KR200225155Y1 - Vacuum pump - Google Patents

Abstract

The present invention relates to a reciprocating vacuum pump that is a device for transporting various fluids under pressure action, and in particular, by applying a crank mechanism as a means for converting the rotational force of the power source to the reciprocating motion to reduce the manufacturing cost by simplifying the configuration It relates to a reciprocating vacuum pump.

The purpose of the present invention is to reduce the manufacturing cost by simplifying the configuration of the power transmission means of the power source and the vacuum means of the operating chamber, thereby reducing the economic burden of the user, and to facilitate repair in case of failure due to a simple connection. To provide a reciprocating vacuum pump that can prevent the cost loss.

As a specific means of the present invention for achieving the above object;

A power transmission unit comprising a drive unit consisting of an electric motor having a rotating shaft, a power transmission shaft having a shock absorbing spring coupled to the rotating shaft by a connecting piece, which is a crank mechanism, and reciprocating, and connected to the power transmission shaft. It is achieved by having a reciprocating vacuum pump comprising a working chamber consisting of an inlet and an outlet having a compression plate and a check valve for downward movement.

Description

Reciprocating vacuum pump {VACUUM PUMP}

The present invention relates to a reciprocating vacuum pump that is a device for transporting various fluids under pressure action, and in particular, by applying a crank mechanism as a means for converting the rotational force of the power source to the reciprocating motion to reduce the manufacturing cost by simplifying the configuration It relates to a reciprocating vacuum pump.

In general, a pump is a device that converts mechanical energy of a power source such as an electric motor or an engine into liquid energy, which is divided into pumps for pumping, draining, watering, and compressing, depending on the purpose, and gear pump, It is divided into vane pump, piston pump, etc.,

Here, the piston pump is a device for performing the fluid pressure and force while reciprocating in the cylinder, for example, when the piston moves to the top dead center, the operating chamber is vacuumed to perform the suction stroke, the piston moves to the bottom dead center. A vacuum pump (also referred to as a reciprocating pump) that discharges the fluid introduced into the operating chamber can be used. Such a vacuum pump is mainly widely used manually, so that the operating chamber can be vacuumed as described above. Was a hassle to cause the piston to reciprocate by force,

In order to solve this trouble, a pump having a separate power source must be purchased. As such, a pump equipped with a power source is applied as a gear or vane and a compression cylinder as a power transmission means of the power source, so that the cost increases as the manufacturing cost increases. This equipment not only imposes a considerable economic burden on the user, but also suffers from the additional cost and time lost of repairs due to complex internal connections that cannot be easily repaired and reused in case of failure. .

Therefore, the present invention was devised to solve the ultimate problem of the above-described conventional reciprocating vacuum pump,

The purpose of the present invention is to reduce the manufacturing cost by simplifying the configuration of the power transmission means of the power source and the vacuum means of the operating chamber, thereby reducing the economic burden of the user, and to facilitate repair in case of failure due to a simple connection. To provide a reciprocating vacuum pump that can prevent the cost loss.

As a specific means of the present invention for achieving the above object;

A power transmission unit comprising a drive unit consisting of an electric motor having a rotating shaft, a power transmission shaft having a shock absorbing spring coupled to the rotating shaft by a connecting piece, which is a crank mechanism, and reciprocating, and connected to the power transmission shaft. It is achieved by having a reciprocating vacuum pump comprising a working chamber consisting of an inlet and an outlet having a compression plate and a check valve for downward movement.

1 is a partially exploded perspective view of a reciprocating vacuum pump according to the present invention

2 is a cross-sectional view of the combined reciprocating vacuum pump according to the present invention

3 is a state diagram of the reciprocating vacuum pump according to the present invention

Figure 4 is a reciprocating vacuum pump according to the present invention, the operating state of the buffer spring

<Explanation of symbols for major parts of drawing>

1: Reciprocating vacuum pump 2: Electric motor 3: Power transmission unit

4 operating chamber 5 check valve 6 compression plate

7 body frame 21 electric motor 22 rotation axis

31: connecting piece 32: power transmission shaft 41: inlet

42: outlet 43: screw hole 51, 51 ': opening and closing piece

61: shaft connector 62: compression packing 63: packing process

221: key groove 311: rotary shaft coupling hole 312: key locking groove

313: fastening shaft 321: buffer spring 322: rotary coupling

323: Revolving ball 324: Breakaway prevention 411, 412: Pipe connector

611: ball coupling groove 612: bolt insertion hole 621: fastening hole

622: locking projection 631: bolt fastening H: opening groove

h: Bolt fixing B: Ball bearing K: Key

L, L ': Inlet and outlet G: Lubricant inlet

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a partially exploded perspective view of a reciprocating vacuum pump according to the present invention, Figure 2 is a cross-sectional view of the combined reciprocating vacuum pump according to the present invention, Figure 3 is a state diagram of the reciprocating vacuum pump according to the present invention 4 is in the reciprocating vacuum pump according to the present invention, looking at its configuration as a working state diagram of the buffer spring;

As the drive unit 2, an operating motor including an electric motor 21 having a rotating shaft 22, an inlet and an outlet having a compression plate and a check valve, and the connecting piece 31 and a shock absorbing spring (( It is connected by a power transmission shaft 32 having a 321 and is configured to be fixed on the body frame.

Here, the electric motor 21 is a prime mover that generates mechanical power by receiving electric power without being different from the conventional one, and the electric motor 21 applied to the present invention has one side thereof as shown in FIG. 1. The circular rotating shaft 22 is configured to protrude, and the key groove 221 is preferably configured such that a key (KEY) is pushed into the end of the rotating shaft 22.

In addition, the power transmission unit 3 is composed of a connecting piece 31 and a power transmission shaft 32, as shown in Figure 1 to 2,

Here, the connecting piece 31 is a coupling shaft 313 is configured such that the rotating shaft coupling hole 311 having a key engaging groove 312 and the power transmission shaft 32 to be described later, the shaft coupling hole, According to the configuration position of the 311 and the fastening shaft 313, the size of the circle (electric abduction cycloid curve) to be drawn while reciprocating the power transmission shaft 32 to be described later is set,

At this time, it is preferable to configure the opening groove (H) on one side of the rotary shaft coupling hole (311), and through the bolt fixing hole (h) in the vertical direction of the opening groove (H).

In addition, the power transmission shaft 32 is a circular rod-shaped body having a length as shown in Figure 1, one end and the other end of the rotary coupling sphere 322 having a ball bearing (B) and the rotating ball ( 323 is formed integrally, and the separation prevention portion 324 taking the disc shape is installed and fixed to the central upper side, the buffer spring 321 which is a normal compression spring to the lower portion of the separation prevention portion 324 configured as described above This will be installed.

On the other hand, the operation chamber 4 takes the shape of a container body with an upper surface open, the one side and the other side wall is composed of inlets 41 and outlets 42 of different diameters, respectively, the upper portion is opened Compressed plate 6 is bolted to the surface is configured,

At this time, the inlet 41 is a circular through hole consisting of one side wall of the operating chamber 4, as shown in Figures 1 to 2 is configured by bolted coupling of the inlet angle 411 having an inclination angle. At the time of bolt coupling of the same pipe connector 411, the check valve 5 as shown in Figure 1 is built in the middle,

Here, the check valve 5 applied to the present invention is a plate-like body having a circular opening and closing piece 51, the opening and closing piece 51 is configured to be rotated by a predetermined interval by the external pressure.

In addition, the outlet 42 is not different from the configuration of the inlet 41 described above, but the diameter of the circular through hole consisting of the other side wall of the operating chamber 4 is configured to be at least smaller than the diameter of the inlet (41), Pipe connector 42 is also bolted in a vertical form.

In addition, the compression plate 6 is composed of a shaft connector 61 having a ball coupling groove 611, compression packing 62 and the packing fixture 63 as shown in Figure 1,

The shaft connector (61) takes a disc shape in which a central portion of the upper surface protrudes, and a ball engaging groove (611) is formed as a protruding center portion, and a plurality of bolts are formed as outer peripheries of the ball engaging groove (611). Insertion hole 612 is formed at a predetermined interval, the ball coupling groove 611 is a sliding action in the state that the rotation ball 323 of the above-described power transmission shaft 32 is inserted into the interior does not escape. It is preferable to configure as a form as shown in FIG.

The compression packing 62 takes a circular plate-like body as shown in FIG. 1, but has a plurality of circular fastening holes 621 in a position corresponding to the bolt insertion hole 612 of the shaft connector 61 described above. This configuration, and the outer periphery is formed with a locking projection 622, it is preferable to apply a rubber material sharing a certain elasticity and rigidity as the material of the compression packing 62.

The packing fixture 63 is a means for accommodating the locking projections 622 of the compression packing 62 described above and fixed to the upper surface of the operation chamber 4 and maintaining airtightness, FIGS. 1 to 2. As shown in FIG. 3, the ring-shaped hole having the same diameter as the outer circumference of the compression packing 62 is formed, and bolt fastening holes 631 are formed on all sides of the outer wall. A screw hole 43 is formed at a position corresponding to the bolt fastening hole 631, and the outer surface of the upper surface of the operating chamber 4 is formed by bolting through each bolt fastening hole 631 and the screw hole 43. The end of the compression packing 62 is fixed.

Finally, as shown in FIG. 1, the main body frame 7 is composed of a square plate and a section steel to support and fix the electric motor 21 and the operation chamber 4 as described above. It is desirable to configure the handle, so that it is easy to move the vacuum pump according to the present proposal.

Thus, looking at the coupling state of the reciprocating vacuum pump 1 according to the present invention having the configuration as described above and the interaction state between each component according to it;

As shown in FIG. 2, first, bolts are connected to the pipes 41 and 42 which receive check valves 5 and 5 'as one side and the other wall inlet and outlet holes 41 and 42 of the operation chamber 4, respectively. While fixing the compression plate 6 to the upper surface of the operating chamber (4) in the combined state,

Bolting the central portion of the compression packing 62 through the bolt insertion hole 612 to the bottom of the shaft connector 61, the outer circumference of the compression packing 62 is bolted by the packing fixture 63 described above In this way, the operating chamber (4) in which the compression plate (6) is coupled as described above is fixedly coupled to the other side of the main frame (7) in which the electric motor 21 is coupled to one side by a separate fixing means, the electric motor After the rotary shaft 22 of the 21 and the ball coupling groove 611 of the compression plate 6 are placed in a straight line,

The connecting piece 31 is coupled to the rotary shaft 22 by the key K through the rotary shaft coupling hole 311, and the power transmission shaft is used as the ball coupling groove 611 of the compression plate 6. After fitting the rotating ball 323 of (32), the assembly is completed by fixing the fastening shaft 313 of the connecting piece 31 to the rotary coupling hole 322 of the power transmission shaft (32).

At this time, when the compression packing 62 is coupled to the shaft connector 61, the reinforcement plate 64 as shown in FIG. It is desirable to prevent the compression packing 62 from being damaged by distributing the stress acting as a function, as well as to maintain the airtightness in the operating chamber 4.

In addition, the check valves 5 and 5 'coupled to the inlet and outlet ports 41 and 42 are positioned to open and close the opening and closing pieces 51 and 51' to one side as shown in FIG. 51 and 51 'are intended to be rotated in a range where the compression plate 6 is not in friction with the aforementioned compression plate 6.

In addition, by fixing the bolt with a bolt fixing hole (h) consisting of the opening groove (H) of the connecting piece 31, the rotary shaft coupling hole (311) and the rotating shaft 22, the primary fixing is made by the key (K) coupling It is preferable to make the binding force of.

On the other hand, when the rotational ball 323 is fitted into the ball coupling groove 611 as described above, the above-described buffer spring 321 is inserted, the buffer spring 321 is inserted as described above is the separation prevention hole 324 One side and the other side is supported by the outer circumference of the ball coupling groove 611, the one side wall in communication with the ball coupling groove 611 friction between the inner surface of the ball coupling groove 611 and the rotating ball 323 It is preferable to configure the injection hole (G) to inject the lubricant to minimize the.

Therefore, the reciprocating vacuum pump 1 according to the present invention, the assembly is completed as described above, the inlet and outlet pipes (L, L ') of the inlet 41 and the outlet port 42, 411, 421 of the pipe connection To be used for pumping, draining, watering, and compressing various fluids,

First, when the rotary shaft 22 is rotated by supplying external power to the electric motor 21,

The connecting piece 31 coupled with the key K is rotated by the rotational force of the rotating shaft 22, and the power transmission shaft 32 coupled to the connecting shaft 31 with the connecting piece 31 performs a reciprocating motion.

This is because the connecting piece 31, which is the connection medium between the power transmission shaft 32 and the rotating shaft 22, functions as a crank mechanism, so that the rotational movement of the rotating shaft 22 is converted into a reciprocating motion.

As the power transmission shaft 32 reciprocates as described above, the compression plate 6 and the shaft connector 61 connected to the power transmission shaft 32 also perform the up and down reciprocation, thereby changing the pressure inside the operating chamber 4. It causes

3, the pressure inside the operating chamber 4 drops rapidly as the compression packing 62 expands when the power transmission shaft 32 is positioned at the top dead center during the reciprocating motion of the power transmission shaft 32. When the fluid flows in and descends to the bottom dead center, the flow fluid is compressed by the compression packing 62 to be discharged to the discharge port 42. The continuous reciprocation of the power transmission shaft 32 continuously causes The discharge of the fluid is to be made.

At this time, the opening and closing pieces (51, 52 ') of the check valve (5, 5'), which is installed in the inlet, outlet (41, 42) is installed so as to have an inclination angle, the power transmission shaft 32 moves to the top dead center. In this case, the inlet (41) side opening and closing piece 51 is moved to the open position by the pressure change (vacuum state) of the operating chamber (4), and the opening and closing piece (51 ') of the outlet (42) side is placed in the closed position. 41 only the inflow of fluid through

When the power transmission shaft 32 moves to the bottom dead center, as the pressure in the operating chamber 4 rises, the opening and closing piece 51 on the inlet 41 side moves to the closed position and the opening and closing piece 51 on the outlet 42 side. ') Is moved to the open position so that only the discharge of the fluid through the outlet 42 is made.

Here, the shock absorbing spring 321 installed as the power transmission shaft 32 is a power transmission shaft (by incomplete positioning between impurities or connecting elements introduced into the operating chamber 4 during the reciprocating movement of the power transmission shaft 32 ( 32) when the external force acts to buffer it by its own elastic force to perform the function of preventing the power transmission shaft 32 from being deformed or broken.

Therefore, the reciprocating vacuum pump 1 according to the present invention converts the rotational force of the electric motor 21 into reciprocating motion by applying a crank mechanism, and the pressure in the operating chamber 4 by the pressure plate 6 of a simple configuration. Induced by the change, the inflow and discharge of the fluid is made, it can be easily installed and used at home or factory.

As described above, the reciprocating vacuum pump according to the present invention converts the rotational force of the electric motor as a power source into reciprocating motion by the crank mechanism, and simplifies the connection structure between the components by configuring the compression plate as the vacuum means of the operating chamber. It is possible to reduce the manufacturing cost of the product and supply it to the user at a low price. By implementing such a simple connection structure, the failure is minimized and it is easy to repair in case of failure. This would be a very useful design.

Claims (1)

Power transmission having a drive unit 2 composed of an electric motor 21 having a rotating shaft 22, and a shock absorbing spring 321 coupled to the rotating shaft 22 by a connecting piece 31 serving as a crank mechanism to reciprocate. Inlet and outlet having a power transmission unit 3 consisting of a shaft 32, a compression plate 6 and a check valve (5, 5 ') connected to the power transmission shaft (3) for up and down movement Reciprocating vacuum pump, characterized in that consisting of the operating chamber (4) consisting of (41, 42).