KR102387489B1 - Backpack type power working machine - Google Patents

Abstract

Before the compression coil spring 15 interposed between the drive source 8 and the mounting part 5 shrinks and comes into close contact between the lines, it is provided on the driving source 8 side or one of the mounting parts 5 and is inside the compression coil spring 15 . Since the disposed rubber material 19 is in contact with the drive source 8 side or the other side of the mounting portion 5, the line-to-line contact of the compression coil spring 15 is prevented, and the excellent vibration-proof performance of the compression coil spring 15 is derived. At the same time, the impact when the driving source 8 side or the other side of the mounting portion 5 comes into contact with the rubber material 19 is absorbed by the rubber material 19, and as a result, excellent vibration-proof performance can be exhibited. .

Description

Distribution type power work machine {BACKPACK TYPE POWER WORKING MACHINE}

The present invention relates to a power work machine having a vibration isolator and a distribution type power work machine.

DESCRIPTION OF RELATED ART Conventionally, the distribution type blower working machine described in the following patent document 1 is known as a distribution type power work machine. In this distribution-type ventilation work machine, the distribution frame which an operator carries is provided. The distribution frame has a distributing portion to which the operator's back is abutted, and a bottom portion extending rearwardly perpendicular to the lower portion of the distributing portion. A fan case for accommodating the fan is mounted on the back of the distribution unit. Specifically, on the rear surface of the distribution unit, the front surface of the fan case is connected via a plurality of compression coil springs as a vibration isolator extending in the horizontal direction and mounted in a cantilevered state, and the engine and fuel tanks are mounted on the rear surface of the fan case is connected and installed. In the distribution type blower work machine having such a configuration, vibration from the engine during operation is absorbed by a compression coil spring to prevent vibration to the distribution unit.

Moreover, the distribution type power spreader described in the following patent document 2 is known as a distribution type power work machine. In this distribution type power spreader, a fan case for accommodating an impeller (fan) is mounted on a bottom portion extending backwards orthogonally to the lower portion of the distribution plate (distribution portion) via a plurality of vibration-proof rubbers as a vibration isolator. . An engine for driving the impeller is connected and mounted on the rear surface of the fan case via a flange. Moreover, the spraying agent storage tank (medical agent tank) which stores the spraying agent (medical agent) is mounted in the upper part of the fan case.

[Patent Document 1] Japanese Patent Publication No. 6358833 [Patent Document 2] Japanese Patent Laid-Open No. 2013-29079

In general, it is known that the compression coil spring is superior in the vibration-proof performance compared to the vibration-proof rubber. Therefore, instead of the vibration-proof rubber described in Patent Document 2, it is conceivable to use the compression coil spring described in Patent Document 1. However, when a dusting agent is put into a dusting agent storage tank, the compression coil spring shrinks under the load, a compression coil spring will closely_contact|adhere, and, as a result, there exists a problem that a dustproof effect is not acquired.

The present invention has been made in order to solve these problems, and an object of the present invention is to provide a power work machine and a distributed power work machine having a vibration isolator capable of preventing line-to-line adhesion of a compression coil spring and exhibiting excellent anti-vibration performance.

In a power working machine having a vibration isolator according to the present invention, vibration to the mounting unit 5 on which the driving source 8 is mounted is interposed between the driving source 8 and the mounting unit 5 when the driving source 8 is driven. A power working machine provided with a vibration isolator (6) that is isolated by a compression coil spring (15), wherein the vibration isolator (6) is provided on one of the driving source side (8, 9) or the mounting part (5), the compression coil spring (15) It is disposed on the inside of the drive source side (8, 9) or the other side of the mounting portion (5) is collapsible (接離), before the compression coil spring (15) shrinks and comes into close contact between the lines, the drive source side (8, 9) or It is characterized in that a rubber material 19 abutting on the other side of the mounting portion 5 is provided.

According to the power work machine provided with such a vibration isolator 6, before the compression coil spring 15 interposed between the drive source 8 and the mounting part 5 on which the drive source 8 is mounted shrinks and comes into close contact with each other, the drive source The rubber material 19 provided on one side of the sides 8 and 9 or the mounting portion 5 and disposed inside the compression coil spring 15 is brought into contact with the driving source side 8 and 9 or the other side of the mounting portion 5 . Therefore, the line-to-line adhesion of the compression coil spring 15 is prevented, and the excellent vibration-proof performance of the compression coil spring 15 can be drawn out, while the drive source side (8, 9) or the other side of the mounting part 5 is made of a rubber material ( 19) is absorbed by the rubber material 19, and as a result, excellent anti-vibration performance can be exhibited.

Here, the vibration isolator 6 is provided on the drive source side 8, 9 or the other side of the mounting portion 5, and provided with a stopper 18c located on the outer peripheral side of the tip end of the rubber material 19, the drive source side When (8, 9) is about to fall, the tip of the rubber material (19) and the stopper (18c) come into contact with each other, and it is possible to suppress the driving source side (8, 9) from falling down.

In addition, the vibration isolator 6 is engaged with the drive source side 8, 9 or the other side of the mounting portion 5, and the first external screw to which the one end of the compression coil spring 15 engages with its outer peripheral surface. A first plug (13) provided with (18a) and a second plug (14) having a rubber material (19), the second plug (14) being extended to the rubber material (19) A pedestal portion 20 abutting on one of the drive source sides 8 and 9 or the mounting portion 5, and a bolt 21 extended to the pedestal portion 20 are provided, and the pedestal portion 20 is disposed on the outer peripheral surface of the pedestal portion 20. , the second male screw 20a to which the other end of the compression coil spring 15 engages, and the surface in contact with one of the driving source sides 8 and 9 or the mounting portion 5 are provided in an annular concave shape. ) provided with a convex plug wrench engaging portion 20d on the inner periphery side of the concave portion 20c protruding by ), and the bolt 21 includes a head 21a embedded in the pedestal 20, and the pedestal. One having a shaft portion 21b passing through the portion 20 and projecting outward on the opposite side to the drive source side 8, 9 or the other side of the mounting portion 5, and having a third male screw 21c on its outer peripheral surface is characterized.

In the case of adopting such a configuration, the first plug 13 is engaged with the drive source side 8, 9 or the other side of the mounting portion 5, and the pedestal portion 20 of the first plug 13 and the second plug 14 is ), with the compression coil spring 15 disposed on the outside of the rubber material 19 between By rotating while being pushed toward the first plug 13, one end of the compression coil spring 15 is screwed into engagement with the first male screw 18a on the outer peripheral surface of the first plug 13, and the second plug ( 14), the other end of the compression coil spring 15 can be screwed into engagement with the second external screw 20a on the outer peripheral surface, so that the vibration isolator 6 can be obtained. That is, the vibration isolator 6 can be easily assembled. Then, of the obtained vibration isolator 6, the drive source side 8, 9 or one side of the mounting portion 5 is attached to the third male screw 21c of the outer peripheral surface of the shaft portion 21b protruding outward of the second plug 14. By screwing the female screw 16a, the second plug 14 can be fixed to either the drive source side 8 or 9 or the mounting portion 5. That is, the vibration isolator 6 can be attached simply.

Here, the power work machine is a distribution type power work machine 100 , and the mounting unit 5 is a floor unit 5 following the distribution unit 4 of the distribution type power work machine 100 , and the floor unit 5 and the drive source 8 ), it is preferable to set it as a distribution type power work machine in which the vibration isolator 6 is interposed.

As described above, according to the present invention, it is possible to provide a power work machine and a distributed power work machine provided with a vibration isolator capable of preventing line-to-line adhesion of the compression coil spring and exhibiting excellent anti-vibration performance.

BRIEF DESCRIPTION OF THE DRAWINGS It is a rear view which shows the distribution-type power spreader provided with the vibration isolator which concerns on embodiment of this invention.
It is a side view of the distribution-type power spreader shown in FIG.
It is a rear perspective view which removed the chemical|medical agent tank, a distribution band, an engine, a fuel tank, etc. from the distribution-type power spreader shown in FIGS. 1 and 2 .
Fig. 4 is a longitudinal sectional view showing the vibration isolator in Figs. 2 and 3 and its vicinity.
5 is an exploded perspective view showing the fan case and the vibration isolator in FIG. 3 .
Fig. 6 is a perspective view showing the vibration isolator in Fig. 3;
It is a longitudinal sectional view which shows the vibration isolator in the state which put the chemical|medical agent in the chemical|medical agent tank of FIGS. 1 and 2, and its vicinity, and is a longitudinal sectional view orthogonal to FIG.

EMBODIMENT OF THE INVENTION Hereinafter, embodiment of the power work machine provided with the vibration isolator which concerns on embodiment of this invention is described, referring an accompanying drawing. In this embodiment, a power work machine is demonstrated as a distribution type power spreader which spreads a chemical|medical agent by driving of a drive source while an operator carries a back of a worker. In addition, in the following description, words indicating directions such as up and down, front and rear, left and right indicate the direction with respect to the worker carrying the distributed power spreader as a reference, and the front in the operator is referred to as "front". decide

BRIEF DESCRIPTION OF THE DRAWINGS It is a rear view which shows the distribution-type power spreader provided with the vibration isolator which concerns on embodiment of this invention. 2 is a side view of the distributed power spreader.

1 and 2, the distribution-type power spreader 100 is provided with the distribution part (distribution frame) 1, the engine-driven blower 2, and the chemical|medical agent tank 3 generally.

The distributing unit 1 is to be carried by the operator on his back and at the same time to mount the equipment, and the distributing unit 4 is in contact with the worker's back, and from the lower end of the distributing unit 4 to the rear (the front side of the paper in Fig. 1, the left side of Fig. 2) ) and has a bottom part 5 as a mounting part extending toward it, and has an approximately L-shape when viewed from the side. A pair of left and right distribution bands 10 are attached to the distribution unit 4 to be carried by the operator.

The engine-driven blower 2 generates wind for spraying the chemical in the chemical tank 3, and a pair of left and right vibration isolators 6 on the bottom 5 of the distribution unit 1 (Fig. 2, Fig. See 3; details are provided later). This engine-driven blower 2 includes a blower 7 and an engine 8 as a drive source.

The blower 7 is provided with a fan (blade wheel; not shown) for generating a wind for spraying a chemical, and a fan case 9 for accommodating the fan. The fan case 9 is a split type divided into a front fan case 9a and a rear fan case 9b (see FIG. 5 ), and in a state where the fan is accommodated therein, the front fan case 9a and the rear fan case 9b are connected and fixed by fastening means such as bolts, for example. And the said chemical|medical agent tank 3 is mounted in the upper part of the fan case 9, and the outlet 9h of the fan case 9 is a curved pipe, a pipe, a branch pipe, a spray hose. The back is connected, and a chemical|medical agent is spread|dispersed from the front-end|tip of a spray hose. In addition, here, a curved pipe, a pipe, a branch pipe, and a spray hose are not shown separately.

The engine 8 is covered with an engine cover 11 . The engine 8 and the engine cover 11 are connected and fixed to the fan case 9b on the rear side by fastening means. Moreover, the fuel tank 12 which stores the fuel of the engine 8 is mounted on the bottom part 5 of the distribution part 1 below the engine 8, and it is fixed.

3 : is a rear perspective view which removed the chemical|medical agent tank 3, the distribution band 10, the engine 8, the engine cover 11, the fuel tank 12, etc. from the distribution type power spreader. Fig. 4 is a longitudinal sectional view showing the vibration isolator 6 in Fig. 3 and its vicinity. 5 : is an exploded perspective view which shows the fan case 9 and the vibration isolator 6 in FIG. FIG. 6 is a perspective view showing the vibration isolator 6 in FIG. 3 .

The above-mentioned pair of left and right vibration isolators 6 is interposed between the rear fan case 9b and the bottom part 5 of the distribution part 1, as shown in FIGS. As shown in FIG.4 and FIG.5, the vibration isolator 6 includes the 1st plug 13 which comprises an upper part, the 2nd plug 14 which comprises the lower part, the 1st plug 13, and the 2nd A compression coil spring (15) interposed between the plugs (14) is provided.

The first plug 13 is made of, for example, plastic. 4 to 6 , the first plug 13 includes an engaging portion 17 that is inserted into and engaged with a plug receiver 9c (to be described in detail later) of the rear fan case 9b, and an engaging portion. A boss portion 18 protruding downward from (17) and engaging the upper end (one end) of the compression coil spring 15 is provided.

The engaging portion 17 has a base 17a having an outer peripheral surface in a semi-elliptical shape with an ellipse in approximately half in plan view, and a flange portion 17b provided at the upper portion of the base 17a. The outer peripheral surface of the flange part 17b is formed larger than the semi-elliptical outer peripheral surface of the base part 17a in planar view.

The boss portion 18 has a circular outer circumferential surface, and is provided with a first male screw 18a to which the upper end of the compression coil spring 15 engages. On the bottom surface 18b of the boss portion 18, a semicircular arc that protrudes downward and is curved to become convex in the rear side in plan view is slightly extended in the circumferential direction on the front side to show a curved shape (approximately C-shape) A stopper 18c is provided.

The second plug 14 includes a rubber material 19 constituting the tip side, and a pedestal portion 20 extending to the bottom of the rubber material 19 and abutting against the bottom portion 5 of the distributing portion 1 . And, the bolt 21 (refer to FIG. 4) extended to the pedestal part 20 is provided.

The rubber material 19 has a truncated truncated cone shape here, and is disposed inside the compression coil spring 15 . As shown in FIG. 4, the convex part 19a is provided in the center of the bottom part of the rubber material 19. As shown in FIG.

The pedestal part 20 is formed of resin here, and has shown the substantially cylindrical shape. A concave portion 20b into which the convex portion 19a of the rubber material 19 enters is provided in the upper portion of the center of the pedestal portion 20 . On the outer peripheral surface of the pedestal part 20, a second male screw 20a to which the lower end (the other end) of the compression coil spring 15 engages is formed. 4 to 6 , a flange portion 20f is provided at the bottom of the pedestal portion 20 . The bottom surface of the flange portion 20f is a surface in contact with the bottom portion 5 of the distribution portion 1 . An annular recessed portion 20c is provided inside the flange portion 20f of the bottom portion of the pedestal portion 20 . The convex portion on the inner periphery of the concave portion 20c that protrudes by providing the annular concave portion 20c concave serves as the plug wrench engaging portion 20d. The convex plug wrench engaging portion 20d has a hexagonal outer circumferential surface (see Fig. 6) so that the plug wrench can engage. The annular recessed portion 20c serves as a space for allowing the plug wrench to enter. In addition, in the center of the plug wrench engaging portion 20d, a through hole 20e (see Figs. 4 and 6) through which a shaft portion 21b of the bolt 21, which will be described later, is inserted is provided.

The bolt 21 is embedded in the pedestal part 20 so that the head 21a forms the bottom surface of the recessed part 20b of the upper part of the pedestal part 20, as shown in FIG. The shaft portion 21b of the bolt 21 penetrates the through hole 20e of the pedestal portion 20 and protrudes outward (downward). A third male screw 21c screwed to the nut 16 is formed on the outer peripheral surface of the shaft portion 21b.

Then, the head 21a of the bolt 21 made of metal is insert-molded into the pedestal 20 made of resin, and the protrusion of the rubber material 19 is inserted into the recess 20b of the pedestal 20 of the molded product ( A second plug integrally provided with the rubber material 19, the pedestal portion 20, and the bolt 21 by welding the rubber material 19 to the pedestal portion 20 of the molded article with 19a) inserted. (14) is obtained. In addition, the manufacturing method of the 2nd plug 14 is not limited to the above, What is necessary is just to provide the rubber material 19, the pedestal part 20, and the bolt 21 integrally.

Moreover, as shown in FIGS. 3-5, the plug receiver 9c for receiving the 1st plug 13 is provided in the lower part of the fan case 9b of the above-mentioned rear side. The plug receiver 9c is provided concavely so that it may open|release downward and forward, as shown in FIG. As shown in Figs. 4 and 5, the plug receiver 9c extends into the upper groove portion 9d into which the flange portion 17b of the first plug 13 enters, and the upper groove portion 9d, and extends to the first plug. A lower concave portion 9e into which the main portion 17a of (13) enters is provided.

Next, the assembly method and attachment method of the vibration isolator 6 are demonstrated. As shown in Fig. 5, the flange portion 17b of the first plug 13 enters the upper groove portion 9d of the plug receiver 9c of the fan case 9b on the rear side from the front to the rear, By inserting the base 17a of the first plug 13 into the lower recess 9e of the plug receiver 9c, the protrusion 9f formed in the lower portion of the front fan case 9a is provided with the front fan case ( 9a) and the rear fan case 9b are connected to block the front open end of the plug receiver 9c, and to be in contact with the base portion 17a and the flange portion 17b of the first plug . That is, the first plug 13 is immovably engaged with the plug receiver 9c.

Next, in a state in which the compression coil spring 15 is disposed on the outside of the rubber material 19 between the pedestal part 20 of the first plug 13 and the second plug 14, the plug of the pedestal part 20 Inserting a plug wrench into the wrench engaging portion 20d to engage it, and rotating the second plug 14 while pushing the second plug 14 toward the first plug 13, so that the first The upper end of the compression coil spring 15 is screwed into the male screw 18a, and the lower end of the compression coil spring 15 is screwed into the second male screw 20a of the outer peripheral surface of the pedestal 20 of the second plug 14. screw into engagement. Thereby, the vibration isolator 6 shown in FIG. 6 is obtained. That is, the vibration isolator 6 can be easily assembled. In addition, in FIG. 6, the plug receiver 9c of the fan case 9b of the rear side is abbreviate|omitted.

As shown in FIG. 4, the flange part 20f of the pedestal part 20 of this vibration isolator 6 is made to abut against the bottom part 5 of the distribution part 1, and the penetration provided in the bottom part 5 is made. In a state in which the shaft portion 21b of the bolt 21 is inserted into the hole 5a, the female screw 16a of the nut 16 on the bottom 5 side is connected to the third male screw 21c of the outer peripheral surface of the shaft portion 21b. ) by screwing and tightening, the second plug 14 is fixed to the bottom part 5 . In this way, the vibration isolator 6 can be easily attached to the bottom part 5 . Moreover, in the periphery of the nut 16 in the bottom part 5, the space A into which nut tightening tools, such as a nut driver, enter is formed.

And in the state in which the chemical|medical agent is not accommodated in the chemical|medical agent tank 3, the clearance gap S is provided between the bottom surface 18b of the 1st plug 13, and the front-end|tip surface of the front-end|tip part of the rubber material 19. As shown in FIG.

7 : is a longitudinal sectional view which shows the vibration isolator 6 in the state which put the chemical|medical agent into the chemical|medical agent tank 3, and its vicinity, and is a longitudinal sectional view orthogonal to FIG.

When a chemical|medical agent is put into the chemical|medical agent tank 3, as shown in FIG. 7, the 1st plug 13 moves downward while the compression coil spring 15 shrinks with the load, and the bottom surface of the 1st plug 13 (18b) and the distal end surface of the distal end of the rubber material 19 come into close contact with each other. In this state, the compression coil spring 15 is not in line-to-line contact.

As described above, according to the present embodiment, the compression coil spring 15 interposed between the first plug 13 serving as the drive source side and the second plug 14 serving as the mounting portion side shrinks and compresses before the lines come into close contact. A rubber material 19 disposed inside the coil spring 15 and made to be collapsible to the bottom surface 18b of the first plug 13 abuts against the bottom surface 18b of the first plug 13 . For this reason, the line-to-line contact|adhesion of the compression coil spring 15 is prevented, and the outstanding vibration-proof performance of the compression coil spring 15 can be drawn out. In addition, the impact when the bottom surface 18b of the first plug 13 comes into contact with the rubber material 19 is absorbed by the rubber material 19, and as a result, excellent vibration-proof performance can be exhibited.

Here, as shown in FIG. 2 , in the distribution type power spreader 100 , the distribution portion 1 has an approximately L-shape when viewed from the side, and the engine-driven blower 2 is mounted on the bottom portion 5 . For this reason, the engine-driven blower 2 tends to fall not forward but backward (to the left of the figure). In the present embodiment, the stopper is on the outer peripheral side of the tip of the rubber material 19, specifically, on the rear side of the bottom surface of the boss portion 18 of the first plug 13 serving as the drive source side, as shown in FIG. 7 . (18c) is provided. Therefore, as indicated by the arrow, when the engine-driven blower 2 is about to fall backward, the tip of the rubber material 19 and the stopper 18c come into contact with each other to suppress the engine-driven blower 2 from falling down. can do.

As mentioned above, although this invention was demonstrated concretely based on the embodiment, this invention is not limited to the said embodiment, For example, although the drive source is the engine 8 in the said embodiment, an electric motor etc. may be sufficient. .

Moreover, in the said embodiment, although the axial center of the compression coil spring 15 and the 1st, 2nd plugs 13 and 14 is set as the vertical vibration isolator 6 which faces in a substantially vertical direction, it is set as the prior art. As in Korean Patent No. 6358833, the vibration isolator 6 in the horizontal direction, that is, the compression coil spring 15 and the shaft centers of the first and second plugs 13 and 14 are directed in the approximately horizontal direction. can also be used as In this case, the mounting portion on which the drive source is mounted becomes the distributing unit, and the vibration isolator 6 is interposed between the driving source and the distributing unit as the mounting unit.

In addition, in the above embodiment, the drive source is mounted on the mounting portion via the fan case 9 and the vibration isolator 6 , that is, the fan case 9 on the drive source side is mounted on the mounting portion via the vibration isolator 6 . However, it is also applicable to a configuration in which the drive source is directly mounted on the mounting part via the vibration isolator, such as a distributed power sprayer described later, that is, the vibration isolator 6 is interposed between the drive source and the mounting part. configuration is good. Accordingly, the rubber material 19 may be provided on one side of the driving source or the driving source such as the fan case 9 or on one side of the mounting portion, and the rubber material 19 may be in contact with the driving source or the other side of the mounting portion.

In addition, although the distribution type power spreader is taken as an example in the above embodiment, for example, a distribution type in which a chemical liquid is accommodated in a chemical liquid tank, and the chemical liquid is sprayed by a drive source such as an engine or an electric motor, and a pump driven by the drive source It can also be applied to power atomizers. In this case, it is also possible that the tank for accommodating the medicament or the medicament also serves as a distribution unit. In addition, the present invention can be applied to a distributed power blower (blower) or a distributed power sprayer, etc. in addition to such a distributed power spreader or a distributed power sprayer, and it is suitable to apply to the overall distributed power work machine. . In addition, it is not limited to the distribution type power work machine, but it can also be applied to a hand-type blower or a chain saw. It can be applied to the power working machine that is dust-proofed by 6). Further, the stopper 18c of the first plug 13 may be provided around a part of the tip of the rubber material 19 depending on the above-mentioned various power working machines, or around the entire tip of the rubber material 19. It may be provided, that is, what is necessary is just to be located in the outer peripheral side of the front-end|tip part of the rubber material 19. As shown in FIG.

4… Dividend, 5... The bottom part (mounting part), 6... Anti-vibration device, 8… Engine (drive source, drive source side), 9... Fan case (drive source side), 13... first plug, 14... a second plug, 15 . . . Compression coil spring, 16… Nut, 16a... female thread, 18a... 1st male thread, 18c... Stopper, 19… Rubber material, 20... pedestal, 20a... 2nd male thread, 20c... recess, 20d... plug wrench engagement, 21… Bolt, 21a... Tofu, 21b... Shaft, 21c... 3rd male thread, 100... Distributive power spreader (powered implement).

Claims (4)

A floor portion 5 connected to the distribution portion 4, a drive source 8 mounted on the floor portion 5, and a vibration isolator 6 for isolating vibration from the drive source 8 to the floor portion 5 ) as a distributed power work machine equipped with,
The vibration isolator (6),
A compression coil spring (15) interposed between the drive source side (8, 9) and the bottom part (5) and compressed in the vertical direction;
a rubber material (19) provided on one of the driving source sides (8, 9) or the bottom part (5) and disposed inside the compression coil spring (15);
The rubber material 19 is foldable to the other side of the drive source side 8, 9 or the bottom part 5, so that before the compression coil spring 15 shrinks and comes into close contact with each other, the drive source side (8, 9) or abutting on the other side of the bottom part (5),
The vibration isolator (6),
The first having a first male screw 18a engaged with the drive source side 8, 9 or the other side of the bottom portion 5, and having an outer peripheral surface thereof with one end portion of the compression coil spring 15 engaged. a plug (13);
a second plug (14) having said rubber material (19);
The second plug 14,
a pedestal portion (20) extended to the rubber material (19) and abutting on one of the drive source sides (8, 9) or the bottom portion (5);
A bolt 21 extended to the pedestal 20 is provided,
The pedestal 20 is
a second male screw (20a) to which the other end of the compression coil spring (15) engages on its outer circumferential surface;
A convex plug wrench engaging portion 20d is provided on the inner periphery of the concave portion 20c that protrudes by having a surface in contact with one of the driving source sides 8 and 9 or the bottom portion 5 is provided in an annular concave shape. do,
The bolt 21 is
The head 21a embedded in the pedestal 20, and
A shaft portion 21b passing through the pedestal portion 20 and protruding outward on the opposite side to the drive source side 8, 9 or the other side of the bottom portion 5, and having a third male screw 21c on its outer circumferential surface ), characterized in that provided with, distribution-type power work machine. According to claim 1, wherein the vibration isolator (6),
Distributive power work machine, characterized in that it is provided on the other side of the drive source side (8, 9) or the bottom part (5) and is provided with a stopper (18c) located on the outer periphery side of the front end of the rubber material (19). . delete delete

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