DE688429C - DC compressor - Google Patents

Description

DC compressors DC compressors are known which have a dead space lying in the spring-loaded cylinder base. This Dead space can cause the cylinder to reduce performance while maintaining the same The number of revolutions can be switched on. The pressure valve surrounds the valve in a ring, which connects the dead space with the working cylinder. In this previously known Execution, the connecting space remains permanently connected to the working cylinder as long as a reduction in performance is desired. This degradation makes you certain constant percentage of full power, which is dependent on the proportions of the working cylinder and the dead space to each other.

On the other hand, it is known in compressors of the usual type, a to effect stepless power regulation through a dead space unchangeable Size that occurs when the output is reduced during a changing part of the pressure stroke is connected to the working cylinder. The control valve is in the opening direction by a controllable pressure, for example a spring, a hydraulic piston o. The like., loaded, with an auxiliary piston provided on the gripper device. against the pressure of the spring or the like. acted upon by the pressure in the connection space will. The connecting space then remains for the working cylinder for each pressure stroke switched on until the pressure increasing under the auxiliary piston corresponds to that in the opposite direction Direction has exceeded acting pressure.

The invention relates to a sliding flow compressor with an im spring-loaded dead space provided with the pressure ring valve, which also applies to the cylinder to reduce performance via a valve is switchable. What is new here is that the connecting space is unchangeable Has size and the associated control valve in a known manner by a adjustable pressure, e.g. B. a spring is loaded in the opening direction, the provided on the gripper device of the controllable valve opposite auxiliary piston the spring force is acted upon by the pressure in the connection area.

Such a direct current compressor is characterized by a special one Simplicity and practicality of its construction. Because it is straightforward possible, the cylinder base, which contains all sensitive parts, outside of the machine and then as a whole into the open end of the working cylinder to use. The suction valve arranged in the compressor piston is also after removal The cylinder base is easily accessible from the open end of the cylinder. Special However, this design offers advantages insofar as it offers the possibility of only by replacing the cylinder bottom a normal direct current compressor, its Performance is not or only steplessly adjustable, in such a with adjustable Convert performance.

An exemplary embodiment of the invention is shown in the drawing.

Piston b moves in cylinder a of the direct current compressor. The suction valve c is inserted into this piston and opens towards the compression chamber d during the suction stroke. This space d is otherwise delimited in the cylinder a by the end plate f. The pressure valve g designed as a ring valve is arranged in this plate. Furthermore, the control valve h is inserted into the plate f , which is located between the compression space d and the switchable clearance space i. The valve h can be influenced contrary to the rules by the lifting gripper k , that is, it can be kept from its seat during a changing part of the pressure stroke. In the exemplary embodiment, the pressure on the lifting gripper is carried out by a spring, the tension of which can be adjusted as required with the aid of the handwheel n. Instead of the spring m, however, any other pressure medium can also be brought into action in the same direction on the valve plate h. It is possible, for example, to apply a hydraulic or pneumatic pressure, the pressure level of which is optionally regulated automatically by the pressure of the compressed medium. M against the spring acts on the unloader k of the pressure of the container in the Zuschaltraum i, the o on the piston to act overall reached.

In the described design of the control device, the valve h closes during the pressure stroke, as soon as the pressure exerted by the spring m is exceeded, from the back pressure under the valve plate h and the pressure acting in the same direction, which as a result of the pressure increase in the connection space i on the Piston o comes into play. At the beginning of the suction stroke, the valve h opens again automatically, and the pressure medium located in the space i expands into the cylinder space d . Each linearly variable control pressure therefore corresponds to a very specific closing time of the valve h and thus the setting of a specific intermediate pressure in the connection space i, whereby a corresponding reduction in performance is achieved.The connection space i can optionally be cut out in the end plate f or surrounded by a special housing p be, which is closed by the end plate f . In the latter case, the pressure spring q presses on the dead space housing and thus indirectly on the end plate f.

A particular advantage of the device described is that that there is no problem with an existing DC compressor retrofitting the elements that result in a stepless reduction in output allow with the same number of revolutions.

Claims (1)

PATENT CLAIM. i. DC compressor with a dead space in the spring-loaded cylinder base provided with the pressure ring valve, which can be connected to the cylinder to reduce performance via a valve, characterized by a connection chamber (i) of unchangeable size, the control valve (h) of which in a manner known per se by a controllable pressure, z. B. a spring (in) is loaded in the opening direction, the auxiliary piston (o) provided on the gripper device (k) of the controllable valve (h) being acted upon against the spring force (m) by the pressure in the connection space (i). : 2. Direct current compressor according to claim i, characterized by an additional space housing (p) placed between the cylinder base (f) and its spring (q).