CN211083323U - Azimuth adjusting base - Google Patents

Abstract

The utility model discloses an azimuth adjustment base, include: the bottom part, the bearing top part, the hinge part and the adjusting support part are fixedly connected; the adjusting support part comprises a fixed support connecting component and at least one movable support connecting component; one end of the fixed support connecting component is fixedly connected with the bottom, and the other end of the fixed support connecting component is hinged with the bearing top through a hinge part; one end of the movable support connecting component is hinged with the fixed connection bottom, the other end of the movable support connecting component is hinged with the bearing top or the hinged part, and the bearing top can be inclined and adjusted by the hinged part; the movable support connecting component can be adjusted in length and has a locking function, and the distance and the inclined position between the bearing top and the fixedly connected bottom can be changed by adjusting the length and the inclined angle of the movable support connecting component; the movable supporting connecting components and the fixed supporting connecting components are arranged at intervals, and the bearing top can be stably supported above the fixed connecting bottom by the adjusting supporting parts through locking the movable supporting connecting components and the locking hinged parts.

Description

Azimuth adjusting base

Technical Field

The utility model relates to a machining equipment makes technical field, especially relates to an azimuth adjustment base.

Background

In order to facilitate transportation or adapt to the environment of a processing workshop, most of processing equipment is arranged on a machine tool or a processing station; meanwhile, according to the requirements of different processed products and processing procedures and environmental adaptation, the processing equipment is required to be installed on a machine tool or a processing station through a connecting base with an adjusting function, the spatial position and the direction state of the processing equipment are adjusted through changing the connecting base so as to adapt to the requirements required by the processing process, and therefore the connecting base not only has a connecting effect on the processing equipment, but also has an important effect of supporting and fine orientation adjustment on the processing equipment. For example, the labeling machine is installed on the workbench through the header base, the header of the labeling machine can be fixedly connected to the header base, and the position and the inclination direction of the header are changed by changing the header base.

The Chinese utility model with the publication number of CN207580349U discloses an adjusting device of an automatic labeling machine, which comprises a frame, a base fixed on the frame, a label pasting plate fixed on the base, a transverse adjusting device, a longitudinal angle adjusting device and a transverse angle adjusting device, wherein the transverse angle adjusting device comprises a transverse adjusting seat sliding on the base and a transverse adjusting screw connected with one side of the transverse adjusting seat in a horizontal thread manner; the longitudinal angle adjusting device comprises a longitudinal angle adjusting seat and a longitudinal angle adjusting screw rod; horizontal angle adjusting device includes first horizontal regulating plate, the horizontal regulating plate of second, connecting piece and horizontal angle adjusting screw, first horizontal regulating plate upper end with paste mark board fixed connection, the utility model discloses can adjust the horizontal, vertical and horizontal and fore-and-aft angle of pasting the mark board to can improve and paste efficiency and the quality of mark.

At present, connecting bases (also called adjusting devices) which are applied to processing equipment and have multidirectional adjusting functions are complex in structure, heavy in size, inconvenient to transport and install and operate, and the complex structure greatly increases the manufacturing cost. Moreover, the adjusting fineness that present connection base possessed can not satisfy the processing equipment that needs the fine manipulation, and the spatial position of debugging out can not satisfy the demand of processing product for the processing procedure needs to increase artifical auxiliary work or the product of processing out is exquisite inadequately.

SUMMERY OF THE UTILITY MODEL

In order to overcome the technical defect, the utility model provides a position control base for installing processing equipment, structural optimization, the regulation of being convenient for, reduce weight reduction and practiced thrift manufacturing cost than current adjusting device volume, can support firmly to bear and carry processing equipment and can also finely control and adjust inclination, are used for multiple processing equipment, have extensive application market.

In order to solve the above problem, the utility model discloses realize according to following technical scheme:

An azimuth adjustment base, include:

A fixing bottom for fixing the whole orientation adjusting base on a platform or the ground;

The bearing top is used for fixedly connecting and bearing the processing equipment;

A hinge by means of which the carrier top can be adjusted in inclination;

An adjustment support for adjustably connecting the load bearing top with the affixing bottom; the adjusting support part comprises a fixed support connecting component and at least one movable support connecting component; one end of the fixed support connecting component is fixedly connected to the fixedly connected bottom, and the other end of the fixed support connecting component is hinged to the bearing top through the hinged part; one end of the movable support connecting component is hinged with the fixed connection bottom, and the other end of the movable support connecting component is hinged with the bearing top or the hinged part;

The movable support connecting component can be adjusted in length and has the function of locking the specific length, and the relative distance and the inclined position between the bearing top and the fixedly connected bottom can be changed by adjusting the length and the inclined angle of the movable support connecting component;

The movable supporting connecting components and the fixed supporting connecting components are arranged at intervals, the length of the movable supporting connecting components is adjusted through locking, the hinged parts are locked, and the bearing top can be stably supported above the fixed connecting bottom by the adjusting supporting parts according to the adjusted relative interval and the adjusted inclined position.

Further, the hinge part comprises a hinge cross beam and a first limit locking member; one end of the hinged cross beam is hinged with the top of the fixed support connecting member; the bearing top can be radially and rotatably adjusted by means of the hinged cross beam, and the hinged cross beam is fixed at a certain rotating position by the first limit locking member.

Further, the hinge portion further comprises a top end plate and a second limit locking member; the top end plate is hinged with the top of the hinged cross beam and is arranged in parallel with the hinged cross beam; the top end plate can rotate and adjust radially around the top of the hinged cross beam to drive the bearing top to rotate and adjust in the radial direction of the top end plate, and the top end plate is fixed at a certain rotating position through the second limit locking component.

Preferably, the fixed support connecting member may be a pillar or a riser.

Further, the load bearing top includes: fixedly connecting the bearing seat and the guide rod; the fixed connection bearing seat comprises a mounting plate and a sliding plate, and the sliding plate is fixedly connected to the bottom of the mounting plate; the mounting plate is used for mounting the processing equipment; the sliding plate is used for moving the mounting plate; the guide rod is used for guiding and sliding the sliding plate; one end of the guide rod is fixedly connected to the top end plate, the other end of the guide rod is fixedly connected to the other end plate, the guide rod is inserted into the sliding plate, and the sliding plate is slidably arranged on the guide rod.

Further preferably, the bearing top further comprises a sliding adjusting mechanism for controlling the sliding distance of the sliding plate on the guide rod; the sliding adjusting mechanism comprises a connecting screw rod and an adjuster, and the adjuster controls the sliding of the sliding plate through the connecting screw rod to drive the processing equipment on the mounting plate to move.

Further, each movable support connecting component comprises an adjusting support column and two joint bearings; an internal thread channel is formed in the adjusting support column and penetrates through two ends of the adjusting support column; the side wall of each joint bearing is provided with an external thread rod, and the two joint bearings are adjustably inserted into the two ends of the adjusting support column from the internal thread channel through the external thread rods; one end of the adjusting support column is hinged with the fixedly connected bottom through one of the joint bearings, and the other end of the adjusting support column is hinged with the bearing top or the hinged part through the other joint bearing; the relative distance or the inclined position of the bearing top and the fixed connection bottom can be adjusted by changing the depth of the external thread rod inserted into the internal thread channel.

Further preferably, at least one of the movable support connection members is disposed on a diagonal of the fixed support connection member such that at least two diagonal fulcrums are formed to adjust and support the load bearing top.

Preferably, the adjusting support part comprises three movable support connecting members, namely a first movable support connecting member, a second movable support connecting member and a third movable support connecting member; by adjusting the same length of the first movable support connecting component, the second movable support connecting component and the third movable support connecting component at the same time, the bearing top can rotate radially by means of the hinged cross beam so as to adjust the inclination angle of the bearing top in the radial rotation direction of the hinged cross beam; through the same length of adjusting first movable support connecting elements, the movable support connecting elements of second simultaneously, can make bear the top and rely on the top end plate carries out radial rotation, in order to adjust bear the top and be in the inclination of the radial direction of rotation of top end plate.

Preferably, the fastening base can be a one-piece backing plate or a plurality of separate support backing plates.

Compared with the prior art, the beneficial effects of the utility model are that: one end of the fixed support connecting component is fixedly connected to the fixedly connected bottom, and the other end of the fixed support connecting component is hinged to the bearing top through the hinged part; one end of the movable support connecting component is hinged with the fixed connection bottom, and the other end of the movable support connecting component is hinged with the bearing top or the hinged part; the movable supporting connecting component can be adjusted in length and has the function of locking the specific length; therefore, after the whole azimuth adjusting base is installed, the bearing top can be inclined and adjusted within a certain angle range by means of the hinged part; by adjusting the length and the inclination angle of the movable supporting connecting component, the relative distance and the inclination position between the bearing top and the fixed connection bottom can be changed.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly introduced below, it is obvious that the drawings in the following description are only the embodiments of the present application, and for those skilled in the art, other drawings can be obtained according to the provided drawings without creative efforts. Wherein:

Fig. 1 is a schematic diagram of a preferred structure of the present invention;

FIG. 2 is a schematic view of another angle configuration of FIG. 1;

FIG. 3 is a schematic view of another angle configuration of FIG. 1;

FIG. 4 is a schematic top view angle of FIG. 1;

FIG. 5 is a schematic view of the rear view angle of FIG. 1;

Fig. 6 is a schematic structural view of the movable support connecting member according to the present invention;

Fig. 7 is a schematic structural illustration of the adjusting support portion of the present invention;

FIG. 8 is a schematic illustration of a preferred construction of the movable support link according to the present invention;

Fig. 9 is a schematic structural illustration of the hinge according to the present invention;

Figure 10 is a schematic view of the load bearing top in the longitudinal radial direction of rotation of the hinge beam;

FIG. 11 is a schematic view of the load bearing top in a transverse radial direction of rotation of the guide bar;

In the figure: 100 is fixedly connected with the bottom;

200 carrying a top;

210 is fixedly connected with the bearing seat; 211 installing a plate; 212 a sliding plate;

220 a guide bar;

230 another end plate;

240 a slide adjustment mechanism; 241 is connected with a screw rod; 242 a regulator;

300 a hinge part;

310, hinging a cross beam;

320 a first positive locking member;

330 hinge rotating shaft;

340 a top end plate;

350 a second positive locking member;

360 a hinged block;

400 adjusting the support part;

410 fixedly supporting a connecting member;

420 movably supporting the connecting member; 420-1 a first movable support connection member; 420-2 a second movable support connection member; 420-3 a third movable support connection member; 421 adjusting the supporting column; 4211 an internal threaded passage; 422 knuckle bearing; 4221 an externally threaded rod.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are presented herein only for the purpose of illustrating and explaining the present invention, and are not to be considered as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are merely for convenience of description of the present invention and simplification of description, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

As shown in fig. 1 to 9, the present invention provides an azimuth adjusting base, comprising: the fixed connection bottom 100, the bearing top 200, the hinge part 300 and the adjusting support part 400 have more optimized structure than the prior direction adjusting device, have reduced volume and light weight, reduce the manufacturing cost and have convenient and accurate adjustment. The fastening base 100 is used for fastening or mounting the whole azimuth adjusting base on a certain platform or ground, and it can be understood that the fastening or mounting method can be referred to the existing processing equipment by those skilled in the art, such as detachably mounting on a certain processing platform, or such as welding; the bearing top 200 is used for fixedly connecting and bearing processing equipment; the carrying top 200 is tilt adjustable by means of the hinge 300; the adjusting support 400 is used for adjustably connecting the bearing top 200 with the fixed bottom 100; the adjusting support 400 comprises a fixed support connecting member 410 and at least one movable support connecting member 420, wherein one end of the fixed support connecting member 410 is fixed on the fixed bottom 100, and the other end is hinged with the carrying top 200 through the hinge 300; one end of the movable supporting connection member 420 is hinged to the fixed bottom 100, and the other end is hinged to the carrying top 200 or the hinge 300; the movable support connecting member 420 can be adjusted in length and has a function of locking the specific length, and the relative distance and the inclined position between the bearing top 200 and the fixed connection bottom 100 can be changed by adjusting the length and the inclined angle of the movable support connecting member 420; the movable support connecting members 420 are spaced apart from the fixed support connecting members 410, and the adjustable support portion 400 can stably support the carrying top portion 200 above the fixing bottom portion 100 at the adjusted relative spacing and inclined position by locking the adjustable length of the movable support connecting members 420 and the hinge portion 300.

Specifically, in order to enable the bearing top 200 to rotate up and down in a radial direction (the radial direction refers to the radial direction of the hinge cross beam 310, i.e. the longitudinal radial direction shown in fig. 10) by using the hinge rotating shaft 330 as a rotating axis center to adjust the inclination angle, the hinge portion 300 includes a hinge cross beam 310 and a first limit locking member 320; one end of the hinge cross member 310 is hinged to the top of the fixed support connecting member 410, preferably, the hinge of the two is realized by a hinge rotating shaft 330 or the like hinge 300; the bearing top 200 can be adjusted by means of the hinge beam 310 in a radial rotation manner, that is, the bearing top 200 is connected to the hinge beam 310, and the hinge beam 310 can rotate in a radial direction by using the hinge rotation shaft 330 as a rotation axis to drive the bearing top 200 to tilt to a corresponding deflection angle; and the hinged cross beam 310 is fixed at a certain rotation position by the first limit locking member 320, that is, the first limit locking member 320 can maintain the cross beam and the fixed support connecting member 410 in a certain relative angle state by limit or locking action; the first limit locking member 320 may be a locking nut provided on the hinge rotating shaft 330; and/or a limiting mechanism to limit the angular deflection of the articulating cross member 310.

More specifically, in order to enable the bearing top 200 to rotate up and down in a radial direction (the radial direction refers to the radial direction of the top end plate 340, and more specifically, the lateral radial direction of the guide rod 220 shown in fig. 11) by using the hinge block 360 as a rotation axis to adjust the inclination angle, the hinge portion 300 further includes a top end plate 340 and a second limit locking member 350; the top end plate 340 is hinged to the top of the hinge beam 310, and the top end plate 340 is arranged in parallel with the hinge beam 310; the top end plate 340 can radially rotate around the top of the hinge beam 310 to adjust the bearing top 200 to rotate in the radial direction of the top end plate 340, preferably, as shown in fig. 1, the top end plate 340 is hinged to the top of the hinge beam 310 through at least one hinge block 360, preferably, specifically, a bearing or a rotating shaft is embedded in the hinge block 360, and the top end plate 340 is connected to the bearing or the rotating shaft, so that the top end plate 340 can radially rotate around the hinge beam 310 within a certain angle range by using the hinge block 360 as a rotating axis, thereby driving the bearing top 200 to tilt to a corresponding deflection angle; and the top end plate 340 is fixed at a certain rotation position by the second limit locking member 350, i.e. the second limit locking member 350 can keep the top end plate 340 (or the bearing top 200) and the hinged cross beam 310 at a certain relative angle by limit or locking action; the second limit locking member 350 may be a lock nut disposed in the hinge block 360; and/or a limiting mechanism that limits the angular deflection of the top end plate 340 (or the load bearing top 200).

In order to support the load-bearing top 200 more stably, the fixed support connecting member 410 may be a pillar or a riser. Preferably, in order to facilitate the rotation of the articulated cross member 310 and to make the articulated structure more durable, the fixed support connecting member 410 may employ two parallel vertical columns or plates; for example, as shown in fig. 4 to 5, the hinge beam 310 is disposed in the gap between the two vertical columns or plates through the hinge rotating shaft 330.

In order to enable the carrying top 200 to be position-adjusted in the left-right direction, that is, as shown in fig. 4, the carrying top 200 can be position-adjusted on the guide bar 220, it is preferable that the carrying top 200 includes: fixedly connecting the bearing seat 210 and the guide rod 220; preferably, the fixed bearing seat 210 includes a mounting plate 211 and a sliding plate 212, and the sliding plate 212 is fixed at the bottom of the mounting plate 211; the mounting plate 211 is used for mounting the processing equipment; the sliding plate 212 is used for moving the mounting plate 211; the guide rod 220 is used for guiding and sliding the sliding plate 212; one end of the guide rod 220 is fixed to the top end plate 340, the other end is fixed to the other end plate 230, the guide rod 220 is inserted into the sliding plate 212, the sliding plate 212 is slidably disposed on the guide rod 220, and further, the guide rod 220 is vertically connected to the top end plate 340. Further preferably, the carrying top 200 further comprises a sliding adjustment mechanism 240 for controlling the sliding distance of the sliding plate 212 on the guiding rod 220; the sliding adjustment mechanism 240 includes a connecting screw 241 and an adjuster 242, and the adjuster 242 controls the sliding of the sliding plate 212 through the connecting screw 241 to move the processing equipment on the mounting plate 211. Preferably, the adjuster 242 may be a hand wheel, a knob, or the like, which can rotate the lead screw to control the fixed carrier 210 to advance or retreat along the guide rod 220.

In order to make the carrying top 200 control the tilting angle more conveniently and precisely and support the carrying top 200 and the fixing bottom 100 stably with an adjusted relative distance, each of the movable support connecting members 420 includes an adjusting support column 421 and two knuckle bearings 422; an internal thread passage 4211 is formed inside the adjusting support column 421, and the internal thread passage 4211 penetrates through two ends of the adjusting support column 421; the side wall of each joint bearing 422 is provided with an external threaded rod 4221, and the two joint bearings 422 are adjustably inserted into the two ends of the adjusting support column 421 from the internal threaded passage 4211 through the external threaded rods 4221 respectively; one end of the adjusting support column 421 is hinged to the fixing bottom 100 through one of the joint bearings 422, and the other end is hinged to the bearing top 200 or the hinge 300 through the other joint bearing 422; by changing the depth of the external screw rod 4221 inserted into the internal screw passage 4211 by rotation, the relative distance or inclination position of the bearing top 200 and the fixing bottom 100 can be adjusted. Of course, adjust the length between support column 421 and two joint bearing 422 and adjust the equal length short adjustment structure of telescopic link that also can adopt similar to the umbrella stand, nevertheless control the precision of length not as the utility model discloses a concrete structure requires meticulous accurate exquisite processing equipment to a lot of processing, can't satisfy the requirement.

For the purpose of the present invention, the orientation adjusting base can be suitable for being used as a processing apparatus with large volume or heavy mass, and can support the heavier processing apparatus on the rigid coupling bearing seat 210 more firmly, except for locking the fixed supporting connection member 410 and the hinge portion 300 and/or the angle of adjustment between the bearing top portions 200 by the first and/or second limiting locking members 320 and 350, at least one of the movable supporting connection members 420 is required to be disposed on the diagonal line (i.e. the diagonal line of the rectangle) of the fixed supporting connection member 410, so as to form at least two diagonal fulcrums for adjusting and supporting the bearing top portions 200. More than one movable support connection member 420 may be disposed at different spaced positions to form a plurality of support points, for example, preferably, as shown in fig. 3 to 4, one fixed support connection member 410 and three movable support connection members 420 are disposed at four points having a rectangular shape, respectively, so that the support force is more uniform.

Particularly preferably, the adjusting support 400 includes three movable support connecting members 420, namely, a first movable support connecting member 420-1, a second movable support connecting member 420-2 and a third movable support connecting member 420-3; by adjusting the same length of the first movable support connecting member 420-1, the second movable support connecting member 420-2 and the third movable support connecting member 420-3 at the same time, the bearing top 200 can be radially rotated by means of the hinge beam 310 to adjust the inclination angle of the bearing top 200 in the radial rotation direction of the hinge beam 310; by adjusting the same length of the first movable support connection member 420-1 and the second movable support connection member 420-2, the bearing top 200 can be rotated radially by the top end plate 340 to adjust the inclination angle of the bearing top 200 in the radial rotation direction of the top end plate 340.

In order to make the utility model discloses can adapt to various installation basement, like the bottom surface of different processing station, worker's bed or unevenness etc., rigid coupling bottom 100 can adopt an integral backing plate or adopt polylith individual type to support the backing plate. An integral base plate structure is adopted, a plurality of through holes for installation and installation positions for hinging the movable supporting connecting members 420 are formed in the integral base plate, and one end of each fixed supporting connecting member 410 can be locked on the integral base plate through bolts; one end of each movable support connection member 420 is hinged to the mounting position. A plurality of independent supporting base plates are adopted, and the fixed supporting connecting members 410 and each movable supporting connecting member 420 need to be provided with the supporting base plates to realize connection; two or more of the support connecting members may be connected to the same support mat for structural optimization or ease of installation, etc.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, so that any modification, equivalent change and modification made by the technical spirit of the present invention to the above embodiments do not depart from the technical solution of the present invention, and still fall within the scope of the technical solution of the present invention.

Claims (10)

1. An azimuth adjustment base, comprising:

A fixing bottom for fixing the whole orientation adjusting base on a platform or the ground;

The bearing top is used for fixedly connecting and bearing the processing equipment;

A hinge by means of which the carrier top can be adjusted in inclination;

An adjustment support for adjustably connecting the load bearing top with the affixing bottom; the adjusting support part comprises a fixed support connecting component and at least one movable support connecting component; one end of the fixed support connecting component is fixedly connected to the fixedly connected bottom, and the other end of the fixed support connecting component is hinged to the bearing top through the hinged part; one end of the movable support connecting component is hinged with the fixed connection bottom, and the other end of the movable support connecting component is hinged with the bearing top or the hinged part;

The movable support connecting component can be adjusted in length and has the function of locking the specific length, and the relative distance and the inclined position between the bearing top and the fixedly connected bottom can be changed by adjusting the length and the inclined angle of the movable support connecting component;

The movable supporting connecting components and the fixed supporting connecting components are arranged at intervals, the length of the movable supporting connecting components is adjusted through locking, the hinged parts are locked, and the bearing top can be stably supported above the fixed connecting bottom by the adjusting supporting parts according to the adjusted relative interval and the adjusted inclined position.

2. An azimuth adjustment base according to claim 1, wherein the hinge portion comprises a hinge beam and a first limit lock member;

One end of the hinged cross beam is hinged with the top of the fixed support connecting member;

The bearing top can be radially and rotatably adjusted by means of the hinged cross beam, and the hinged cross beam is fixed at a certain rotating position by the first limit locking member.

3. An azimuth adjustment base according to claim 2, wherein the hinge further comprises a top end plate and a second limit lock member;

The top end plate is hinged with the top of the hinged cross beam and is arranged in parallel with the hinged cross beam;

The top end plate can rotate and adjust radially around the top of the hinged cross beam to drive the bearing top to rotate and adjust in the radial direction of the top end plate, and the top end plate is fixed at a certain rotating position through the second limit locking component.

4. An azimuth adjustment base according to claim 1, wherein the fixed support connection member is a vertical post or a vertical plate.

5. An azimuth adjustment base according to claim 3, wherein the load bearing top comprises:

The fixed connection bearing seat comprises a mounting plate and a sliding plate, and the sliding plate is fixedly connected to the bottom of the mounting plate; the mounting plate is used for mounting the processing equipment; the sliding plate is used for moving the mounting plate;

A guide rod for guiding and sliding the sliding plate; one end of the guide rod is fixedly connected to the top end plate, the other end of the guide rod is fixedly connected to the other end plate, the guide rod is inserted into the sliding plate, and the sliding plate is slidably arranged on the guide rod.

6. An orientation adjustment base according to claim 5, wherein said load bearing top further comprises a slide adjustment mechanism for controlling the sliding distance of said sliding plate on said guide bar;

The sliding adjusting mechanism comprises a connecting screw rod and an adjuster, and the adjuster controls the sliding of the sliding plate through the connecting screw rod to drive the processing equipment on the mounting plate to move.

7. An orientation adjustment base according to claim 1, wherein each of said movable support connection members includes an adjustment support post and two knuckle bearings;

An internal thread channel is formed in the adjusting support column and penetrates through two ends of the adjusting support column;

The side wall of each joint bearing is provided with an external thread rod, and the two joint bearings are adjustably inserted into the two ends of the adjusting support column from the internal thread channel through the external thread rods;

One end of the adjusting support column is hinged with the fixedly connected bottom through one of the joint bearings, and the other end of the adjusting support column is hinged with the bearing top or the hinged part through the other joint bearing;

The relative distance or the inclined position of the bearing top and the fixed connection bottom can be adjusted by changing the depth of the external thread rod inserted into the internal thread channel.

8. An orientation adjustment base according to claim 1, wherein at least one of said movable support connection members is disposed diagonally to said fixed support connection member such that at least two diagonal pivot points are formed to adjust and support said load bearing top.

9. An orientation adjustment base according to claim 3, wherein said adjustment support portion comprises three said movable support connection members, a first movable support connection member, a second movable support connection member, and a third movable support connection member;

By adjusting the same length of the first movable support connecting component, the second movable support connecting component and the third movable support connecting component at the same time, the bearing top can rotate radially by means of the hinged cross beam so as to adjust the inclination angle of the bearing top in the radial rotation direction of the hinged cross beam;

Through the same length of adjusting first movable support connecting elements, the movable support connecting elements of second simultaneously, can make bear the top and rely on the top end plate carries out radial rotation, in order to adjust bear the top and be in the inclination of the radial direction of rotation of top end plate.

10. An azimuth adjustment base according to claim 1, wherein the attachment base is formed of a single-piece shim plate or a plurality of separate support shim plates.

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