KR100782997B1 - Vibration rod of concrete placing vibrator and its manufacturing method - Google Patents

Abstract

A vibrating rod of a vibrator for concrete placement and a manufacturing method thereof are provided to prevent the malfunction of a BLDC motor by installing a controller adjacent to the BLDC motor and molding with epoxy to emit heat of the controller to the outside quickly. A vibrating rod of a vibrator for placing concrete comprises a pipe-shaped body(32) divided into an upper housing(32a) and a lower housing(32b), a tap(34) coupled to the upper housing to protect a power supply cable(33a) and supported by an end projection, a shoe(35) coupled to the lower housing, a closing plate(37) installed to the lower part of the upper housing to close up an opening, a controller(39) located on the closing plate to control the operation of a BLDC motor(38), a tube(40) located on one side of the controller to penetrate a power supply cable(33b) supplying power to a stator(38a) of the BLDC motor and unified with the controller by epoxy, epoxy(41) filled in the upper housing to make the soldered part of the power supply cables exposed to the outside and fixed to the controller molded in the upper housing, a bearing housing(43) supporting an upper bearing(42) and having a cutting part to penetrate the power supply cable, an integral shaft(44) fitted to the upper bearing and fixed with a rotator(38b) of the BLDC motor, and a vibrator(47) fixed between an intermediate bearing(45) and a lower bearing(46) fixed to the middle and the lower part of the shaft to set up a vibration.

Description

Vibration rod of concrete placing vibrator and its manufacturing method {omitted}

1 is a perspective view showing an embodiment of a conventional vibrator

Figure 2 is a longitudinal sectional view showing a conventional perforated vibration bar

Figure 3 is a longitudinal cross-sectional view showing another embodiment of a conventional vibration rod using a BLDC motor

Figure 4 is a longitudinal cross-sectional view showing a vibration rod of the present invention

5 is a cross-sectional view taken along the line A-A of FIG.

6 is a cross-sectional view taken along the line B-B of FIG.

7 is a cross-sectional view taken along the line C-C of FIG.

8 is a flowchart for explaining a manufacturing method of the present invention.

Explanation of symbols for the main parts of the drawings

32: body 32a: upper housing

32b: Lower housing 36: Fixing nut

37: closed plate 38: BLDC motor

39: controller 40: tube

41: epoxy 43: bearing housing

The present invention relates to a vibrator (vibrator) used to remove bubbles contained in mortar during concrete pouring in the process of constructing a building, and more specifically, by embedding the controller of the BLDC motor in the body and then molding with epoxy or the like. The present invention relates to a vibrating rod of a concrete placing vibrator and a method of manufacturing the same so as to prevent a malfunction of a BLDC motor.

In general, the process of constructing a building using concrete mortar at the construction site will be briefly described as follows.

First, in order to maintain sufficient strength according to the concrete mortar pouring, the various reinforcing rods are appropriately placed on the site of the concrete mortar, tied with thin wires, and then the formwork is wrapped around the formwork.

When the formwork is completed, the appropriate proportion of cement, sand, and gravel are mixed with water, and the concrete mortar mixed evenly is carried by the ready-mixed concrete vehicle and concrete mortar is poured into the formwork.

As described above, after the concrete mortar is poured between the formwork and the formwork is removed for a certain period, the formwork is removed to complete the skeleton of the building.

However, before placing the concrete mortar carried by the ready-mixed concrete vehicle between the molds when the above-mentioned concrete mortar is poured, numerous bubbles are present in the concrete mortar. As it remains, the strength of concrete decreases significantly, which poses a risk of collapse.

Therefore, when pouring concrete mortar, bubbles must be removed. The equipment used is a vibrator.

The vibrator serves to remove the air bubbles present in the mortar by applying a rapid vibration to the mortar when the concrete mortar is poured.

1 is a perspective view showing an embodiment of a conventional vibrator, a vibration rod (1) for applying vibration to the mortar when the concrete mortar is placed, and the vibration rod by the power generated by connecting the hose (2) to the vibration rod ( It is composed of a power unit (3) for rotating the rotary shaft (rotary shaft) built in 1) to generate vibration.

Figure 2 is a longitudinal cross-sectional view showing a conventional perforated vibration rod, the housing 5 made of a cylindrical unitary body is connected to the end of the hose (2) in which the flexible cable (4) is embedded, the interior of the housing There is a rotary shaft (6) is installed to be supported by a bearing (7), one end is fixed to the flexible cable (4) and the other end of the rotary shaft (6) is a head cap screwed to the end of the housing (5) It is located in the form of a free end inside (8).

Therefore, when placing the vibrating rod (1) in the mortar and then operating the power unit (3) when the concrete mortar is poured, the flexible cable (4) embedded in the hose (2) is rotated by the generated power The rotary shaft 6 fixed to the end of the flexible cable 4 is rotated.

At this time, one end of the rotary shaft 6 is supported by the bearing 7, and the end thereof is located inside the head cap 8 in a free end state, so that the rotary shaft is located inside the head cap 8. The tip of (6) hits the inside of the head cap (8) to cause vibration, thereby removing the bubbles contained in the mortar by the vibration generated.

However, such a conventional vibrator vibration rod has the following problems.

First, the free end is hit by the inner peripheral surface of the head cap in accordance with the rotation of the rotary shaft fixed to the flexible cable to cause vibration, so the amount of vibration generated is less, the removal efficiency of bubbles contained in the mortar is reduced.

Second, since the flexible cable rotates inside the hose according to the driving of the power unit, the life of the hose is shortened due to abrasion due to friction.

Third, the power unit and the vibrating rod are connected by a hose, so when one of the workers moves while holding the vibrating rod every time the casting position is changed during the concrete mortar placing work, the other worker must move the moving part of the weight body. It was accompanied by inconvenience in use.

Fourth, if the hose is formed long in order to solve the above problems, there is a limit in transferring the power generated from the power unit to the vibration rod due to the twisting of the flexible cable is not feasible.

In view of the above problems, a new type of vibrator vibration bar has been developed and registered as Utility Model No. 410704.

Figure 3 is a longitudinal cross-sectional view showing another embodiment of a conventional vibration rod using a BLDC motor, the housing is divided into the first, second, third housing (5a) (5b) (5c) are screwed together and the first housing One end of the 5a is screwed with a head cap 8 provided with a bearing 15a supporting one end of the eccentric shaft 14, and the inside of the first housing vibrates while rotating in accordance with the operation of the BLDC motor 16. The eccentric shaft 14 which causes this is installed so that it may be supported by the bearing 15b.

In addition, a BLDC motor 16 including a stator 16a and a rotor 16b is installed inside the second housing 5b that is screwed to the first housing 5a, so that the rotor 16b has a bearing 18a. It is fixed to a shaft 16c supported by 18b, which is configured to be divided with the eccentric shaft 14 and interconnected by connecting means.

In addition, a tab 21 is screwed to one side of the third housing 5c, and a hose 22 having a cable 19 embedded therein is connected to the tab 21.

Therefore, when the vibration rod 1 is put into the mortar for the concrete mortar pouring work, power is supplied to the BLDC motor 16 through the cables 19 and 19a, so that it is fixed to the shaft 16c. The electron 16b rotates at high speed.

When the rotor 16b rotates at a high speed as described above, the power of the rotation of the rotor 16b is transmitted to the eccentric shaft 14 supported by the bearings 15a and 15b through the shaft 16c and the eccentric shaft. Since the 14 is rotated at a high speed, vibration is generated, and thus bubbles contained in the mortar are removed when the concrete mortar is poured.

However, the vibrating rod of the conventional vibrator has the advantage that the high-speed rotating BLDC motor is embedded in the housing without a separate casing to quickly discharge the high heat generated during operation to the outside, but various problems occurred as follows.

First, the controller that controls the BLDC motor embedded in the housing is located far from the vibrating rod, so the resistance value of the cable increases when the BLDC motor is driven, and the semiconductor chip sensitive to the resistance value of the controller malfunctions. There was a fatal defect that caused the BLDC motor to stop running.

Second, since the length of the cable connecting the BLDC motor and the controller is long (about 7 to 8 m), noise is generated when the BLDC motor is driven, which causes the BLDC motor to malfunction.

Third, because the rotor is fixed and the eccentric shaft that generates vibration are separated from each other by the connecting means connected to the power transmission loss due to machining and assembly errors, vibration is weak.

Fourth, when machining and assembly errors of the shaft and the eccentric shaft occurs, the shaft is not connected to the eccentric shaft during the assembly process of the first and second housings.

Fifth, because the cable connected to the stator of the BLDC motor is left inside the third housing, it showed a fatal defect that the connection part of the cable connected to the stator is disconnected by the vibration generated by the rotation of the eccentric shaft for a long time. .

The present invention has been made to solve such a conventional problem, by installing the controller to control the BLDC motor to the inside of the body in close proximity to the BLDC motor and at the same time epoxy to discharge the heat of the controller to the outside quickly It aims to prevent the malfunction of BLDC motor by molding.

Another object of the present invention is to prevent the power transmission loss caused by the operation of the BLDC motor by directly fixing the vibrator to the rotating shaft in accordance with the drive of the BLDC motor.

According to an aspect of the present invention for achieving the above object, the BLDC motor and the vibrator is rotatably built in the power supply cable is connected to the inside of the body, the upper portion of the body by connecting the tab and the lower shoe by the power source In the vibrating rod of the vibrator, which vibrator rotates as the BLDC motor is driven to generate vibration, the body is divided into a pipe-shaped upper housing and a lower housing and screwed together, and a closing plate for closing the lower portion of the upper housing. And a controller embedded in the upper housing to control the operation of the BLDC motor, a tube positioned at one side of the controller embedded in the upper housing to allow a power supply cable to pass therethrough, and a controller embedded in the upper housing. Epoxy that wraps and integrates the tube, and is fixed to the upper portion of the lower housing to the upper bearing The bearing housing is formed with a notch on one side to allow the power supply cable to pass through, and is supported by an intermediate bearing and a lower bearing in the middle and the lower part of the lower housing, and the upper part is integral with the rotor of the BLDC motor fixed to the upper bearing. An oscillating rod of the concrete placing vibrator is provided, comprising a shaft and a vibrator fixed to the shaft to generate vibration.

According to another aspect of the invention, the step of forming the upper housing, the lower housing and the tab, shoe, fixed nut to screw the vibration rods to each other, and the controller and the tube in the same time as closing the bottom with a closing plate Next, molding the remaining parts except the soldering part of the controller with epoxy to complete the upper housing, assembling the stator of the BLDC motor to which one end of the power supply cable is fixed at the upper part, the intermediate bearing and the lower bearing at the lower part, and Assembling the shaft coupled to the rotor and the oscillator and at the same time to support the shaft with the upper bearing fixed to the bearing housing from the top to complete the upper housing, and the power supply cable connected to one end of the stator of the bearing housing Allow the cutout and tube to pass through, then screw the upper and lower housings Lip, soldering the other end of the power supply cable to the terminal of the controller exposed to the outside of the epoxy, and fixing the shoe to the lower housing and the tab to the upper housing, respectively. Provided is a method of manufacturing a vibrating rod of a concrete pouring vibrator.

Hereinafter, the present invention will be described in more detail with reference to FIGS. 4 to 8 as an embodiment.

4 is a longitudinal cross-sectional view showing a vibration rod of the present invention, Figure 5 is a cross-sectional view taken along the line A-A of Figure 4, Figure 6 is a cross-sectional view taken along the line B-B of Figure 4, the present invention is a body 32 made of a pipe shape The upper housing (32a) and the lower housing (32b) is divided into two are configured to be screwed together and the upper housing (32a) of the tab 34 for protecting the power supply cable (33a) is connected and fixed The shoe 35 is screwed to the lower housing 32b.

The tab 34 connected to the upper housing 32a is fixed to the inside of the upper housing so that the tab 34 is supported by the step 34a, and then a separate fixing nut 36 is screwed to the upper housing 32a from the outside. It is configured to fix the tab 34 to the upper housing 32a.

This is because the tab 34 is not rotated in the process of fixing the tab 34 supporting the power supply cable 33a to the upper housing 32a, and only the fixing nut 36 is rotated so that the power supply cable ( This is to ensure that 33a) is not twisted.

And a closing plate 37 for closing the opening is provided in the lower portion of the upper housing (32a) and the controller 39 for controlling the drive of the BLDC motor 38 is located above the closing plate of the controller On one side, a tube 40 through which a power supply cable 33b for supplying power to the stator 38a of the BLDC motor 38 passes is positioned so that the controller 39 and the tube 40 are connected to the epoxy 41. The epoxy 41 is formed integrally by the controller 39. The epoxy 41 is formed in the controller 39 so that the part 39a to which the power supply cables 33a and 33b are soldered and fixed is exposed to the outside of the upper housing 32a. Will be filled in.

The reason for filling the epoxy 41 in the upper housing 32a so that the portion to which the power supply cables 33a and 33b are soldered and fixed is exposed to the outside is that the upper housing 32a and the lower housing 32b cross each other. This is to enable soldering and fixing the power supply cable 33b to the controller 39 molded in the upper housing 32a in an assembled state.

On the other hand, the stator 38a of the BLDC motor 38 is press-fitted and fixed to the inside of the lower housing 32b, and supports the upper bearing 42 on the upper side, and a cutout part so that the power supply cable 33b passes on one side. The bearing housing 43 in which 43a is formed is fixed, and the upper bearing 32a is fitted with the upper end of the integrated shaft 44 to which the rotor 38b of the BLDC motor 38 is fixed.

The intermediate bearing 45 is press-fitted and fixed to the middle of the shaft 44, and the lower bearing 46 is press-fitted and fixed to the lower portion thereof, and the vibrator 47 generating vibrations when the shaft 44 is rotated therebetween. Is fixed.

At this time, the vibrator 47 is fixed to the shaft 44 by a fastening member 48 such as a screw, and the key 49 is inserted into the shaft 44 and the vibrator 47 as shown in FIG. 7. Grooves 44a and 47a are formed respectively to increase the fastening force.

Referring to the operation of the present invention configured as described above is as follows.

8 is a flow chart for explaining the manufacturing method of the present invention, the vibrating rod 31, the upper housing 32a, the lower housing 32b, and the tab 34, the shoe 35, the fixing nut 36 Split to form them to be screwed together. (S101)

Closing the lower part of the upper housing (32a) with a closing plate 37, and then embedded in the controller 39 and the tube 40, and then the remaining portion other than the soldered portion (39a) of the controller 39 is epoxy (41) Molding to complete the upper housing 32a. (S102)

On the other hand, after assembling the stator 38a of the BLDC motor 38 to which one end of the power supply cable 33b is fixed in the upper part of the lower housing 32b, the intermediate bearing 45 and the lower bearing 46 at the lower portion thereof. ), And after assembling the integrated shaft 44 to which the rotor 38b and the vibrator 47 are coupled, the bearing housing 43 in which the upper bearing 42 is press-fitted and fixed at the upper part of the lower housing 32b The upper end of the shaft 44 is supported. (S103)

At this time, the power supply cable 33b having one end soldered and fixed to the stator 38a of the BLDC motor 38 is exposed upward through the cutout 43a formed in the bearing housing 43. The length of the use cable 33b is in a state having a length sufficient to fix the soldered portion 39a of the controller 39.

In addition, the vibrator 47 positioned between the intermediate bearing 45 and the lower bearing 46 press-fitted into the shaft 44 has a screw and a key 49 inserted into the key grooves 44a and 47a. It is fixed by the same fastening member 48 and when the shaft 44 is rotated by the drive of the BLDC motor 38, the rotational force is transmitted to the vibrator 47 without being attenuated.

In the exemplary embodiment of the present invention, the upper housing 32a is first assembled, and the lower housing 32b is described in the order of assembling. However, the order of the present invention is not limited.

After assembling the upper housing 32a and the lower housing 32b in the same manner as described above, they are assembled with each other. In this case, the power supply cable 33b exposed through the cutout 43a of the bearing housing 43 is provided. ) Is screwed into the upper housing 32a and the lower housing 32b while passing the inside of the tube 40 molded with the epoxy 41 in the upper housing 32a.

In the process of screwing the lower housing 32b and the upper housing 32a in this way, the power supply cable 33b passing through the tube 40 inside the upper housing 32a is twisted, but the length thereof is the upper portion. Although the circumferential length of the inner diameter of the housing 32a is large, the space is between the upper housing 32a and the lower housing 32b, and the inner diameter of the tube 40 is also sufficiently larger than the outer diameter of the power supply cable 33b. The supply cable 33b is not twisted, and the upper housing 32a and the lower housing 32b can be screwed together. (S104)

After assembling the upper housing 32a and the lower housing 32b in the same manner as described above, the soldering portion 39a exposing the power supply cable 33b through the tube 40 to the outside of the controller 39. Soldered)) (S105)

Thereafter, while screwing the shoe 35 to the lower part of the lower housing 32b, the tab 34 through which another power supply cable 33a has passed is placed in the upper housing 32a, and then for power supply. After soldering and fixing one end of the cable 33a to the controller 39, the step 34a of the tab 34 is brought into close contact with the upper housing 32a, and the fixing nut 36 is screwed into the vibration rod 31 of the present invention. Assembly is completed. (S106)

In the state of assembling the vibrating rod 31 of the present invention by the assembly operation as described above, and put the vibrating rod 31 into the mortar and operate the switch (not shown) to apply power to the power supply cable ( Power is applied to the controller 39 through 19) 19a to drive the BLDC motor 38 so that the vibrator 47 fixed to the shaft 44 rotates at high speed.

When the vibrator 47 rotates at a high speed as described above, the vibrator 47 fixed to the shaft 44 also rotates at high speed, so that vibration is generated by the eccentricity. Thus, bubbles contained in the mortar are removed during the concrete mortar pouring work.

As described above, although the BLDC motor 38 is driven by the controller 39 to supply the power, heat is generated in the controller 39 in the process of rotating the vibrator 47 at high speed, but the controller 39 is epoxy. It is molded by (41) so that the heat is transmitted through the epoxy to be emitted to the outside of the upper housing (32a) is to prevent the phenomenon that the controller 39 is burned out by high heat.

As described above, the present invention has the following advantages over the conventional vibration rods.

First, the controller that controls the BLDC motor is embedded in the body close to the BLDC motor and molded by epoxy so that the resistance value of the power supply cable does not change when the BLDC motor is driven. Will be prevented.

Second, even if the length of the power supply cable for supplying power is long (about 7 to 8 m), the BLDC motor and the controller are located close to each other so that the BLDC motor is not affected by noise.

Third, the vibrator is directly inserted into the fixed shaft with the rotor, so that the rotational force according to the drive of the BLDC motor is transmitted to the vibrator as it is, thereby obtaining a strong vibration.

Fourth, the power supply cable connected to the stator of the BLDC motor is located in the tube molded with epoxy in the upper housing, so the connection part of the cable connected to the stator is disconnected due to the vibration generated by the rotation of the eccentric shaft for a long time. Prevents this from happening

Claims (4)

Built-in BLDC motor and vibrator rotatably connected to the power supply cable inside the body, the tab is connected to the upper part of the body and the shoe is connected to the lower part to generate vibration as the vibrator rotates as the BLDC motor is driven by the power source. In the vibrating vibrator of the vibrator, the body is divided into a pipe-shaped upper housing and the lower housing is screwed to each other, a closing plate for closing the lower portion of the upper housing, and built in the upper housing to drive the BLDC motor A controller for controlling, a tube positioned at one side of the controller built in the upper housing to allow a power supply cable to pass through, an epoxy wrapped around the controller and the tube embedded in the upper housing, and an upper portion of the lower housing; Fixed to the upper bearing to support the power supply cable The bearing housing is formed with a notch, an intermediate bearing and a lower bearing are supported in the middle and lower portion of the lower housing, and the upper portion is an integral shaft supported by the rotor of the BLDC motor and supported by the upper bearing, and fixed to the shaft by a fastening member. Vibration rod of concrete placing vibrator, characterized in that composed of a vibrator for generating vibration. The method according to claim 1, Vibrating rods of the concrete pour vibrator, characterized in that the tab is inserted into the inside of the upper housing and the fixing nut is screwed to the upper housing from the outside of the upper housing to fix the tab. The method according to claim 1, Vibration rod of the concrete pour vibrator, characterized in that by forming a key groove into which the key is inserted into the shaft and the vibrator, respectively. Dividing the upper housing, the lower housing, and the tab and shoe to screw the vibrating rods together, closing the lower part with the closing plate, and integrating the controller and the tube in sequence, and then epoxy the remaining part except the solder part of the controller. Molding to the upper housing, assembling the stator of the BLDC motor to which one end of the power supply cable is fixed at the top, and assembling the shaft with the intermediate bearing and the lower bearing and the rotor and the oscillator at the bottom. The shaft is supported by the upper bearing fixed to the bearing housing at the top to complete the lower housing, and the power supply cable connected to one end of the stator passes through the cutout of the bearing housing and the inside of the tube. Screwing the housing and the lower housing, and the power supply cable Soldering and fixing the other end of the terminal and the terminal of the controller exposed to the outside of the epoxy, and the step of fixing the shoe to the lower housing, and the tab to the upper housing respectively, vibrating rod manufacturing of the vibrator for concrete placing Way.

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