JPH0248551Y2 - - Google Patents

Description

[Detailed Description of the Invention] (Industrial Application Field) The present invention relates to a hole-digging pole-erecting vehicle having an auger attached to the tip of the boom.

(General structure of a digging pole erecting vehicle) A digging pole erecting vehicle is mainly used for erection work of pole-shaped bodies such as utility poles, and as shown in FIGS. It has a crane device 3 mounted on the vehicle body frame via a swivel platform 4 so as to be able to freely rotate and raise and lower, and an auger 6 that is stored on the side of a telescoping boom 5 of the crane device 3. ing.

The auger 6 is for digging a deep hole in the ground for constructing a pillar, and has a screw 7 formed with a spiral blade 26 on the outer periphery of a shaft 25 of an appropriate length, a hydraulic motor and a speed reducer built into the screw 7. A pump unit 8 for applying rotational force to the pump 7 is connected coaxially through a coupling 9 so that the rotational force can be transmitted. As shown in FIGS. 7 to 9, this auger 6 has an upper end 8a of the pump unit 8, and an auger support bracket 15 formed protruding from the lower surface of the tip 5a of the boom 5, that is, the tip of the top boom 13. By connecting between them via an auger support device 14, which will be described later, the boom tip portion 5a is connected and supported so as to be able to hang down.
As shown in an enlarged view in FIG. 9, the auger support device 14 is composed of a support arm 16 of an appropriate length, with boss portions 16a and 16b at both ends thereof having axes in mutually orthogonal directions. Support arm 1
6 and the auger support bracket 15 on the top boom 13 side with the first pin 23 arranged to face the direction along the boom axis direction, and the other boss part 16b and the tip of the pump unit 8. 8a are connected to each other by a second pin 24 arranged in a direction perpendicular to the boom axis direction. Therefore, the auger 6 is oriented 2 times with respect to the boom 5 with the auger support device 14 as the center.
It is supported so as to be able to swing freely in the axial direction.

During the work, that is, during hole digging and pole erection work, the auger 6 is suspended in a hanging state via an auger support device 14 from the tip 5a of the boom 5, which is in an upright state, as shown by the chain line in FIG. Supported. On the other hand, when not working, the auger 6
is stored and supported on the side of the boom 5, as shown by solid lines in FIG.

The auger 6 is stored and supported on the side of the boom by the auger support device 14, an auger storage bracket 20 (described later) attached to the side of the base boom 11 of the boom 5, and a boom protruding from the auger storage bracket 20. Side cable end stop 17 and auger side cable end stop 18 provided at the shaft 25 portion of the screw 7 of the auger 6
This is done by a support rope (a wire rope is used in this embodiment) 19 stretched between the That is, the auger storage bracket 20
As shown in an enlarged view in FIG. 10, the boom is composed of a plate member having an engagement groove 21 that opens toward the lower side of the boom. Therefore, with the auger 6 hanging from the boom tip 5a as shown by the chain line in FIG. After that, when the motor unit 8 of the auger 6 is operated to rotate the screw 7, the support rope 19 is gradually wound around the shaft 25 of the screw 7, so that the auger 6 moves upwards around the auger support device 14. The shaft 25 of the screw 7 of the auger 6 is finally pulled up into the fitting groove 21 of the auger storage bracket 20 as shown in FIG.
It gradually fits and enters the inside from the lower open end side,
It stops near the bottom of the fitting groove 21, and its swinging in the left and right direction is restricted by the fitting groove 21. Therefore, the auger 6 is stored, supported, and fixed on the side of the boom 5 while its position is restricted in three axial directions by the auger support device 14, the auger storage bracket 20, and the support cable 19. become.

The above is the general structure and operation of a hole-drilling pole-erecting vehicle equipped with an auger.

(Prior art) By the way, when digging holes and erecting poles using this type of digging and pole erecting vehicle, depending on the type of column to be erected (particularly the diameter dimension), it may be difficult to dig when erecting a regular utility pole. In some cases, it may be required to dig a hole with a larger diameter than the deep hole to be drilled. That is, it is required to install a screw having a large diameter spiral blade.

However, in the above-mentioned conventional hole-drilling pole-erecting vehicle, the auger storage bracket 20 for supporting the auger 6 in a horizontally held state on the side of the boom 5 is constructed in one piece, as shown in FIG. Since the boom 5 has a structure fixed to the base boom 11, the maximum diameter D ₀ (outer diameter of the spiral blade) of the auger 6 that can be stored and supported using the auger storage bracket 20 is the same as the side surface 11a of the base boom 11.
and the center axis of the fitting groove 21 of the auger storage bracket 20.The horizontal distance (spacing) _L0 between the auger storage bracket 20 and the center axis of the fitting groove 21 is limited to approximately twice that, and mounting (storage support) of an auger with a larger maximum diameter is prohibited. It is possible. Therefore, the type of work to which the pole-erecting vehicle can be applied is limited to work in which poles can be erected through relatively small-diameter holes, and this poses a problem in that the versatility of the pole-erecting vehicle is correspondingly inferior. Ta.

(Purpose of the invention) The present invention is an attempt to solve the problems pointed out in the above section of the prior art. The purpose of this is to enable augers of different diameters to be stored and supported on the side of the boom, thereby improving the versatility of the digging and pole-erecting vehicle.

(Means for Achieving the Object) As a means for achieving the above object, the present invention provides a boom that is attached to a vehicle so that it can be raised and lowered, and an auger that is attached to the tip of the boom in a suspended state. The auger is constructed by coaxially connecting a screw having spiral blades formed on the outer periphery of the shaft and a motor unit for rotationally driving the screw, and in the working state, the auger is The auger is held in a hanging state from the tip of the boom, and when not in operation, the auger is pulled up to the side of the boom, and the shaft of the screw is fitted into the fitting groove of the auger storage bracket attached to the appropriate position of the boom. In a hole-drilling pole-erecting vehicle configured to hold the auger in a fixed position, the auger storage bracket is connected to a fixed side bracket fixed to the boom side, and the auger storage bracket is connected directly or indirectly to the fixed side bracket. It has a divided structure consisting of a plurality of removable side brackets that can be tightened and fixed, and by appropriately selecting and using each of the above-mentioned removable side brackets, the relative distance between the boom and the fitting groove of the auger storage bracket can be adjusted. It is configured to be adjustable.

(Function) In the present invention, by appropriately selecting and using the removable side bracket that is fastened and fixed to the stationary side bracket by the above-mentioned means, it is possible to easily connect the fitting groove between the boom and the auger storage bracket. That is, the interval of
Using the auger storage bracket, the maximum screw diameter of the auger that can be stored and supported on the side of the boom can be changed and adjusted.

(Embodiment) Hereinafter, a preferred embodiment of the present invention will be briefly described with reference to FIGS. 1 to 6. The digging pole erecting vehicle specified in each example is the digging pole erecting vehicle (No. 7
It has the same structure as the auger storage bracket (see Figures 9 through 9), but the only difference is the structure of the auger storage bracket, so in explaining each embodiment below, only this auger storage bracket part will be explained. The explanation of the structure and function of the part will be omitted.

(First Embodiment) FIGS. 1 and 2 show an auger storage bracket 20 for a digging and pole-erecting vehicle according to a first embodiment of the present invention. This auger storage bracket 20 includes a fixed side bracket 41 welded and fixed to the side surface 11a of the base boom 11 of the boom 5, and a shaft 25 of the first auger 6 having a small spiral blade diameter _D0 or the first auger. A first removable side bracket 42 formed with a fitting groove 21 into which the shaft 25 of the second auger 30 having a spiral blade diameter _D1 larger than 6, the fixed side bracket 41 and the first It is composed of a combination of three members, a second detachable bracket 43 that can be interposed between the detachable side bracket 42 and the second detachable bracket 43. That is, in the first form in which the fixed side bracket 41 and the first detachable bracket 42 are fastened and fixed with the fastening bolt 35 as shown in FIG. 1, the side surface 11a of the base boom 11 and the fitting groove 21
The distance between the center and the center is taken as the dimension L ₀ . Therefore,
In this case, the spiral blade 2 with the maximum diameter D ₀ is similar to that shown in the conventional example (see Fig. 10).
It is possible to store and support the first auger 6 with 6 (that is, the standard type that is most frequently used and has a wide applicable working area).

On the other hand, as shown in FIG. 2, a second detachable bracket 43 is interposed between the fixed bracket 41 and the first detachable bracket 42, and in this state, the
The second part is integrally fastened with the fastening bolt 35.
In the configuration, the side 1 of the base boom 11
The distance between 1a and the center of the fitting groove 21 is the dimension L ₁ (L ₁ >
L ₀ ). Therefore, in this case, the diameter D ₁ (D ₁
>D ₀ ), the second auger 30 having the spiral blade 32 can be stored and supported.

That is, in this embodiment, only the first removable side bracket 42 is combined with the fixed side bracket 41, or the first removable side bracket 42 is combined with the fixed side bracket 41.
The maximum diameter of the auger that can be stored and supported on the side of the boom 5 by the auger storage bracket 20 can be easily changed and adjusted in two stages by combining both the auger storage bracket 20 and the second removable side bracket 43, or by selecting the combination. It is possible.

In addition, in the second form (the state shown in Fig. 2), the vertical position of the fitting groove 21 relative to the boom 5 is set higher than in the first form (the state shown in Fig. 1). However, even when the large-diameter second auger 30 is stored, almost the same space is secured below the second auger 30 as when the standard type first auger 6 is stored. This is to ensure that.

(Second Embodiment) FIGS. 3 and 4 show a portion of an auger storage bracket 20 of a digging and pole-erecting vehicle according to a second embodiment of the present invention.

Auger storage bracket 20 of this second embodiment
The fixed side bracket 4 of the first embodiment is
1, the first removable side bracket 42, and the second removable side bracket 43.
1, the abutting and fastening surfaces between the fixed bracket 51, the first removable bracket 52, and the second removable bracket 53 are set along the side surface 11a of the base boom 11. It is formed by giving an appropriate inclination angle to the surface.

Therefore, according to the auger storage bracket 20 of the second embodiment, the distance between the base boom side surface 11a and the center of the fitting groove 21 becomes the dimension L ₀ in the first form shown in FIG. _The auger 6 can be stored and supported, and in the second form shown in _FIG . According to the other auger storage bracket 20 of this embodiment, in the first form, the fixed side bracket 51 and the first removable side bracket 52 can be stored and supported in the vertical direction. In the second form, the vertical abutting positions of the fixed side bracket 51, the first detachable bracket 52, and the second detachable bracket 53 are adjusted appropriately (by adjusting the attaching bolt 35). By shifting the augers (by bolt pitch), it is possible to store and support an auger with an intermediate diameter between the two types of augers 6 and 30, or an auger with a larger diameter than the second auger 30.

That is, the second embodiment has the advantage that the maximum diameter of the auger that can be stored and supported can be changed and adjusted in multiple stages of two or more.

(Third Embodiment) FIGS. 5 and 6 show an auger storage bracket 20 for a digging and pole-erecting vehicle according to a third embodiment of the present invention. This auger storage bracket 20 is
The fixed side brackets 41 and 51 fixed to the boom 5 side and the fitting groove 21 in the first and second embodiments are
A first detachable bracket 42, 52 having a spacer function and a second detachable bracket 43, 5 having only a spacer function.
3, whereas a fixed side bracket 61 and a first removable side bracket 62 having a fitting groove 21 and a second bracket 62 having a fitting groove 21 as well
It consists of a removable side bracket 63, and the width dimension of the first removable side bracket 62 and the second removable side bracket 63 (i.e., the distance from the center of the fitting groove 21 to the abutment surface with the fixed side bracket 61 (dimension l ₁ ，
A first form _(fifth form) in which the standard type first auger 6 can be stored and supported by making the two removable side brackets 62 and 63 different from each other and using the two removable side brackets 62 and 63 alternatively. ) and a second form that can significantly support a second auger 30 having a larger diameter than the first auger 6.

In this case, since there is only one fastening surface with the fastening bolt 35 in both the first form and the second form, in the case of the second form as in the first and second embodiments, This has the advantage that it is easier to change the shape of the auger storage bracket 20 compared to a case where there are two fastening surfaces.

(Effect of the invention) The hole-drilling pole-erecting vehicle of the present invention has a boom that is attached to the vehicle so as to be able to move up and down, and an auger that is attached to the tip of the boom in a suspended state. It is constructed by coaxially connecting a screw with spiral blades formed on the outer periphery of the shaft and a motor unit for rotationally driving the screw, and when in operation, the auger is suspended from the tip of the boom. When not in operation, the auger is pulled up to the side of the boom and maintained with the shaft of the screw fitted into the fitting groove of the auger storage bracket attached to the appropriate position of the boom. In the hole-drilling pole-erecting vehicle configured as follows, the auger storage bracket includes a fixed bracket fixed to the boom side, and a plurality of brackets that can be fastened and fixed directly or indirectly to the fixed bracket. It has a split structure consisting of a removable side bracket, and is constructed so that the relative distance between the boom and the fitting groove of the auger storage bracket can be adjusted by appropriately selecting and using each of the removable side brackets. It is something.

Therefore, according to the hole-drilling pole-erecting vehicle of the present invention, by appropriately selecting and using the removable side bracket that is fastened and fixed to the stationary side bracket, it is possible to easily fit the boom and the auger storage bracket. The distance between the groove and the auger, that is, the maximum screw diameter of the auger that can be stored and supported on the side of the boom using the auger storage bracket, can be changed and adjusted, so it is applicable to various types of hole-drilling and pillar-erecting work where the diameter of the pillar-erecting hole is different. It is possible, and its versatility is improved compared to the conventional structure of the drilling pole construction vehicle (i.e., the maximum screw diameter of the auger that can be stored and supported on the side of the boom is fixed to a single dimension). This effect can be obtained.

[Brief explanation of the drawing]

FIG. 1 is a partially sectional side view of an auger storage bracket portion of a hole-drilling pole-erecting vehicle according to a first embodiment of the present invention;
FIG. 2 is a state change diagram of the auger storage bracket shown in FIG. The figure is a state change diagram of the auger storage bracket shown in FIG. 3, FIG. 5 is a partial cross-sectional side view of the auger storage bracket portion of the digging pole construction vehicle according to the third embodiment of the present invention, and FIG. Fig. 5 is a state change diagram of the auger storage bracket, Fig. 7 is a side view of a conventional general pit excavation pole erection vehicle, Fig. 8 is a view taken in the direction of - arrow in Fig. 7, and Fig. 9 is a FIG. 7 is a vertical cross-sectional view of the main part, and FIG. 10 is a vertical cross-sectional view of the main part of FIG. 1...Vehicle, 5...Boom, 6...Auger, 7
...Screw, 8...Motor unit, 20...
... Auger storage bracket, 21 ... Fitting groove, 25
...Shaft, 26...Spiral blade, 41, 51,
61, 42, 43...Fixed side bracket, 52,
53, 62, 63... Detachable side bracket.

Claims (1)

[Scope of utility model registration request] It has a boom 5 attached to the vehicle 1 so as to be movable up and down, and an auger 6 attached to the tip end 5a of the boom 5 in a suspended state.
The auger 6 is constructed by coaxially connecting a screw 7 with a spiral blade 26 formed on the outer periphery of a shaft 25 and a motor unit 8 for rotationally driving the screw 7.
is held in a hanging state from the tip 5a of the boom 5, and when the auger 6 is not in operation, the auger 6 is pulled up to the side of the boom 5, and the fitting groove 21 of the auger storage bracket 20 is attached to the appropriate position of the boom 5. The auger storage bracket 20 is a hole-drilling pole-erecting vehicle configured to maintain its posture with the shaft 25 of the screw 7 fitted therein.
However, the fixed side brackets 41, 51, 61 fixed to the boom 5 side, and the fixed side bracket 4
1, 51, 61, a plurality of removable side brackets 42, which can be fastened and fixed directly or indirectly to
It has a divided structure consisting of 43, 52, 53, 62, 63, and each of the above-mentioned removable side brackets 42, 4
3, 52, 53, 62, and 63 as appropriate to adjust the relative distance between the boom 5 and the fitting groove 21 of the auger storage bracket 20. A car digging a hole and erecting a pole.