CN203629600U - Sensor mounting rack and engineering machine with same - Google Patents

Abstract

The utility model discloses a sensor mounting rack and an engineering machine with the same. The sensor mounting rack comprises a vertical rack (A) used for installing a sensor (18), a horizontal rack (B) and an installing part (C) connected to an installing foundation (D). The horizontal rack (B) comprises a connecting rod (8) and a horizontal rod (10). The connecting rod (8) and the horizontal plane form an included angle and the connecting rod comprises a first end and a second end. The first end of the connecting rod (8) is connected to the installing part (C). One end of the horizontal rod (10) is connected to the second end of the connecting rod (8) and the other end extends in the horizontal direction and is connected with the vertical rack (A). The adjustment of the height of a sensor can be achieved by overturning the horizontal rack and thus the height adjusting range of the sensor is widened.

Description

Sensor mount and the engineering machinery with this sensor mount

Technical field

The utility model relates to engineering machinery field, particularly, relates to a kind of sensor mount and has the engineering machinery of this sensor mount.

Background technology

In a lot of engineering machinery, all need to arrange sensor for leveling etc., for example, the screed end of paver be provided with sensor mount, Longitudinalwave sensor is arranged on this sensor mount to be used for controlling the head fall on laying thickness and road surface by corresponding benchmark, wherein, described benchmark can be the wire rope of tension, the laying of making, gutter or curb etc., in operation process, in erecting frame, the axis of the spiral distributor of level frame and paver need be consistent, thereby guarantee the normal work of paver screed, the spreading quality of the flatness on road surface and institute's paving layer.

Referring to Fig. 1 to Fig. 3, the sensor mount of existing paver screed is mainly made up of horizon bar 10, fixture and screw regulator 17.Paver screed is provided with mount pad, on this mount pad, be vertically formed with mounting hole, one end of horizon bar 10 is provided with the through hole matching with described mounting hole, screw rod 1 is through described mounting hole and described through hole and match that with the first nut 2 horizon bar 10 is connected on described mount pad, and horizon bar 10 can change installation site around screw rod 1 along continuous straight runs rotation; Described fixture clamps described screw regulator 17 and is slidably mounted on horizon bar 10; Screw regulator 17 be set to adjustable in length and vertically arrange, sensor 18 is arranged on the bottom of screw regulator 17, can regulate the height of sensor 18 by the length of adjustable screw regulator 17; To sum up, vertically regulate sensor 18 by the length of adjustable screw regulator 17, the fixed position by alignment jig on horizon bar 10 is carried out along continuous straight runs and is regulated sensor 18.

The defect mainly existing according to the sensor mount of prior art is: sensor 18 in the vertical direction adjusting positions are limited, and in the time that the benchmark that paves is very high or very low, sensor 18 can not sense reference signal; Hypotelorism between horizon bar 10 and screed, horizon bar 10 is in the time that screw rod 1 rotates, and the miscellaneous part easily and on screed end interferes, impact construction.

Utility model content

The purpose of this utility model is to provide a kind of engineering machinery and sensor mount thereof.

To achieve these goals, the utility model provides a kind of sensor mount, described sensor mount comprises the vertical frame for sensor installation, level frame and for being connected in the installation portion of installing on basis, wherein, described level frame comprises connecting link and horizon bar, described connecting link becomes angle and comprises first end and the second end with surface level, the described first end of described connecting link is used for being connected in described installation portion, one end of described horizon bar is connected in described second end of described connecting link, other end along continuous straight runs extends and is connected with described vertical frame.

Preferably, described connecting link can be connected in described installation portion rotatably around vertical axis.

Preferably, on described installation portion, be formed with the first through hole vertically, on the described first end of described connecting link, be correspondingly formed with the second through hole vertically, the second bolt is connected in described installation portion through described the first through hole and described the second through hole by described connecting link.

Preferably, described horizon bar comprises the body of rod and be set on this body of rod and the bar cover position-movable with respect to this body of rod, and in the described body of rod and described bar cover, the end of one is connected in described connecting link, and the end of another one is connected in described vertical frame.

Preferably, described vertically setting up is set to longitudinal length and can regulates.

Preferably, described vertical frame comprises vertically the leading screw arranging and is set in the guide rod coordinating on leading screw and with this leading screw, and described leading screw is connected in described level frame, another one for being connected described sensor with the one in described guide rod.

Preferably, described sensor is removably connected in the bottom of described vertical frame.

Preferably, described vertical frame is removably connected with described level frame.

Preferably, on described level frame, be provided with installing plate, described vertical frame setting height(from bottom) can regulate and be arranged on described installing plate.

The utility model also relates to a kind of engineering machinery, this project machinery comprises according to sensor mount of the present utility model, described installation portion is arranged on the body as described engineering machinery, the body of this project machinery is as described installation basis, and described installation portion can be installed on described installation basis rotatably around vertical axis.

The utility model provides a kind of sensor mount, and the level frame of described sensor mount is set to comprise the form of connecting link and the horizon bar with certain angle.Because connecting link and surface level have certain angle, after being connected in again on installation portion after connecting link is overturn in perpendicular, the height of the horizon bar being connected with connecting link changes, therefore, the utility model can be realized the adjusting to sensor height by upset level frame, increases the range of adjustment of sensor height.

Other feature and advantage of the present utility model are described in detail the embodiment part subsequently.

Accompanying drawing explanation

Accompanying drawing is to be used to provide further understanding of the present utility model, and forms a part for instructions, is used from explanation the utility model, but does not form restriction of the present utility model with embodiment one below.In the accompanying drawings:

Fig. 1 shows according to the front view of the sensor mount of prior art;

Fig. 2 is the vertical view that shows the sensor mount in Fig. 1;

Fig. 3 is the stereographic map that shows the sensor mount in Fig. 1, has wherein omitted installation foundation and sensor is pulled down from screw regulator than Fig. 1 and Fig. 2;

Fig. 4 shows according to the front view of sensor mount of the present utility model;

Fig. 5 is the vertical view that shows the sensor mount in Fig. 4;

Fig. 6 is the stereographic map that shows the sensor mount in Fig. 4, wherein than Fig. 4 with Fig. 5 has omitted installation foundation and sensor is pulled down from screw regulator;

Fig. 7 is the front view that shows the sensor mount in Fig. 4, has wherein omitted installation foundation and broken section than Fig. 4;

Fig. 8 is the side view that shows the sensor mount in Fig. 7;

Fig. 9 is the enlarged drawing of circle I part in Fig. 7;

Figure 10 is the enlarged drawing of circle II part in Fig. 7;

Figure 11 is the enlarged drawing of circle III part in Fig. 7;

Figure 12 is the horizon bar that shows the sensor mount in Fig. 4, installing plate and for clamping the stereographic map of the syndeton between screw regulator fixture;

Figure 13 shows the connecting link of sensor mount in Fig. 4 and the stereographic map of the syndeton of horizon bar.

Description of reference numerals

The vertical frame B of A level frame

C installation portion D installs basis

1 screw rod 2 first nuts

3 first packing ring 4 holders

5 second bolt 6 second packing rings

7 second nut 8 connecting links

9 adjusting bolt 10 horizon bars

11 buffer stopper 12 securing members

13 installing plate 14 first fixture blocks

15 second fixture block 16 adjuster bars

17 screw regulator 18 sensors

19 screw 20 handles

21 ring sets 22 are sold

23 fixed cover 24 screw mandrels

25 the 3rd pad 26 fixed heads

27 the 3rd bolt 28 the 3rd nuts

29 guide rod sleeve pipe 30 guide rods

31 clips 32 the 4th bolt

33 the 4th nuts

Embodiment

Below in conjunction with accompanying drawing, embodiment of the present utility model is elaborated.Should be understood that, embodiment described herein only, for description and interpretation the utility model, is not limited to the utility model.

In the utility model, in the situation that not doing contrary explanation, the noun of locality using is as undefined in sensor mount or the normal service condition of engineering machinery that " vertical, level " and " upper and lower " normally provides at the utility model, and also with consistent with reference to direction shown in accompanying drawing; " inside and outside " refers to inside and outside with respect to the profile of each parts itself.

In addition, embodiment described below is to carry out as example for sensor mount that Longitudinalwave sensor is installed on paver, but, it will be understood by those skilled in the art that, the utility model should not be limited to embodiment below, and sensor mount of the present utility model can and can have multiple variations for any applicable engineering machinery.

The utility model provides a kind of sensor mount, described sensor mount comprises for vertical frame A, the level frame B of sensor installation 18 and for being connected in the installation portion C installing on basic D, wherein, described level frame B comprises connecting link 8 and horizon bar 10, described connecting link 8 becomes angle and comprises first end and second segment with surface level, the described first end of described connecting link 8 is used for being connected in installation portion C, one end of described horizon bar 10 is connected in described second end of connecting link 8, and other end along continuous straight runs extends and is connected with described vertical frame A.

In sensor mount of the present utility model, level frame B is set to comprise the form of connecting link 8 and the horizon bar 10 each other with certain angle, in this case, because connecting link 8 and surface level have certain angle, after being connected in again on installation portion C when connecting link 8 is overturn in perpendicular after 180 °, the height of the horizon bar 10 being connected with connecting link 8 changes, for example, under the first state shown in the embodiment of Fig. 4, connecting link 8 starts to extend obliquely from installation portion C, now horizon bar 10 is positioned at connecting link 8 tops, when under the second state connecting link 8 being overturn in perpendicular after being installed to again on installation portion C after 180 °, connecting link 3 starts oblique downward-extension from installation portion C, now horizon bar 10 is positioned at connecting link 8 belows, under described the first state and under described the second state, the height at horizon bar 10 places changes, exist certain altitude poor, the sensor 18 being simultaneously connected on vertical frame A highly also can change under described the first state and described the second state, therefore, the utility model can be realized by upset level frame B the increase of the height adjustment range to sensor 18.

Wherein, preferably, connecting link 8 can be connected in installation portion C rotatably around vertical axis, regulate the installation site of sensor mount with respect to installation portion C to facilitate, thereby make sensor mount be arranged on correct job position and can not cause interference to miscellaneous part to the position rotation near installation portion C gradually from the position away from installation portion C around vertical axis when mounted.

As a kind of embodiment, on installation portion C, be formed with the first through hole vertically, on the described first end of connecting link 8, be correspondingly formed with the second through hole vertically, the second bolt 5 is connected in installation portion C through described the first through hole and described the second through hole by connecting link 8.And, particularly, installation portion C is formed as comprising holder 4, this holder 4 comprises bar portion and lays respectively at the first connecting portion and second connecting portion at these bar portion two ends, on described the first connecting portion, be formed with installation through hole vertically, on installation basis 1, be provided with screw rod 1, holder 4 can be enclosed within on described screw rod 1 and by the first nut 2 and the first packing ring 3 and be fixedly mounted on bolt 1 by described installation through hole, described the second connecting portion comprises two clamping plate opposing upper and lower, on these two clamping plate, be formed with accordingly respectively described the first through hole, the described first end of connecting link 8 can be pitched between described two clamping plate, then the second bolt 5 is successively through the through hole on the second packing ring 6, the first through hole on the clamping plate of top, the first through hole on described the second through hole and bottom clamping plate and match that with the second nut 7 connecting link 8 is connected on holder 4, need to be rotatably connected bar 8 time, only need to unscrew the second nut 7, and like this, need to change the height of connecting link 8 time, connecting link 8 is dismantled and in perpendicular, overturn after 180 ° and be arranged on again on holder 4.In addition, installation portion C be set to two ends respectively with installation and the flexible adjustment of basic D and level frame B are installed are hinged with the sensor mount that is beneficial to further raising present embodiment, keeping level frame B and installing under basic D tool prerequisite at regular intervals, level frame B and the interference that the upper miscellaneous part of basic D is installed simultaneously when needed space is avoided regulating while being conducive to reduce to regulate level frame B.

Preferably, horizon bar 10 comprises the body of rod and is set on this body of rod and the bar cover position-movable with respect to this body of rod, in the described body of rod and described bar cover, the end of one is connected in connecting link 8, the end of another one is connected in vertical frame A, like this, by regulating the sheathed each other described body of rod and described bar cover, can change the length of horizon bar 10, strengthen the flexible adjustment of sensor mount.Particularly, in present embodiment, described bar puts and is formed with through hole and in this through hole, adjusting bolt 9 is installed, and is fitted to each other to clamp the described rod member that is positioned at described bar cover by multiple adjusting bolts 9.In addition, in present embodiment, connecting link 8 adopts and is directly welded on the form that described bar puts and is connected with described bar cover, but it will be understood by those skilled in the art that, connecting link 8 can also be connected with horizon bar 10 in other applicable modes, and if need connecting link 8 also can be set to adjustable in length.

Preferably, vertically frame A is removably connected with level frame B, to improve the Installation Flexibility of sensor mount.And, in present embodiment, on level frame B, be provided with installing plate 13, vertically frame A setting height(from bottom) can regulate and be arranged on installing plate 13, thereby further increases the adjustable extent of sensor height.Further particularly, installing plate 13 is removably connected in the described other end of horizon bar 10, on installing plate 13, be vertically formed with many row's connecting holes, be arranged on installing plate 13 for the fixture that clamps vertical frame A, this fixture can select two row's connecting holes of the arbitrary neighborhood in described many row's connecting holes to be coordinated and installed by securing member 12, therefore the setting height(from bottom) of this fixture on installing plate 13 is adjustable, in order to reduce vibration, between this fixture and installing plate 13, be also provided with buffer stopper 11.

It will be understood by those skilled in the art that, above-mentioned can adopt for clamping the fixture of vertical frame A the known fixture being applicable to arbitrarily, in present embodiment, described fixture comprises the first fixture block 14 and the second fixture block 15, the first fixture block 14 with on the second fixture block 15, be formed with respectively clip slot relative and that match, adjuster bar 16 passes and connects the first fixture block 14 and the second fixture block 15, thereby by regulating adjuster bar 16 can regulate the distance between the first fixture block 14 and the second fixture block 15 that vertical frame A is clamped.

In addition, vertical frame A is set to longitudinal length and can regulates, to adjust the height of sensor 18 by the length that regulates vertical frame A.In present embodiment, vertically frame A comprise the adjustable screw regulator 17 of superposed longitudinal length and be connected in these screw regulator 17 lower ends for clamping the clip of sensor 18.

Particularly, screw regulator 17 comprises vertically the leading screw 24 arranging and is set in the guide rod 30 coordinating on leading screw 24 and with this leading screw 24, and the one in leading screw 24 and guide rod 30 is connected in level frame B, another one for connecting sensor 18.

Further particularly, screw regulator 17 comprises the guide rod sleeve pipe 19 being enclosed within on guide rod 30, the top of guide rod sleeve pipe 19 is provided with ring set 21, ring set 21 peripheries stretch out and form fixed head 26, this fixed head 26 is by the 3rd pad 25 matching, the 3rd bolt 27 and the 3rd nut 28 are removably fixed on the top of guide rod sleeve pipe 19, the top of leading screw 24 is provided with fixed cover 23, leading screw 24 and be enclosed within fixed cover 23 on the leading screw 24 vertical through hole from ring set 21 and upwards pass, sell 22 along continuous straight runs through ring set 21, fixed cover 23 with leading screw 24 so that leading screw 24 is relative with guide rod sleeve pipe 19 fixing, and leading screw 24 tops are also provided with the fixing handle of screw 19 20 are set, on the outer peripheral face of leading screw 24 and on the inner peripheral surface of guide rod 30, be formed with respectively the screw thread matching, when by handle 20 rotating threaded shaft 24, leading screw 24 drives guide rod sleeve pipe 19 to move with respect to guide rod 30, thereby the length of screw regulator 17 is changed.

Preferably, sensor 18 can removably be connected in the bottom of vertical frame A.Particularly, bottom at leading screw 24 is connected with clip 31 by the 4th bolt 32 and the 4th nut 33, on this clip 31, be formed with through hole and adjusting bolt 9 is installed in through hole, thereby sensor 18 can be stuck in clip 31 and be realized and fixing by adjusting bolt 9.

In addition; the present invention is claimed a kind of engineering machinery also; this project machinery comprises according to sensor mount of the present invention; described installation portion C is arranged on the body as described engineering machinery; the body of this project machinery is as the basic D of described installation; and preferably described installation portion C can be installed on the basic D of described installation rotatably around vertical axis.

Below describe by reference to the accompanying drawings preferred implementation of the present utility model in detail; but; the utility model is not limited to the detail in above-mentioned embodiment; within the scope of technical conceive of the present utility model; can carry out multiple simple variant to the technical solution of the utility model, these simple variant all belong to protection domain of the present utility model.

It should be noted that in addition, each concrete technical characterictic described in above-mentioned embodiment, in reconcilable situation, can combine by any suitable mode, for fear of unnecessary repetition, the utility model is to the explanation no longer separately of various possible array modes.

In addition, also can carry out combination in any between various embodiment of the present utility model, as long as it is without prejudice to thought of the present utility model, it should be considered as content disclosed in the utility model equally.

Claims (10)

1. a sensor mount, described sensor mount comprises the vertical frame (A) for sensor installation (18), level frame (B) and the installation portion (C) of basis on (D) is installed for being connected in, it is characterized in that, described level frame (B) comprises connecting link (8) and horizon bar (10), described connecting link (8) becomes angle and comprises first end and the second end with surface level, the described first end of described connecting link (8) is used for being connected in described installation portion (C), one end of described horizon bar (10) is connected in described second end of described connecting link (8), other end along continuous straight runs extends and is connected with described vertical frame (A).

2. sensor mount according to claim 1, is characterized in that, described connecting link (8) can be connected in described installation portion (C) rotatably around vertical axis.

3. sensor mount according to claim 2, it is characterized in that, on described installation portion (C), be formed with the first through hole vertically, on the described first end of described connecting link (8), be correspondingly formed with the second through hole vertically, the second bolt (5) is connected in described installation portion (C) through described the first through hole and described the second through hole by described connecting link (8).

4. sensor mount according to claim 1, it is characterized in that, described horizon bar (10) comprises the body of rod and is set on this body of rod and the bar cover position-movable with respect to this body of rod, in the described body of rod and described bar cover, the end of one is connected in described connecting link (8), and the end of another one is connected in described vertical frame (A).

5. sensor mount according to claim 4, is characterized in that, described vertical frame (A) is set to longitudinal length and can regulates.

6. sensor mount according to claim 5, it is characterized in that, described vertical frame (A) comprises vertically the leading screw (24) arranging and is set in the guide rod (30) that leading screw (24) is upper and coordinate with this leading screw (24), and described leading screw (24) is connected in described level frame (B) with the one in described guide rod (30), another one is used for being connected described sensor (18).

7. sensor mount according to claim 5, is characterized in that, described sensor (18) is removably connected in the bottom of described vertical frame (A).

8. the mounting structure of sensor mount according to claim 1, is characterized in that, described vertical frame (A) is removably connected with described level frame (B).

9. according to the sensor mount described in any one in claim 1-8, it is characterized in that, be provided with installing plate (13) on described level frame (B), described vertical frame (A) setting height(from bottom) can regulate and be arranged on described installing plate (13).

10. an engineering machinery, it is characterized in that, this project machinery comprises according to the sensor mount described in any one in claim 1-9, described installation portion (C) is arranged on the body as described engineering machinery, the body of this project machinery is as described installation basis (D), and described installation portion (C) can be installed on described installation basis (D) rotatably around vertical axis.

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