocked so as to rotate, a lower seat 35 is provided below the main shaft 33, a thrust bearing B1 is installed between the piston 14 and the lower seat 35, and the lower shaft 35 is rotated by the main shaft 33. The eccentric seat 36 is formed inside the lower seat 35, and the eccentric gear shaft 37 is mounted in the eccentric hole 36 by the needle bearing B2, and below the lower fixed seat 12. A fixed element 15 is installed, a protective taper lid 16 is installed below the fixed element 15, an inner ring gear 38 is installed inside the fixed element 15, and the eccentric gear shaft 37 is disposed in the inner ring gear 38. Rolls into a petal-like locus, and further, a spherical seat 17 and a spherical rivet seat 18 are installed inside the fixed element 15, and a rivet head 19 is installed below the spherical rivet seat 18, and the spherical rivet seat 18 has a petal-like locus around the origin by the eccentric gear shaft 37. Along the way, it rolls from the outside to the center origin.

According to the present invention with the above element structures, as shown in FIGS. 8 to 11, first, the first workpiece 50 and the second workpiece 60 are installed on the saddle seat 40, and the first workpiece 50 and the first workpiece 50 are connected to each other. The rivet 70 is set in the first and second contact holes 51 and 61 of the workpiece 60, and the spindle 33 is rotated through the coupling 32 by the spindle 31 of the vertical motor 30. The main shaft 33 is interlocked so that the lower seat 35 rolls, and the eccentric gear shaft 37 is displaced along the petal-like locus in the inner ring gear 38 and rolls from the outside to the central origin, With a smaller axial force, the rivet in the extremely small contact area reaches the yield point between the rivet head 19 and the strained portion 71 of the rivet 70, and the rivet material flows along the radial direction.

Therefore, the present invention is more progressive and more practical, and filed a utility model registration request in accordance with the law.

The above is only a better embodiment of the present invention, and the present invention is not limited thereby, and the equivalents made based on the scope of claims for utility model registration related to the present invention and the contents of the description. All changes and modifications are included in the scope of the utility model registration request of the present invention.

1 Upright hydraulic radial rivet hammer
10 cylinder
11 Upper fixed seat
12 Lower fixed seat
13 Piston
14 First self-lubricating sleeve
15 Fixed element
16 Protective taper lid
17 Sphere Seat
18 Spherical rivet seat
19 Rivet head
2 Desktop hydraulic radial riveting machine
20 Hydraulic system
21 Motor
22 Oil tank
3 Desktop type pneumatic radial rivet hammer
30 Vertical motor
31 spindle
32 coupling
33 Spindle
34 Second self-lubricating sleeve
35 lower seat
36 Eccentric hole
37 Eccentric gear shaft
38 Inner ring gear
40 saddle seat
50 First workpiece
51 1st hole
60 Second workpiece
61 2nd hole
70 rivets
71 Strain section
Q O-ring
B1 Thrust bearing
B2 Needle bearing

An object of the present invention is to provide a radial rivet hammer, which may be an upright hydraulic radial rivet hammer or a desktop hydraulic radial rivet hammer, or an upright pneumatic radial rivet hammer. Or a desktop type pneumatic radial rivet hammer. In the hydraulic type, when the worker is standing upright, the switch is stepped on with a leg, and on the desk type, the switch trigger is driven with both hands. In the case of the hydraulic type described above, the pressurized oil liquid is sprinkled using the rolling of the motor and flows in the oil passage plate, and the bi-directional solenoid valve is used to stabilize the vertical operation. And pressure support (oil pressure is about 50 to 100 kilogram / square centimeter (Kg / cm ² ) ) like a spring. In the case of the above atmospheric pressure type, a preset air pressure of about 5 Bar is generated by the air compressor, and in the descending direction of the air cylinder, two sets of one-way control valves and two sets of control valves are used. As the descent is controlled and the workpiece is approached, the secondary valve is turned off, thereby reducing the speed and obtaining a better effect.

The invention of claim 3, the hydraulic device, by a motor, enter the hydraulic fluid to pressurize the cylinder from the oil bath, by using a two-way solenoid valve, in the cylinder, set in advance has been 5 0 ^2. A radial rivet hammer according to claim 1, wherein an oil pressure of 100 kilograms per square centimeter (Kg / cm < ² > ) is generated.

The radial rivet hammer according to the present invention may be an upright hydraulic radial rivet hammer (as shown in FIG. 1) or a desktop hydraulic radial rivet hammer (as shown in FIG. 2). Further, it may be an upright type pneumatic radial rivet hammer or a desktop pneumatic radial rivet hammer (as shown in FIG. 3). In the above hydraulic type, the pressurized oil is input from the oil tank 22 into the cylinder 10 by the motor 21 of the hydraulic device 20, and the operator can use an upright type foot switch or a desktop type two-hand drive switch trigger. The hydraulic pump is operated and the motor 21 rolls, so that the pressurized oil is squeezed out and flows into the oil passage plate, and the two-way solenoid valve and other auxiliary parts are combined. , Its up and down operation stability is ensured, and, like a spring, pressure support (oil pressure is about 50-100 kg / square centimeter (Kg / cm ² )) and the pressure generated by the pump is relief The valve can be adjusted to the pressure required for work, and the cooling circuit is further added to the system to reduce the high temperature due to the operation of the machine in order to stabilize the hydraulic circuit. be able to.

Claims (6)

An upper fixed seat and a lower fixed seat are respectively installed above and below the cylinder, a piston is provided inside the cylinder, and a hydraulic device and a pneumatic device are installed outside the cylinder. A set rising pressure is generated, a first self-lubricating sleeve is provided between the lower fixed seat and the piston, a vertical motor is installed above the upper fixed seat, and the spindle of the vertical motor is A coupling is installed below, a main shaft penetrates the coupling, a second self-lubricating sleeve and an O-ring are installed between the upper fixed seat and the main shaft, and a spindle of the vertical motor, Via a coupling, the main shaft is interlocked to rotate, a lower seat is provided below the main shaft, a thrust bearing is installed between the piston and the lower seat, and the lower seat rolls by the main shaft. Like Interlocked, an eccentric hole is formed in the lower seat, an eccentric gear shaft is mounted on the eccentric hole by a needle bearing, a fixing element is installed below the lower fixing seat, and the fixing element A protective taper lid is installed below, an inner ring gear is installed inside the fixed element, the eccentric gear shaft rolls into a plum-shaped locus in the inner ring gear, and further inside the fixed element, A spherical seat and a spherical rivet seat are installed, a rivet head is installed below the spherical rivet seat, and the spherical rivet seat is interlocked along a petal-like locus around the origin of the spherical center by an eccentric gear shaft. A radial rivet hammer characterized by rolling the rivet strained portion from the outside to the center origin with the rivet head. The radial rivet driving machine according to claim 1, wherein the radial rivet driving machine is an upright type or a desktop type. The above hydraulic device pressurizes the oil liquid with a motor and inputs it from the oil tank into the cylinder, and generates a preset oil pressure of about 50 to 100 kilograms in the cylinder using the bidirectional solenoid valve. The radial rivet hammer according to claim 1, wherein: The radial rivet driving machine according to claim 1, wherein the hydraulic device is provided with a cooling device for lowering a generated high temperature when operated. The air pressure device inputs air pressurized by an air compressor from the gas tank into the cylinder, and in the cylinder, a preset air pressure of about 5 Bar is generated, and the air cylinder rises in the direction of rising. A process in which the air compressor is directly connected and the two-stage descent is controlled by using two sets of one-way control valves and two sets of control valves in the direction in which the air cylinder descends and operates downward 2. The radial rivet according to claim 1, wherein when two sets of directional valves are simultaneously turned on to increase the descending speed and approach the workpiece, the secondary directional valve is turned off to reduce the speed. Hammer. The radial rivet driving machine according to claim 1, wherein a throttle for adjusting a descending speed is provided in the atmospheric pressure device.