JPH0633910A - Two-speed cylinder device - Google Patents

Abstract

PURPOSE:To execute arbitrary adjustment of the pressure application starting point of a cylinder device where two speeds are changeable. CONSTITUTION:The hydraulic pressure is supplied from a hydraulic pump 20 to an upper chamber 11 of a cylinder body 1 where a small-diametral piston 2a of a piston 2 consisting of the small-diametral piston 2a and a large-diametral piston 2b is accommodated through a main valve 22, while the hydraulic pressure to be pressed by a pressing tank 26 is supplied to an intermediate chamber 12 of the cylinder body 1 where the large-diametral piston 2b is accommodated through a prefill valve 29. A pressure application point adjusting mechanism 5 is provided on the upper part of the cylinder body 1 so that the pressure application starting point of the piston may be arbitrarily adjusted by presetting the opening timing of a passage 2e to communicate the upper chamber 11 in the cylinder body 1 with the intermediate chamber 12 by an adjusting cylinder 6 which can be moved in the vertical direction.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a two-speed transmission cylinder device mainly used for a drive source such as a press.

[0002]

2. Description of the Related Art A hydraulic cylinder conventionally used as a drive source for a hydraulic press, a tarot punch press, etc.
As shown in (a) of section, small diameter cylinder a and large diameter cylinder b
There is a combination of the two types so that two speeds, high speed and low speed, can be obtained. That is, initially, the small diameter cylinder a
As shown in FIG. 1B, a movable body such as a slide is lowered at a high speed as shown in FIG. 1B, and when the molding is started, the passage d provided in the small diameter piston c causes the movable body of FIG.
By inserting the small-diameter cylinder a and the large-diameter cylinder b into the large-diameter cylinder b, the large-diameter piston e is lowered at a low degree to obtain a large pressurizing force, and when the movable body reaches the bottom dead center, the speed is again increased. It is designed to raise the movable body to top dead center.

[0003]

However, in the above-mentioned conventional cylinder device, since the shift point for shifting from high speed to low speed is fixed, there is a problem that the pressurization start timing cannot be set arbitrarily. The present invention has been made to solve the above-mentioned conventional problems, and an object of the present invention is to provide a two-stage transmission cylinder device in which a pressurizing start point can be arbitrarily set.

[0004]

In order to achieve the above object, the present invention provides a main valve rather than a hydraulic pump in the upper chamber of a cylinder body in which the small diameter piston of the small diameter piston and the large diameter piston is housed. The hydraulic pressure is supplied via a prefill valve to the intermediate chamber of the cylinder body accommodating the large-diameter piston. By setting the opening timing of the passage that connects the upper chamber and the intermediate chamber in the cylinder body to the upper part of the cylinder body with the vertically movable adjustment cylinder, the pressurization start point of the piston can be arbitrarily adjusted. A pressure point adjusting mechanism is provided.

[0005]

[Operation] With the above-described structure, the pressurizing point of the piston can be arbitrarily adjusted by moving the adjusting cylinder of the pressurizing point adjusting mechanism up and down to adjust the timing of communication between the upper chamber and the intermediate chamber.

[0006]

Embodiment An embodiment of the present invention will be described in detail with reference to the drawings shown in FIG. FIG. 2 shows an overall configuration diagram of the cylinder device, in which 1 is a cylinder body and 2 is a cylinder body.
Indicates a piston housed in the cylinder body 1 so as to be vertically movable. The piston 2 includes a small-diameter piston 2a and a large-diameter piston 2b connected to the lower end of the small-diameter piston 2a.
More becomes small-diameter piston 2a is inserted from below the upper chamber 1 ₁ formed in the upper portion of the cylinder body 1.

The large-diameter piston 2b divides the interior of the cylinder body 1 into an intermediate chamber 1 ₂ and a lower chamber 1 ₃ , and a piston chamber 2d is formed in the large-diameter piston 2b. The child piston 2c is accommodated in 2d. The child piston 2c is biased upward by a compression spring 3, and its upper surface is in close contact with the upper surface of the piston chamber 2d in a normal state, and is lowered by the hydraulic pressure supplied to the piston chamber 2d.

[0008] On the other hand the small diameter piston 2a of the piston 2, one end opening to the upper chamber 1 ₁ of the cylinder body 1, the other end intermediate chamber 1 in ₂ than near the boundary of the small-diameter piston 2a and the large-diameter piston 2b opening passages 2e are formed, on one end of the passage 2e which opens into the upper chamber 1 ₁ side, adjustment tube 6 of the adjusting mechanism 5 for setting a pressurization start point is inserted from above. An annular groove 6a is formed in the lower part of the adjusting cylinder 6, a through hole 6b is opened in the annular groove 6a, and an intermediate portion of the adjusting cylinder 6 is formed in the end plate 1a of the cylinder body 1. The worm wheel 9 is screwed into the threaded portion 1b and is housed in the worm case 8 at the upper end.
Is installed. The wall wheel 9 is meshed with a worm 11 rotated by a pressure point adjusting motor 10, and the pressure point adjusting motor 10 moves the adjusting cylinder 6 up and down through the worm 11 and the wall wheel 9. The pressurizing start point can be adjusted arbitrarily, and the adjustment position is the dial type display 13.
Is displayed.

A diaphragm rod 15 is housed in the adjusting cylinder 6 so as to be vertically movable. The lower end of the diaphragm rod 15 reaches the vicinity of the through hole 6b of the adjusting cylinder 6, and the upper end side of the diaphragm rod 15 is screwed into a screw portion 6c formed on the inner circumference of the upper part of the adjusting cylinder 6. Through hole 6 by rotating the upper end
The opening of b can be adjusted freely and the lock nut 16
The diaphragm rod 15 can be fixed at the adjustment position by tightening.

On the other hand, reference numeral 20 in the figure denotes a hydraulic pump driven by a motor 21, and a swash plate pump is used which can arbitrarily adjust the discharge flow rate by adjusting the swash plate tilt angle by the control unit 20a. With this hydraulic pressure discharged from the hydraulic pump 20 is adapted to be supplied to the upper chamber 1 ₁ of the cylinder body 1 via the main operating valve 22, the child part piston operated valve 23 and pilot check valve 24 It is supplied to the pressure tank 26 via the piston chamber 2d and the oil level holding valve 25. The above pressure tank 2
Factory air is supplied to the inside of the pressurizing unit 6 via a pressure reducing valve 27, and the inside of the pressurizing tank 26 is pressurized by the air.
It is connected to the intermediate chamber 1 ₂ of the cylinder body 1 via 9.

[0011] a position detector 30 for detecting the position of the child piston 2c in the cylinder body 1, a pressure detector 31 for detecting the pressure of the upper chamber 1 ₁ is, and the pressurizing tank 26 the oil level detection Each has a container 32,
The signals detected by these detectors 30, 31, 32 are sent to the controller 35, and based on these signals, the controller 35 controls the pressurizing point adjusting motor, the main operation valve 22, the child piston operation valve 23, and the oil level holding. The valve 25 is adapted to be controlled.

Next, the operation will be described. When descent command signal from the current controller 35 is outputted to the main valve 22, main valve 22 is I switched to lowered position 22a, the discharge pressure of the hydraulic pump 20 is supplied to the upper chamber 1 ₁ of the cylinder body 1, with diameter piston 2a of the upper chamber 1 ₁ starts to descend at a high speed, since the oil in the intermediate chamber 1 within ₂ via a prefill valve 29 from the pressure tank 26 flows into the intermediate chamber 1 ₂ negative pressure Never becomes. And the small diameter piston 2
When a reaches the pressurizing start point (point A in FIG. 3) previously adjusted by the pressurizing start point adjusting mechanism 5, the small-diameter piston 2a has been used until now.
In order to hole 6b of the adjusting tube 6 that has been closed is opened, the upper chamber 1 ₁ and the intermediate chamber 1 ₂ is communicated via a passage 2e in the small-diameter piston 2a, the upper chamber discharge pressure of the variable pump 20 is It is supplied to 1 ₁ and the intermediate chamber 1 ₂ .

[0013] This small-diameter piston 2a and the large-diameter piston 2b which has been lowered at high speed until now by the lowering speed from the pressurization start point A becomes a low speed (the upper chamber 1 ₁ receiving area +
The small-diameter piston 2a and the large-diameter piston 2b are lowered by the pressure of (the pressure receiving area of the intermediate chamber 1 ₂ ) × the pressure P, and the child piston 2
The movable body (not shown) attached via c serves for molding. When the bottom dead center of the movable body is changed, the bottom dead center can be arbitrarily changed by supplying hydraulic pressure to the piston chamber 2d in which the child piston 2c is housed through the child piston operation valve 23.

[0014] On the other hand with pressurized hydraulic lower chamber 1 ₃ by the lowering of the large diameter piston 2b is accumulated to the total amount accumulator 28, when the small-diameter piston 2a and the large diameter piston 2b is formed is completed reaches the bottom dead center A rise command signal is output from the controller 35 to the main valve 22. As a result, the main valve 22 is switched to the raised position 22b, so that the discharge pressure of the hydraulic pump 20 is supplied to the prefill valve 29 as the pilot pressure to open the prefill valve 29, and at the same time, the accumulator 2 has been operated until now.
Since the oil pressure 8 were accumulated in the pushes up the large diameter piston 2b and flows into the lower chamber 1 _3, the small-diameter piston 2a and the large diameter piston 2b is raised to the top dead center at high speed.

Next, when it is desired to change the pressure starting point A,
A desired pressurizing point start position is input to the controller 35. As a result, a control signal is output from the controller 35 to the pressurizing point adjusting motor 10, and the adjusting cylinder 6 is rotated by the pressurizing point adjusting motor 10 via the worm 11 and the wall wheel 9, and the screw portion 1b of the cylinder body 1 is rotated. Thus, the adjustment cylinder 6 is moved up and down, and the position where the through hole 6b of the adjustment cylinder 6 is opened is adjusted. When it is desired to change the descending speed from the pressurization start point A to the bottom dead center, loosen the lock nut 16 and
5 is rotated, and by adjusting the opening of the through hole 6b by the stop rod 15, since the oil pressure of the flow entering the upper chamber 1 ₁ to the intermediate chamber 1 ₂ can be adjusted, to the bottom dead center from the pressurization start point The descending speed of can be arbitrarily adjusted as shown in FIG. 3B.

[0016]

As described in detail above, the present invention allows the starting point of pressurization to be arbitrarily adjusted by the pressurizing point adjusting mechanism. It becomes possible and press molding with high accuracy becomes possible. In addition, the movable body is lowered at high speed up to the pressurization start point, and it is made slower after pressurization is started to obtain a large pressurizing ability, so that a large pressurizing ability can be obtained with a small diameter hydraulic cylinder. In addition, since the movable body can be moved up and down at high speed while the pressure is not applied, the cycle time can be shortened and the productivity can be improved. Further, since the descending speed after the start of pressurization can be changed by the diaphragm rod provided in the pressurizing point adjusting mechanism, it is highly versatile in that it can be used in various industrial machines.

[Brief description of drawings]

FIG. 1 (a) is an explanatory view showing a conventional two-stage shift cylinder device. (B) A velocity diagram of the cylinder. (C) It is an operation explanatory view of the cylinder device.

FIG. 2 is a configuration diagram of a two-stage shift cylinder device according to an embodiment of the present invention.

FIG. 3 is an operation explanatory view of a two-stage shift cylinder device according to an embodiment of the present invention.

[Reference Numerals] 1 ... cylinder body, 1 ₁ ... upper chamber, 1 ₂ ... lower chamber, 2 ... piston, 2a ... small-diameter piston, 2b ... large diameter piston, 2e
... passage, 5 ... pressurizing point adjusting mechanism, 6 ... adjusting cylinder, 20 ... hydraulic pump, 22 ... main valve, 26 ... pressurizing tank, 29
… Prefill valve.

Claims (3)

[Claims] To 1. A small-diameter piston 2a and the upper chamber 1 ₁ of the small-diameter piston 2a cylinder body 1 which is accommodated in the piston 2 made of large diameter piston 2b, supplying hydraulic pressure through the main valve 22 from the hydraulic pump 20 No way, also with the above the intermediate chamber 1 ₂ of the large diameter piston 2b cylinder body 1 housed in, forming a pressurized hydraulically pressurized tank 26 to supply via a prefill valve 29,
An upper portion of the cylinder body 1, by setting the opening time of the passage 2e communicating upper chamber 1 ₁ and the intermediate chamber 1 ₂ within the cylinder body 1 by vertically movable adjustment barrel 6, the start of the pressure piston 2 A two-stage shift cylinder device provided with a pressurizing point adjusting mechanism 5 capable of adjusting points arbitrarily. To 2. A within adjustment tube 6 of the pressure point adjusting mechanism 5, by limiting the hydraulic pressure of the flow entering the upper chamber 1 ₁ to the intermediate chamber 1 _2, and to be able to adjust the lowering speed of the piston 2 The two-stage transmission cylinder device according to claim 1, further comprising a throttle rod 15. 3. A large diameter cylinder 2b is provided below the piston 2.
2. A two-stage transmission cylinder device according to claim 1, further comprising a child piston 2c which is vertically adjustable.