JPS6326404A - Complex cylinder - Google Patents

Abstract

PURPOSE:To enable reciprocating motion to be carried out easily by providing the second cylinder chamber at the end of the first cylinder rod reciprocated by supply and discharge of pressure fluid so as to reciprocate the second cylinder rod inserted into the first cylinder rod. CONSTITUTION:Both ends of a cylinder tube 13 are closed by a rod cover 11 and a head cover 12 in order to constitute the first cylinder chamber 10, and the first cylinder rod 20, which has a rod part piercing each cover 11 and 12 and extending outwardly, and is in a body with a piston part is inserted into this cylinder chamber 10. The second cylinder chamber 30 is provided at the end of this cylinder rod 20, and the piston part of the second cylinder rod 40 extending by piercing the cylinder rod 20 is inserted into this chamber 30. And the first cylinder rod 2 is reciprocated by supply and discharge of pressure fluid to ports 14 and 15, and the second cylinder rod 40 is reciprocated by supply and discharge of pressure fluid to ports 31 and 32.

Description

[Detailed description of the invention] [Industrial application field] The present invention relates to a composite cylinder.

[Conventional technology]

As a compound cylinder, a telescope-type cylinder is conventionally known, for example, as described in fflVL Diagrams of Hydraulic Instruments, edited by the Japan Society of Mechanical Engineers, Hydraulic Alpha Equipment Diagrams Subcommittee, p. 40.

[Problem that the invention seeks to solve]

The above-mentioned conventional technology does not recognize that the two cylinder rods are individually reciprocated along the same line,
For this reason, there is a problem in that the objects to be moved provided at the output shaft ends of the respective cylinder rods cannot be individually reciprocated on the same line in the same direction.

An object of the present invention is to enable two cylinder rods to individually reciprocate along the same line, so that the objects to be moved provided at the output shaft ends of the respective cylinder rods can be moved on the same line, and The object of the present invention is to provide a composite cylinder that can be individually reciprocated.

[Means for solving problems]

The above purpose is to connect the composite cylinder to the first cylinder where pressure is supplied and discharged.
a cylinder chamber, a hollow shaft and double shaft type first cylinder rod that is provided through the first cylinder chamber and moves reciprocally by supplying and discharging pressure into the first cylinder chamber; a second cylinder chamber provided at the opposite end of the output shaft end of the first cylinder port to which pressure is supplied and discharged; This is achieved by including a second cylinder rod inserted into the first cylinder rod.

[For production]

The first cylinder rod is caused to reciprocate by supplying and discharging pressure into the first cylinder chamber. In case 2, unless pressure is supplied and discharged into the second cylinder chamber, the second cylinder chamber and the second cylinder rod are reciprocated together with the first cylinder rod.

By supplying and discharging pressure into the second cylinder chamber, the second cylinder rod is individually reciprocated on the reciprocating motion line of the first cylinder rod.

〔Example〕 An embodiment of the present invention will be described below with reference to FIG.

In FIG. 1, the first cylinder chamber 10 includes a rod cover 11
It consists of a head cover hill and a cylinder tube 13. A rod cover 11 and a rod cover are provided at both ends (upper and lower ends in FIG. 1) of the cylinder tube 13, respectively. The rod cover 11 and the head cover 12 have a pressure supply port 1 communicating with the cylinder chamber.
4.15 are provided respectively. The first cylinder loft has a hollow shaft and both shaft ends, and is provided in the first cylinder chamber 10 so that it can be moved reciprocatingly (in this case, vertically) by passing through the cylinder chamber and supplying and discharging pressure into the cylinder chamber. It is being In this case, the upper end of the first cylinder loft is the output shaft end. The second cylinder chamber is provided at the end opposite to the output shaft end of the first cylinder rod, that is, at the lower end. A pressure supply port 31,32 is provided between the second cylinder chamber and communicates with the cylinder chamber. The second cylinder rod cutter is inserted into the first cylinder rod so that it can reciprocate, ie, move up and down, by supplying and discharging pressure into the second cylinder chamber. In this case, the upper end of the second cylinder rod cutout is the output shaft end. And in this case,
Even when the second cylinder rod cutter is moved to the lowest position,
The output shaft end thereof is made to protrude from the output shaft end of the first cylinder rod. The output shaft end of the first cylinder loft silver and the output shaft end of the second cylinder rod cutter are in this case threaded, so that each moved object (not shown) They are provided at the output shaft end of the first cylinder rod and the output shaft end of the second cylinder rod, respectively. In this case, the axial center of the first cylinder loft silver and the axial center of the second cylinder rod ψ are approximately the same,
However, they may be different.

In FIG. 1, pressure fluid is supplied into the first cylinder chamber 10 from the pressure supply port +-is, while the pressure supply port 1
4, the pressure fluid in the first cylinder chamber 10 is discharged. As a result, the force of the first cylinder rod is increased. Due to this increase in the first cylinder loft silver, the second cylinder space and the second cylinder rod sum are increased together with the first cylinder rod addition. Thereafter, for example, when the first cylinder loft silver stops rising, pressure fluid is supplied from the pressure supply boat into the second cylinder chamber I, while pressure fluid is supplied from the pressure supply boat 31 into the second cylinder chamber I. of pressure fluid is discharged. As a result, the second cylinder rod is raised. Note that the lowering of the first cylinder loft and the second cylinder rod cutter is carried out by an operation opposite to the above-described operation.

In this embodiment, since the first cylinder rod and the second cylinder rod can be individually moved up and down along the same line, the objects to be moved provided at the ends of the respective output shafts can be moved up and down on the same line. Moreover, they can be moved up and down individually.

〔Effect of the invention〕

According to the present invention, since the two cylinder lofts can be individually reciprocated along the same line, the objects to be moved provided at the respective output shaft ends can be individually reciprocated along the same line. There is an effect.

[Brief explanation of drawings]

FIG. 1 is a longitudinal sectional view of a composite cylinder according to an embodiment of the present invention. 10...@1 cylinder chamber, 11...
Rod cover, 12...Head cover, 13.
...Cylinder tube, 14.15.31.32
......Pressure supply port, nod...-first cylinder lobed, (9)...second cylinder chamber,
First size 1 drawing

Claims (1)

[Claims] 1. A first cylinder chamber to which pressure is supplied and discharged, and a hollow shaft and double shaft type that is provided through the first cylinder chamber and reciprocates by supplying and discharging pressure into the first cylinder chamber. 1st
a cylinder rod, a second cylinder chamber provided at the end opposite to the output shaft end of the first cylinder rod and to which pressure is supplied and discharged, and reciprocating motion by supplying and discharging pressure into the second cylinder chamber. a second cylinder rod inserted into the first cylinder rod;
A composite cylinder characterized by comprising a cylinder rod.