CS253201B1 - Small pressure compressor located in a two-piece cabinet - Google Patents

Abstract

The essence of the solution is that the beam has the shape of a symmetrical or asymmetrical letter O, with one end of the beam being inserted with its extension through a second elastic mounting and the other end of the beam being inserted with its extension through a second elastic mounting into the grooves of the first housing part or into the grooves of the second housing part or between the first housing part and the second housing part or that the beam is inserted into the first housing part or into the second housing part via a flexible washer.

Description

The present invention relates to a low pressure compressor housed in a two-piece housing for supplying less air to aquariums, filters, and laboratory and measuring equipment.

In pneumatic and hydraulic circuits, there is a frequent need for a source of low pressure. It is either an auxiliary pressure source or a cooperating source! with pneumatic or hydraulic switch or transducer.

There are also operations in which less air or a gaseous medium of low pressure is required but with a continuous operating mode. Typical examples are laboratory operations and various analyzes. Similarly, water aeration, water filter drive, etc.

In aquaristics, but also in water management, laboratories, agriculture, industry, etc. is used to obtain less air in most cases of small reciprocating compressors. Piston compressors are failure, noisy, relatively expensive, require frequent maintenance and are not very efficient.

Small vibrating compressors are also known in which the driving unit is a magnetic circuit consisting of an electromagnet and a movable armature that oscillates to the rhythm of the AC supply voltage on a steel leaf spring.

The movement of the anchor, ie its stroke, is then used to mechanically move the diaphragm, which together with the valve system creates pressure conditions in suitable spaces. Thus, the anchor is hinged at one end to a steel leaf spring, the second, most moving end of the anchor comprising a profile portion that corresponds in shape to the ends of the magnetic circuit sheets.

The anchor may also include a permanent magnet at its stroke end which describes a segment of the lane path in the corresponding recess of the magnetic circuit. In any case, the movement of the armature in some part of its length is transmitted by means of a rod to the movement of the diaphragm of the compressor system itself.

The rod is attached to the diaphragm in a rigid manner and is also fixed to the anchor in a rigid manner or via a partially pivotable hinge. The membrane is either straight or shaped.

In the case of simple compressors, their basic parts, i.e. the magnetic drive unit, the anchor with a hitch and the rod, as well as the body of the compressor itself, are fixed separately to the inner walls of the compressor box. All the vibrations of the system are then transmitted to this box and the compressor as a whole is unpleasantly noisy.

Such systems are also known in which a magnetic drive unit, an anchor with a hitch and a drawbar, as well as a body of the compressors themselves, are mounted on a structure of the support system which is resiliently mounted relative to the compressor housing.

In this case, the construction of the support system consists of a number of parts connected to each other by screwing, riveting, etc.

These disadvantages are overcome by the low pressure compressor according to the invention. SUMMARY OF THE INVENTION The beam is in the form of a symmetrical or unsymmetrical U-shaped element, wherein one end of the beam is inserted by its extension by a first resilient fit and the other end of the beam is inserted by its extension by a second resilient fit into the grooves of or between the first housing part and the second housing part, or that the beam is received in the first housing part or in the second housing part by means of a resilient washer.

The advantage of this arrangement is that all exposed compressor parts, including electrical accessories, are simply attached to a single, simply shaped support plate, which is an optimal and inexpensive design concept. A simple support plate in the form of symmetrical or unsymmetrical U, at the same time also serves for flexible mounting of the entire compressor system. The arrangement is very simple and easy to manufacture.

Examples of low pressure compressor arrangements according to the invention are schematically shown in the accompanying drawings of Figures 1 to 6.

FIG. 1 shows a non-symmetrical U-shaped beam 14 to one end of which a foil 13 is attached by means of a second anchor 6 and a first shank 12, to which an anchor 2 is fastened by an anchor 2 and its end profile 2 is located in close proximity to the ends of the magnetic plates of the magnetic circuit 11, which is secured to the other end of the beam 14 by means of a third grip 7.

A coil 10 is slid onto the magnetic circuit 11. The ends of the plates of the magnetic circuit 11 are tightened by tightening strips 9. A compressor body 18, including inter alia a diaphragm 16, clamped by a tight grip 17, is also attached to the beam 14.

Tight attachment 17 can also be part of the membrane 16 and is connected to the transmission mechanism 2 to the armature 2 ^{with the} assistance of fixing £. Electrical accessories 15 are also attached to the beam 14.

The beam 14 is made of conventional construction material and has a shape resembling an unsymmetrical letter U, the ends of the beam being shaped to accommodate the blade 2 ^{and the} magnetic circuit 11. The blade 22 is a steel leaf spring.

The first shim 12 and the second shim 13 are conventional structural strips. The first grip 2, the second grip 6 and the third grip 7 are screwed or riveted joints. The anchor 2 with the end profile 2 is a conventional structural strip.

The end profile 2 corresponds in its shape to the arrangement of the ends of the plates of the magnetic circuit 11. The end profile 2 can be formed either by an extension attached to the armature 2 by screwing, riveting, gluing, etc. or by anchoring the anchor end 2 ·

The end profile 2 can also be formed by open or closed punching of the end of the armature 2. The open or closed punching can be either one or more. The end profile 2 is structurally either a homogeneous part of the armature 2 or it is a separate part, fixed to the armature 2 by screwing, riveting, soldering, etc.

The magnetic circuit 11 is comprised of conventional magnetic sheets, preferably E-shaped treated sheets are used. The coil 10 comprises a frame and a commonly insulated winding.

In order not to increase the noise level of the compressor by frequency resonance, the ends of the plates of the magnetic circuit 11 are tightened by tightening strips which are conventional structural strips.

The compressor body 18 is a machined or molded part made of metal, organic glass, well-formable or machinable plastic, and the like. The compressor body 18 comprises working spaces, ducts and valves. The membrane 16 is made of membrane rubber and can be either straight or shaped.

The tight fit 17 is two metal plates tightly clamping the membrane. Preferably, the surface of each of the plates is 40 to 60% of the active surface of the membrane 16. The tight fit 17 may also be part of the membrane 16, such that it is formed by technologically inserting the tight fit 17 into the membrane 16 or formed by a thickened portion of the membrane 16.

The transmission mechanism 3 is a simple rod made of conventional round or profiled material.

Mounting 2 connects the transmission mechanism 2 ^with an armature 2 ^and either fixedly or rotatably.

The rigid connection can be made, for example, by a thread and is less preferred. More preferably, the pivotal connection is made either by means of an elastic element, eg rubber, or by means of a ball, spring, auxiliary foil, etc.

The electrical accessories 15 are represented by a terminal block, diode, electrically connected in series to the coil 10, and in some cases by a capacitor.

On. Figs. 2, 3, 4 are analogous to those of Fig. 1. In all cases, it is the use of a common beam 14 having a shape resembling an unsymmetrical letter U, but with those giving away that the ends of this beam 14 are arranged in different but in each case so that the foil 2 can be attached to one end of the beam 14 ^and the magnetic circuit 11 can be attached to the other end of the beam 14.

FIG. 5 shows an example of a low pressure compressor arrangement where the beam 21 has an asymmetrical U-shape with the ends of the beam 14 serving at the same time to resiliently accommodate the entire system. The resilient fit of all exposed parts centered on the beam 14 is provided by resilient fitings 19 and 20.

Both the first resilient bearing 19 and the second resilient bearing 20 are formed of elastic parts with which the end extensions of the beam 14 can be supported or surrounded. The beam 14 is seated in the thick-walled housing by means of its end extensions and by means of resilient bearings 19 and 20, whereby a significant noise reduction is achieved.

The support 14 is mounted in the grooves of the first housing part 21 or in the grooves of the second housing part 22 or between the first housing part 21 and the second housing part 22 (see also FIG. 6).

FIG. 6 shows an example of the low-pressure compressor arrangement of FIG. 1, with the support 14 being supported by a resilient washer 27 in the second housing part 22. The whole system operates in a two-part thick-walled housing or a one-piece closure housing. At the same time, the second housing part comprises a bushing 26, which is connected via an inner end via a flexible tube 29 to the outlet 28 of the compressor body 18.

The first housing part 21 'or the second housing part 22 further comprises a suction filter consisting of a filter cover 23, a filter cartridge 24 and a suction port 25. A suitable staple, foam, etc. may be used as filter cartridge 24.

The filter cover 23 is a machined or molded conventional component with holes. Both the first housing part 21 and the second housing part 22 are thick-walled castings or sprays made of gray cast iron, aluminum alloy, plastic, and the like. The diffuser 28 is a conventional workpiece as well as the bushing 26. The flexible tube 29 is either a rubber tube or a plastic tube.

The low-pressure compressor arrangement operates in such a way that the armature 2 oscillating on the foil 8 in the rhythm of the AC voltage supplied to the winding of the coil 22 of the magnetic circuit 11 transmits its movement, i.e. stroke, through the gear mechanism 2 and tight fit. 17 for moving the diaphragm 22 ', which together with the system of valves, chambers and ducts of the compressor body 18 creates pressure conditions.

The invention is used for the production of compressors for low pressures requiring the release of smaller amounts of air or gaseous medium for laboratories, industry and especially for the aquarium industry.

Claims (3)

SUBJECT OF THE INVENTION 1. A low-pressure compressor housed in a two-part casing consisting of a beam at one end of which a foil is attached by means of a second bracket and a first clamp, to which an anchor is attached by means of a first clamp and a second clamp. magnetic plates of a magnetic circuit with a coil, which is attached to the other end of the beam by means of a third fixture, while at the same time the body of the compressor including the diaphragm connected by means of tight fitting and gear mechanism is fastened to the beam; characterized in that the beam (14) has the shape of a symmetrical or unsymmetrical U-letter, wherein one end of the beam (14) is inserted by its extension by means of a first resilient bearing (19) and the other the other end of the beam (14) is inserted by its extension into the grooves of the first housing part (21) or into the grooves of the second housing part (22) or between the first housing part (21) and the second housing part (22) ) or that the beam (14) is received in the first housing part (21) or in the second housing part (22) by means of a spring washer (27). 2. A low-pressure compressor disposed in a two-piece housing according to claim 1, characterized in that the tight fit (17) is part of the diaphragm (16) by technological insertion of the tight fit (17) into the diaphragm (16) or the thickened portion of the diaphragm (16). 16). A low-pressure compressor disposed in a two-piece housing according to items 1 and 2, characterized in that the ends of the plates of the magnetic circuit (11) are provided with tightening strips (9).