KR20150090228A - Air compressor construction - Google Patents

Abstract

The present invention relates to an air compressor structure, and the air compressor structure is an inventive design in which compressed air discharged in the operation stage is kept within a safe pressure value range without installing a pressure safety valve separately in the air compressor. And a buffer air receiving groove in which an opening is formed in an upper end portion of the piston head of the piston body and which is recessed inwardly and in which a bottom wall and a peripheral wall are formed so that when the piston body reciprocates in the cylinder of the air compressor It is possible to obtain an economical effect of being able to save production cost by designing that the pressure safety valve is not required to be installed separately, The piston body of the cylinder block moves linearly in the cylinder, The piston head of the piston body when located on the endpoint that is there is a buffering space between the top wall opposite to the cylinder is obtained by the effect of the piston body in this application cylinder so as to operate more smoothly.

Description

[0001] AIR COMPRESSOR CONSTRUCTION [0002]

The present invention relates to an air compressor structure, and in particular, to a structure of an air compressor in which a piston for a compressor is provided with a buffer air receiving groove for allowing compressed air discharged from a compressor in operation to be maintained within a safe pressure value range , The pressure safety valve is no longer required to be installed in the conventional air compressor due to the above-mentioned design, so that the production cost can be lowered.

Background Art [0002] An air compressor is an apparatus for injecting air into an object to be filled with air, and is widely used for air injection such as air cushion and tire. The compact size of the air compressor makes it easy to carry and set, and it can be powered by a portable DC power supply or connected to a car cigarette lighter socket, making it easy to operate and use. In general, the main structure of a conventional air compressor is such that the motor causes the piston body to drive reciprocating compression movement in the cylinder so that the compressed air enters the air reservoir through the cylinder, and then the conveyance connected to the duct on the air reservoir The hose is connected to the air injection to achieve the purpose of air injection. The structure of the conventional air compressor is such that the piston head of the piston body is in a solid state; The air compressor device is also equipped with a pressure relief valve whose purpose is mainly to automatically operate the pressure relief valve when the pressure value of the generated high pressure air exceeds the safety pressure value set in the air inflow, The high pressure air inside the apparatus is discharged out of the apparatus so that it can no longer enter the air injection system, thereby assuring the safety of the air compressor apparatus and the air injection system. However, since such a pressure safety valve must be installed separately, the manufacturing cost of the manufacturer is increased, which is disadvantageous to the economy.

The present inventors have recognized that the separate pressure safety valve is present in the air compressor device, thereby increasing the production cost, and that the protective action of the pressure safety valve must be an indispensable factor when manufacturing the air compressor device R & D and design, and eventually developed an air compressor device capable of implementing a protective effect like a pressure relief valve separately provided in a conventional product without using a pressure safety valve.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an air compressor structure in which a safety protection function is provided without separately installing a pressure safety valve.

The technical solution of the present invention for solving the above technical problems is as follows:

The air compressor structure according to the present invention includes a box member having an air compressor, which is driven by a motor and has a piston body reciprocating upward and downward in the cylinder, installed in the interior of the box, And a buffer air receiving groove is provided.

The piston body includes the piston head and the piston rod. The piston head forms the buffer air receiving groove at the upper end. The upper end of the buffer air receiving groove is an opening and also sinks toward the inside of the piston head, And the bottom wall has the ventilation passage and the engaging portion communicating with the buffering air receiving groove; The resilient spring seat is attached to the engaging portion in the buffer air receiving groove.

Wherein the buffer air receiving groove forms a top wall of a flat surface at an upper end of the piston head around the opening and extends downward from the upper wall to form a bottom wall of the piston head, The wall is formed separately with a recessed ring-shaped groove which does not communicate with the buffering air receiving groove; The bottom wall of the piston head is connected to the first end of the piston rod and the end of the piston rod, i.e. the second end, is provided with a pivot connection hole; The airtight ring having a function similar to that of the O-ring is mounted in the ring-shaped groove of the piston head.

Wherein the piston body includes the piston head and the piston rod, a top wall of a flat surface is formed at an upper end of the piston head, and the upper wall includes the vent passage that penetrates the piston head; And a damping air receiving groove which is recessed toward the inside of the piston head from the upper wall so as not to communicate with the ventilation passage is formed; An engaging portion is also provided on the upper wall, and an elastic spring seat is provided on the engaging portion on the upper wall, and the elastic spring seat can shield the ventilation passage.

The cylinder has a top wall at the upper end of the cylinder inner chamber and a passage through which the air is stored up to the air storage portion above the cylinder. The air storage portion is provided with a plurality of ducts. One of the ducts can be connected to the hose ; The other duct is connected to a pressure indicator; Another duct is equipped with a relief valve member, and an inner end of the relief valve member is provided with a soft cap; The passage in the air storage portion is provided with a valve holder and a spring abutting on the valve holder.

The hose connected to the one duct is housed in a box member and is sealed by a cover for opening and closing.

The box member is provided with a change-over switch for starting or stopping the air compressor. The pressure indicator of the air compressor is exposed to the outer surface of the box member, and the inner shaft of the other touch switch passes through the bolt, Abut the soft cap.

There is a buffering space between the piston head of the piston body facing the upper inner wall of the cylinder when the piston body reciprocating in the cylinder is located at the upper dead point.

The air compressor structure disclosed in the present invention is provided with a ventilation passage penetrating the piston head of the piston body of the air compressor in the box member and having a buffer air receiving groove, The air pressure generated by the reciprocating linear motion does not exceed the safety pressure value of the air inflow so that the air compressor has a protective action. It is economically advantageous not only to provide safety in use but also to save the production cost by design which does not need to install the pressure relief valve separately.

In addition, the piston body installed in the air compressor structure according to the present invention performs a reciprocating motion in the cylinder, and when the piston head is positioned at the upper dead point, a buffering space exists between the piston head of the piston body facing the upper- So that the piston body applied to such a cylinder can be operated more smoothly.

1 is a box-like stereoscopic view of an air compressor apparatus according to the present invention.
Fig. 2 is a plan view illustrating the box member of the present invention observed from another angle. Fig.
3 is a three-dimensional view showing the air compressor of the present invention.
4 is a stereolithography showing the piston body of the present invention.
5 is a three-dimensional sectional view showing the piston body of the present invention.
6 is an explanatory view showing that the piston body of the present invention sucks and circulates the air outside the air compressor at the retraction stroke.
7 is an explanatory view showing compressed air circulation when the piston body of the present invention performs the forward stroke movement.
8 is an explanatory view showing the piston body of the present invention at a different angle when performing a forward stroke movement;
9 is a view showing another embodiment of the present invention.
10 is a cross-sectional explanatory view of the present invention observed from another angle.
11 is a steric decomposition showing a piston body according to another structure of the present invention.
12 is a three-dimensional sectional view showing a piston body according to another structure of the present invention.
13 is an explanatory view showing that the piston body according to another structure of the present invention sucks and circulates the air outside the air compressor to the air inlet at the retreat stroke.
14 is an explanatory view showing compressed air circulation when a piston body according to another structure of the present invention performs a forward stroke movement.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail with reference to specific embodiments in order to further explain the technical means of the present invention.

1, 3, and 6, the air compressor structure shown in the drawings includes a box member 1 having an air compressor mounted therein (see FIG. 3), and the air compressor includes a piston A cylinder 3 for operating the body 6 and a main frame 20 for fixing the motor 21. The main frame 20 can fix the power mechanism of the air compressor, A power transmission pinion 22 and a gear 23. The eccentric pin 24 on the gear 23 is connected to the piston body 6. [ The motor 21 drives the power mechanism of the air compressor to cause the piston head 61 of the piston body 6 to make a reciprocating compression movement in the inner circumferential wall 34 of the cylinder 3, The valve holder 44 is moved to move through the passage 33 and the spring 46 is compressed so that the compressed air can enter the air storage part 4. [ The piston head 61 of the piston body 6 is provided with a ventilation passage 604 penetrating therethrough and is provided with a buffer air receiving groove 60 so that the piston body 6 Does not exceed the safe pressure value of the air injection while continuously generating reciprocating linear motion in the cylinder 3 of the air compressor so that the air compressor does not have to install a pressure safety valve having a protective action So that the user can more conveniently carry out the operation of injecting air into the air injection, as well as protecting the air injection.

4 and 5, the piston body 6 provided in the air compressor structure according to the present invention includes a piston head 61 and a piston rod 62. One end of the piston head 61 has an opening 601 and a buffer air receiving groove 60 having a bottom wall 602 and a peripheral wall 603 formed by being recessed toward the inside of the piston head 61, The bottom wall 602 is provided with a ventilation passage 604 and an engaging portion 605. The cushioning air receiving groove 60 is formed in the upper end of the piston head 61 at the periphery of the opening portion 601, And a bottom wall 612 of the piston head 61 is formed to extend downward from the top wall 611. The top wall 611 and the bottom wall 612 of the piston head 61 are formed with a wall 611, A recessed ring-shaped groove 64 which is not in communication with the buffering air receiving groove 60 is separately formed. Is connected to the first end portion 621 of the piston rod 62 having a predetermined length by the bottom wall 612 of the piston head 61 and the end of the piston rod 62, that is, the second end portion 622, A connection hole 63 is provided. The airtight ring 65 having a function similar to that of the O-ring is mounted in the ring-shaped groove 64 of the piston head 61. The elastic spring sheet 66 can be mounted on the engaging portion 605 in the buffer air receiving groove 60.

Actual use of the air compressor of the present invention will be described with reference to Figs. 3 and 6 to 8. Fig. The cylinder 3 has an upper wall 32 on the upper end of the cylinder inner chamber 31 and a passage 33 which can penetrate the upper wall 32 to the air storage portion 4 above the cylinder 3. [ And a plurality of ducts 41, 42 and 43 are installed in the air storage part 4 (the duct 43 can be seen in FIG. 10), the hose 14 can be connected to the duct 41 ; A pressure indicator (12) is connected to the duct (42); A relief valve member 5 is mounted to the duct 43 and a soft cap 51 is provided at an inner end of the relief valve member 5. A spring 46 is provided in the passage 33 in the air storage part 4 so as to abut the valve holder 44 and the valve holder 44. A total of air compressors can be installed in the box member 1, wherein the box member 1 (see also Fig. 1) is provided with a changeover switch 11, which is actuated to start or stop the air compressor, And the pressure indicator 12 of the air compressor can be exposed to the outer surface of the box member 1 and the mandrel 131 inside the other touch switch 13 passes through the bolt 52, The user easily presses the touch switch 13 to press the soft cap 51 of the relief valve member 5 in a state in which the user touches the soft cap 51 of the member 5 and the air injection has a relatively high pressure value. The soft cap 51 is deformed by compression and excess pressure of the air injection is discharged through the duct 43 mounted on the relief valve member 5. [ The hose 14 connected to the duct 41 can be housed in the box member 1 and is also sealed by the opening / closing lid 15 (see Fig. 2) to realize the beauty of storage.

The piston body 6 of the air compressor is capable of reciprocating linear motion within the cylinder 3 and the upstroke of the piston body 6 is such that the air in the cylinder inner chamber 31 is discharged to the air storage Pushing it into the chamber 45 and discharging it through the hose 14 of the duct 41 into the air inlet; When the piston body 6 is down-stroked, the outside air flows through the ventilation passage 604 through which the piston head 61 penetrates to drive the elastic spring seat 66 to flow into the cylinder inner chamber 31, Repeating the process will fill the air charge with gas. 6 and 7 simultaneously with reference to the motion state in which the piston body 6 compresses the air in the cylinder inner chamber 31. [ The piston head 61 of the present invention is provided with the buffer air receiving groove 60 so that when the piston body 6 is positioned at the upper dead point in the up stroke, the upper wall 611 of the piston head 61 is located inside the cylinder It is possible to allow the compressed air corresponding to the volume of the air receiving groove to remain in the cylinder inner chamber 31 due to the presence of the buffering air receiving groove 60 even if it abuts on the upper wall 32 at the upper end of the chamber 31, This design has safety in use by allowing the piston body 6 to further increase the smoothness of operation due to the reduction of the resistance and to be kept within a safe pressure value range with respect to the air injection even in the air injection process . Of course, the piston body 6 of the present invention can also be applied to the cylinder 3 (see FIG. 9), and the piston body 6 of the air compressor linearly moves in the cylinder 3, There is a buffering space 31 between the piston head 61 of the piston body 6 and the inside upper wall 32 of the cylinder 3 so that the piston body 6, which is applied to such a cylinder 3, So that it is possible to exercise more smoothly.

The piston body 7 of the present invention may be configured as shown in the embodiment shown in Figs. 11-12, wherein the piston body 7 includes a piston head 71 and a piston rod 72, An upper end wall 711 of a flat surface is provided at the upper end of the piston head 71 and a ventilation passage 702 penetrating therethrough is provided at the upper end of the piston head 71, And a buffering air receiving groove 70 which is not connected to the ventilation passage 702 and extends downward from the upper wall 711 to form a bottom wall 712 of the piston head 71, The outer peripheral wall between the upper end wall 711 and the lower end wall 712 of the piston head 71 is formed separately with a recessed ring-shaped recess 74 that is not in communication with the buffer air receiving recess 70. The piston rod 72 is connected to the first end portion 721 of the piston rod 72 having a predetermined length by the bottom wall 712 of the piston head 71 and the end portion of the piston rod 72, A connection hole 73 is provided. The airtight ring 75 having a function similar to that of the O-ring can be mounted in the ring-shaped groove 74 of the piston head 71. The resilient spring seat 76 may be mounted to the engagement portion 713 on the top wall 711. Referring to FIGS. 13 and 14, the piston body 7 compresses air in the cylinder inner chamber 31 at the same time. The piston head 71 of the present invention is also provided with the buffer air receiving groove 70 so that when the piston body 7 is positioned at the upper dead point in the up-stroke, the upper wall 711 of the piston head 71 is located inside the cylinder Allowing the compressed air corresponding to the volume of the air receiving groove to remain in the cylinder inner chamber 31 due to the presence of the buffering air receiving groove 70 even if it abuts against the upper wall 32 at the upper end of the chamber 31, This design allows the piston body 7 not only to further increase the smoothness of the operation due to the reduction of the resistance, but also to ensure that it is maintained within the safe pressure value range for the air inlets during the air injection process, At the same time, a separate pressure relief valve cost can be saved.

In view of the above, the piston body 6 of the present invention is provided with the buffer air receiving grooves 60 in the piston head 61 so that the pressure safety valve is not separately installed in the entire air compressor, And the piston body 6 is made more smooth and safe in the stroke process, so that the present invention is provided with novelty and progressiveness.

1: box member 11: changeover switch
12: Pressure indicator 13: Touch switch
131: Mandrel 14: Hose
15: opening / closing cover 20: main frame
21: motor 22: pinion
23: Gear 24: Eccentric pin
3: cylinder 31: cylinder inner chamber
32: upper wall 33: passage
34: inner circumferential wall 4: air reservoir
41: duct 42: duct
43: duct 44: valve holder
45: air storage chamber 46: spring
5: relief valve member 51: soft cap
52: Bolt
6: piston body 60: buffer air receiving groove
601: opening 602:
603: Perimeter wall 604: Ventilation passage
605: engaging portion 61: piston head
611: upper wall 612:
62: piston rod 621: first end
622: second end 63: hole for pivot connection
64: ring-shaped groove 65: airtight ring
66: spring seat 7: piston body
70: buffer air receiving groove 701: opening
702: Ventilation passage 71: Piston head
711: upper wall 712: hem wall
713: engaging portion 72: piston rod
721: first end 73: hole for pivot connection
74: ring shaped groove 75: airtight ring
76: spring seat

Claims (8)

1. A structure of an air compressor including a box member in which an air compressor having a piston body driven by a motor and reciprocating up and down in a cylinder is installed,
And a ventilation passage penetrating the piston head of the piston body, and a buffer air receiving groove is provided. The method according to claim 1,
Wherein the piston body includes the piston head and the piston rod, and the piston head forms the buffer air receiving groove at the upper end, and the upper end of the buffer air receiving groove is an opening and is recessed toward the inside of the piston head, And the bottom wall has the ventilation passage and the engaging portion communicating with the buffering air receiving groove; And the resilient spring seat is mounted to the engaging portion in the buffer air receiving groove. The method according to claim 1,
Wherein the buffer air receiving groove forms a top wall of a flat surface at an upper end of the piston head around the opening and extends downward from the upper wall to form a bottom wall of the piston head, The wall is formed separately with a recessed ring-shaped groove which does not communicate with the buffering air receiving groove; The bottom wall of the piston head is connected to the first end of the piston rod and the end of the piston rod, i.e. the second end, is provided with a pivot connection hole; Wherein the airtight ring having the function of acting as an O-ring is mounted in the ring-shaped groove of the piston head. The method according to claim 1,
Wherein the piston body includes the piston head and the piston rod, a top wall of a flat surface is formed at an upper end of the piston head, and the upper wall includes the vent passage that penetrates the piston head; And a damping air receiving groove which is recessed toward the inside of the piston head from the upper wall so as not to communicate with the ventilation passage is formed; Wherein an engaging portion is also provided on the upper wall and an elastic spring seat is provided on the engaging portion on the upper wall and the elastic spring seat is capable of shielding the ventilation passage. The method according to claim 1,
The cylinder has a top wall at the upper end of the cylinder inner chamber, and a passage through which the air is stored to the air storage portion above the cylinder is provided in the upper end wall. A plurality of ducts are installed in the air storage portion, and one duct is connected to the hose ; The other duct is connected to a pressure indicator; Another duct is equipped with a relief valve member, and an inner end of the relief valve member is provided with a soft cap; Wherein the passage in the air storage unit is provided with a valve holder and a spring abutting on the valve holder. 6. The method of claim 5,
Wherein the hose connected to the one duct is accommodated in a box member and is hermetically sealed by a cover for opening and closing. The method according to claim 1,
The box member is provided with a change-over switch for starting or stopping the air compressor. The pressure indicator of the air compressor is exposed to the outer surface of the box member, and the inner shaft of the other touch switch passes through the bolt, And abuts against the soft cap. The method according to claim 1,
Wherein a buffering space is present between the piston head of the piston body and the upper inner wall of the cylinder when the reciprocating piston body in the cylinder is located at the upper dead point.

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