KR200211619Y1 - Vacuum pump having suction means consist of arranging in a row connection - Google Patents

Abstract

The present invention relates to a vacuum pump having suction means connected in parallel.

The present invention and the body is formed with an injection hole for injecting air to one side; Two or more suction ejectors installed on one side of the body and having a plurality of vacuum chambers and multiple nozzles coupled to respective walls of the vacuum chambers so that the air injected from the inlet is discharged through the respective nozzles; The vacuum pump, characterized in that it is installed to interfere between the suction ejector and the body, a plurality of vacuum chambers and a plurality of nozzles are coupled to each wall of the vacuum chamber therein and comprises an auxiliary ejector for increasing the vacuum degree and the suction amount of the suction ejector. To provide.

Accordingly, the present invention provides a suction inlet capable of performing a suction action at a plurality of suction ports, and at the same time, increases the vacuum and suction amount of these suction ports, thereby relieving the economic burden generated when performing a large amount of work, and By carrying out the work, it is possible to absorb the heavier loads and carry out the work, thereby expanding the scope of application of the product.

Description

Vacuum pump with suction unit connected in parallel

The present invention relates to a vacuum pump, and in detail, to be used in a job requiring a plurality of suction ports, a plurality of independent suction ejectors are connected in parallel to one side of the body, and the degree of vacuum of the suction ejector It relates to a vacuum pump (hereinafter referred to as vacuum pump) having suction means connected in parallel to provide a laminated structure to increase.

In general, the vacuum pump forms a predetermined vacuum chamber therein, and discharges the air in the vacuum chamber to the outside so that a negative pressure is generated in the vacuum chamber, so that the suction pad connected to the vacuum chamber can lift or transport the workpiece. It is.

The above-described vacuum pump has a rotor in a predetermined chamber to perform the enlarged work, and the motor driving method of generating negative pressure by compressing air by rotating the rotor, and the motor driving method. In contrast, the ejector method (single nozzle type), in which the nozzle is arranged inside the vacuum chamber and the compressed air is advanced to be used for the miniaturized operation, generates negative pressure between the nozzle and the nozzle due to the flow rate of the compressed air. Mainly used.

Among these vacuum pumps, the motor driving method has various mechanical problems, noises and vibrations generated from the rotating parts of the motor and the rotor, power loss due to high-speed rotation, and lubricants to help smooth rotation of the rotor in the vacuum chamber. Due to problems such as residues, the ejector type has been developed to match the capacity of the motor drive type.

As a result of this development, the applicant may include a vacuum pump (patent application No. 35987 in 1998, patent application No. 35988 in 1998), filed on September 2, 1998, the common characteristics of which are shown in FIG. As shown in FIGS. 1 and 2 and 3, one or more vacuum chambers 2 are formed in the housing 1 and the pump block 5, and the nozzles 3 of the multistage are formed through the vacuum chamber 2. By mounting the negative pressure in each vacuum chamber (2) is to increase the degree of vacuum and suction.

Here, the degree of vacuum represents the strength of the pressure to inhale and the amount of suction represents the amount of air to be sucked, the degree of vacuum corresponds to the load of the workpiece, the amount of suction corresponds to the working time to reach the vacuum state is known to be.

Looking at the individual features of the two previously applied technologies, the vacuum pump shown in Figure 1 provides a laminated structure of the auxiliary housing (4) to have a higher degree of vacuum and a larger amount of vacuum, Figures 2 and By increasing the number of the vacuum pump pump block 5 shown in Figure 3 is to be able to adsorb the workpiece in a larger number of inlet (6).

However, in the above application, the former increases the vacuum degree and the suction amount, but the suction port for generating the suction force has one or two suction ports having different vacuum degrees depending on the number of chambers. In the case where it is necessary to adsorb a plurality of places, a plurality of vacuum pumps are required, resulting in an economic burden due to an increase in equipment.

In addition, the latter has a higher degree of vacuum and suction than the vacuum nozzle of the single nozzle type and performs suction with the same vacuum force at a plurality of suction ports, but there is no means for increasing the degree of vacuum and suction like the former vacuum pump. There is a problem in that a limit is generated for the load of the workpiece.

The present invention has been proposed to solve the above problems, the object of the present invention is to provide a vacuum pump that can increase the vacuum and suction while at the same time performing a suction action in a plurality of suction ports.

1 is a cross-sectional conceptual view of a previously applied vacuum pump.

Figure 2 is a perspective view of a parallel vacuum pump filed previously.

3 is a cross-sectional view of the vacuum pump of FIG.

4 is a perspective view of a vacuum pump according to the present invention.

5 is a schematic cross-sectional view of a vacuum pump according to the present invention.

6 is a schematic view of the auxiliary ejector of the vacuum pump according to the present invention is installed.

<Explanation of symbols for the main parts of the drawings>

10: body 11: inlet

20: suction ejector 21: injection chamber

22: vacuum chamber 23: discharge chamber

24: housing 25, 33: nozzle in multiple stages

26: Finishing panel 28: Inlet

28a: dust collecting chamber 30: auxiliary ejector

31: auxiliary housing

The present invention has the following features to achieve the above object.

The present invention and the body is formed with an injection hole for injecting air to one side; Two or more suction ejectors installed on one side of the body and having a plurality of vacuum chambers and multiple nozzles coupled to respective walls of the vacuum chambers so that the air injected from the inlet is discharged through the respective nozzles; It is installed to interfere between the suction ejector and the body described above, it is characterized by consisting of a plurality of vacuum chambers and a plurality of nozzles coupled to each wall of the vacuum chamber therein to increase the vacuum and suction amount of the suction ejector.

Hereinafter, with reference to the accompanying drawings an embodiment of the present invention to which the feature is applied will be described in detail.

Figure 4 is a perspective view showing the configuration of the present invention, Figure 5 is a cross-sectional view showing the internal configuration of the vacuum pump.

4 and 5, the vacuum pump according to the present invention is composed of a body 10, the suction ejector 20 is installed at least two on one side of the body (10).

The body 10 is formed with an inlet 11 for injecting air into the inner side, the inlet 11 is configured to supply air at the same time a plurality of suction ejector 20 is connected.

The suction ejector 20 is coupled to the body 10 and has a housing 24 in which an injection chamber 21, a plurality of vacuum chambers 22, a discharge chamber 23 are formed therein, and each vacuum chamber of the housing 24. (22) It consists of a multi-stage nozzle 25 coupled to the wall and a closing panel 26 coupled to the opposite side coupled to the body 10 of the housing 24 to close the opening.

The injection chamber 21 of the housing 24 communicates with the injection port 11 of the body 10, and the finishing panel 26 is connected to the vacuum chamber 22 and the exhaust chamber 23 at the suction port 28. ), The exhaust port 29 is formed, respectively.

In addition, a dust collecting chamber 28a for collecting the suction force generated in the plurality of vacuum chambers 22 is formed inside the finishing panel 26 in which the suction port 28 is formed.

The auxiliary ejector 30 is coupled to the suction ejector 20 to increase the vacuum degree and the suction amount.

The auxiliary ejector 30 is installed between the suction ejector 20 and the body 10, as shown in Figure 6, and looks at the configuration and the auxiliary housing 31 formed in the same shape as the housing 24 described above; And a nozzle 33 of multiple stages mounted on the wall of each vacuum chamber 32 of the auxiliary housing 31.

Here, the nozzles 25 and 33 of the suction ejector 20 and the auxiliary ejector 30 are mounted in various arrangements, which take a selective configuration depending on which of the conditions, such as vacuum and suction amount, is focused on. Do it. This is well known facts and will not be described in detail.

In the figure, reference numeral 7 denotes a check valve.

In the above-described configuration, the vacuum pump according to the present invention is capable of performing a large amount of suction work at various suction ports 28 because a plurality of suction ejectors 20 are installed on the body 10.

In particular, the suction ejector 20 described above can maintain the vacuum even if the vacuum chamber 22 is closed and the supply of air is cut off after the vacuum is maintained.

In addition, the several suction ports 28 described above do not affect the suction ejector 20 on the other side even when air is leaked from the one suction ejector 20 so that the vacuum degree and the suction amount are lowered. This is because several suction ejectors 20 together with the valve 7 are connected in parallel (a connection state in which air is simultaneously injected to one side and the air is branched and supplied to each suction ejector).

In addition, since each of the above-described suction ejector 20 can increase the auxiliary ejector 30, the individual vacuum and suction amount can be increased, so that each suction ejector 20 is applied to a heavier weight workpiece. The work can be applied to large-sized work.

Therefore, the above-described vacuum pump according to the present invention is configured to have all the advantages of both of the previously applied vacuum pump.

As described above, the present invention provides a suction port capable of performing suction actions at a plurality of suction ports, and at the same time, increases the vacuum and suction amount of these suction ports, thereby reducing the economic burden generated when performing a large amount of work. By eliminating the problem and performing a large amount of work, it is possible to absorb a heavier load of the workpiece and perform the work, thereby extending the scope of application of the product.

Claims (1)

A body 10 having an injection hole 11 for injecting air to one side thereof; It is installed on one side of the body 10, a plurality of vacuum chamber 22 and a plurality of nozzles 25 are coupled to each wall of the vacuum chamber 22 therein, the air injected from the inlet 11 is each nozzle Two or more suction ejectors 20 for passing through the outlet 25 to the outside; The auxiliary housing 31 is installed so as to interfere between the suction ejector 20 and the body 10, and the plurality of vacuum chambers 32 and the walls of the vacuum chambers 32 are provided in the auxiliary housing 31. A vacuum pump having suction means connected in parallel, characterized in that the nozzle (33) is coupled to selectively include one or more auxiliary ejectors (30) to increase the vacuum and suction amount of the suction ejector (20).