KR100528813B1 - Screw pump having electric motor as one body - Google Patents

Abstract

The present invention relates to a motor-integrated screw pump;

The purpose of the technical implementation is to form the rotor of the motor as a power generating means in a horizontally penetrating piping structure, and to combine and form an impeller part on the side of the rotor forming the piping structure in a selective exchange installation structure, In order to eliminate the overload problem of the screw according to the material conveying pressure, and by eliminating the overload of the screw, to increase the torque of the rotor (torque), to provide a motor-integrated screw pump that can transfer various materials at high pressure It is;

Another object is to simplify the disassembly and assembly of the product according to the configuration of the rotor of the simple pipe structure and the impeller part installed in the selective exchange structure on one side of the rotor, so as to simplify the disassembly and assembling of the various parts in the event of failure due to the use of the product It is to provide a motor-integrated screw pump to facilitate the repair and replacement work.

Therefore, the specific means of the present invention for achieving the above object;

In an electric motor in which a rotor is placed in the center of the body consisting of field winding, armature winding and commutator;

The rotor is a pipe structure in which a conveying guide hole is formed, and includes a pair of assembly holes forming a male screw structure at one side and the other end of the outer diameter thereof;

The one side and the other side of the motor body having the rotor installed, the bearing, the sealing gasket, and the pipe flange of the attachment and detachment assembly structure in the bracket;

Screwing the lip pella to one side end assembly of the rotor to which the pipe flange is coupled again;

The above is achieved by connecting the discharge pipe to the other end surface of the rotor coupled pipe flange.

Description

SCREW PUMP HAVING ELECTRIC MOTOR AS ONE BODY}

The present invention relates to a motor-integrated screw pump, and more particularly, to a motor-integrated screw pump formed of a horizontally penetrating pipe structure of a rotor, which is a power generating means of the motor, to efficiently transport various materials. will be.

In general, a pump is a general term for a machine for transporting a fluid through a pipe by using a pressure action, and such a pump is a place where forced transportation of fluid such as rural, mining, civil engineering works, factories, and homes is required. It has a very important usage relationship in modern society, which can only be used as a necessary condition anytime and anywhere.

Accordingly, such pumps are classified and manufactured into numerous types of pumps according to their use, and are used in various industrial fields. In such various types of pumps, general electric motors, which are widely used in the related art, are conventionally used. The basic configuration and principle of the pump is as follows.

That is, the conventional electric pump pump so that the motor case consisting of the suction tube and discharge tube, impeller, vortex chamber, etc. are located on one side of the motor generating power by the rotor drive, the rotor and the motor case of the motor The impeller shaft was connected to each other by power connection means such as gears or pulleys;

In such a case that the components are engaged with each other, when the rotor of the electric motor is rotated by external electrical energy, the rotational force of the rotor is transmitted to the impeller by a power connection relationship by a gear or a pulley. The impeller was rotated at high speed in the vortex chamber and absorbed the fluid material from the suction pipe to be discharged and transferred through the discharge pipe.

However, the conventional electric pump pump as described above, according to the characteristics of the article consisting of a motor for generating power, and a motor case to receive power from the motor, the hassle of transportation and installation, as well as the economical price of the product In addition, in the process of transmitting the power of the electric motor to the motor case, the connection portion generates an unstable slip phenomenon with unnecessary power loss, thereby improving the performance of the product. It was to have a problem of considerable efficiency fall.

On the other hand, in recent years, by solving the problems of the conventional electric pump pump as described above, by forming the rotor of the general motor as a material conveying means screwed, the motor-integrated screw pump to transfer the material using only the motor itself configuration Was invented.

However, such a motor-integrated screw pump has been in the form of a completely fixed structure of a screw having a predetermined length over the inner surface of the rotor forming a through structure, such a conventional motor-integrated screw pump has a set length Due to the rotational interference of the screw installed in the furnace, it is not suitable for the conveying action of the material having a certain size, and it causes a problem in use. Also, due to the difficult installation structure of the screw, the failure of the motor pump In the event of damage, they had significant structural problems that complicate and complicate a series of maintenance relationships, such as repairing or replacing parts.

Therefore, as an article that drastically improved the use and structural problems, the development of another motor-integrated screw pump to have an efficient use relationship remains an urgent problem.

Accordingly, the present invention has been made to solve the general problems of the conventional motor-integrated screw pump;

An object of the present invention, the rotor of the electric power generating means is formed in a horizontally penetrating pipe structure, coupled to the impeller portion of the structure of the different structure according to the function to the rotor side constituting the piping structure in a selective exchange installation structure It is possible to form, to eliminate the problem of the overload of the screw according to the conventional material conveying pressure, by eliminating the overload of the screw, such as to increase the torque (torque) of the rotor, it is possible to transfer various materials at high pressure It is to provide an integrated screw pump.

In addition, another object of the present invention is to simplify the disassembly and assembly of the product according to the configuration of the rotor of the simple piping structure, and the impeller portion installed in the selective exchange structure on one side of the rotor when the failure occurs due to the use of the product It is to provide an electric motor-integrated screw pump that can conveniently perform repair and replacement of various parts.

On the other hand, in another object of the present invention, depending on the configuration of the impeller to be selectively exchanged, installed, from a simple material (water, etc.) transfer action, special use (high viscosity liquid to fine powder, or solid material, etc.) It is to provide a motor-integrated screw pump of a general-purpose structure to have a wide range of uses, ranging from the material transfer action.

Thus, the specific means of the present invention for achieving the above object;

In an electric motor in which a rotor is placed in the center of the body consisting of field winding, armature winding and commutator;

The rotor is a pipe structure in which a conveying guide hole is formed, and includes a pair of assembly holes forming a male screw structure at one side and the other end of the outer diameter thereof;

The one side and the other side of the motor body having the rotor installed, the bearing, the sealing gasket, and the pipe flange of the attachment and detachment assembly structure in the bracket;

Screwing the lip pella to one side end assembly of the rotor to which the pipe flange is coupled again;

The above is achieved by connecting the discharge pipe to the other end surface of the rotor coupled pipe flange.

Hereinafter, a preferred embodiment of the motor-integrated screw pump according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a partial exploded cross-sectional view of the motor-integrated screw pump according to the present invention, Figure 2 is a state diagram of the coupling of the motor-integrated screw pump according to the present invention, Figure 3 is an enlarged view of the main part of the rotor and the impeller applied to the present invention , Look at its configuration;

 A main body 1 consisting of a field winding 11, an armature winding 12, a commutator 13, a rotor 2 having a feed guide hole 21, a pair of pipe flanges 3, And the impeller part 4 and the discharge pipe 5 are comprised.

Thus, firstly, the main body 1 has an outer structure that forms an electric motor, that is, a body structure of an article, such a main body 1 includes the field winding 11, the armature winding 12, The commutator 13 and the like are built in, and the base 14 is formed of an ordinary housing structure in which the pedestal 14 is integrally formed.

At this time, the left and right end portions of the main body 1 is preferably provided with a pair of upper and lower flange fastening bolts 15 protruding a predetermined length as shown in FIG.

In addition, the field winding 11 is a winding that is installed on the pole of the general rotor, which is installed on the stator side in the DC motor, the rotor side in the synchronous machine, and is a component structure for exciting or freezing by DC. 11) is preferably applied as an ordinary essential component for forming and driving an electric motor.

In addition, the armature winding 12 refers to a common winding (for example, a three-phase winding in the three-phase alternator means the armature winding) forming a rotating electric machine, such an armature winding 12 also forms an electric motor It does not depart from the scope of ordinary essential components.

In addition, the commutator 13 is an electric motor, which is combined with a brush, and is a conventional device for converting a power supply voltage to a rotational speed and generating a torque required for rotation. It also does not depart from the scope of the usual essential components to form an electric motor.

On the other hand, the rotor (2) is a key configuration of the present invention, in the application of such a rotor (2) to the present invention, as shown in Figures 1 to 3 of the rotor (2) By forming a conveying guide hole 21 horizontally penetrated to the inner central portion, to form a single pipe structure by the penetrated conveying guide hole 21, and then to one side and the other end surface of the outer diameter of the rotor It is preferable to configure the assembly holes 22 and 23 of the male screw structure as shown in Figs.

At this time, the other end end surface assembly 23 of the rotor has a screw fastening structure as shown in Figure 3, the closing member 24 is to be detached, attached.

In addition, the pipe flange 3 is a connecting medium for connecting the impeller portion 4 and the discharge pipe 5 to the main body 1, which will be described later, such a pipe flange 3 is shown in FIG. As shown in FIG. 1, the fastening piece 31 is formed at one end of the central portion, and the bearing 32 and the sealing gasket are formed in a sequential coupling relationship as shown in FIG. 1. (33) and the brackets 34 are preferred to be constructed.

In addition, the impeller portion 4 is a material conveying means for transferring the material by the rotational action, such an impeller portion 4 forms a fastening groove 41 of the female screw structure on one side thereof, and therein It is preferable to comprise the screw 42 which has a predetermined length in the side surface.

At this time, the screw 42 is a helical rotating body of a predetermined length consisting of a plurality of transfer blades 421, this screw 42, such as iron, non-ferrous, plastics, etc., depending on the purpose, the material is optional It is to be produced by the conversion, and the plurality of transfer blades 421 angle can also be selectively formed.

In addition, the discharge tube 5 is a kind of discharge means for discharging the conveying material to the outside, or to be transferred to another place, such that the discharge tube 5 has a circular shape having a predetermined length forming a through structure. It is preferable to form inertia

 Thus, in the mutual coupling of a series of configurations as described above;

 First, as shown in FIGS. 1 to 2, a rotor 2 having a transfer guide hole 21 formed in the center of a main body 1 composed of a field winding 11, an armature winding 12, and a commutator 13 is shown. Likewise, the bearing B is installed in a rotatable structure, and then the fastening piece 31 is inserted into the flange fastening bolt 15 on one side and the other side of the main body 1 on which the rotor 2 is built up, and then the nut. As a tightening structure, the pipe flange 3 is fastened and fastened.

Further, in this state, the impeller portion 4 is brought into close contact with the pipe flange 3 fastened to one side of the main body 1, as shown in FIG. ) And the fastening groove 41 of the impeller portion 4 by screwing structure;

Again, by allowing the discharge pipe 5 to be closely connected to the pipe flange 3 fastened to the other side of the main body 1, the motor-integrated screw pump according to the present invention will be realized.

At this time, the impeller portion 4, the screw 42 is constructed as an auxiliary accessory, a valve (V) as shown in Figure 6 is mounted, such a valve (V) is a screw 42 The valve (V) is opened by friction with the conveying material when rotating in the helical direction, and closed when rotating in the opposite direction, so that the pressure at the other inlet side is prevented from entering the material backward until the next, and the pressure on either side at the stop If you get caught, you will have the ability to cut off regardless of the direction,

Therefore, the motor-integrated screw pump according to the present invention having the above-described coupling configuration, when the electric energy is supplied from the outside for driving, between the stator (field winding, armature winding, commutator) and the rotor (2) The magnetic pole is generated by the magnetic field generated by the magnetic pole, and the magnetic pole generated in this way is alternated with the current to drive (rotate) the rotor 2.

Accordingly, the rotor 2 driven as described above generates the suction force by the screw 42 by rotating the impeller part 4 by the connection relationship of the assembly tool 22, and by this suction action, the conveyance is carried out. Various materials are required to be smoothly transferred through the transfer guide hole 21.

At this time, the motor-integrated screw pump as described above is capable of conveying the material in one direction or in both directions according to the purpose and purpose, such that the conversion of the conveying direction is driving control of the motor in the forward and reverse directions, or By selectively replacing the installation position of the impeller portion 4 to one side and the other side of the main body 1, it is possible, and this also does not depart from the scope of the present invention.

On the other hand, Figure 4 is another embodiment of the motor-integrated screw pump according to the present invention, the motor-integrated screw pump as yet another embodiment is a rotor 2 of the configuration of one embodiment as shown in FIG. Screw (S) having a predetermined length in the conveying guide hole 21 of the body is integrally formed, and formed as a conveying guide shaft (2 '), such as a conventional screw pump, as described above the rotor ( In the case where 2) is formed as a normal feed guide shaft 2 ', the pressure pump 6 as shown in FIG. 4 is connected to one end surface of the rotor 2'. desirable.

At this time, the pressure pump 6 is configured as shown in Figs. 4 to 5, the drive gear 62 and the driven gear 63 in the timing gear box 61, and interlocked with each other, and on one side thereof A female screw structure for forming a conventional configuration to have a discharge port 64, one side end of the spherical spherical gear 62 is engaged with the assembly opening 22 of the rotor (2 '). It is preferable to form an assembling hole P of the drawing (not shown in the drawing, B is a bearing).

Therefore, the motor-integrated screw pump as another embodiment having the configuration as described above is to enable high-pressure transfer of various materials in accordance with the pressure pump connection.

On the other hand, by way of explanation, the motor applied to the present invention is a breathless motor (BLDC: the rotor is a permanent magnet, the stator uses a direct current with a coil-type motor, a commutator brushless motor) or other various motors, etc. Optionally available, this also does not depart from the scope of the invention.

Above, the motor-integrated screw pump according to the present invention forms the rotor of the motor as a power generating means in a horizontally penetrating piping structure, coupled to the impeller portion on the side of the rotor forming the piping structure in a selective exchange installation structure Thereby eliminating the overload of the screw, which allows the torque of the rotor to be raised, so that various materials can be transported at high pressure;

In addition, according to the configuration of the impeller part having an optional exchange structure, the disassembly and assembly relationship of the product is simplified so that various parts can be easily repaired and replaced in the event of failure due to the use of the product. It provides a very remarkable expectation.

1 is a partial exploded cross-sectional view of a motor-integrated screw pump according to the present invention

2 is a coupled state of the motor-integrated screw pump according to the present invention

3 is an enlarged view of main parts of the rotor and the impeller applied to the present invention;

Figure 4 is another embodiment of the motor-integrated screw pump according to the present invention

5 is a cross-sectional view taken along the line AA ′ of FIG. 4.

<Description of Symbols for Major Parts of Drawings>

    1 Body 2 Rotor 3 Pipe Flange

    4 impeller part 5 discharge tube 6 pressure pump

    21: transfer guide 22,23: assembly 24: finishing member

    31 fastening piece 32 bearing 33 sealing gasket

    34: bracket 41: fastening groove 42: screw

    61: timing gear box 62: drive gear 63: driven gear

Claims (3)

In the electric motor in which the rotor 2 was built up in the center of the main body 1 which consists of the field winding 11, the armature winding 12, and the commutator 13; The rotor (2) is a pipe structure in which the transfer guide hole (21) is formed, and has a pair of assembling tools (22) (23) having a male screw structure at one side and the other end of its outer diameter; In one side and the other side of the motor main body 1 in which the rotor 2 is built up, a piping flange of a fitting and detaching structure in which a bearing 32, a sealing gasket 33, and a bracket 34 are installed is installed. (3) is combined; Again, the impeller portion 4 is screwed into one side end assembly 22 of the rotor 2 to which the pipe flange 3 is coupled; The motor-driven screw pump, characterized in that the discharge pipe (5) is made by connecting to the other end surface of the rotor (2) coupled to the pipe flange (3). The method of claim 1, wherein the impeller (4) is formed of a removable component structure formed by fastening grooves 41 of the female screw structure, the screw 42 of a predetermined length on the inner surface of the impeller portion 4 is formed. Electric motor integrated screw pump. The method of claim 1, wherein the feed guide hole 21 of the rotor (2) is formed of a feed guide shaft (2 ') in which the screw (S) is built, one side end of the feed guide shaft (2') ( 22) the motor-integrated screw pump, characterized in that to be used by connecting to the pressure pump (6) consisting of a timing gear box (61).