CN205369950U - Built -in fitting locator - Google Patents

Abstract

The utility model discloses a built -in fitting locator, including base, work piece platform, work piece fixer, the work piece platform is cyclic annular disc, the three through -hole of equipartition on the ring of work piece platform, through -hole lower extreme on the work piece platform is installed and is used for adjusting work piece platform height and the three supporting component of horizontally, supporting component threaded connection in the upper end of base, the work piece fixer is kept flat on work platform. The utility model provides a when built -in fitting locator can realize the location of embedded plate spare, also can adjust the levelness of embedded plate spare, improve workpiece positioning accuracy greatly, improve labor efficiency, and this built -in fitting locator easy operation be convenient.

Description

Embedded part positioning

Technical field

This utility model is specifically related to a kind of transformer station embedded part positioning.

Background technology

In current power construction engineering, when built-in fitting is carried out Embedment Construction, it is necessary to built-in fitting is fixed, then pour into a mould concrete again.The fixed form adopted at present is excessively simple, built-in fitting can only be played fixing effect it cannot be guaranteed that built-in fitting levelness, after finally causing casting complete, built-in fitting surface irregularity or crooked can not reach in use procedure require levelness, even affect the connection of earth lead and built-in fitting.

Utility model content

The technical problems to be solved in the utility model is to provide a kind of embedded part positioning, and this embedded part positioning can adjust upright position and the levelness of built-in fitting, is greatly improved the positional precision of built-in fitting, and this embedded part positioning is simple to operation.

For solving above-mentioned technical problem, technical solution adopted in the utility model is:

A kind of embedded part positioning, it is characterized in that: include base, work piece platform, workpiece fixture, described work piece platform is annular disc, uniform three through holes on the annulus of described work piece platform, through hole lower end in described work piece platform is provided with three support components for adjusting work piece platform height and level, propping up support component and be threadedly connected to the upper end of base, described workpiece fixture lies on work platforms.

Further, described support component includes threaded sleeve, screw mandrel, spheroid, swing handle, described screw mandrel upper end is fixing connects spheroid, on described spheroid, the center of sphere is fixing connects swing handle, described screw mandrel screws in threaded sleeve, screw mandrel external screw thread matches with threaded sleeve female thread, and described threaded sleeve is vertically fixedly connected on base top, and described swing handle reaches above work piece platform through through hole in work piece platform.

Further, described base is mainly three symmetrical column composition frameworks, and described threaded sleeve is welded on column.

Further, described workpiece fixture includes two and supports beam, some block pressur plates, push rod, described pressing plate is bolted to support on beam and stretch to inside support beam, described support beam left surface assembling push rod, described push rod centrage and centerline collineation between two pressing plates supported on beam.

Further, described pressing plate number is 3 and arranges in isosceles triangle.

Further, described pressing plate number is 4 and lays respectively at the summit of tetragon.

Further, being bolted two crossbeams playing fixed supporting role between two support beams, described push rod end is fixed and is connected the handwheel rotating push rod, and described support beam arranges some groups of straight holes.

Further, described support beam upper surface tessellation level instrument, described level indicator is between two pressing plates on centrage.

Owing to have employed technique scheme, the technological progress acquired by this utility model is in that:

Embedded part positioning of the present utility model can adjust perpendicularity and the levelness of the pre-buried plate of power construction process accurately, is greatly improved pre-buried plate positional precision and labor efficiency, and this embedded part positioning is simple to operation.

This utility model is the height and the level that are adjusted work piece platform by between base and work piece platform support component, utilizes pressing plate and push rod to realize pre-buried plate is fixed simultaneously.The support component being made up of threaded sleeve, steel ball, screw mandrel, swing handle can facilitate moving up and down of work piece platform, and support component used by this device is simple and practical, job site can be applied to very well, in order to ensure the firm of workpiece fixture, support at two and be assembled with two crossbeams between beam, these two crossbeams primarily serve supporting role, this utility model considers various sizes of pre-buried plate, in supporting, beam arranges some groups of straight holes for regulating the spacing of pressing plate, so can expand the use scope of embedded part positioning.This utility model is also fixed in push rod end and is connected the handwheel rotating push rod, and convenient operation push rod realizes the fixing of pre-buried plate.

Accompanying drawing explanation

Fig. 1 is the front view of embedded part positioning；

Fig. 2 is the top view of embedded part positioning；

Fig. 3 is the partial schematic diagram of a support component of embedded part positioning；

Wherein: 1, base, 2, work piece platform, 3, workpiece fixture, 4, through hole, 5, pressing plate, 6, support beam, 7, crossbeam, 8, level indicator, 9, screw mandrel, 10, spheroid, 11, swing handle, 12, push rod, 13, handwheel, 14, straight hole.

Detailed description of the invention

Below in conjunction with structure principle chart of the present utility model (as Figure 1-3), this utility model is described in further details:

nullThis utility model provides a kind of embedded part positioning，Mainly include base 1、Work piece platform 2、Workpiece fixture 3，Work piece platform 2 is that annular disc and interior circular diameter are more than the maximum diamater of work to be welded，And on work piece platform 2 annulus all be dispersed with three through holes 4，Base 1 Upper vertical is fixing connects threaded sleeve，Screw mandrel 9 upper surface is fixedly connected spheroid 10，Spheroid 10 center is fixedly connected swing handle 11，Screw mandrel 9 is screwed in threaded sleeve，Realize base 1 and the connection of work piece platform 2，Swing handle 11 reaches above work piece platform 2 through through hole 4 in work piece platform 2 simultaneously，Drive screw mandrel 9 to move up and down when rotary motion handle 11，Realize the altitude mixture control of embedded part positioning，Described workpiece fixture 3 includes supporting beam 6 and supporting beam 6 top board 5，It is internal that pressing plate 5 stretches to support beam 6，Both are connected by hexagon socket head cap screw，In order to accurately judge to treat built-in fitting whether level，In supporting beam 6 upper surface tessellation level instrument 8，Level indicator 8 is between two pressing plates 5 on centrage.Simultaneously for ensureing that supporting beam 6 consolidates, it is bolted crossbeam 7 between beam 6 in supporting, two support beams and two crossbeams form the trapezium structure as ladder, support beam 6 left surface assembling push rod 12, the fixing handwheel 13 that connects of push rod 12 right-hand member, convenient operation push rod 12 feeding realizes the clamping action of push rod 12.In order to realize being fixed various sizes of pre-buried plate, in supporting, beam offers some groups of straight holes 14, it is possible to according to treating that buried plate part change in size regulates the distance between pressing plate 5.The work process of the present embodiment is as follows:

nullIn use，Pre-buried plate is placed on below workpiece fixture 3，4 block pressur plate 5 lower surfaces are utilized to compress the corner of pre-buried plates and rotate handwheel 13 and drive push rod 12 to move to realize the fixing of pre-buried plate，Then embedded part positioning is placed on pre-buried plate present position，Rotary motion handle 11，After screw mandrel 9 threadingly sleeve pipe female thread moves up and down the height arriving pre-buried plate requirement，Workpiece fixture 3 is lain against in work piece platform 2，According to supporting beam 6 upper surface tessellation level instrument 8，Adjust three support component relative altitudes and make pre-buried plate maintenance level，Regulate workpiece fixture 3 finally according to the horizontal level required by pre-buried plate and all around move to reach the horizontal level that pre-buried plate requires，Locking pliers is finally utilized work piece platform 2 and workpiece fixture 3 to be secured together，By reinforcing bar or other junctional complex, pre-buried sheet material is welded with the reinforcement foundation pre-set，Finally take embedded part positioning cast concrete away and complete the installation of pre-buried plate.What select in the present embodiment is 4 pressing plates (as shown in Figure 2), and wherein each two pressing plate is positioned on a support beam, and these 4 pressing plates constitute four summits of tetragon.The embedded part positioning that this utility model relates to also contemplates for adopting 3 pressing plates that pre-buried plate is fixed, two pressing plates are bolted and are fixed on a support beam, another one pressing plate is bolted and is fixed on another root support beam, and these 3 pressing plates constitute the summit of isosceles triangle.

Claims (8)

1. an embedded part positioning, it is characterized in that: include base (1), work piece platform (2), workpiece fixture (3), described work piece platform (2) is annular disc, uniform three through holes (4) on the annulus of described work piece platform (2), through hole (4) lower end in described work piece platform (2) is provided with three support components for adjusting work piece platform (2) height and level, propping up support component and be threadedly connected to the upper end of base (1), described workpiece fixture (3) lies on work platforms (2).

2. embedded part positioning according to claim 1, it is characterized in that: described support component includes threaded sleeve, screw mandrel (9), spheroid (10), swing handle (11), described screw mandrel (9) upper end is fixing connects spheroid (10), the center of the upper sphere of described spheroid (10) is fixing connects swing handle (11), described screw mandrel (9) screws in threaded sleeve, screw mandrel (9) external screw thread matches with threaded sleeve female thread, described threaded sleeve is vertically fixedly connected on base (1) top, described swing handle (11) reaches work piece platform (2) top through the upper through hole (4) of work piece platform (2).

3. embedded part positioning according to claim 2, it is characterised in that: described base (1) is three symmetrical columns composition frameworks mainly, and described threaded sleeve is welded on column.

4. embedded part positioning according to claim 1, it is characterized in that: described workpiece fixture (3) includes two and supports beam (6), some block pressur plates (5), push rod (12), described pressing plate (5) is bolted to support beam (6) and above and stretches to support beam (6) inside, described support beam (6) left surface assembling push rod (12), centerline collineation between described push rod (12) centrage and two pressing plates (5) being positioned in support beam (6).

5. embedded part positioning according to claim 4, it is characterised in that: described pressing plate (5) number is 3 and arranges in isosceles triangle.

6. embedded part positioning according to claim 4, it is characterised in that: described pressing plate (5) number is 4 and lays respectively at the summit of tetragon.

7. embedded part positioning according to claim 4, it is characterized in that: between two supports beam (6), be bolted two crossbeams playing fixed supporting role (7), described push rod (12) end is fixing connects the handwheel (13) rotating push rod (12), and described support beam (6) arranges some groups of straight holes (14).

8. embedded part positioning according to claim 4, it is characterised in that: described support beam (6) upper surface tessellation level instrument (8), described level indicator (8) is positioned between two pressing plates (5) on centrage.