CN209055121U - The adjusting platform of engineering surveying instrument - Google Patents

Abstract

The utility model relates to engineering survey equipment technical fields, provide a kind of adjusting platform of engineering surveying instrument, it is intended to which size is inaccurate when solving to move measuring instrument manually, and direction can not determine, the larger problem of test error.The adjusting platform of the engineering surveying instrument includes pedestal, vertical adjustment module, lateral adjustments module and forced centering plate；The vertical adjustment module is equipped on the pedestal, the vertical adjustment module can the relatively described pedestal straight skidding, the first scale strip is provided on the side of the vertical adjustment module, the side of the vertical adjustment module is provided with the first pointer for being directed toward first scale strip；The lateral adjustments module is equipped in the vertical adjustment module, the lateral adjustments module can the relatively described vertical adjustment module horizontal sliding, the second scale strip is provided on the side of the lateral adjustments module, the side of the lateral adjustments module is provided with the second pointer for being directed toward second scale strip.

Description

The adjusting platform of engineering surveying instrument

Technical field

The utility model relates to engineering survey equipment technical fields, in particular to a kind of tune of engineering surveying instrument Save platform.

Background technique

Currently, being usually manually will to the measurement accuracy test of engineering surveying instrument (such as total station, GPS, level) Engineering surveying instrument moves certain distance, and engineering surveying instrument itself is capable of measuring immediately to a displacement variable, then hand again The dynamic displacement variable measured engineering surveying instrument and move front and back, finally by between more above two displacement variable Difference, to calculate the accuracy and sensitivity of engineering surveying instrument.But due to moving work manually in existing this mode Size is inaccurate when journey measuring instrument, and direction can not determine that test error is larger.

Utility model content

In view of this, the purpose of this utility model is to provide a kind of adjusting platforms of engineering surveying instrument, it is intended to solve Size is inaccurate when moving measuring instrument manually, and direction can not determine, the larger problem of test error.

To achieve the goals above, the utility model the following technical schemes are provided:

A kind of adjusting platform of engineering surveying instrument, comprising:

Pedestal；

Vertical adjustment module, the vertical adjustment module are equipped on the pedestal, and the vertical adjustment module can be opposite The pedestal sliding, the direction of Relative sliding are the longitudinal direction in horizontal plane；It is arranged on the side of the vertical adjustment module There is the first scale strip, the side of the vertical adjustment module is provided with the first pointer for being directed toward first scale strip；

Lateral adjustments module, the lateral adjustments module are equipped in the vertical adjustment module, the lateral adjustments mould Block can vertical adjustment module sliding relatively, the direction of Relative sliding is the transverse direction in horizontal plane；The lateral adjustments The second scale strip is provided on the side of module, the side of the lateral adjustments module, which is provided with, is directed toward second scale strip Second pointer；And

Forced centering plate, the forced centering plate are equipped in the lateral adjustments module, open on the forced centering plate Equipped with the mounting hole for installing fixed engineering surveying instrument.

In the technical program, forced centering plate is for installing fixed engineering surveying instrument, after measuring instrument installation, Ke Yitong The displacement of vertical adjustment module and Level tune module accurately adjusting measuring apparatus device is crossed, and is accurately controlled and adjusts direction, behaviour Make simple and efficient, diminution test error.

As a preferred embodiment of the above technical solution, the vertical adjustment module includes the first knob, and first knob is matched When being set to the first knob described in the turn, the relatively described pedestal sliding of the vertical adjustment module；

The first steering mechanism is provided at first knob, first steering mechanism offsets with first knob It leans on, is only capable of first knob in one direction by turn；First steering mechanism can be under external force with described The separation of one knob, after first steering mechanism is separated with first knob, first knob can be along clockwise and inverse Hour hands both direction is by turn.

In this optimal technical scheme, on the one hand, during rotation, made by the first steering mechanism to the restriction of the first knob With, can prevent knob from rotating backward because of maloperation, generate reversed turning error, influence measuring accuracy.On the other hand, when When one knob rotates to bottom and cannot continue rotation, external force can be applied to first steering mechanism, make itself and the first knob Separation, and then make the first knob reversing reset.

As a preferred embodiment of the above technical solution, first steering mechanism includes:

Annular slab, the front of the annular slab are provided with several ratchets；And

Elastic component, one end of the elastic component connect the back side of the annular slab, and the other end is fixed；

The elastic component is in pressured state always, and the back side in the front and first knob that make the annular slab offsets It leans on；The back side of first knob is provided with the protrusion to match with the ratchet.

The beneficial effect of this optimal technical scheme is, the raised phase of the positive ratchet of annular slab and the first knob back side Match, ratchet limits the first knob and is only capable of turn in one direction.And due to the design feature of ratchet, the first knob is also required to Apply under conditions of certain external force could turn, therefore can be to avoid during using measuring instrument, because of user's clothing or mistake Touching leads to the first knob turn, causes biggish measurement error.

As a preferred embodiment of the above technical solution, the vertical adjustment module further include:

First vector plate, for carrying the lateral adjustments module；

First ball screw, the first ball screw is set between the first vector plate and the pedestal, described The screw rod of first ball screw is longitudinally fixed on the pedestal by rolling bearing, the nut of the first ball screw with The lower surface of the first vector plate is fixedly connected, and first knob is set to one end of the screw rod；And

Longitudinal auxiliary slipping mechanism, longitudinal auxiliary slipping mechanism be set to the first vector plate and the pedestal it Between, including auxiliary slide channel and the auxiliary slider that can be slid along the auxiliary slide channel, the auxiliary slide channel is parallel to the screw rod；Institute It states auxiliary slide channel to be set on the pedestal, the auxiliary slider is set to the lower surface of the first vector plate；Alternatively, described Auxiliary slide channel is set to the lower surface of the first vector plate, and the auxiliary slider is set on the pedestal.

As a preferred embodiment of the above technical solution, the lateral adjustments module includes the second knob, and second knob is matched When being set to the second knob described in the turn, the relatively described vertical adjustment module sliding of the lateral adjustments module；

The second steering mechanism is provided at second knob, second steering mechanism offsets with second knob It leans on, is only capable of second knob in one direction by turn；Second steering mechanism can be under external force with described The separation of two knobs, after second steering mechanism is separated with second knob, second knob can be along clockwise and inverse Hour hands both direction is by turn.

As a preferred embodiment of the above technical solution, the lateral adjustments module further include:

Second support plate, for carrying the forced centering plate；

Second ball-screw, second ball-screw be set to the Second support plate and the first vector plate it Between, the screw rod of second ball-screw is longitudinally fixed on the first vector plate by rolling bearing, second rolling The nut of ballscrew is fixedly connected with the lower surface of the Second support plate, and second knob is set to the one of the screw rod End；And

Laterally auxiliary slipping mechanism, the laterally auxiliary slipping mechanism are set to the Second support plate and described first and carry Between body plate, including auxiliary slide channel and the auxiliary slider that can be slid along the auxiliary slide channel, the auxiliary slide channel is parallel to described Screw rod；The auxiliary slide channel is set on the first vector plate, and the auxiliary slider is set under the Second support plate Surface；Alternatively, the auxiliary slide channel is set to the lower surface of the Second support plate, the auxiliary slider is set to described first On carrier board.

As a preferred embodiment of the above technical solution, the adjusting platform of the engineering surveying instrument further includes vertical adjustment module, The vertical adjustment module is set between the pedestal and vertical adjustment module, or be set to the lateral adjustments module and Between forced centering plate.The beneficial effect of this optimal technical scheme is, by the way that the vertical adjustment module is arranged, can assist The vertical accuracy and sensitivity of testing engineering measuring instrument.

As a preferred embodiment of the above technical solution, the connection for being connected and fixed with instrument mounting rack is provided on the pedestal Hole.The beneficial effect of this optimal technical scheme is, by the way that the connecting hole is arranged, the adjusting platform and instrument can be pacified It shelves (such as tripod) to be used cooperatively, makes the adjusting platform is mountable to be fixed on instrument mounting rack.

Compared with prior art, the utility model has the following beneficial effects:

1, forced centering plate can pass through vertical adjustment for installing fixed engineering surveying instrument after measuring instrument installation Module and Level tune module are precisely controlled the adjusting direction of measuring instrument, and the reading that pointer and scale strip are observed during adjusting becomes Change, be precisely controlled the adjustable range of measuring instrument, reduce and adjust error, improves measuring accuracy.

2, the operating method for adjusting platform is simple, convenient, it can be achieved that one man operation, can improve testing efficiency.

Detailed description of the invention

It, below will be to use required in embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment Attached drawing briefly introduce, it should be understood that the following drawings illustrates only some embodiments of the utility model, therefore should not be seen Work is the restriction to range, for those of ordinary skill in the art, without creative efforts, can be with Other relevant drawings are obtained according to these attached drawings.

Fig. 1 show the structural schematic diagram of the adjusting platform of engineering surveying instrument provided by embodiment；

Fig. 2 show the structural schematic diagram of the first steering as described in the examples mechanism；

Fig. 3 show the structural schematic diagram of vertical adjustment module as described in the examples；

Fig. 4 show the structural schematic diagram of the adjusting platform of another engineering surveying instrument provided by embodiment；

Fig. 5 show the structural schematic diagram of vertical adjustment module as described in the examples.

Figure label explanation:

10- pedestal；20- vertical adjustment module；The first scale strip of 21-；The first pointer of 22-；The first knob of 23-；24- is convex It rises；25- first vector plate；26- first ball screw；27- auxiliary slide channel；28- auxiliary slider；30- lateral adjustments module；31- Second scale strip；The second pointer of 32-；40- forced centering plate；The first steering of 50- mechanism；51- annular slab；52- elastic component；53- Ratchet；60- vertical adjustment module；61- third carrier board；62- cross frames；63- threaded rod；64- adjusting nut.

Specific embodiment

Below in conjunction with attached drawing in the utility model embodiment, the technical scheme in the embodiment of the utility model is carried out clear Chu completely describes.It should be appreciated that specific embodiment described herein is used only for explaining the utility model, it is not used to limit Determine the utility model.Based on the embodiments of the present invention, those skilled in the art are in no creative work under the premise of institute The every other embodiment obtained, belongs to the protection scope of the utility model.

It mainly include pedestal refering to Figure 1, present embodiments providing a kind of adjusting platform of engineering surveying instrument 10, vertical adjustment module 20, lateral adjustments module 30 and forced centering plate 40.

Wherein, vertical adjustment module 20 is equipped on pedestal 10, and vertical adjustment module 20 can slide with respect to pedestal 10, relatively The direction of sliding is the longitudinal direction in horizontal plane；The first scale strip 21 is provided on the side of vertical adjustment module 20, it is longitudinal The side of adjustment module 20 is provided with the first pointer 22 for being directed toward first scale strip 21.Specifically, the first pointer 22 can be consolidated Fixed to be arranged on pedestal 10, the first pointer 22 does not follow the straight skidding together of vertical adjustment module 20.

Lateral adjustments module 30 is equipped in vertical adjustment module 20, and lateral adjustments module 30 can be with respect to vertical adjustment module 20 slidings, the direction of Relative sliding are the transverse direction in horizontal plane；It was provided with for the second quarter on the side of lateral adjustments module 30 Item 31 is spent, the side of lateral adjustments module 30 is provided with the second pointer 32 for being directed toward the second scale strip 31.Specifically, the second pointer 32 can be fixed in vertical adjustment module 20, and the second pointer 32 does not follow the horizontal sliding together of lateral adjustments module 30.

Forced centering plate 40 is equipped in lateral adjustments module 30, is offered on the forced centering plate 40 solid for installing Determine the mounting hole of engineering surveying instrument.

In use, forced centering plate 40 is used to install fixed engineering surveying instrument, it, can be by vertical after measuring instrument installation It is precisely controlled the adjusting direction of measuring instrument to adjustment module 20 and Level tune module, pointer and scale strip are observed during adjusting Reading variation, be precisely controlled the adjustable range of measuring instrument, reduce and adjust error, improve measuring accuracy.

Citing as an embodiment please refers to shown in Fig. 1 and Fig. 2, and vertical adjustment module 20 may include One knob 23, when the first knob 23 of turn, vertical adjustment module 20 slides with respect to pedestal 10.Such as when turn first clockwise When knob 23, vertical adjustment module 20 is with respect to the positive sliding of pedestal 10, when the first knob 23 of turn counterclockwise, vertical adjustment mould Block 20 is with respect to 10 reverse shuffle of pedestal.The first steering mechanism 50, the first steering mechanism 50 and first are provided at first knob 23 Knob 23 leans, and is only capable of the first knob 23 in one direction by turn；First steering mechanism 50 can under external force with The separation of first knob 23, after the first steering mechanism 50 is separated with the first knob 23, the first knob 23 can be along the clockwise and inverse time Needle both direction is by turn.

Specifically, please referring to shown in Fig. 2, the first steering mechanism 50 may particularly include annular slab 51 and elastic component 52, annular The front of plate 51 is provided with several ratchets 53, and one end of elastic component 52 connects the back side of the annular slab 51, and the other end is fixed.Bullet Property part 52 be in pressured state always, so that the front of the annular slab 51 and the back side of first knob 23 is leant；It is described The back side of first knob 23 is provided with the protrusion 24 to match with the ratchet 53.Wherein, the elastic component 52 can be selected specifically Spring, the through-hole alignment among through-hole and annular slab 51 among spring.The protrusion 24 at 23 back side of the first knob is also possible to spine The direction of tooth 53,23 back side ratchet 53 of the first knob is consistent with the direction of 51 front ratchet 53 of annular slab.

In addition, please refer to shown in Fig. 3, the specific structure of vertical adjustment module 20 can also include first vector plate 25, the One ball-screw 26 and longitudinal auxiliary roll-off module.

Wherein, first vector plate 25 is for carrying the lateral adjustments module 30.

First ball screw 26 is set between the first vector plate 25 and the pedestal 10, the first ball screw 26 screw rod is longitudinally fixed on the pedestal 10 by rolling bearing, the nut of the first ball screw 26 and described the The lower surface of one carrier board 25 is fixedly connected, and first knob 23 is set to one end of the screw rod.The elastic component 52 The other end is fixed on the edge of pedestal 10 or is fixed on the side of rolling bearing, and elastic component 52 and annular slab 51 are set in spiral shell The end of bar, and then the front of annular slab 51 and the back side of the first knob 23 is made to offset.

Longitudinal auxiliary slipping mechanism is set between the first vector plate 25 and the pedestal 10, including auxiliary slide channel 27 With the auxiliary slider 28 that can be slid along the auxiliary slide channel 27, the auxiliary slide channel 27 is parallel to the screw rod；The auxiliary is slided Road 27 is set on the pedestal 10, and the auxiliary slider 28 is set to the lower surface of the first vector plate 25；Alternatively, described Auxiliary slide channel 27 is set to the lower surface of the first vector plate 25, and the auxiliary slider 28 is set on the pedestal 10.Tool Body, the auxiliary slide channel 27 can be slide bar, and slide bar both ends are supported on pedestal 10 by support blocks.Correspondingly, auxiliary Sliding block 28 can be the block opened up with through-hole, and auxiliary slider 28 is interspersed on slide bar.

In use, the first knob 23 described in manual turn, rotates synchronously the screw rod of first ball screw 26.First ball The nut of lead screw 26 is along the screw rod straight skidding, while auxiliary slider 28 is along 27 straight skidding of auxiliary slide channel, first vector plate 25 opposite 10 straight skiddings of pedestal.

Specific structure based on above-mentioned vertical adjustment module 20, it should be understood that, the specific structure of lateral adjustments module 30 See also vertical adjustment module 20, it may be assumed that

Lateral adjustments module 30 may include the second knob, and second knob is configured as working as the second knob described in turn When, the relatively described vertical adjustment module 20 of the lateral adjustments module 30 slides；The second steering is provided at second knob Mechanism, second steering mechanism lean with second knob, are only capable of second knob in one direction by turn； Second steering mechanism can be separated with second knob under external force, when second steering mechanism and described second After knob separation, second knob can be along both direction clockwise and anticlockwise by turn.Specifically, the second steering mechanism can Annular slab and elastic component are specifically included, the front of annular slab is provided with several ratchets, and one end of elastic component connects the annular slab The back side, the other end fixes.Elastic component is in pressured state always, makes front and the back of second knob of the annular slab Face leans；The back side of second knob is provided with the protrusion to match with the ratchet.Wherein, the elastic component can be specific Select spring, the through-hole alignment among through-hole and annular slab among spring.The protrusion at the second knob back side is also possible to ratchet, The direction of second knob back side ratchet is consistent with the direction of annular slab front ratchet.In view of the second steering mechanism and the first steering The specific structure of mechanism 50 is substantially identical, therefore the present embodiment is no longer that the second steering mechanism special figure is explained.

In addition, the specific structure of lateral adjustments module 30 also can also include Second support plate, the second ball-screw and cross To auxiliary slipping mechanism.

Wherein, Second support plate is for carrying the forced centering plate 40.

Second ball-screw is set between the Second support plate and the first vector plate 25, second ball wire The screw rod of thick stick is longitudinally fixed on the first vector plate 25 by rolling bearing, the nut of second ball-screw and institute The lower surface for stating Second support plate is fixedly connected, and second knob is set to one end of the screw rod.

Laterally auxiliary slipping mechanism is set between the Second support plate and the first vector plate 25, including auxiliary is slided Road and the auxiliary slider that can be slid along the auxiliary slide channel, the auxiliary slide channel are parallel to the screw rod；The auxiliary slide channel is set It is placed on the first vector plate 25, the auxiliary slider is set to the lower surface of the Second support plate；Alternatively, the auxiliary Slideway is set to the lower surface of the Second support plate, and the auxiliary slider is set on the first vector plate 25.

In view of the specific structure of lateral adjustments module 30 and the specific structure of vertical adjustment module 20 are substantially identical, therefore The present embodiment is no longer that 30 special figure of lateral adjustments module is explained.

In addition, please referring to shown in Fig. 4, the adjusting platform of the engineering surveying instrument can also include vertical adjustment module 60.The vertical adjustment module 60 is set between the pedestal 10 and vertical adjustment module 20, or is set to the transverse direction Between adjustment module 30 and forced centering plate 40.Specifically, please referring to shown in Fig. 5, the vertical adjustment module 60 can be wrapped specifically Include third carrier board 61 and cross frames 62, the upper and lower ends of the side of the cross frames 62 respectively with third carrier board 61 and pedestal 10 are slidably connected, and the sliding side of the cross frames 62 is connected with one end of a threaded rod 63, another end cap of the threaded rod 63 Equipped with adjusting nut 64, the upper end of the adjusting nut 64 is resisted against at the lateral margin of first vector plate 25.In use, passing through turn Adjusting nut 64 makes the sliding end slid inward of cross frames 62, the jacking upwards immediately of cross frames 62, to realize height adjustment.

Above description is only a specific implementation of the present invention, but the protection scope of the utility model is not limited to In this, anyone skilled in the art can readily occur in variation within the technical scope disclosed by the utility model Or replacement, should all it cover within the protection scope of the present utility model.

Claims (8)

1. a kind of adjusting platform of engineering surveying instrument characterized by comprising

Pedestal；

Vertical adjustment module, the vertical adjustment module are equipped on the pedestal, and the vertical adjustment module can be relatively described Pedestal sliding, the direction of Relative sliding are the longitudinal direction in horizontal plane；Is provided on the side of the vertical adjustment module One scale strip, the side of the vertical adjustment module are provided with the first pointer for being directed toward first scale strip；

Lateral adjustments module, the lateral adjustments module are equipped in the vertical adjustment module, and the lateral adjustments module can The relatively described vertical adjustment module sliding, the direction of Relative sliding is the transverse direction in horizontal plane；The lateral adjustments module Side on be provided with the second scale strip, the side of the lateral adjustments module, which is provided with, is directed toward the second of second scale strip Pointer；And

Forced centering plate, the forced centering plate are equipped in the lateral adjustments module, offer on the forced centering plate For installing the mounting hole of fixed engineering surveying instrument.

2. the adjusting platform of engineering surveying instrument according to claim 1, which is characterized in that the vertical adjustment module packet Include the first knob, when first knob is configured as the first knob described in the turn, the vertical adjustment module is relatively described Pedestal sliding；

The first steering mechanism is provided at first knob, first steering mechanism leans with first knob, makes First knob is only capable of in one direction by turn；First steering mechanism can under external force with first knob Separation, after first steering mechanism is separated with first knob, first knob can be along clockwise and anticlockwise two A direction is by turn.

3. the adjusting platform of engineering surveying instrument according to claim 2, which is characterized in that first steering mechanism packet It includes:

Annular slab, the front of the annular slab are provided with several ratchets；And

Elastic component, one end of the elastic component connect the back side of the annular slab, and the other end is fixed；

The elastic component is in pressured state always, and the back side in the front and first knob that make the annular slab leans； The back side of first knob is provided with the protrusion to match with the ratchet.

4. the adjusting platform of engineering surveying instrument according to claim 2, which is characterized in that the vertical adjustment module is also Include:

First vector plate, for carrying the lateral adjustments module；

First ball screw, the first ball screw are set between the first vector plate and the pedestal, and described first The screw rod of ball-screw is longitudinally fixed on the pedestal by rolling bearing, the nut of the first ball screw with it is described The lower surface of first vector plate is fixedly connected, and first knob is set to one end of the screw rod；And

Longitudinal auxiliary slipping mechanism, longitudinal auxiliary slipping mechanism are set between the first vector plate and the pedestal, Including auxiliary slide channel and the auxiliary slider that can be slid along the auxiliary slide channel, the auxiliary slide channel is parallel to the screw rod；It is described Auxiliary slide channel is set on the pedestal, and the auxiliary slider is set to the lower surface of the first vector plate；Alternatively, described auxiliary Inrun is set to the lower surface of the first vector plate, and the auxiliary slider is set on the pedestal.

5. the adjusting platform of engineering surveying instrument according to claim 4, which is characterized in that the lateral adjustments module packet Include the second knob, when second knob is configured as the second knob described in the turn, the lateral adjustments module is relatively described The sliding of vertical adjustment module；

The second steering mechanism is provided at second knob, second steering mechanism leans with second knob, makes Second knob is only capable of in one direction by turn；Second steering mechanism can under external force with second knob Separation, after second steering mechanism is separated with second knob, second knob can be along clockwise and anticlockwise two A direction is by turn.

6. the adjusting platform of engineering surveying instrument according to claim 5, which is characterized in that the lateral adjustments module is also Include:

Second support plate, for carrying the forced centering plate；

Second ball-screw, second ball-screw are set between the Second support plate and the first vector plate, institute The screw rod for stating the second ball-screw is longitudinally fixed on the first vector plate by rolling bearing, second ball-screw Nut be fixedly connected with the lower surface of the Second support plate, second knob is set to one end of the screw rod；And

Laterally auxiliary slipping mechanism, the laterally auxiliary slipping mechanism are set to the Second support plate and the first vector plate Between, including auxiliary slide channel and the auxiliary slider that can be slid along the auxiliary slide channel, the auxiliary slide channel is parallel to the screw rod； The auxiliary slide channel is set on the first vector plate, and the auxiliary slider is set to the lower surface of the Second support plate； Alternatively, the auxiliary slide channel is set to the lower surface of the Second support plate, the auxiliary slider is set to the first vector On plate.

7. the adjusting platform of engineering surveying instrument according to claim 1, which is characterized in that further include vertical adjustment mould Block, the vertical adjustment module are set between the pedestal and vertical adjustment module, or are set to the lateral adjustments mould Between block and forced centering plate.

8. the adjusting platform of engineering surveying instrument according to any one of claims 1 to 7, which is characterized in that on the pedestal It is provided with the connecting hole for being connected and fixed with instrument mounting rack.