CN204535733U - A kind of mounting frame for sensor - Google Patents

Abstract

The utility model discloses a kind of mounting frame for sensor, comprise support body, at least one first adjustment arm, at least one first universal joint and at least one sensor pedestal; One end of described first adjustment arm is connected with described support body, and the other end of described first adjustment arm is connected with described sensor pedestal by described first universal joint; Described first universal joint comprises: first tightens handle, the first locking clamp, the first gripping sleeve, the first tightening threaded rod, clamping screw and gland nut; Described clamping screw, through the via hole of the 3rd via hole of described first gripping sleeve, the 4th via hole of described first clamping screw and described sensor pedestal, coordinates fixing described sensor pedestal with described gland nut.This support makes the measuring position of sensor adjustable flexibly, expands the measurement range of sensor.

Description

A kind of mounting frame for sensor

Technical field

The utility model relates to sensor technical field, particularly relates to a kind of mounting frame for sensor.

Background technology

Existing mounting frame for sensor be mostly only for the installation of the sensor of assigned position with fixing, once install fixing after the position of sensor and measurement range just immutable.In actual use due to the range of sensor and installation site restriction, need to adjust the distance between the installation site of sensor and measurand.Need a lot of instruments, device, auxiliary material in the on-the-spot such adjustment of practical application, waste time and energy, and initial makeup location is difficult to determine.Simultaneously in use along with the variation of measured object position, measuring distance may exceed transducer range, again installs and will delay testing progress.

In sum, need a kind of mounting frame for sensor badly, in order to realize along with the variation of measured object position, and can the taking measurement of an angle of freely regulated sensor.

Utility model content

The utility model embodiment provides a kind of mounting frame for sensor, when carrying out mounting and adjusting and preliminary calibration (demarcation) to sensor, can the measuring position of 360 ° of comprehensive adjustment sensors, and along with test position variation, by the adjustable universal joint of adjustment, measuring height and the position of sensor can be adjusted freely.

To achieve these goals, the utility model embodiment provides a kind of mounting frame for sensor, comprising: support body, at least one first adjustment arm, at least one first universal joint and at least one sensor pedestal;

One end of described first adjustment arm is connected with described support body, and the other end of described first adjustment arm is connected with described sensor pedestal by described first universal joint;

Described first universal joint comprises: first tightens handle, the first locking clamp, the first gripping sleeve, the first clamping screw, clamping screw and gland nut;

The other end of described first adjustment arm, through the first via hole of described first locking clamp, tightens handle, described first gripping sleeve and described first locking clamp of described first clamping screw clamping with the other end of fixing described first adjustment arm by described first;

Described clamping screw, through the via hole of the 3rd via hole of described first gripping sleeve, the 4th via hole of described first clamping screw and described sensor pedestal, coordinates fixing described sensor pedestal with described gland nut.

Preferably, also comprise: at least one second adjustment arm and at least one second universal joint;

One end of described first adjustment arm is connected with described support body by described second adjustment arm;

One end of described second adjustment arm connects described support body, and the other end of described second adjustment arm is connected with described first one end adjusting arm by described second universal joint;

Described second universal joint comprises: second tightens handle, the second locking clamp, the second gripping sleeve, the second clamping screw;

The other end of described second adjustment arm, through the 6th via hole of described second locking clamp, tightens handle, described second gripping sleeve and described second locking clamp of described second clamping screw clamping with the other end of fixing described second adjustment arm by described second;

One end of described first adjustment arm through the 8th via hole of described second clamping screw and the 9th via hole of described second gripping sleeve, is tightened handle by described second and to be coordinated with described second clamping screw and fix one end that described first adjusts arm.

Preferably, described first tighten in handle and be provided with threaded hole;

Described first locking clamp, is provided with described first via hole supplying the other end of described first adjustment arm to pass, and the second via hole coordinated with the first gripping sleeve, the first clamping screw;

Described first clamping screw is provided with described 3rd via hole and threaded screw rod, and the threaded hole that described threaded screw rod and described first tightens handle is suitable;

Described first gripping sleeve is provided with described four via hole suitable with described 3rd via hole of described first clamping screw, and for the 5th via hole that described first clamping screw passes;

Described clamping screw is connected with described gland nut by the via hole of described 3rd via hole, described 4th via hole, described sensor pedestal, for fixing described sensor pedestal;

The threaded screw rod of described first clamping screw is connected with described first threaded hole tightening handle through described 5th via hole of described first gripping sleeve and described second via hole of described first locking clamp, for clamping described first locking clamp to be secured across the other end of the described first adjustment arm of described first via hole.

Preferably, described second tighten in handle and be provided with threaded hole;

Described second locking clamp, is provided with described 6th via hole supplying the other end of described second adjustment arm to pass, and the 7th via hole coordinated with the second gripping sleeve, the second clamping screw;

Described second clamping screw is provided with described 8th via hole and threaded screw rod, and the threaded hole that described threaded screw rod and described second tightens handle is suitable;

Described second gripping sleeve is provided with described nine via hole suitable with described 8th via hole of described second clamping screw, and for the tenth via hole that described second clamping screw passes;

The threaded screw rod of described second clamping screw is connected with described second threaded hole tightening handle through described tenth via hole of described second gripping sleeve and the 7th via hole of described second locking clamp, for clamping described second locking clamp to be secured across the other end of the described second adjustment arm of described 6th via hole;

One end of described first adjustment arm is through described 9th via hole of described second gripping sleeve and described 8th via hole of the second clamping screw, the threaded screw rod of described second clamping screw passes described tenth via hole of described second gripping sleeve, and the 7th via hole of described second locking clamp is connected the one end adjusting arm for fixing described first with described second threaded hole tightening handle.

Preferably, also comprise: be arranged on the vertical clamping leading screw of support body both sides and laterally clamp leading screw, described vertical clamping leading screw is connected with described support body by feed screw nut with described laterally clamping leading screw.

Preferably, described support body is provided with threaded hole, and one end of described second adjustment arm is by being screwed in the threaded hole of support body.

Preferably, the side of the second via hole of described first locking clamp and the shape of described first gripping sleeve one end suitable, the opposite side of the second via hole of described first locking clamp and the threaded screw rod of described first clamping screw suitable.

Preferably, the side of the 7th via hole of described second locking clamp and the shape of described second gripping sleeve one end suitable, the opposite side of the 7th via hole of described second locking clamp and the threaded screw rod of described second clamping screw suitable.

Preferably, described first gripping sleeve and described second gripping sleeve are taper gripping sleeve.

Preferably, described sensor pedestal is provided with mounting hole and erection bolt, by described erection bolt through described mounting hole fixation of sensor.

In mounting frame for sensor in above-described embodiment, comprise support body, at least one first adjustment arm, at least one first universal joint and at least one sensor pedestal; One end of described first adjustment arm is connected with described support body, and the other end of described first adjustment arm is connected with described sensor pedestal by described first universal joint; Described first universal joint comprises: first tightens handle, the first locking clamp, the first gripping sleeve, the first tightening threaded rod, clamping screw and gland nut; The other end of described first adjustment arm, through the first via hole of described first locking clamp, tightens handle, described first gripping sleeve and described first locking clamp of described first clamping screw clamping with the other end of fixing described first adjustment arm by described first; Described clamping screw, through the via hole of the 3rd via hole of described first gripping sleeve, the 4th via hole of described first clamping screw and described sensor pedestal, coordinates fixing described sensor pedestal with described gland nut.This support can the measuring position of 360 ° of comprehensive adjustment sensors, taking measurement of an angle of sensor can be regulated by regulating described clamping screw and gland nut, described first locking clamp can carry out 360 ° of rotations around described first gripping sleeve and described first clamping screw, meanwhile, described first universal joint can carry out 360 ° of rotations around described first adjustment arm.360 ° of angles regulating described first universal joint just can regulate the measurement of sensor can be carried out around described clamping screw by tightening and unscrewing described clamping screw, regulate the distance of the described first adjustment arm of described first universal joint clamping, can heighten or turn down the height of sensor, increase the flexibility ratio of sensor adjustment.

Accompanying drawing explanation

In order to be illustrated more clearly in the technical scheme in the utility model embodiment, below the accompanying drawing used required in describing embodiment is briefly introduced, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

Fig. 1 is the structural representation of a kind of mounting frame for sensor in the utility model embodiment;

Fig. 2 a to Fig. 2 d is the structural representation of the first universal joint in the utility model embodiment;

Fig. 3 is the structural representation of sensor pedestal in the utility model embodiment;

Fig. 4 is the partial enlarged drawing of the first universal joint syndeton in the utility model embodiment;

Fig. 5 a to Fig. 5 c is the structural representation of the second universal joint in the utility model embodiment;

Fig. 6 is the local Fang great Tu of the second universal joint syndeton in the utility model embodiment.

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearly, below in conjunction with accompanying drawing, the utility model is described in further detail, obviously, described embodiment is only a part of embodiment of the utility model, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making other embodiments all obtained under creative work prerequisite, all belong to the scope of the utility model protection.

Sensor in the utility model embodiment can be laser displacement sensor, and also can be other sensor, the utility model embodiment limit, and only plays example effect.

Because sensor is in the process measured, the position of measured object can change, therefore, the utility model embodiment provides a kind of mounting frame for sensor, as shown in Figure 1, described mounting frame for sensor comprises: support body 101, at least one first adjustment arm 103, at least one first universal joint 102 and at least one sensor pedestal 104; One end of described first adjustment arm 103 is connected with described support body 101, and the other end of described first adjustment arm 103 is connected with described sensor pedestal 104 by described first universal joint 102, and concrete syndeton as shown in Figure 4.Described first universal joint 102 comprises: first tightens handle 1021, first locking clamp 1022, first gripping sleeve 1023, first clamping screw 1024, clamping screw 10251 and gland nut 10252; The other end of described first adjustment arm 103, through the first via hole 1026 of described first locking clamp 1022, is tightened handle 1021, described first gripping sleeve 1023 and described first clamping screw 1024 by described first and is clamped described first locking clamp 1022 with the other end of fixing described first adjustment arm 103; Described clamping screw 10251, through the 4th via hole 1029 of described first gripping sleeve 1023, the 3rd via hole 1028 of described first clamping screw 1024 and the via hole 1043 of described sensor pedestal 104, coordinates with described gland nut 10252 and fixes described sensor pedestal 104.Wherein, the concrete structure of described first universal joint 102 is as shown in Fig. 2 a to Fig. 2 d.

Described in the utility model embodiment, the length of the first adjustment arm 103 is 200mm, and can also be other length, the utility model embodiment be only example effect, and the length of described first adjustment arm 103 is according to practical application unrestricted choice.Described first universal joint 102 is adjustable universal joint, wherein said first locking clamp 1022 can carry out 360 ° of rotations around described first gripping sleeve 1023 and described first clamping screw 1024, meanwhile, described first universal joint 102 can carry out 360 ° of rotations around described first adjustment arm 103.Above-mentioned first adjustment arm 103 and the first universal joint 102, sensor pedestal 104 are relation one to one, it is installation sensor in actual application, support the use one first adjustment arm 103 and first universal joint 102, sensor pedestal 104, a support body 101 can install multiple first adjustment arm 103 and multiple first universal joint 102, multiple sensor pedestal 104, a support body 101 needs to install several sensor, just can use several first adjustment arm 103, first universal joint 102 and sensor pedestal 104.

The angle of the utility model embodiment by regulating described first universal joint 102 just can regulate the measurement of sensor, described first universal joint 102 is regulated to clamp the distance of described first adjustment arm 103, can heighten or turn down the height of sensor, increase the flexibility ratio of sensor adjustment.And mounting frame for sensor structure in the utility model embodiment is simple, it is convenient to install, and both can complete without the need to the instrument of specialty, device, auxiliary material.

Mounting frame for sensor in the utility model embodiment also comprises: at least one the second adjustment arm 106 and at least one second universal joint 105; One end of described first adjustment arm 103 is connected with described support body 101 by described second adjustment arm 106; One end of described second adjustment arm 106 connects described support body 101, and the other end of described second adjustment arm 106 is connected with described first one end adjusting arm 103 by described second universal joint 105, and concrete syndeton as shown in Figure 6; Described second universal joint 105 comprises: second tightens handle 1051, second locking clamp 1052, second gripping sleeve 1053, second clamping screw 1054; The other end of described second adjustment arm 106, through the 6th via hole 1055 of described second locking clamp 1052, is tightened handle 1051, described second gripping sleeve 1053 and described second clamping screw 1054 by described second and is clamped described second locking clamp 1052 with the other end of fixing described second adjustment arm 106; One end of described first adjustment arm 103 through the 8th via hole 1057 of described second clamping screw 1054 and the 9th via hole 1058 of described second gripping sleeve 1053, is tightened handle 1051 by described second and to be coordinated with described second clamping screw 1054 and fix one end that described first adjusts arm 103.Wherein, the concrete structure of described second universal joint 105 is as shown in Fig. 5 a to 5c.

One end of described second adjustment arm 106 has screw thread, and described support body 101 is provided with threaded hole, and one end of described second adjustment arm 106 is by being screwed in the threaded hole of support body 101.Described in the utility model embodiment, the length of the second adjustment arm 106 is 310mm, and can also be other length, the utility model embodiment be only example effect, and the length of described first adjustment arm 103 is according to practical application unrestricted choice.The specification of screw thread of one end of described second adjustment arm 106 is M20 × 1, and the specification of the threaded hole on described support body 101 is M20 × 1, and to adjust the screw thread of one end of arm 106 suitable with described second.Described second universal joint 105 is adjustable universal joint, wherein said second locking clamp 1052 can carry out 360 ° of rotations around described second gripping sleeve 1053 and described second clamping screw 1054 in a plane, meanwhile, described second universal joint 105 also can carry out 360 ° of rotations around described second adjustment arm 106.Described second adjustment arm 106 and described second universal joint 105 be relation one to one, and described second to adjust arm 106 consistent with the quantity that the quantity and described first of described second universal joint 105 adjusts arm 103, can select according to practical application.

Angle and the height of the utility model embodiment by regulating described second universal joint 105 further can regulate the measurement of sensor, described first adjustment arm 103 can carry out 360 ° of omnibearing rotations around described second universal joint 105, described second universal joint 105 is regulated to clamp the distance of described second adjustment arm 106, can further heighten or turn down the height of sensor, increase the flexibility ratio of sensor adjustment further.

The mounting frame for sensor that the utility model embodiment provides also comprises: be arranged on the vertical clamping leading screw 108 of support body 101 both sides and laterally clamp leading screw 107, and described vertical clamping leading screw 108 is connected with described support body 101 by feed screw nut 109 with described laterally clamping leading screw 107.Can described support body 101 be fixed on simulation box by described vertical clamping leading screw 108 and described laterally clamping leading screw 107, described support body 101 can be high strength rectangle steel, specification can be 60 × 40 × 5.0, laterally clamping leading screw 107 is for horizontal fixing bracket body 101, and vertical clamping leading screw 108 is for vertical fixing bracket body 101.The specification of wherein said laterally clamping leading screw 107 and described vertical clamping leading screw 108 can be T20 × 4, and length can be 150mm.Data in the utility model embodiment are only example effects, can also be other any specifications, be not limited thereto, select according to practical application.

In order to better explain the utility model embodiment, the structure of above-mentioned first universal joint 102 is as shown in Fig. 2 a to Fig. 2 d, Fig. 2 a shows a side of described first universal joint 102, Fig. 2 b shows the another side of described first universal joint 102, Fig. 2 c shows the sectional view of described first universal joint 102, can find out that described first tightens in handle 1021 and be provided with threaded hole, described first locking clamp 1022, is provided with the first via hole 1026 supplying the other end of described first adjustment arm 103 to pass, and the second via hole 1027 coordinated with the first gripping sleeve 1023, first clamping screw 1024, described first clamping screw 1024 is provided with the 3rd via hole 1028 and threaded screw rod, the threaded hole that described threaded screw rod and described first tightens handle 1021 is suitable, and the specification that the screw thread specification on described threaded screw rod and described first tightens the screw thread of the threaded hole of handle 1021 is consistent, described first gripping sleeve 1023 is provided with four via hole 1029 suitable with the 3rd via hole 1028 of described first clamping screw 1024, and for the 5th via hole 1020 that described first clamping screw 1024 passes, wherein, described 3rd via hole 1028 and the aperture of described 4th via hole 1029 are more than or equal to the diameter of described clamping screw 10251, preferably, described 3rd via hole 1028 and the aperture of described 4th via hole 1029 equal the diameter of described clamping screw 10251, when tightening described first and tightening handle 1021, described clamping screw 10251 can be clamped by the dislocation of described 3rd via hole 1028 and described 4th via hole 1029, shown in concrete visible Fig. 2 d (saving clamping screw 10251 and gland nut 10252 in figure), the 3rd via hole 1028 in figure overlaps with the 4th via hole 1029, its cut-open view illustrate only a hole, described clamping screw 10251 is connected with gland nut 10252 by the via hole on described 3rd via hole 1028, described 4th via hole 1029, sensor pedestal 104, consistent with the specification of described gland nut 10252 for the specification of clamping screw 10251 described in fixing described sensor pedestal 104, the threaded screw rod of described first clamping screw 1024 is connected with described first threaded hole tightening handle 1021 through the 5th via hole 1020 of described first gripping sleeve 1023 and the second via hole 1027 of described first locking clamp 1022, for clamping described first locking clamp 1022 to be secured across the other end of the described first adjustment arm 103 of described first via hole 1026, described first is utilized to tighten handle 1021 and described first clamping screw 1024, described first locking clamp 1022 can be tightened, further the other end of the described first adjustment arm 103 of clamping.

Wherein, (in figure, save clamping screw 10251 and gland nut 10252) as shown in Figure 2 c, the side of the second via hole 1027 of described first locking clamp 1022 and the shape of described first gripping sleeve 1023 one end suitable, the opposite side of the second via hole 1027 of described first locking clamp 1022 and the threaded screw rod of described first clamping screw 1024 suitable.Second via hole 1027 of described first locking clamp 1022 is made up of two parts, side is suitable with the shape of one end of described first gripping sleeve 1023, shape can be semicircle, also can be triangle or other shape, opposite side is suitable with the diameter of described first clamping screw 1024, the aperture of described opposite side is less than the aperture of described side, when tightening handle described in tightening, the side of described first locking clamp 1022 is stopped by the opposite side of described first locking clamp 1022, stop described first gripping sleeve 1023, and then tighten described first locking clamp 1022.

Fig. 3 shows the structure of sensor pedestal 104 in the utility model embodiment, and Fig. 4 shows the first universal joint 102 syndeton in the utility model embodiment.Described sensor pedestal 104 is provided with mounting hole and erection bolt, by described erection bolt through described mounting hole fixation of sensor.Described erection bolt comprises installs screw rod 1041 and mounting nuts 1042, sensor pedestal 104 is fixed on the first universal joint 102 through the via hole 1043 on sensor pedestal 104 by the clamping screw 10251 shown in figure, can carry out taking measurement of an angle of the described sensor of adjustment of 360 ° by tightening and unscrewing described clamping screw 10251 around described clamping screw 10251.Described first adjustment arm 103 is through the first via hole 1026 of the first locking clamp 1022 of described first universal joint 102.

In order to better explain the utility model embodiment, the structure of above-mentioned second universal joint 105 as shown in Figure 5 a to 5 c shown in, Fig. 5 a shows a side of described second universal joint 105, Fig. 5 b shows the sectional view of described first universal joint 102 decomposition texture, Fig. 5 c shows the as a whole sectional view of the combination of described second universal joint 105, and described second tightens in handle 1051 and be provided with threaded hole, described second locking clamp 1052, is provided with the 6th via hole 1055 supplying the other end of described second adjustment arm 106 to pass, and the 7th via hole 1056 coordinated with the second gripping sleeve 1053, second clamping screw 1054, described second clamping screw 1054 is provided with the 8th via hole 1057 and threaded screw rod, the threaded hole that described threaded screw rod and described second tightens handle 1051 is suitable, and the screw thread specification that the screw thread specification on described threaded screw rod and described second tightens the threaded hole of handle 1051 is consistent, described second gripping sleeve 1053 is provided with nine via hole 1058 suitable with the 8th via hole 1057 of described second clamping screw 1054, and for the tenth via hole 1059 that described second clamping screw 1054 passes, wherein, described 8th via hole 1057 is more than or equal to the aperture of described 9th via hole 1058 diameter that described first adjusts arm 103, preferably, described 8th via hole 1057 equals with the aperture of described 9th via hole 1058 diameter that described first adjusts arm 103, when tightening described second and tightening handle 1051, arm 103 can be adjusted by the dislocation clamping described first of described 8th via hole 1057 and described 9th via hole 1058, shown in concrete visible Fig. 5 c, the 8th via hole 1057 in figure overlaps with the 9th via hole 1058, its cut-open view illustrate only a hole, the threaded screw rod of described second clamping screw 1054 is connected with described second threaded hole tightening handle 1051 through the tenth via hole 1059 of described second gripping sleeve 1053 and the 7th via hole 1056 of described second locking clamp 1052, for clamping described second locking clamp 1052 to be secured across the other end of the described second adjustment arm 106 of described 6th via hole 1055, one end of described first adjustment arm 103 is through the 9th via hole 1058 of described second gripping sleeve 1053 and the 8th via hole 1057 of the second clamping screw 1054, the threaded screw rod of described second clamping screw 1054 passes the tenth via hole 1059 of described second gripping sleeve 1053, and the 7th via hole 1056 of described second locking clamp 1052 is connected the one end adjusting arm 103 for fixing described first with described second threaded hole tightening handle 1051.Utilize described second to tighten handle 1051 and described second clamping screw 1054, described second locking clamp 1052 can be tightened, the further other end of the described second adjustment arm 106 of clamping, and one end of described first adjustment arm 103.

Wherein, as shown in Figure 5 b, the side of the 7th via hole 1056 of described second locking clamp 1052 and the shape of described second gripping sleeve 1053 one end suitable, the opposite side of the 7th via hole 1056 of described second locking clamp 1052 and the threaded screw rod of described second clamping screw 1054 suitable.7th via hole 1056 of described second locking clamp 1052 is made up of two parts, side is suitable with the shape of one end of described second gripping sleeve 1053, shape can be semicircle, also can be triangle or other shape, opposite side is to adaptation with the screw diameter of described second clamping screw 1054, the aperture of described opposite side is less than the aperture of described side, when tightening handle described in tightening, the side of described second locking clamp 1052 is stopped by the opposite side of described second locking clamp 1052, stop described second gripping sleeve 1053, and then tighten described second locking clamp 1052.

The flow process adjusting described mounting frame for sensor is additionally provided in the utility model embodiment, comprise: the second adjustment arm 106 and high strength main frame are threaded through connection, first adjustment arm 103 and the second adjustment arm 106 are connected and fixed by the second adjustable universal joint, and the first universal joint 102 is connected and fixed sensor pedestal 104 and the first adjustment arm 103.The adjusting nut adjusting the first universal joint 102 according to the measurement range of concrete measuring position, sensor and working method can change the position in the plane being axle center with the first adjustment arm 103 of sensor and the high and low position on the first adjustment arm 103.Adjust the position that the second universal joint 105 can change the first adjustment arm 103, thus the position driving the first adjustment arm 103 and sensor pedestal 104 to realize in the plane being axle center with the second adjustment arm 106 changes.Mobile high strength main frame can make whole measurement mechanism measure in the plane perpendicular to high strength main frame, really realizes comprehensive measurement.

Preferably, above-mentioned first gripping sleeve 1023 and the second gripping sleeve 1053 are taper gripping sleeve, and described first gripping sleeve 1023 and described second gripping sleeve 1053 also can be the gripping sleeves of other shape, and the utility model embodiment does not do this restriction.

In sum, in the utility model embodiment, described mounting frame for sensor carries out mounting and adjusting and preliminary calibration (demarcation) during at sensor application scene, need not adjust and come with the instrument, device, auxiliary material etc. required for preliminary calibration (demarcation).Can the measuring position of 360 ° of comprehensive adjustment sensors, and along with test position variation can by the measuring height of adjustment two adjustable universal joint adjustment sensor and position, laterally and vertically clamp the installation site that leading screw 108 adjusts high strength main frame, make measuring position adjustable flexibly, expand the measurement range of sensor.

Although described preferred embodiment of the present utility model, those skilled in the art once obtain the basic creative concept of cicada, then can make other change and amendment to these embodiments.So claims are intended to be interpreted as comprising preferred embodiment and falling into all changes and the amendment of the utility model scope.

Obviously, those skilled in the art can carry out various change and modification to the utility model and not depart from spirit and scope of the present utility model.Like this, if these amendments of the present utility model and modification belong within the scope of the utility model claim and equivalent technologies thereof, then the utility model is also intended to comprise these change and modification.

Claims (10)

1. a mounting frame for sensor, is characterized in that, comprising: support body, at least one first adjustment arm, at least one first universal joint and at least one sensor pedestal;

One end of described first adjustment arm is connected with described support body, and the other end of described first adjustment arm is connected with described sensor pedestal by described first universal joint;

Described first universal joint comprises: first tightens handle, the first locking clamp, the first gripping sleeve, the first clamping screw, clamping screw and gland nut;

The other end of described first adjustment arm, through the first via hole of described first locking clamp, tightens handle, described first gripping sleeve and described first locking clamp of described first clamping screw clamping with the other end of fixing described first adjustment arm by described first;

Described clamping screw, through the via hole of the 3rd via hole of described first gripping sleeve, the 4th via hole of described first clamping screw and described sensor pedestal, coordinates fixing described sensor pedestal with described gland nut.

2. mounting frame for sensor as claimed in claim 1, is characterized in that, also comprise: at least one second adjustment arm and at least one second universal joint;

One end of described first adjustment arm is connected with described support body by described second adjustment arm;

One end of described second adjustment arm connects described support body, and the other end of described second adjustment arm is connected with described first one end adjusting arm by described second universal joint;

Described second universal joint comprises: second tightens handle, the second locking clamp, the second gripping sleeve, the second clamping screw;

The other end of described second adjustment arm, through the 6th via hole of described second locking clamp, tightens handle, described second gripping sleeve and described second locking clamp of described second clamping screw clamping with the other end of fixing described second adjustment arm by described second;

One end of described first adjustment arm through the 8th via hole of described second clamping screw and the 9th via hole of described second gripping sleeve, is tightened handle by described second and to be coordinated with described second clamping screw and fix one end that described first adjusts arm.

3. mounting frame for sensor as claimed in claim 1, is characterized in that, described first tightens in handle and be provided with threaded hole;

Described first locking clamp, is provided with described first via hole supplying the other end of described first adjustment arm to pass, and the second via hole coordinated with the first gripping sleeve, the first clamping screw;

Described first clamping screw is provided with described 3rd via hole and threaded screw rod, and the threaded hole that described threaded screw rod and described first tightens handle is suitable;

Described first gripping sleeve is provided with described four via hole suitable with described 3rd via hole of described first clamping screw, and for the 5th via hole that described first clamping screw passes;

Described clamping screw is connected with described gland nut by the via hole of described 3rd via hole, described 4th via hole, described sensor pedestal, for fixing described sensor pedestal;

The threaded screw rod of described first clamping screw is connected with described first threaded hole tightening handle through described 5th via hole of described first gripping sleeve and described second via hole of described first locking clamp, for clamping described first locking clamp to be secured across the other end of the described first adjustment arm of described first via hole.

4. mounting frame for sensor as claimed in claim 2, is characterized in that, described second tightens in handle and be provided with threaded hole;

Described second locking clamp, is provided with described 6th via hole supplying the other end of described second adjustment arm to pass, and the 7th via hole coordinated with the second gripping sleeve, the second clamping screw;

Described second clamping screw is provided with described 8th via hole and threaded screw rod, and the threaded hole that described threaded screw rod and described second tightens handle is suitable;

Described second gripping sleeve is provided with described nine via hole suitable with described 8th via hole of described second clamping screw, and for the tenth via hole that described second clamping screw passes;

The threaded screw rod of described second clamping screw is connected with described second threaded hole tightening handle through described tenth via hole of described second gripping sleeve and the 7th via hole of described second locking clamp, for clamping described second locking clamp to be secured across the other end of the described second adjustment arm of described 6th via hole;

One end of described first adjustment arm is through described 9th via hole of described second gripping sleeve and described 8th via hole of the second clamping screw, the threaded screw rod of described second clamping screw passes described tenth via hole of described second gripping sleeve, and the 7th via hole of described second locking clamp is connected the one end adjusting arm for fixing described first with described second threaded hole tightening handle.

5. mounting frame for sensor as claimed in claim 2, is characterized in that, also comprise: be arranged on the vertical clamping leading screw of support body both sides and laterally clamp leading screw, and described vertical clamping leading screw is connected with described support body by feed screw nut with described laterally clamping leading screw.

6. mounting frame for sensor as claimed in claim 2, it is characterized in that, described support body is provided with threaded hole, and one end of described second adjustment arm is by being screwed in the threaded hole of support body.

7. mounting frame for sensor as claimed in claim 2, it is characterized in that, the side of the second via hole of described first locking clamp and the shape of described first gripping sleeve one end suitable, the opposite side of the second via hole of described first locking clamp and the threaded screw rod of described first clamping screw suitable.

8. mounting frame for sensor as claimed in claim 2, it is characterized in that, the side of the 7th via hole of described second locking clamp and the shape of described second gripping sleeve one end suitable, the opposite side of the 7th via hole of described second locking clamp and the threaded screw rod of described second clamping screw suitable.

9. as claim 2,4 to 7 arbitrary as described in mounting frame for sensor, it is characterized in that, described first gripping sleeve and described second gripping sleeve are taper gripping sleeve.

10. the mounting frame for sensor as described in as arbitrary in claim 2 to 7, it is characterized in that, described sensor pedestal is provided with mounting hole and erection bolt, by described erection bolt through described mounting hole fixation of sensor.