DE112004000419T5 - Coil spring and this having reciprocating compressor - Google Patents

Abstract

Spiral spring, comprising
inner turns formed by winding a wire several times,
End turns disposed at both ends of the inner turns; and
a bend portion having a non-linear shape and formed on an outer peripheral surface of the end turn disposed to the inner turn.

Description

TECHNICAL TERRITORY

The The present invention relates to a spring and to a spring having the same Compressor, and in particular a coil spring and this having a Reciprocating compressor able to reduce the abrasion and the Noise, which are generated when one load or one push repeatedly hits those with others Components connected spring is exercised to reduce to a minimum.

GENERAL STATE OF THE ART

A Spring takes one from the outside coming strength and gathers the coming from outside force through their elasticity as an elastic energy. If a shock from the outside applied to a spring the spring accordingly absorbs the shock and thus relieves the shock. And if one is constantly repeated force, that is, a vibration from the outside transferred to the spring is the spring absorbs the vibration and prevents the Vibration is transferred to other components.

ever There are many different types of forms and functions of springs such as a coil spring, a leaf spring, a torsion bar or the like, and their usable range is extremely wide.

Under the springs, a coil spring has a high reliability in operation, is easy to manufacture, and is cheap, especially if a jaw only for the coil spring is used. For these reasons, the coil spring for a variety of Devices widely used.

The Spiral spring is formed by a circular wound wire rod is straightened, passing through a straightening machine, and the straightened wire through a mold at a preset Bending angle bent with the preset number of turns becomes.

1 is a front view showing an embodiment of a general spiral spring, and 2 is a flat view of the coil spring. As shown therein, the coil spring is formed in such a manner that a wire is spirally wound several times at regular intervals having the same diameters. That is, the coil spring consists of inner coils wound several times and end coils 20 , each at both ends of the inner turns 10 are arranged.

The Inner turns are formed by a wire several times at regular intervals, the the same outside diameter have, spirally is wound, wherein a diameter of a wire, the inner Turns corresponds to the same.

An outer surface of the end turn 20 forms a support surface 21 , which comes into contact with other components, the support surface 21 is formed in a plane perpendicular to an axis of the coil spring, and an end 22 the final turn 20 is almost in contact with the closest turn 11 the inner turns 10 , That is, a surface of the end turn 20 leading to the inner turns 10 is directed, is curved, while its other surface is a support surface 21 , a plane, is. A distance (α1) between the curved surface and the winding 11 next to the curved surface will be from the end 22 the Endwindung ago wider.

Now the operations of such a coil spring will be described.

First the coil spring is arranged between two components, and while the support surfaces of the End turns each contacting supported by these components.

When a certain force is exerted on the coil spring by a component which supports the coil spring, the force is transmitted to the coil spring, whereby the end coil 20 and the inner turns 10 that form the spiral spring, as in 3 shown deformed by the force transmitted to the coil spring and therefore the distances between the turns are narrowed. The final turn 20 and the inner turns 10 , which form the coil spring, absorb the force exerted on the spring by being deformed.

Because the final turn 20 and the inner turns 10 are wound at a prescribed pitch angle, acts in such operations by a force exerted in the axial direction of the spring, a twisting moment and a bending moment on the coil spring, whereby the turns are deformed. At this time, by a repulsive force due to the torque acting on the turns and the bending moment a torque acts on the windings, whereby the Endwindung 20 the coil spring is moved in a circumferential direction. Due to a relative movement between the support surface 21 the final turn 20 and the component becomes a friction between the support surface 21 generates the Endwindung and the component, and by the friction abrasion of the coil spring and the component is generated, whereby the life of the component is shortened and damage the component verur gently. In addition, a frictional noise is generated due to the friction between the coil spring and the component.

EPIPHANY

Therefore It is an object of the present invention, a coil spring and to provide a reciprocating compressor having the same, the capable are, the friction and the friction noise, which between the coil spring and other ingredients are produced when the spring with another Component is connected and compressed and relaxed, around a push and a vibration coming from the outside transmitted here be recorded, minimized.

Around to fulfill this task a coil spring is provided comprising inner coils which are formed by a wire is wound several times; end turns, each formed at both ends of the inner turns; and a bending portion having a non-linear shape and on an outer peripheral surface of Endwindung is formed, which is directed to the inner winding.

Around to fulfill the above task a reciprocating compressor is also provided with a spring, comprising a housing; Frame in the housing are arranged; a fixedly coupled to the frame drive motor, to produce a linear reciprocating driving force; one Cylinder fixed to the frame; a piston, the one Driving force of the engine receives and linearly reciprocating in the cylinder; an intake valve to gas, which is introduced into the cylinder to control; an exhaust valve assembly, is drained by the gas compressed in the cylinder; and coil springs that elastically support the piston and swinging motion cause the piston, the coil spring inner turns, formed by winding a wire several times; end turns, which are arranged at both ends of the inner turns; and one Bending portion having a non-linear shape and on an outer peripheral surface of the Endwindung, which is arranged towards the inner turns, is formed, includes.

DESCRIPTION OF THE DRAWINGS

1 and 2 Figs. 4 are a front view and a flat view, respectively, showing an embodiment of a general coil spring;

3 Fig. 16 is a front view showing an operating state of the coil spring;

4 and 5 Figs. 4 and 5 are a front view and a flat view, respectively, showing an embodiment of a coil spring according to the present invention;

6 Fig. 10 is a front view partially showing a different embodiment of a coil spring according to the present invention;

7 Fig. 16 is a front view showing an operating state of a coil spring according to the present invention;

8th Fig. 10 is a sectional view showing an embodiment of a reciprocating compressor having a coil spring according to the present invention;

9 Fig. 10 is a front view showing a partially enlarged reciprocating compressor according to the present invention; and

10 Fig. 10 is a front view showing operating states of coil springs constituting a reciprocating compressor according to the present invention.

CARRYING OUT THE INVENTION

Now gets detailed to the preferred embodiments of the present invention, for which in the attached drawings examples are illustrated.

First now becomes an embodiment a coil spring according to the present invention described.

4 is a front view showing an embodiment of a coil spring according to the present invention, and 5 is a flat view showing the coil spring.

As shown therein, the coil spring includes: inner coils 30 formed by winding a wire several times; end turns 40 , each at both ends of the inner turns 30 are formed; and a bend portion 41 having a non-linear shape and on an outer peripheral surface of the end turn 40 is formed, leading to the inner turns 30 is arranged.

The wire is made of a material that has stiffness and the inner turns 30 and the end turns 40 are formed by spirally winding a wire several times. A diameter of a wire, which is the inner turns 30 is equal, and the pitch angles of the inner turns are the same. Corresponding are the distances between the inner turns 30 regular and their outside diameter the same.

The outer surfaces of the end turns, each at both ends of the inner turns 30 are arranged, are support surfaces 42 , which come into contact with other components, and the support surface 42 is a plane perpendicular to an axis of the end turn 40 lies, and an end 43 the final turn 40 stands with the closest inner turn 30 almost in contact. That is, a surface of the end turn 40 leading to the inner turns 30 is directed, is curved, while the other surface of the end turn 40 a plane is. A distance between the curved surface and the adjacent inner winding 31 will be from the end 43 the final turn 40 wider.

The bending sections 41 are respectively on the curved surfaces of the two end turns 40 formed, each on both sides of the inner turns 30 are arranged. A thickness of the end turn 40 gets fatter from the end. At a section a certain distance away from the end, the thickness is equal to or reduced. The portion where its thickness is equal to or reduced relates to a bend portion 41 , And the thickness is from the bending section 41 thicker.

The bending section 41 is at a certain distance from the end 43 the final turn 40 arranged, and the distance from each end 43 the end turns 40 up to every bend section 41 is equal to.

The distances between the inner turns 30 may not be regular, and also any diameter of the inner coils 30 may not be the same.

As still another embodiment of the present invention are at the end turn 40 as in 6 shown several bending sections 41 educated. The bending sections 41 are each determined in distances from one end of the end turn 40 formed, and a bending section 41 leading to one end of the end turn 40 is arranged, has the lowest height.

below Now, the operations of a coil spring according to the present Invention be described.

First, as in 7 shown a coil spring according to the present invention set up between two components. Here are the support surfaces 42 the end turns 40 each contacting based on the components. In this state, when a force such as a shock, a vibration or the like is applied to the coil spring, the coil spring is compressed and released to absorb the force such as the shock, the vibration or the like.

In order to describe such operations in more detail, when a force is applied in a longitudinal direction of the coil spring, a bending moment and a twisting moment act on the inner turns 30 and the end turns 40 that form the coil spring, eliminating the gaps between the inner turns 30 and a distance between the inner winding 34 and the final turn 40 is narrowed. Due to such elastic deformation, the coil spring absorbs the force. Thereby, a repulsive force with respect to a force exerted on the coil spring force by the support surfaces 42 the coil spring exerted on other components and exerted by the recoil force a torque.

But in a process in which the distances between the windings are narrowed by the force exerted on the coil spring force, which is at a Endwindung 40 the spiral spring formed bending portion 41 contacting at the inner turn next to the end turn 40 supported, reducing the torque from a transmission to the support surface 42 the final turn 40 is cut off. Accordingly, only the distances between turns that are between contact points of the inner turns, which in each case with the two bending sections 41 in contact, narrowed.

If from the outside applied force is eliminated, turn the windings, which narrows by their elasticity were, in their original Positions back, to release the absorbed force to the outside.

By repeating such operations, the coil spring absorbs a shock and vibration transmitted from the outside to prevent it from being transferred to other components. In addition, a rotation of the coil spring, that is, a relative movement between the support surface 42 the coil spring and another component, minimized, whereby a friction and a friction noise are prevented.

8th Fig. 10 is a sectional view showing an embodiment of the present invention of a reciprocating compressor with a coil spring according to the present invention.

As shown therein, the reciprocating compressor includes a housing 100 having a prescribed interior in itself; a frame unit 110 in the housing 100 is arranged; a drive motor 120 fixing with the frame unit 110 coupled and generates a linear reciprocating driving force; a cylinder 130 fixing with the frame unit 110 is coupled; a piston 140 , which is the driving force of the drive motor 120 gets and in an interior 131 of the cylinder 130 is moved back and forth; an intake valve to gas that enters the interior 131 the cylinder is introduced to control; an exhaust valve assembly 160 , by the gas in the cylinder 130 is compressed, is discharged; and a resonant spring, which is the piston 140 elastically supports and a swinging movement of the piston 140 caused.

The housing 100 has a prescribed interior space, and an intake pipe 101 and an outlet pipe 102 are each to the housing 100 connected.

The frame unit 110 includes a front frame 111 which is shaped in a prescribed shape; a middle frame 112 at a certain distance from the front frame 111 is arranged; and a rear frame 113 that with the middle frame 112 is coupled.

The drive motor 120 includes an outer stator 121 that is stuck between the front frame 111 and the center frame 112 is coupled; an inner stator 122 in the outer stator 121 is inserted and fixed to the front frame 111 is coupled; and a magnet 123 moving between the outer stator 121 and the inner stator 122 is arranged. A winding coil is inside the outer stator 121 coupled, and the magnet 123 is fixed with a magnet holder 125 having a cylindrical shape coupled.

The cylinder 130 is with the front frame 111 coupled.

The exhaust valve assembly 160 includes an outlet cover 161 holding one side of the cylinder 130 covers; an outlet valve 162 that in the outlet cover 161 is arranged, and one side of the interior 131 the cylinder opens / closes; and an exhaust spring 163 in the outlet cover 161 is arranged and the exhaust valve 162 elastically supports. The outlet pipe 102 is at the outlet cover 161 connected.

The piston 140 is in the cylinder 130 used and the magnet holder 125 is with one side of the piston 140 coupled. A suction path 141 is in the piston 140 trained, and a suction valve 150 for opening / closing the suction path 141 is at an end portion of the piston 140 appropriate.

The resonance spring comprises a front coil spring 170 between the front frame 111 and the magnet holder 125 is arranged; and a rear coil spring 180 between the rear frame 113 and the magnet holder 125 is arranged. The front spiral spring 170 and the rear coil spring 180 have the same structure, and the springs 170 . 180 support the piston 140 elastic.

The front spiral spring 170 and the rear coil spring 180 , which form the resonance spring, have the same structure as the above-mentioned coil spring. As in 9 shown include the front and the rear coil spring 170 . 180 turns 171 . 181 formed by winding a wire having rigidity several times; and bend sections 172 . 182 which have a non-linear shape and are formed respectively on outer peripheral surfaces of the turns arranged at both ends. The wire has a certain diameter and is spirally wound. The outer surfaces of the windings, which are respectively disposed at both ends, are planes perpendicular to an axis of the winding, and the planes are support surfaces 173 . 183 that are in contact with other ingredients.

More detailed Descriptions thereof are as described above.

Both support surfaces 173 the front coil spring 170 are contacting on a side surface of the front frame 111 or on an inner surface of the magnet holder 125 supported. Both support surfaces 183 the rear spiral spring 180 are in contact with an inner surface of the rear frame 113 or on an outer surface of the magnet holder 125 supported.

below now become modes of operation of a reciprocating compressor described with a coil spring according to the present invention become.

When power is applied to the reciprocating compressor, the drive motor generates 120 by electromagnetic interaction, a linear reciprocating driving force, and the linear reciprocating driving force by the magnet holder 125 with which a magnet 123 coupled to the piston 140 transfer.

The piston 140 runs in the cylinder 130 linear back and forth. While the piston 140 linearly reciprocates, a coolant in the cylinder interior 131 sucked and compressed therein, and is the compressed refrigerant from the cylinder interior 131 drained to the outside. The drained coolant passes through the outlet cover 161 and the outlet pipe 102 discharged from the compressor to the outside.

The front spiral spring 170 and the rear coil spring 180 are repeatedly compressed and relaxed, causing a movement of the piston 140 swings.

As in 10 shown reduce the bending sections 172 . 182 , each at the front coil spring 170 and on the rear coil spring 180 are provided in the course of repeatedly compressing and relaxing the front coil spring 170 and the rear coil spring 180 , causing a movement of the piston 140 oscillates, a relative movement of the support surfaces 173 . 183 the front and the rear coil spring with the contact surfaces, which are connected to the support surfaces 173 . 183 keep in touch, to a minimum. That is, relative movements between the support surfaces 173 the front coil spring and a side surface of the front frame 111 and the inner surface of the magnet holder 125 , each with the support surfaces 173 are kept to a minimum, and also relative movements between the support surfaces are reduced 183 the rear coil spring and the inner surface of the rear frame 113 and the outer surface of the magnet holder 125 , each with the support surfaces 183 be in contact, are reduced to a minimum.

As above, decreasing relative movement between the front and rear coil springs 170 . 180 and other components to a minimum prevents abrasion due to friction and also prevents friction noise. If between the front and the rear coil spring 170 . 180 and other components, a frictional noise is generated, the frictional noise is due to other components such as the outlet pipe 102 or the like to the housing 100 transmit the noise to the outside of the case 100 leave.

If a coil spring according to the present invention with other components is connected and squeezed and relaxed to one Push or a vibration that is transmitted from the outside was recorded, reduces the coil spring as previously described a relative movement of themselves with other constituents minimum, to abrasion due to friction with other ingredients to prevent so that the life of the coil spring and other components extended will, a damage prevented from other components including the coil spring is, and also a loss of friction is prevented.

In a reciprocating compressor having the coil spring, is an abrasion due to friction between coil springs, the generate a swinging motion of a piston, and other components (the front frame, the magnet holder, the rear frame), the be kept contacting the coil spring, thereby preventing the life of the coil springs and other components is extended and damage of it and a sound production is prevented by friction. Accordingly, the reliability the compressor can be improved.

professionals will be apparent that in the present invention various Modifications and changes can be made without departing from the spirit or scope of the invention. Therefore is intended that the present invention modifications and changes of this invention, provided that they are within the scope of the attached claims and their equivalents fall.

SUMMARY

A Spiral spring according to the present Invention includes inner turns formed by a wire wound several times; and a bending portion, which is a has non-linear shape and on an outer peripheral surface of Endwindung is formed, which is arranged to the inner turns. The coil spring reduces the friction between it and other ingredients is created when connected to another ingredient is and is squeezed and relaxed to get a kick and a To absorb vibration transmitted from the outside so that the reliability a reciprocating compressor with a coil spring can be improved can.

For the summary is 4 certainly.

Claims (14)

Spiral spring, comprising inner turns, which are formed by winding a wire several times, end turns, which are arranged at both ends of the inner turns; and one Bending portion having a non-linear shape and on an outer peripheral surface of the end turn is formed, which is arranged to the inner winding. Spiral spring according to claim 1, wherein the bending portion on an outer peripheral surface of the end turn is formed in a projected shape, which has a curved shape having. Spiral spring according to claim 1, wherein one or more Bending sections are provided. Spiral spring according to claim 1, wherein an angle between the end turn and an inner turn next to the end turn of an end of the Endwindung ago increases and a fixed increase range having. Spiral spring according to claim 1, wherein the distances between the inner turns are regular. Spiral spring according to claim 1, wherein the pitch angle between the inner turns are the same. Spiral spring according to claim 1, wherein the distances between the inner turns are irregular. A coil spring according to claim 1, wherein an outer surface of the End turn is a plane that is perpendicular to an axis of the end turn lies. Spiral spring according to claim 1, wherein the outer diameter the inner turns are the same. Spiral spring according to claim 1, wherein the distances of the ends of the end turns to the bending sections, respectively are formed on the Endwindungen are the same. Spiral spring, formed by one turn several Male is wrapped, comprising a projection that is a prescribed Height and from an outer peripheral surface of the outermost turn formed projecting, which is directed to an adjacent turn is. Reciprocating compressor, comprising one Casing; a Frame unit in the housing is arranged; a drive motor fixedly coupled to the frame unit is and generates a linear reciprocating drive motor; one Cylinder fixed to the frame unit; a piston, receives the driving force of the drive motor and linearly reciprocates in the cylinder; one Intake valve for controlling gas introduced into the cylinder; one Exhaust valve assembly, by the gas that was compressed in the cylinder, is discharged; and Coil springs, which make the piston elastic support and cause a swinging motion of the piston, the Spiral spring inner coils, which are formed by a wire wound several times; End turns, each at both Ends of the inner turns are formed; and a bend section, which has a non-linear shape and on an outer peripheral surface of Endwinding, which is arranged towards the inner turn formed is included. A compressor according to claim 12, wherein the bending portion on the side of a turn arranged at each end of the turns is formed, which is directed to the adjacent turn. A compressor according to claim 12, wherein the bending portion formed in a jagged shape, which has a curved shape having.