JPS6327671A - Concrete vibrator - Google Patents

Abstract

(57) [Abstract] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed Description of the Invention] [Industrial Application Field] This invention relates to an improvement of a concrete vibrator, and more specifically, a vibrator that can transmit vibrations from a vibrating body to a worker's fingers, etc. during concrete compaction work. The present invention relates to a concrete vibrator that can be damped effectively.

[Conventional technology]

Traditionally, when forming concrete structures, compaction work, which involves inserting a vibrator into fresh concrete and vibrating it to remove air bubbles, is an essential work to obtain homogeneous concrete. It has become.

By the way, for such compaction work, a type of concrete vibrator is widely used in which a flexible gripping hose is connected to a rod-shaped vibrating body formed by connecting a vibrating part and a motor drive part. .

[Problem that the invention seeks to solve]

However, when performing compaction work using this type of concrete vibrator, workers often perform the work while holding a flexible hose approximately 0.5 m to 2 m away from the rod-shaped vibrator. The vibrations of the vibrating body are transmitted to the workers' own hands and fingers through the flexible hose, which not only makes them easily fatigued but also reduces their work efficiency, and even increases the risk of occupational diseases such as white wax disease. It had various problems such as causing the problem.

[Means for solving problems]

Therefore, in this invention, in order to solve the above-mentioned problems,
By forming an eccentric part at the end of the rotor shaft of the drive motor installed in the motor drive part, connecting this eccentric end to the eccentric rotating means of the vibrating part, and matching the phases of the eccentric end and the eccentric rotating means. , it is possible to attenuate as much as possible unnecessary vibrations transmitted from the vibrating body to the flexible hose.

In this case, it is very preferable to configure the eccentric end portion and the eccentric rotating means to be in phase so that the damping point of the eccentric rotating means is located at the flexible hose portion. At the same time, if another eccentric pendulum is connected to the eccentric end on the flexible hose side, the vibration damping rate can be further improved. It is preferable to form a rotor shaft or to incorporate a material having a different amount x from the rotor shaft forming member into a part of the rotor shaft.

[For production]

In the concrete vibrator according to the present invention, vibrations from the vibrating body to the flexible hose are damped as much as possible by the eccentric part (or eccentric part and eccentric pendulum) formed at the end of the rotor shaft of the drive motor. .

〔Example〕

Next, preferred embodiments of the concrete vibrator according to the present invention will be described in detail below with reference to the accompanying drawings.

1 and 2, the concrete vibrator 10 according to the present invention sequentially includes a vibrating part 14 containing an eccentric pendulum 12 as an eccentric rotation means, a motor drive part 18 containing a drive motor 16, and a hose coupling 20. A flexible hose 26 set to a convenient length and diameter for operating the rod-shaped vibrating body 22 is connected to the rod-shaped vibrating body 22 formed by connecting the rod-shaped vibrating body 22, and a cab led out from the flexible hose 26 is connected. It is constructed by connecting the tire cord 28 to the electric ta device 30.

That is, the rod-shaped vibrating body 22 forms eccentric parts 34 and 36 at both ends of the rotor shaft 32 of the drive motor 16, one eccentric part 34 is connected to the shaft part of the eccentric pendulum 12, and the other eccentric part 36 is connected to the shaft part of the eccentric pendulum 12. The damping point (amplitude zero point) X is made flexible by connecting each to another eccentric pendulum 38 installed inside the hose coupling 20 and matching the phases of the eccentric pendulum 12, the eccentric part 34, 36, and the eccentric pendulum 38. A predetermined portion of the hose 26, for example, approximately 30 to 50 mm from the tip of the hose 26.
Set so that the position is mm. In this case, the means for forming the eccentric portions 34 and 36 at both ends of the rotor shaft 32 is preferably constructed by providing an eccentric cavity 40 within the rotor shaft 32 as in this embodiment, but for example,
The cavity 40 may be filled with a material having a different mass from the rotor shaft forming material, or a portion of the rotor shaft may be formed into a crank shape.

When using the concrete vibrator according to the present invention configured as described above, as shown in FIG. Insert and then moisturize section 42
Air bubbles in fresh concrete are discharged and removed by operating the switch to energize the drive motor 16 and vibrating the rod-shaped vibrating body 22.
6 and the eccentric pendulum 38 so that their damping point (zero amplitude point) X is set at a position approximately 30 to 5 Qmm from the tip of the flexible hose 26. 22, the vibration transmitted to the worker's fingers via the flexible hose 26 becomes extremely small.
Moreover, the vibration energy is concentrated on the rod-shaped vibrating body 22, so that suitable compaction work can be performed.

〔Effect of the invention〕

As described above, according to the concrete pipe rake according to the present invention, the damping point (zero amplitude point) Because it is located nearby, the vibrations transmitted to the flexible hose during use are extremely small, preventing the occurrence of occupational diseases such as white wax disease, simplifying curling of the power cord inserted into the hose, and reducing disconnection. Not only can vibration energy be concentrated on the rod-shaped vibrating body, the vibration amplitude can be increased and work efficiency can be improved. In addition, there is less vibration in the part where the lead wire of the drive motor is assembled, making it possible to simplify the structure and reduce weight. Since the structure of the vibration isolating tube can be simplified, the overall cost can be reduced.Furthermore, the rod-shaped vibrating body can be made smaller and no unevenness is formed on its surface, making it easier to handle. have

Although preferred embodiments of the concrete vibrator according to the present invention have been described above, the present invention is not limited to these embodiments, and it goes without saying that various modifications can be made without departing from the spirit of the present invention. It is.

[Brief explanation of drawings]

FIG. 1 is an explanatory cross-sectional view showing a rod-shaped vibrating body portion of a preferred embodiment of the concrete vibrator according to the present invention, and FIG. 2 is an explanatory view showing the usage state of the concrete vibrator shown in FIG. 1. 10... Concrete pipe lake, 12...
... Eccentric pendulum, 14 ... Vibrating part 16 ...
... Drive motor, 18... Motor drive section,
20... Hose coupling, 22...
・Rod-shaped vibrating body, 26... Flexible hose, 28.
... Cabtire cord, 30 ... Power supply device, 32 ... Loaf shaft, 34 ...
Eccentric part, 36...Eccentric part, 38...
・Eccentric pendulum, 40...Cavity, 42...
・Operation section. Patent application Hito Mikasa Sangyo Co., Ltd. FIG, 2

Claims (5)

[Claims] (1) In a concrete vibrator in which a flexible hose for gripping is connected to a rod-shaped vibrating body formed by connecting a vibrating part and a motor drive part, the rotor shaft end of the drive motor installed in the motor drive part A concrete vibrator characterized in that an eccentric part is formed, the eccentric end part is connected to an eccentric rotation means of the vibrating part, and the phases of the eccentric end part and the eccentric rotation means are matched. (2) The concrete vibrator according to claim 1, wherein the phase of the eccentric end portion and the eccentric rotation means are matched so that the damping point of the eccentric rotation means is located in the flexible hose portion. . (3) The concrete vibrator according to claim 1 or 2, wherein eccentric parts are formed at both ends of the rotor shaft, and an eccentric pendulum is connected to the eccentric end on the flexible hose side. (4) The concrete vibrator according to any one of claims 1 to 3, wherein the eccentric portion at the end of the rotor shaft is formed by forming an eccentric cavity inside the rotor shaft. (5) The eccentric portion at the end of the rotor shaft is constructed by incorporating a material having a different mass from the rotor shaft forming member into a part of the rotor shaft. Concrete vibrator described in Crab.