TR201808183T4 - Air compressor with side tilted piston. - Google Patents

Abstract

An air compressor includes an outlet tube and a cylinder housing having an inner peripheral surface, a piston being slidably received in the cylinder housing and having a piston rod, the piston being tilted relative to a longitudinal (L) or lateral axis (T) of the piston rod and an engine is coupled to the piston for moving the piston relative to the cylinder housing in a reciprocating movement to form compressed air. The piston rod is tilted relative to the longitudinal axis (Z) of the cylinder housing and the piston is moved perpendicular to the inner peripheral surface and longitudinal axis (Z) of the cylinder housing when the piston is moved to the outlet tube in a pumping course for effective compression and pumping of air in the cylinder housing. is organized to.

Description

AIR COMPRESSOR WITH INSTALLED PISTONThe present invention is an air compressor and more. effectively in the pumping action or stroke for compression or pumping and/or air effect or treatment of compression or pumping a side tilted for suitably increased relates to an air compressor that has a piston. Typical air compressors are mounted or fixed to a base and a piston having a slidably located piston cylinder housing and a greater air pressure and a reduced to create a compressed air with flow rate and tires, air mattresses, air bags, air bags etc. such as various for supplying compressed air to inflate air units the piston of the cylinder housing in a reciprocating motion. fixed to the base for starting and driving and an engine clamped to the piston of the cylinder housing The cylinder housing normally includes pressure gauges, air nozzles, various parts such as relief valves, safety valves or the like or selectively of elements or fittings or units for fastening and fixing or clamping as an outlet tube with one or more outlet ports. contains. See patent document U56213725 B1 for the most recent prior art. The applicant must be at least Chou U86,213,725, U86,514,058 of Chou, U86,655,928 of Choulya, U86,655,928 of Chou U86,846,162, US7,240,642 by Chou and US7,462,018 by Chou of typical air compressors, including patents No. has developed several types, each of which is also a a slidably located inside the cylinder housing piston; a tip fixed to the piston and the flow of air through the piston. selectively adjusting an air gap of the piston to control a spring valve having the other end for blocking it; and cylinder fixed to the base and the piston of the cylinder housing to move in forward-backward motion relative to its housing intended to be driven or driven or forced an engine clamped to the piston of the cylinder housing Normally an eccentric member, cylinder housing or a it is rotatably attached to the supporting plate and for the piston to move relative to the cylinder housing intended to be driven or driven or forced is clamped to the piston and the piston, especially the piston compression or into the cylinder housing in the pumping action or stroke sideways relative to the cylinder housing when forced to move However, all prior art pistons have a piston extending from it. has a piston rod, the piston rod is perpendicular to each other and the piston a longitudinal axis passing through the mouth of the rod and a lateral axis, but the piston is always parallel to the lateral axis and In simultaneous use perpendicular to the longitudinal axis, especially when the piston is forced to move into the cylinder housing in the compression or pumping action or stroke, the piston shall be tilted relative to its enclosure and the pumping action or is unable to effectively compress air in its course, or The present invention is that conventional pistons are used for air compressors. to reduce the disadvantages described above and/or their The main purpose of the present invention is to act on the pumping action of air or be effectively compressed or poinpaled in the course compression or intended to increase the pumping effect appropriately. is to provide an air compressor with a tilted piston.

This purpose has been achieved with the compressor specified in the desired l. find it in one aspect, comprising a reservoir formed therein and comprising an inner peripheral surface formed and formed in one from the chamber of the cylinder housing, which has a compartment cylinder housing for the removal of compressed air comprising an outlet tube in communication with the reservoir and a longitudinal axis (Z) containing the supporting plate cylinder housing; a slider into the chamber of the roller housing. a piston rod received in the figure and extending from it piston, this piston rod has a longitudinal axis (L) perpendicular to each other and a includes the lateral axis (T) and the piston is the longitudinal axis of the piston rod. it is tilted relative to its axis (L) and lateral axis (T); and to form compressed air, which is attached to the backing plate and movement of the piston relative to the cylinder housing in a reciprocating motion An air compressor containing a motor clamped to the piston is provided for from zero to different angle (G) varying between 2° <9<10° sideways relative to the lateral axis (T) of the piston rod. tilted, piston rod, longitudinal of cylinder housing it is tilted relative to its axis (Z) and the piston is effectively compressed in the chamber of its housing and for pumping the piston in a pumping course interior of the cylinder housing when moved towards the outlet tube. perpendicular to its peripheral surface and longitudinal axis (Z) The cylinder housing is the inner part of the cylinder housing formed in it. a tip tilted relative to its peripheral surface and its longitudinal axis (Z) contains the surface. The piston passes an air passage formed in it. and prevents the piston's air passage from being deflected and blocked. and the piston of the air through the air passage a valve attached to the piston for controlling the flow contains the device. The valve device has a first edge attached to the piston. and a second edge movable away from the piston.

The valve device includes an opening form in its second side and piston for engagement with the second edge of the valve device and of the second edge of the valve device to act with respect to the piston. for the limitation of the valve device and the second side of the valve device. for preventing excessive bending relative to the valve device extending from the piston and extending through the opening of the valve device. Contains the restraining device. Cylinder housing, restraint The cylinder housing consists of a cavity formed in it for selectively receiving and connecting with the output tube and cylinder a valve seat positioned between its housing; and compressed air only the outlet tube from the chamber of the cylinder housing to limit and pressurized air to flow into the compartment from the compartment of the outlet tube to the chamber of the cylinder housing placed in the outlet tube to prevent it from flowing backwards and It includes a spring inclined safety valve connected to the valve seat.

The engine includes a shaft extending through the supporting plate; and piston cylinder clamped on the shaft for its movement relative to its housing and an eccentric member with a pin that engages the piston rod contains. The support plate is rotatably attached to it. and by a peripheral body to receive the eccentric member includes a gear with a created space.

Cylinder housing, which extends outward from the outlet tube and is pressurized the outlet tube for removing air from the outlet tube. a first channel communicating with its compartment, a second channel a pressure channel attached to the first channel and at least one third channel. gauge, a nozzle clamped to the second channel, and at least one third channel. includes a fastened relief valve.

Other objects and advantages of the present invention are in accordance with the accompanying drawings. careful consideration of the detailed description provided below with reference to FIG. 1 is a partially exploded view of an air compressor according to the present invention; FIG. 2 is a perspective view of the air compressor; FIG. 3 is a plan, schematic view of the air compressor with a portion of the air compressor cut off to show the internal structure of the air compressor. ;FIGURE 4, FIGURE 3°e showing the operation of the air compressor Another similar plan is the schematic view; FIG. 5 shows the cylinder housing of the air compressor and Another plan showing the supporting base, schematic is the view; FIG. 6 shows the cylinder housing of the air compressor and Another plan of the supporting base, viewed from the other side, schematic view; FIG. 7 shows the piston and piston rod of the air compressor. is a perspective view showing; FIG. 8 shows the piston for the air compressor. Another perspective similar to FIG. 7 showing the work is the view; FIG. 9 is the piston taken along the 9-9 axis of FIG. 77, and a partial, cross-sectional view of the piston rod; FIG. 10, a plan, schematic of piston and piston rod is the view; FIG. 11, 12, 13, 14, 15, 16 shows the operation of the air compressor. Figure 3 is a schematic view; FIG. 17 is a diagram showing the other assembly of the air compressor. the other is a partially fragmented view; the air as shown in FIG. 18, FIG. 17 is a perspective view of the compressor; and FIG. 19 shows the cylinder housing of the air compressor and is a partially exploded view showing the other assembly of the supporting base. According to the drawings and the present invention with reference to FIGURES 1-67 first, the air compressor is provided on or made from a supporting base 10 including a backing plate 11 and preferably with backing plate (l 1) extending and but not necessarily comprising an integrally formed cylinder housing (20), e.g. backing plate (l 1) and cylinder housing (20), FIG. 1- By molding or mold-injection processes as shown in Fig. can be integrated with each other or alternatively As shown in FIG. 19, the cylinder housing 200 is extending and to the supporting plate (110) of the roller housing (200). for detachable attachment or mounting extending therefrom and corresponding to the supporting plate (110) connected by hubs or tubular elements (111) it may include one or more protrusions (201). Also, as shown in FIG. 1-6, the supporting plate (11), two such as an upper hole (12) and a lower hole (13) formed in It includes the hole (12, 13) where the top of the supporting plate (11) the bore (12) closer to the cylinder housing (20) is positioned and the lower hole (13) of the supporting plate (11) distal to or away from the cylinder housing (20) is positioned. The cylinder housing (20) and a piston (30) in it can be slidably received or an inner peripheral surface (22) for coupling with it includes a chamber (21) created or defined by the piston (30) includes an extension or piston rod (31) extending therefrom. contains cylinders for creating compressed air. it can slide in a reciprocating motion in the chamber 21 of its housing (20).

Cylinder housing (20) upwards or outwards from the top of it Cylinder housing (FIG. 3-4, 11-16) having a compartment (16) extending outward and formed in it, and for removing compressed air from the chamber (21) of the cylinder housing (20). (20) includes an outlet tube (15) in communication with its chamber (21). contains. A spring-tensioned safety valve (17) (FIG. 3-4, 11-16), It can be inserted into the outlet tube (15) and the outlet tube (15) and cylinder a valve seat (18) formed or provided between the housing (20) is connected with. A safety valve or safety valve (not shown) or the like may also be provided and the cylinder air pressure inside the housing (20) and the outlet tube (15) When it is above a specified value, the compressed air is released. It can be attached to the outlet tube (15) for releasing the outlet tube (15) from the chamber (21) of the housing (20) restricting the compressed air to flow into the compartment (16) and to direct the compressed air outlet tube (15) from its compartment (16) to the chamber (21) of the cylinder housing (20) It can be used to prevent it from flowing backwards. A The head (19) can also be provided and the outlet tube (15) blocking or closing the compartment (16) or for sealing and the spring-tensioned safety valve (17) stably in the compartment (16) of the outlet tube (15). a screw connection (not shown) for holding It can be attached to the outer or free end of the outlet tube (15) such as from the compartment (16) of the outlet tube (15) extending and compressed air with the compartment (16) of the outlet tube (15) for one or more persons in communication (23, 24, 25, 26) contains. Ducts (23, 24, 25, 26) can be interlocked with various types of units that require compressed air supplied here. For example, a safety valve (27) (FIG. 19) may be provided and the cylinder The air pressure inside the housing (20) and the outlet tube (15) release of compressed air when above a specified pressure cylinder housing (20) and/or outlet tube (15) overpressurization and damage. one of the channels (23) to prevent him from seeing A pressure gauge 28 may be provided and the cylinder housing 20 and/or determining the air pressure in the outlet tube (15) and It can be attached to the other channel (24) for display of

A nozzle (29) can be provided and the nozzle (29) and compressed air from the chamber (21) of the cylinder housing (20) and the outlet tube (15) which requires compressed air supplied from the coinpartiman (16) intended to allow the supply of various pneumatic units It can be attached to another channel (26). a safety valve or safety valve (14) or the like may also be provided and the cylinder The air pressure inside the housing (20) and the outlet tube (15) When it is above a specified value, the compressed air is released. It can be attached to the other channel (25) for Providing channels (23, 24, 25, 26) from the outlet tube (15) or extension, relief valve (27) and pressure gauge (28) and nozzle (29) ducts without additional or 'special clamping elements or tools' (23, 24, 25, 26) to the outlet tube (15) easily and conveniently. It is stated that it allows it to be attached or clamped.

One or more covers (not shown) may also be provided and ducts (23, 24, 25, 26) do not need to be used or when evacuation valve (27) and pressure gauge (28) and nozzle (29) to channels (23, 24, 25, 26) for selective closing or blocking of channels (23, 24, 25, 26) when not fastened or fixed any of the channels (23, 24, 25, 26) with a Screw connection, for example a gear 40, one or more spindle bearings (not shown), and a a rotatable shaft (41) and the lower part of the supporting plate (11). It is attached in such a way that an eccentric for taking the element (45) in and fixing it there a cavity (43) defined as a peripheral body (44) contains. Eccentric element (45), eg indals (shown) or molding or mold-injection processes can be fixed to the gear (40) with It can be rotated inside and the piston (30) moves forward and backward. to operate or move relative to the cylinder housing (20) a mouth (39) of the piston rod (31) extending from it, for example clamping the piston (30) to a piston rod (31) to be clamped includes a crank or a cam pin (46), piston rod (31) perpendicular to each other and through the mouth (39) of the piston rod (31) a longitudinal axis (L) and a lateral axis (T) that cross or extend Supporting a motor 47, for example by latches (not shown) is attached or fixed to the upper part of the plate (l 1) and extended through the upper hole (12) of the supporting plate (l 1) (FIG. 2) includes a shaft (48) which is fixed to the shaft (48) and (40) is rotated by the motor (47) with the small gear (49) or in order to enable it to be stimulated and therefore of the piston (30) by the eccentric member (45) and the eccentric pin (46) It includes a small gear (49) connected with the gear (40) to enable it to be operated or moved relative to the cylinder housing (20) in forward-backward movements. a fan device (42) can also be provided and circulated or ventilated air to be rotated or driven by the engine (47) to form It can be clamped to the engine (47) for operation. In operating condition, the piston (30), as shown in FIGS. 3 and 4, is to form compressed air and enter the compressed air outlet tube (15). flow and then any of the channels (23, 24, 25, 26) or to allow it to flow entirely from within, and therefore inside the cylinder housing (20) and/or the outlet tube (15). the air pressure is detected by the pressure gauge (28) and to allow the display of pressure and the compressed air through the nozzle (29). to be supplied to units that require compressed air supplied to it and/or cylinder housing (20) and/or outlet tube (15) relief valve of compressed air when overpressure (27) small gear to allow release through Engine with (49) gear (40), eccentric element (45) and eccentric pin (46) According to the cylinder housing (20) in forward-backward movements by (47) it can be operated or moved. Alternatively, different size as shown in FIGS. 17 and 18° and another engine (471) in power can be changed to backing plate (11) may be attached or fixed in some way, and extendable through the lower hole (13) of the supporting plate (11) and without gear (40) to the cylinder housing (20) in forward-backward movements direct actuation of the eccentric element (450) to rotate or with e.g. latches (451) for turning can be directly attached or mounted to the eccentric member (450) can be achieved. supporting base (10), supporting plate (11), The above-described construction comprising the cylinder housing (20), the pressure gauge (28), the nozzle (29), the engine (471), and the camshaft member (450) is typical and more will not be described in detail. As shown in FIGS. 3-4 and 7-10, the piston (30) is preferably An airtight seal between (30) and cylinder housing (20) attached to the outer peripheral part of it for the formation of and a slidably coupled with the cylinder housing (20). It contains the sealing ring (32) and a the air passage (33) includes. A spring brake or valve device (60), one or more bolts or ratchet] (62) and one or more of the piston (30) one or a first edge that is attached or fixed to its first edge (34) (61) and allows the piston (30) to deflect the air passage (33) and for blocking the piston (30) of the air to be controlled to selectively flow through the passage (33) includes appropriate flexibility. Valve device (60) also, the latches 62 on the second edge 64 of the valve device 60 and opposite or distal to the first edge 61 of the valve device 60 contains an aperture (63) form positioned as the second edge 64 of the valve device 60 moves away from the piston 30 The valve device (60) is made of flexible metal or steel materials. and to block the air passage (33) of the piston (30) and selectively to open and the air passage (33) of the piston (30) at a time when the valve device (60) is partially opened by the piston (30) relative to the piston (30) to allow it to flow through can be forced to bend. The piston (30) is the second of the piston (30). the valve device (60) and having the air passage (33) of the piston (30) located and positioned opposite the first edge (61) of the latches (62) and preferably formed and positioned between the pins (62) and the limiting Device or projection (35). a restraining device or protrusion (35) arranged to be The restriction device or projection 35 is the second edge of the valve device 60 for connection with (64) and therefore the valve device (60) bending or movement of the second edge (64) relative to the piston (30) and the valve device (60) to the second edgeiiiiii (64) excessively relative to first edge 61 of valve device 60 to prevent it from bending or deforming the opening 63 of the valve device 60 is extended through it. Latches (62) and the limiting device or protrusion (35) `Specially, in FIGS. 4 and 7-9' for connecting with valve device 60 as shown and excess of valve device 60 relative to first edge 61 of valve device 60 to prevent it from bending or deforming is designed and provided. Other valve devices, latches (62) and limiting device or protrusion (35) to piston (30) As shown in FIGS. 4 and 7-109, the piston (30) is set at 0 and 45 degrees (00 <6 <45°) and preferably between 2 and 10 degrees (2° <6<10°) piston for a non-zero angle (0) alternating between relative to the longitudinal axis (L) or lateral axis (T) of the bar (31) arranged and tilted and/or piston (30), piston (30) output at pumping action or stroke or process the piston (30) and/or cylinder housing (20) of the operating surface (37) of the piston (30) parallel to the lateral axis (X) or the cylinder housing (20) It is a flat tilted straight angle (0) from zero to the longitudinal axis (L) or lateral axis (T) of the piston rod (31) to allow it to be perpendicular to its longitudinal axis (Z). surface or an operating surface (37); at this point piston rod (31) to the longitudinal axis (Z) of the cylinder housing (20) half-tilted, but the piston (30) and/or piston (30) the operating surface (37) as best illustrated in FIG. perpendicular to the longitudinal axis (Z) of the cylinder housing (20) and is parallel to the lateral axis (X) of the housing (20). Open different from zero (0) larger when the piston rod (31) is shorter, and smaller when the piston rod (31) is relatively longer is preferred. As shown in FIGS. 3-4 and 11-16, the cylinder housing (20) longitudinal axis of the cylinder housing (20) formed in the tilted or inclined relative to its axis (Z) and lateral axis (X) and also to the inner peripheral surface (22) of the cylinder housing (20) a sloping top or hill that is tilted or inclined relative to the end surface (70) and also the piston (30) of the cylinder housing. (20) fully moves into its chamber (21) (FIG. 13, 14) latches (62) and limiting device or tab (35) selectively. for reference or connection with one or more of the created sample, two or more it is preferred that it contains the cavity (71, 72). of the cylinder housing (20) inclined upper or end surface (70), piston (30) in upper 'Dead position' fully into the chamber 21 of the cylinder housing (20). 14) to the upper operating surface (37) of the piston (30). It is arranged in a parallel manner. In operation, the piston (30) as shown in FIG. the operating surface 37 is tilted relative to the longitudinal axis (Z) and the inner peripheral surface (22) or the lateral axis (X) of the cylinder housing (20), and the piston rod (31) is the bottom dimension of the piston (30). the top or end surface (70) of the cylinder housing (20) in position and the outlet the cylinder housing (20) when it moves away from the tube (15). perpendicular to its lateral axis (X) or substantially to its longitudinal axis (Z) is parallel. Piston (30) pumping as shown in FIG. movement or stroke or movement towards the outlet tube (15) when the piston rod (31) moves along the longitudinal will be tilted relative to its axis (Z) and the working surface of the piston (30) (37) perpendicular to the longitudinal axis (Z) and the inner peripheral surface (22) and cylindrical will be parallel to the lateral axis (X) of the housing (20) so that the piston (30) activates the action or action of compression or poinpalaina. movement of the pump to suitably increase or air in the bore and chamber (21) of the cylinder housing (20) can effectively compress or pump.

As shown in FIGS. 13 and 14°, the piston (30) is inside the cylinder housing. When the piston (20) is fully moved into its chamber (21) the top of the piston (30) the operating surface (37) to the top or end surface of the cylindrical housing (20) (70) will be parallel; at this point the latches 62 and the restraining device or protrusion (35), piston rod (31) re-cylinder enclosure (20) with its lateral axis (X) perpendicular to its longitudinal axis (Z) in the top dead position, where the piston (30) is substantially parallel to the cylinder the housing (20) is completely moved into the chamber (21) of the cylinder housing, respectively, in order to allow (20) cavities (71, 72) or Free release or air intake as shown in FIGS. 15 and 16 In its stroke, the piston rod (31) shall be tilted relative to the longitudinal axis (Z) or lateral axis (X) of the cylinder housing (20), and the operating surface (37) of the piston (30) lateral to its longitudinal axis (Z) or lateral axis (X) will be tilted and at this point the top or end of the cylinder housing (20) will be substantially parallel to its surface (70) so that the piston (30) pumping movement or stroke or operation to the outlet tube (15) when the piston (30) moves correctly, the lateral of the cylinder housing (20) parallel to the axis (X) and to the inner peripheral surface (22) and the longitudinal axis (Z) may be arranged vertically so that the piston (30) compressed air or pumping effect or treatment with a suitable in the pumping action or stroke to increase the effectively circulate the air in the chamber (21) of the cylinder housing (20) It can be used to compress or pump air. Accordingly, the air compressor according to the present invention can be used to pump air. be effectively compressed in its movement or course, or for pumping and/or for air It incorporates a tilted piston to suitably increase the compression or pumping effect.

REFERENCES CITED IN THE DESCRIPTION This list of references cited by the applicant, for the reader's aid only and is a part of the European Patent Document. does not create the partition. Although great for compiling references Although importance is given, errors or omissions cannot be prevented and EPO does not accept any responsibility in this regard. Patent documents referred to in the description:. US 6213725 B1 [0003] . US 6846162 B, Chou [0003] . us 6213725 B, Chou i0003i . us 7240642 B, Chou [0003i . US 6514058 B, Chou [0003]. US 7462018 B, Chou [0003]° US 6655928 B, Chou [0003]

Claims (2)

REQUESTS An air compressor comprising: a cylinder housing 20, 200 comprising a chamber 21 formed therein and comprising an inner peripheral surface 22 formed therein, and a longitudinal axis Z (20, 200) a piston (30) having a piston rod (31) slidably received in said chamber (21) and extending therefrom, said piston rod (31) a longitudinal axis (L) perpendicular to each other and a and an inotor (47, 471) that engages said piston (30) to move said piston (30) relative to said cylinder housing (20, 200) in a reciprocating motion to create compressed air. ; wherein said cylinder housing (20, 200) comprises a backing plate (II) having at least one hole (12, 13), wherein said engine (47, 471) includes a shaft () extending through said backing plate (1 l). 48), wherein an eccentric member (45) engages said shaft (48) and a pin (30) engages said piston rod (31) for moving said piston (30) relative to said cylinder housing (20, 200). 46), characterized in that said piston (30) is tilted relative to the longitudinal axis (L) and lateral axis (T) of said piston rod (31) and said supporting plate (11) and said cylinder housing ( 20, 200) integrated with each other. 2. The air compressor according to claim 1, wherein said cylinder housing (20, 200) has a compartment (16) formed therein and compressed air is taken from said chamber (21) of said cylinder housing (20, 200). it comprises an outlet tube (15) in communication with said chamber (21) of said cylinder housing (20, 200). The air compressor according to claim 1, wherein the supporting plate (11) having at least one hole (12, 13) comprises tubular elements, said cylinder housing (20, 200) extending therefrom and the support plate (11) (l 1) includes projections (201) connected with said tubular members. The air compressor according to claim 1, wherein said piston (30) has a non-zero angle varying between 0 and 45 degrees (0°<9<45°) relative to the lateral axis (T) of said piston rod (31) 0.) and said piston rod (31) is tilted relative to the longitudinal axis (Z) of said cylinder housing (20, 200) and said piston (30) is tilted to the side of said cylinder housing (20, 200) of an air. ) said inner peripheral surface ( ) of said cylinder housing (20, 200) when said piston (30) is moved toward said outlet tube (15) in a pumping stroke for effective compression and pumping in said chamber (21). 22) and being perpendicular to its longitudinal axis (Z). The air compressor according to claim 1, wherein said piston (30) is different from zero, varying between 2 and 10 degrees (2°<9<10°) relative to the lateral axis (T) of said piston rod (31) It is tilted until the angle (0). Air compressor according to claim 1, wherein said cylinder housing (21) includes an end surface formed therein and tilted relative to said inner peripheral surface (22) and longitudinal axis (Z) of said cylinder housing (20, 200). (70) includes. It is an air coinpressor according to claim 1, in question here. the piston (30) includes an air passage (33) formed therein; said piston (30) is attached to said piston (30) for deflecting and blocking said air passage (33) of said piston (30) and for controlling air to flow through said air passage (33) said piston (30) comprising a valve device (60); said valve device (60) comprising a first edge (61) attached to said piston (30) and a second edge (64) movable away from said piston (30); said valve device (60) further comprising an aperture form at said second edge (64); and said piston (30) for engagement with said second edge (64) of said valve device (60) and said second edge (64) of said valve device (60) to act relative to said piston (30). said opening of said valve device (60) and extending from said piston (30) for limiting said valve device (60) to excessive bending of said second edge (64) relative to said valve device (60). comprising a limiting device extending therethrough; said cylinder housing (20) includes a cavity (71) formed therein for selectively receiving and connecting with said limiting device (35); said cylinder housing (20, 200) a valve seat (10) provided in said outlet tube (15) and positioned between said outlet tube (15) and said cylinder housing (20, 200) and compressed air into said cylinder to limit the flow of compressed air from said chamber (21) of said housing (20, 200) to said compartment (16) of said outlet tube (15), and that compressed air from said outlet tube (15) of said coinpartition of said cylinder housing (20, 200) includes a spring inclined safety valve (17) placed in said outlet tube (15) and connected with said valve seat (18) to prevent it from flowing backwards into said chamber; Said cylinder housing (20, 200) also has a first channel extending outwardly from said outlet tube (15) and communicating with said compartment of said outlet tube (15) for the removal of compressed air from said outlet tube (15). (23) a second channel (24) and at least one third channel (25), a pressure gauge (28) attached to said first channel (26), a nozzle (29) clamped to said second channel (24) and said the subject comprises a relief valve (14) attached to at least one third channel (25). Air compressor according to claim 1, wherein said supporting plate (11) comprises a gear (40) rotatably attached thereto and having a space formed by a peripheral body (44) to receive said eccentric element (45). ; the shaft (48) of said motor (47) extends through the upper hole (12) of said supporting plate (11) and is fixed to said shaft (48) of said gear (40) and said motor ( 47) and thus operating said piston (30) relative to said cylinder housing (20, 200) in back-and-forth movements by said eccentric element (45) and said eccentric pin (46) or a small gear (49) connected with said gear (40) to allow it to be moved.