KR102179049B1 - Portable Compressed Pack Vacuum Device - Google Patents

Abstract

The present invention relates to a portable compression pack vacuum device, and more particularly, it is connected to the inlet of the compression pack and sucks the air inside the compression pack according to the operation of the electric motor and then discharges it to the outside to easily remove the air inside the compression pack It was invented to minimize the volume.
In the configuration of the present invention, a substrate storage chamber 11, a motor storage chamber 15, and a pump storage chamber 17 are formed therein, and an operation button 13 is included at one end of the substrate storage chamber 11 An outer case 10 in which an upper cover 12 is assembled and a lower cover 18 having an opening at one end of the pump storage chamber 17 is assembled;
A substrate member (20) assembled in the substrate storage chamber (11) of the outer case (10) and controlling electricity supply by operation of an operation button (13) located on the upper side;
An electric motor 25 that is assembled in the motor storage chamber 15 of the outer case 10 and operates according to the supply of electricity from the substrate member 20;
It is housed in the pump storage chamber 17 of the outer case 10, and a pumping head part between the base body 40 assembled with the electric motor 25 and the base cap 70 having the air inlet hole 79 on one side Position 60, and connect the piston member 50 eccentrically connected to the drive shaft 26 of the electric motor 25 to the pumping head unit 60 to move the piston member 50 up and down. As the cylinder chamber 64 of the pumping head unit 60 performs a two-stroke movement of suction and discharge, the air introduced into the base body 40 through the air inlet hole 79 of the base cap 70 is transferred to the base body. (40) It is configured to include a vacuum pump 30 configured to discharge to the outside.

Description

Portable Compressed Pack Vacuum Device}

The present invention relates to a portable compression pack vacuum device, and more particularly, it is connected to the inlet of the compression pack and sucks the air inside the compression pack according to the operation of the electric motor and then discharges it to the outside to easily remove the air inside the compression pack. It was invented to minimize the volume.

In particular, it is possible to easily compress the volume of clothes stored in the travel bag during the travel process, so that various clothes can be stored, and the travel bag is easy to move, low noise, and wireless use is possible, thereby improving usability.

In general, in the case of bedding or clothing that has passed the season, it has been stored in a plastic pack or bedding case and clothing case, and recently, a compression pack for storing bedding or clothing in a compressed state has been used.

The compression pack is used to compress and store bulky contents such as blankets containing materials such as cotton, wool, wool, goose hair, chemical cotton or synthetic fibers, or compressed to facilitate transport.

Here, conventional compression packs include a packaging bag having a fastener at one end that opens and closes so that the contents to be stored are put and discharged, and the packaging bag is provided so that the air inside the packaging bag can be taken out by the suction force of the vacuum cleaner. It consists of a check valve.

However, as a device for removing air from the inside of the compression pack to the outside, the brush inlet of the vacuum cleaner used at home is removed, and a vacuum cleaner pipe made of metal is in close contact with the check valve, and the air inside the compression pack is removed by the suction force of the vacuum cleaner. Although it was being used to remove it, there was a nuisance that caused discomfort to users due to contamination of the vacuum cleaner pipe that was already being used for cleaning indoor floors.

In addition, the cleaner pipe basically has a length of 1m or more, and a switch for operating the cleaner is provided on a handle provided at the end of the pipe, and the one end of the cleaner pipe is fitted to the check valve of the packaging bag to operate the cleaner. There was a problem that it was difficult to operate the switch for this purpose.

In addition, when a plurality of clothes are stored in a travel bag such as a travel carrier and a trunk, the storage space of the travel bag is insufficient due to the volume of the clothes, so the number of clothes is reduced or the number of travel goods is reduced. There was a problem in that travel fatigue was increased and logistics cost according to the number of travel bags increased by having to move and store a number of travel bags together with the traveler.

Korean Patent Application Publication No. 10-2016-0097805. Portable vacuum packaging device (published on August 18, 2016)

In order to solve the problems of the prior art as described above, the present invention is easy to carry and can be used at home or traveling, and the volume can be minimized by discharging the air inside the compression pack to the outside by the operation of a vacuum pump. The purpose of this is to allow a number of clothes to be stored in a compression pack in a travel bag at a travel destination and thus facilitate movement.

Another object of the present invention is to improve the convenience of use by simplifying the configuration of the vacuum pump while operating the vacuum pump by the operation of the electric motor, thereby reducing noise and enabling wireless use because it is compact and portable. There is.

Another object of the present invention is to detect the internal vacuum state of the compression pack and stop the operation of the electric motor, thereby preventing malfunction and damage of the electric motor and vacuum pump, thereby improving product safety. To be able to.

The present invention for solving such a technical problem,

The substrate storage chamber 11, the motor storage chamber 15, and the pump storage chamber 17 are formed therein, and an upper cover 12 including an operation button 13 at one end of the substrate storage chamber 11 is provided. An outer case 10 assembled with a lower cover 18 having an opening at one end of the pump storage chamber 17;

A substrate member (20) assembled in the substrate storage chamber (11) of the outer case (10) and controlling electricity supply by operation of an operation button (13) located on the upper side;

An electric motor 25 that is assembled in the motor storage chamber 15 of the outer case 10 and operates according to the supply of electricity from the substrate member 20;

It is housed in the pump storage chamber 17 of the outer case 10, and a pumping head part between the base body 40 assembled with the electric motor 25 and the base cap 70 having the air inlet hole 79 on one side Position 60, and connect the piston member 50 eccentrically connected to the drive shaft 26 of the electric motor 25 to the pumping head unit 60 to move the piston member 50 up and down. As the cylinder chamber 64 of the pumping head unit 60 performs a two-stroke movement of suction and discharge, the air introduced into the base body 40 through the air inlet hole 79 of the base cap 70 is transferred to the base body. (40) It is configured to include a vacuum pump 30 configured to discharge to the outside.

In addition, the vacuum pump 30, one side is coupled to the electric motor 25, the other side is a base body 40 formed with a plurality of piston moving holes 41 at equal intervals;

A plurality of pistons 51 are formed on one side at equal intervals to correspond to the piston moving hole 41 from the inside of the base body 40, and the eccentric member 52 connected to the drive shaft of the electric motor 25 on the other side The piston shaft 53 is obliquely coupled to the piston member 50 to rotate eccentrically;

A plurality of piston mounting holes 62 into which the piston 51 is fitted protrude from the head fixing plate 61 mounted on the outside of the base body 40, and the piston mounting holes 62 and the cylinder partition wall ( A pumping head part 60 having a cylinder chamber 64 formed in the other space with 63;

It is seated on the pumping head part 60, sucks air from the base body 40 through a two-stroke motion of the cylinder chamber 64 and discharges it to the outside, and the air introduced through the air inlet hole 79 is discharged to the base body. It is configured to include a base cap (70) supplied to (40).

In addition, the base cap 70 is seated in the pumping head part 60, and the air exhaust hole 72 communicated with the cylinder chamber 64 and a head inlet hole 61a provided in the head fixing plate 61 ) And an upper cap 71 in which the air passage holes 73 communicated with each other are repeatedly formed at equal intervals;

It is installed on the upper cap 71, the protruding support bar 81 at one end is located close to the cylinder bulkhead 63 of the cylinder chamber 64, and the protruding sealing cover 82 at the other end is an air exhaust hole 72 Opening and closing elastic pins 80 formed to shield the;

The cap hermetic chamber 76 into which the sealing cover 82 is inserted is formed at equal intervals, and the air introduced through the air inlet hole 79 passes through the air passage hole 73 and the head inlet hole 61a. It is achieved by consisting of a lower cap 75 formed to flow into the base body 40.

In addition, an exhaust valve 65 is provided in the cylinder partition wall 63 of the pumping head part 60, and an exhaust hole 54 is formed in the center of the piston 51 fitted in the piston mounting hole 62, Air is supplied to and blocked in the cylinder chamber 64 through the exhaust hole 54 of the piston 51 according to the opening or closing movement of the exhaust valve 65.

In addition, the lower cap 75 is formed by partitioning a plurality of cap hermetic chambers 76 and an air inlet chamber 77 communicating with the air passage hole 73 of the upper cap 71, respectively, The cap hermetic chamber 76 is formed with an air exhaust passage 76b surrounding the air inflow chamber 77 along the air exhaust groove 76a formed on one side at equal intervals, and at one end of the air exhaust passage 76b. Air discharge groove (76c) is provided.

In addition, a sensor measuring tube 45 connected to the vacuum sensor 21 of the substrate member 20 is further connected to one side of the base body 40 to detect the negative pressure of the base body 40 with electricity. It is achieved by configuring the motor 25 to be intermittently driven.

According to the present invention, a plurality of clothes are stored in a compression pack at home, especially in travel, using a portable vacuum device, and the compression pack is easily compressed to minimize the volume, so that storage and movement are easy. Other travel goods can be stored in the storage space, thereby improving user convenience.

In addition, it is configured to stop the operation of the electric motor by detecting the state where the air inside the compression pack is discharged, preventing damage to the compression pack due to excessive operation, and preventing malfunction of the electric motor and vacuum pump. Can increase the safety and satisfaction of use.

In addition, by configuring the air discharged from the electric pump to be exhausted more quickly, it is possible to provide a small vacuum pump and operate at high speed, thereby increasing the compression force and minimizing noise and vibration to improve pumping efficiency, and wireless operation is possible. There is also an effect of improving the convenience of use.

1 is a state diagram of the present inventors using a portable compression pack vacuum device.
Figure 2 is an exploded perspective view of the case of the present inventors portable compression pack vacuum device.
3 is an exploded perspective view mainly showing the bottom of the vacuum pump, which is a configuration of the present invention.
Figure 4 is an exploded perspective view mainly showing a plane of the vacuum pump constituting the present invention.
Figure 5 is a cross-sectional view showing the air intake state of the present inventors portable compression pack vacuum device.
6 is a perspective view showing a state in which air is sucked and moved through a lower cap, which is a configuration of the present invention.
7 is a plan view showing a state in which air is sucked and moved through a lower cap, which is a configuration of the present invention.
Figure 8 is a cross-sectional view showing an air discharge state of the present inventors portable compression pack vacuum device.
9 is a perspective view showing a state in which air is discharged and moved through a lower cap, which is a configuration of the present invention.
10 is a plan view showing a state in which air is discharged and moved through a lower cap, which is a configuration of the present invention.

The present inventor's portable compression pack vacuum device is connected to the inlet of the compression pack and sucks the air inside the compression pack according to the operation of the electric motor, and then discharges it to the outside so that the volume can be minimized by removing the air inside the compression pack easily. It was invented.

In particular, it is possible to easily compress the volume of clothes, etc. stored in the travel bag during the travel process, so that various clothes can be stored, and the travel bag can be easily moved and convenience in use can be improved.

Since the present invention can apply various changes and have various forms, embodiments will be described in detail in the text. However, this is not intended to limit the present invention to a specific form of disclosure, it should be understood to include all changes, equivalents, and substitutes included in the spirit and scope of the present invention.

The present inventors portable compression pack vacuum apparatus 100, the lower cap injection port 78 so as to remove air inside the travel compression pack 1 in which clothes, etc. are accommodated to prepare for home or travel, as shown in FIG. Is inserted into the check valve plate (2) and presses the operation button (13) located on the upper side, and the vacuum pump (30) reciprocates the two strokes of suction and discharge by the operation of the electric motor (25). It has a configuration that eliminates.

Here, the check valve plate 2 is provided integrally with the compression pack 1, and in a state in which the valve cap is normally assembled, when using the compression pack, the valve cap is removed and the compression pack vacuum device 100 It is configured to fit the cap injection port 78 of the caliber, and the configuration of the compression pack 1 and the check valve plate 2 is already known and used, so further description will be omitted.

The compression pack vacuum device 100 includes a substrate member 20 for applying and blocking power to the inside of the outer case 10 as shown in FIG. 2, and an electric motor that operates according to the application of power to the substrate member 20. It is largely composed of (25) and a vacuum pump (30) that sucks and discharges air by reciprocating two strokes according to the operation of the electric motor (25).

In more detail, the outer case 10 includes a substrate storage room 11, a motor storage room 15, and a pump storage room 17 formed therein from the top to the bottom of the drawing. The upper cover 12 including the operation button 13 is assembled on the upper side of (11), and the lower cover 18 having an opening at the lower side of the pump storage chamber 17 is assembled.

First, the substrate member 20 is assembled in the substrate storage chamber 11 of the outer case 10, and is supplied from the outside by operation of the operation button 13 located on the upper side, or electricity from the built-in battery is applied. And shut off, so that the electric motor 25 assembled in the motor storage chamber 15 of the outer case 10 operates according to whether or not electricity is applied to the substrate member 20.

Here, a vacuum sensor 21 is further mounted on the substrate member 20, and the internal negative pressure of the base body 40 through a sensor measuring tube 45 connected to the base body 40 to be described later ( It is also included in the present invention that a negative pressure, 負壓) is detected by electricity to regulate the driving of the electric motor 25.

In addition, the vacuum pump 30, which reciprocates two strokes according to the operation of the electric motor 25, is largely accommodated in the pump storage chamber 17 of the outer case 10 as shown in FIGS. 3 and 4, The base body 40 is assembled on the front of the electric motor 25 from the top to the bottom of the drawing and has a piston member 50 eccentrically connected to the vacuum pump 30 therein, and the piston member 50 It is composed of a soft pumping head unit 60 to be assembled, and a base cap 70 formed with a moving path for inhaling and discharging air.

When the vacuum pump 30 is described in more detail, the base body 40 is airtightly coupled to one side of the electric motor 25 to form a space therein, but the drive shaft 26 of the electric motor 25 is It is provided to penetrate, and the other side is formed with a plurality of piston moving holes 41 at equal intervals.

At this time, the base body 40 has an integral shape or is formed to be divided into an upper base 40a and a lower base 40b, and the upper base 40a is fixed to the electric motor 25, and then the drive shaft An eccentric member 52 and a piston member 50 are mounted on 26, so that the piston moving hole 41 and the base inlet hole 42 into which air is introduced are alternated with each other, and the lower base 40b is provided with equal intervals. It is preferable to stack them on the upper base 40a.

Here, the eccentric member 52 is connected to a drive shaft 26 of the electric motor 25 on one surface, and one side extends eccentrically from the center of the drive shaft 26, while the piston shaft of the piston member 50 ( An eccentric hole (unsigned) is formed so that 53) is inserted obliquely.

In addition, the piston member 50, a plurality of pistons 51 are formed on one side at equal intervals to correspond to the piston moving hole 41 from the inside of the base body 40, the exhaust hole in the center of the piston ( 54) is formed through, the piston shaft 53 is obliquely coupled to the eccentric member 52 that is connected to the electric motor 25 and rotates eccentrically on the other side, and the piston member 50 by the operation of the electric motor 25 While eccentrically rotates, the piston 51 located in the piston moving hole 41 is reciprocated up and down.

In addition, the pumping head 60 is integrally molded with a soft material, so that the piston mounting hole 62 on the upper side of the drawing is fitted into the piston 51 located in the piston moving hole 41, respectively, and the piston In accordance with the eccentric rotational motion of the member 50, the piston mounting hole 62 moves up and down together with the piston 51.

The pumping head part 60 has a head fixing plate 61 that is seated on the base body 40, and a plurality of piston mounting holes 62 into which the piston 51 is fitted are protruded from the upper surface, and the piston A cylinder chamber 64 is formed in the other side space with the mounting hole 62 and the cylinder partition wall 63.

In addition, the head fixing plate 61 has a head inlet hole 61a through which air introduced through the base cap 70, which will be described later, can pass, is equally spaced between the piston mounting hole 62 and the piston mounting hole. It is formed with a groove to communicate with the base inlet hole 42 described above, and a groove in which the fixing screw 49 for fastening the base body 40 and the base cap 70 is inserted along the outer periphery is formed. .

In addition, the cylinder partition wall 63 is provided with an exhaust valve 65 in the form of a membrane that communicates or blocks the piston mounting port 62 and the cylinder chamber 64, and separately fixes the exhaust valve 65. Otherwise, the exhaust valve 65 is opened and moved, and air is supplied to the cylinder chamber 64 through the exhaust hole 54 in the center of the piston 51. When the exhaust valve 65 is fixed, the exhaust valve 65 Is closed to cut off air supply.

And, in the state in which the base body 40 and the pumping head 60 are assembled, the base cap 70 having a moving path for inhaling and discharging air is stacked, and then integrally coupled using a fixing screw 49 The base cap 70 is divided into an upper cap 71 and a lower cap 75, and an opening and closing elastic pin 80 is provided therein.

In more detail, the upper cap 71 is seated on one side of the pumping head part 60, and the head provided in the air exhaust hole 72 and the head fixing plate 61 in communication with the cylinder chamber 64 The air passage holes 73 communicated with the inlet hole 61a are alternately formed and repeatedly formed at equal intervals.

In addition, the opening/closing elastic pin 80 is made of a soft material, and the support bar 81 protrudes toward the upper side in the drawing, and the upper cap 71 in the form of a dome is integrally formed at the lower side, and the upper cap ( The air exhaust hole 72 of 71) is fixedly mounted at a position enclosed by the upper cap 71. For example, while a plurality of air exhaust holes 72 are formed in the one cylinder chamber 64, the air exhaust hole ( 72) While forming a pin fixing hole (unsigned) in which the support bar 81 of the opening/closing elastic pin 80 is inserted and fixed in the center, the tip of the support bar 81 is in the exhaust valve 65 of the cylinder chamber 64 It is formed to be extended to be positioned at intervals, and the sealing cover 82 at the other end is configured to shield the air exhaust hole 72.

In addition, the lower cap 75 has a cap injection port 78 that fits into the check valve plate 2 of the compression pack 1 at the top and bottom of the drawing, and the air inlet hole of the cap injection port 78 is at the upper side of the drawing. A plurality of air inflow chambers 77 through which the air introduced through 79 can be moved in the direction of the air passage hole 73 of the upper cap 71 and the sealing cover 82 are inserted at equal intervals. The cap hermetic chamber 76 is formed to be partitioned from each other.

In addition, the airtight cap chamber 76 of the lower cap 75 forms an air exhaust groove 76a on one side to discharge air to the outside, and continuously surrounds the air inflow chamber 77 ( 76b) is formed, and an air discharge groove 76c connected to the outside is formed at one end of the air exhaust channel 76b.

Therefore, the lower cap 75 is integrally assembled by using a fixing screw 49 or thermally fused under the upper cap 71 to which the opening and closing elastic pin 80 is assembled, and the cap airtight chamber 76 and the air The inlet chamber 77 is in close contact with the upper cap 71 so that the air inlet chamber 77 is shielded, and the cap airtight chamber 76 has an air exhaust groove 76a and an air exhaust channel 76b and an air exhaust groove 76c. Through this, it is possible to discharge the air in the cylinder chamber 64 to the outside.

Hereinafter, an exemplary embodiment of the present invention will be described with reference to FIGS. 5 to 10.

First, FIG. 5 shows the compression pack by inserting the cap injection port 78 of the compression pack vacuum device 100 into the check valve plate 2 of the compression pack 1 and operating the electric motor 25 and the vacuum pump 30. (1) It shows the process of inhaling internal air, and the air is introduced through the air inlet hole 79 of the cap inlet 78 to move the air inlet chamber 77 as shown in FIGS. 6 and 7. It moves to the air passing hole 73 formed in the upper cap 71 along the line.

In addition, since the air passage hole 73 communicates with the head inlet hole 61a of the pumping head part 60 and the base inlet hole 42 of the base body 40, the air inside the compression pack 1 It is collected in the internal space of the base body 40, and in the state where the air inside the compression pack 1 is removed, the substrate member 20 through the sensor measuring tube 45 provided at one side of the base body 40 The vacuum sensor 21 detects negative pressure electrically and stops the driving of the electric motor 25, thereby preventing damage to the compression pack 1 and the vacuum pump 30.

In addition, the air introduced into the inner space of the base body 40 is discharged to the outside by the operation of the vacuum pump 30 as shown in FIG. 8, which will be described in detail, the piston member 50 is the eccentric member 52 By eccentric rotation, the piston 51 and the pumping head unit 60 reciprocate up and down and perform a two-stroke movement of suction or discharge.The left side of the drawing shows the suction stroke, and the right side of the drawing shows the discharge stroke. It is shown.

When explaining the suction stroke, the pumping head unit 60 assembled to the piston 51 is in a state of being moved to the upper part of the drawing, and at this time, the cylinder partition wall 63 also moves to support the opening and closing elastic pin 80 The exhaust valve 65 is not interrupted to 81.

Accordingly, the air introduced into the base body 40 is caused by the negative pressure of the cylinder chamber 64 through the exhaust hole 54 of the piston 51 and the exhaust valve 65 of the cylinder partition wall 63 It may be supplied to the cylinder chamber 64 while being pushed back. Here, the sealing cover 82 shields the air exhaust hole 72 of the upper cap 71 to block the inflow of external air.

And, when describing the discharge stroke, the pumping head part 60 assembled to the piston 51 compresses the cylinder chamber 64 while moving the cylinder partition wall 63 to the lower part of the drawing. At this time, the exhaust valve Since the 65 is in contact with the support rod 81 and compressed together, the exhaust hole 54 of the piston 51 is shielded to block air inflow of the base body 40.

In addition, as the cylinder chamber 64 and the support bar 81 are compressed, the opening/closing elastic pin 80 slightly moves in the direction of the cap hermetic chamber 76, or the soft sealing cover 82 is tilted by compressed air, thereby causing the air exhaust hole. (72) and the cap hermetic chamber 76 communicate with each other, and the compressed air of the cylinder chamber 64 flows into the cap hermetic chamber 76, and the air exhaust groove 76a and the air exhaust channel 76b as shown in Figs. It moves along the air discharge groove 76c and is discharged to the outside.

In addition, the present invention forms a primary collection space (S1) of a predetermined space at one side of the air exhaust groove (76a) formed in the cap hermetic chamber (76) to make the inflow of external air difficult and to facilitate the discharge of internal air, A secondary collection space (S2) is formed before the air discharge groove (76c), and an air exhaust passage (76b), which is a relatively narrow passage, is formed between the primary collection space and the secondary collection space (S2).

At this time, the primary collection space (S1) is formed to have a relatively larger space than the secondary collection space (S2) so that the air in the primary collection space (S1) can be naturally moved to the secondary collection space (S2). It is good.

Accordingly, the air exhausted from the cap hermetic chamber 76 to the air exhaust groove 76a according to the discharge stroke of the pumping head 60 is collected in the primary collection space S1, and a part of the air exhaust channel 76b Through it can be quickly discharged to the secondary collection space (S2) and the air discharge groove (76c), it is possible to prevent the air in the secondary collection space (S2) from flowing backward.

As described above, the above-described embodiment has been described with respect to the most preferable example of the present invention, but is not limited to the above embodiment, and it is obvious to those skilled in the art that various modifications can be made within the scope of the technical spirit of the present invention. .

10. External case 20. Substrate member
21. Vacuum sensor 30. Vacuum pump
40. Base body 42. Base inlet hole
50. Piston member 51. Piston
54. Exhaust hole 60. Pumping head
61. Head fixing plate 61a. Head inlet hole
62. Piston mounting port 63. Cylinder bulkhead
64. Cylinder chamber 65. Exhaust valve
70. Base cap 71. Top cap
72. Air exhaust hole 73. Air passage hole
75. Lower cap 76. Closed cap
76a. Air exhaust groove 76b. With air exhaust
76c. Air outlet groove 77. Air inlet room
78. Cap injection port 79. Air inlet hole
80. Open/close elastic pin 81. Support bar
82. Sealing cover 100. Compression pack vacuum device

Claims (8)

The substrate storage chamber 11, the motor storage chamber 15, and the pump storage chamber 17 are formed therein, and an upper cover 12 including an operation button 13 at one end of the substrate storage chamber 11 is provided. An outer case 10 assembled with a lower cover 18 having an opening at one end of the pump storage chamber 17;
A substrate member (20) assembled in the substrate storage chamber (11) of the outer case (10) and controlling electricity supply by operation of an operation button (13) located on the upper side;
An electric motor 25 that is assembled in the motor storage chamber 15 of the outer case 10 and operates according to the supply of electricity from the substrate member 20;
It is housed in the pump storage chamber 17 of the outer case 10, and a pumping head part between the base body 40 assembled with the electric motor 25 and the base cap 70 having the air inlet hole 79 on one side Position 60, and connect the piston member 50 eccentrically connected to the drive shaft 26 of the electric motor 25 to the pumping head unit 60 to move the piston member 50 up and down. As the cylinder chamber 64 of the pumping head unit 60 performs a two-stroke movement of suction and discharge, the air introduced into the base body 40 through the air inlet hole 79 of the base cap 70 is transferred to the base body. (40) In configured to include a vacuum pump 30 configured to discharge to the outside;
The vacuum pump 30 includes a base body 40 having one side coupled to the electric motor 25 and the other side having a plurality of piston moving holes 41 formed at equal intervals;
A plurality of pistons 51 are formed on one side at equal intervals to correspond to the piston moving hole 41 from the inside of the base body 40, and the eccentric member 52 connected to the drive shaft of the electric motor 25 on the other side The piston shaft 53 is obliquely coupled to the piston member 50 to rotate eccentrically;
A plurality of piston mounting holes 62 into which the piston 51 is fitted protrude from the head fixing plate 61 mounted on the outside of the base body 40, and the piston mounting holes 62 and the cylinder partition wall ( A pumping head part 60 having a cylinder chamber 64 formed in the other space with 63;
It is seated on the pumping head part 60, sucks air from the base body 40 through a two-stroke motion of the cylinder chamber 64 and discharges it to the outside, and the air introduced through the air inlet hole 79 is discharged to the base body. It is configured to include a base cap (70) to be supplied to (40),
An exhaust valve 65 is provided in the cylinder partition wall 63 of the pumping head part 60, and an exhaust hole 54 is formed in the center of the piston 51 fitted in the piston mounting hole 62, and the exhaust valve Portable compression pack vacuum apparatus, characterized in that the air is supplied to the cylinder chamber 64 through the exhaust hole 54 of the piston 51 and blocked according to the opening or closing movement of (65).
The method according to claim 1;
At one side of the base body 40, a sensor measuring tube 45 connected to the vacuum sensor 21 of the substrate member 20 is further connected to detect the negative pressure of the base body 40 with electricity to detect the electric motor 25 ), a portable compression pack vacuum device, characterized in that it is configured to control the drive.
delete The method according to claim 1;
The base cap 70 is seated in the pumping head part 60, and the air exhaust hole 72 communicated with the cylinder chamber 64 and a head inlet hole 61a provided in the head fixing plate 61 An upper cap 71 in which the communicating air passage holes 73 are repeatedly formed at equal intervals;
It is installed on the upper cap 71, the protruding support bar 81 at one end is located close to the cylinder bulkhead 63 of the cylinder chamber 64, and the protruding sealing cover 82 at the other end is an air exhaust hole 72 Opening and closing elastic pins 80 formed to shield the;
The cap hermetic chamber 76 into which the sealing cover 82 is inserted is formed at equal intervals, and the air introduced through the air inlet hole 79 passes through the air passage hole 73 and the head inlet hole 61a. Portable compression pack vacuum device, characterized in that consisting of a lower cap (75) formed to flow into the base body (40).
delete The method of claim 4,
The lower cap 75 is formed by partitioning a plurality of cap hermetic chambers 76 and an air inflow chamber 77 communicating with the air passage hole 73 of the upper cap 71, and each of the cap hermetic chambers (76) is formed at equal intervals along the air exhaust groove (76a) formed on one side of the air exhaust path (76b) surrounding the air inflow chamber (77), and air is discharged to one end of the air exhaust path (76b) Portable compression pack vacuum device, characterized in that the groove (76c) is provided.
The method of claim 6,
The lower cap 75 forms a primary collection space S1 of a predetermined space on one side of the air exhaust groove 76a formed in the cap hermetic chamber 76, and a secondary collection space before the air exhaust groove 76c. A portable compression pack vacuum apparatus comprising (S2) and an air exhaust passage (76b), which is a relatively narrow passage, formed between the primary collection space and the secondary collection space (S2).
The method of claim 7,
The first collection space (S1) of the lower cap (75) is a portable compression pack vacuum device, characterized in that formed to have a relatively larger space than the second collection space (S2).

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