CN110398239A - A kind of architectural engineering testing apparatus for verticality - Google Patents

Abstract

The invention discloses a kind of architectural engineering testing apparatus for verticality, component is adjusted including a pair of of support base, it includes a pair of brackets that support base, which adjusts component, the lower end of bracket is equipped with support, it is connected between a pair of brackets by lower carrier plate, the top of lower carrier plate is equipped with upper adjustable plate, the upper end of upper adjustable plate is equipped with centre mount, wherein, several pairs of adjusting components and several connection components are equipped between upper adjustable plate and lower carrier plate, connection component is located between a pair of of adjusting component, and the both ends of upper adjustable plate are slidably matched with the guide rail being located on the inside of corresponding bracket respectively.Architectural engineering testing apparatus for verticality provided by the invention thus extends the service life that support base of the invention adjusts component due to the above structure, extends service life of the invention, and improve the detection accuracy to architectural engineering verticality.

Description

A kind of architectural engineering testing apparatus for verticality

Technical field

The present invention relates to construction engineering technical field, specially a kind of architectural engineering testing apparatus for verticality.

Background technique

The angle formed between exterior walls of buildings axis and ground, the referred to as verticality of building, currently, for building work For the examination of journey, verticality be evaluate construction engineering quality quality an important indicator, verticality it is up to standard whether influence The bearing capacity of building, if verticality is not in the error range of permission, the bearing capacity that will lead to building is excessive, hold Accident easily occurs.

Chinese patent CN201810941996.4 discloses a kind of architectural engineering testing apparatus for verticality, including support base tune Section component, gate benchmark frame move horizontally component, vertical shift component, correction component and detection components, wherein support base tune Section component includes support, bracket, resilient sleeve, lower carrier plate, upper adjustable plate, centre mount, terminal pad, adjusting screw rod and adjusting nut, The both ends of upper adjustable plate are arranged resilient sleeve, lower carrier plate and upper adjustable plate be provided with it is multiple against spring, by adjusting screw rod Adjusting nut is realized and is adjusted to the levelness of upper adjustable plate so that upper adjustable plate overcomes the elastic force of resilient sleeve.

In above-mentioned patent document, lower carrier plate and upper adjustable plate are provided with multiple against spring, and spring is in use It is extremely unstable, so that the position that will lead to adjustable plate is built on the sand, influence detection of the device to verticality, and above-mentioned patent document Realized by adjusting nut and the levelness of upper adjustable plate adjusted, this regulative mode can make after prolonged use screw rod with Occur stripped thread phenomenon between nut, thus cannot the position accurately to upper adjustable plate be adjusted, influence device to verticality Detection so that measuring for verticality effect inaccuracy of the device to building.

Summary of the invention

(1) the technical issues of solving

In view of the deficiencies of the prior art, the present invention provides a kind of architectural engineering testing apparatus for verticality, solves above-mentioned special Problem of the architectural engineering testing apparatus for verticality disclosed in sharp file to the detection effect inaccuracy of the verticality of building.

(2) technical solution

In order to achieve the goal above, the present invention is achieved by the following technical programs:

A kind of architectural engineering testing apparatus for verticality, including a pair of of support base adjust component, and the support base adjusts component Including a pair of brackets, the lower end of the bracket is equipped with support, is connected between a pair of brackets by lower carrier plate, the lower carrier plate it is upper Side is equipped with upper adjustable plate, and the upper end of the upper adjustable plate is equipped with centre mount, wherein between the upper adjustable plate and the lower carrier plate Equipped with several pairs of adjusting components and several connection components, the connection component be located at it is a pair of adjust between component, and it is described on The both ends of adjustable plate are slidably matched with the guide rail being located on the inside of corresponding bracket respectively.

Further, the adjusting component includes:

Drive rod, the drive rod include bottom plate and the cone-plate that the bottom plate upper end is arranged in, the big end of the cone-plate with The bottom plate is connected, and bottom plate fixed plate corresponding with the lower carrier plate upper end is located at is slidably matched；

First connecting rod, one end of the first connecting rod are hinged on the bottom plate；

Swing rod, one end of the swing rod are hinged on the middle part at the first connecting rod, and the other end of the swing rod is hinged on On the corresponding lug in the lower carrier plate upper end；

Second connecting rod, one end of the second connecting rod are hinged on the small end of the cone-plate；

Elevating lever, the elevating lever include that the fixed link of the upper adjustable plate lower end is arranged in and is arranged in the fixed link The pressing plate of lower end, the other end of the first connecting rod are hinged on the lower part of the fixed link, the other end hinge of the second connecting rod It connects at the middle part of the fixed link.

Further, the adjusting component further includes the first spring, and first spring is arranged in the pressing plate and institute It states between lower carrier plate.

Further, the bottom plate can be connected by second spring with the fixed plate.

Further, the connection component includes:

Upper cylindrical base, the upper cylindrical base are connected with the upper adjustable plate；

The top of lower semisphere pedestal, the lower semisphere pedestal is connected by connecting column with the lower carrier plate；

Several third springs, several third spring annulars are distributed in the upper cylindrical base and the lower semisphere pedestal Between in the space that is formed；

Elastic parts, the elastic parts are arranged between the upper cylindrical base and the lower semisphere pedestal, and described Elastic parts is located in several third springs.

Further, the elastic parts includes:

Rubber column, one end of the rubber column are connected with the upper cylindrical base, open up on the other end of the rubber column There is first annular slot；

Rubber bodies, the rubber bodies include the rubber circular plate being sequentially connected, rubber short column and rubber hemisphere body, the rubber Plectane is connected with the other end of the rubber column, and the diameter of the rubber short column is less than the diameter of the rubber circular plate, the rubber Glue plectane and the rubber short column are respectively positioned on outside the lower semisphere pedestal, and the rubber hemisphere body is embedded in the lower semisphere pedestal On half ball groove in；

The top of annular support member, the annular support member is located in the first annular slot, and the annular support member Top periphery on offer first annular mounting groove, the annular convex platform on the ring slot outside wall is embedded described In first annular mounting groove, the lower part of the annular support member is between the rubber column and the lower semisphere pedestal, and institute It states and offers the second annular mounting groove in the inner circumferential of the lower part of annular support member, the outer rim of the glue plectane is embedded described second In annular mounting groove, and the inner circumferential of the lower part of the annular support member is contacted with the side wall of the rubber short column.

Further, the bottom plate is equipped with a hand-held pole, and the hand-held pole is connected by a plectane with the bottom plate.

Further, the inside and outside two sides of the end of the upper adjustable plate offer vertical slot respectively, and the vertical slot be located at The guide rail corresponds to the riser on side wall and is slidably matched, and dovetail groove, the dovetail groove are offered on the end of the upper adjustable plate It is slidably matched with the pillar being located on the guide rail bottom wall.

Further, it further includes a pair of cover board matched with corresponding guide rail that the support base, which adjusts component, described The corresponding end of the upper adjustable plate is limited in corresponding guide rail by cover board.

(3) beneficial effect

Beneficial effects of the present invention: including several pairs of adjusting components and several since support base of the invention adjusts component Connection component, adjusting component includes the parts such as drive rod, first connecting rod, swing rod, second connecting rod and elevating lever, and connection component includes The structures such as upper cylindrical base, lower semisphere pedestal and elastic parts, thus service life of the invention is extended, so that the present invention exists After being used for multiple times still can the verticality to building accurately measured, improve the safety of building area, avoid accident Occur.

Detailed description of the invention

Fig. 1 is the structural schematic diagram that support base of the invention adjusts component.

Fig. 2 is the enlarged view in Fig. 1 at G.

Fig. 3 is the enlarged view in Fig. 2 at I.

Fig. 4 is the enlarged view in Fig. 1 at H.

Fig. 5 is the enlarged view in Fig. 4 at J.

Fig. 6 is cross-sectional view of the Fig. 1 along A-A.

In attached drawing: bracket 10, guide rail 101, riser 1011, pillar 1012, support 20, lower carrier plate 30, lower guide post 301, Upper adjustable plate 40, vertical slot 401, dovetail groove 402, pillar 1012, centre mount 50, fixed plate 60, sliding slot 601, fixed column 602, ring Slot 6021, lug 70, second spring 80, upper cylindrical base 90, upper pillar 901, lower semisphere pedestal 100, the second annular groove 1001, Lower pillar 1002, half ball groove 1001, connecting column 110, third spring 120, hand-held pole 130, plectane 140, cover board 150, limit plate 160, drive rod 1, bottom plate 11, cone-plate 12, first connecting rod 2, swing rod 3, second connecting rod 4, elevating lever 5, fixed link 51, pressing plate 52, Upper guide post 521, the first spring 6, rubber column 7, first annular slot 71, annular convex platform 711, rubber bodies 8, glue plectane 81, rubber Short column 82, rubber hemisphere body 83, annular support member 9, first annular mounting groove 91, the second annular mounting groove 92.

Specific embodiment

In order to enable the purposes, technical schemes and advantages of technical solution of the present invention are clearer, below in conjunction with this The technical solution of the embodiment of the present invention is clearly and completely described in the attached drawing of invention specific embodiment.

Attached drawing 1 is referred to Fig. 6, a kind of architectural engineering testing apparatus for verticality as shown in Figure 1, including a pair of of support base Component is adjusted, it includes a pair of brackets 10 that the support base, which adjusts component, and the lower end of the bracket 10 is equipped with support 20, a pair of brackets It is connected between 10 by lower carrier plate 30, the top of the lower carrier plate 30 is equipped with upper adjustable plate 40, the upper end of the upper adjustable plate 40 Equipped with centre mount 50, several pairs of adjusting components and several connection groups are equipped between the upper adjustable plate 40 and the lower carrier plate 30 Part, the connection component is located between a pair of of adjusting component, and the both ends of the upper adjustable plate 40 are respectively and positioned at corresponding branch The guide rail 101 of 10 inside of frame is slidably matched, if including since the support base of the architectural engineering testing apparatus for verticality adjusts component It does to adjusting component and several connection components, thus extends the service life of the architectural engineering testing apparatus for verticality, make The architectural engineering testing apparatus for verticality after a number of uses still can the verticality to building accurately measured, raising The safety of building area, avoids the generation of accident.

As shown in fig. 6, in the present embodiment, the inside and outside two sides of the end of the upper adjustable plate 40 offer vertical slot respectively 401, and the riser 1011 on the side wall corresponding with the guide rail 101 is located at of the vertical slot 401 is slidably matched, the upper adjustable plate 40 End on offer dovetail groove 402, the dovetail groove 402 is matched with the sliding of pillar 1012 being located on 101 bottom wall of guide rail It closes, the upper end of the guide rail 101 is equipped with the cover board 150 matched with the guide rail 101, and the cover board 150 is by the upper adjusting The corresponding end of plate 40 is limited in corresponding guide rail 101.

As shown in Fig. 2, the adjusting component includes drive rod 1, first connecting rod 2, swing rod 3, second connecting rod 4,5 and of elevating lever First spring 6, the drive rod 1 include bottom plate 11 and are arranged in the cone-plate 12 of 11 upper end of bottom plate, the cone-plate 12 it is big End is connected with the bottom plate 11, and the bottom plate 11 fixed plate 60 corresponding with 30 upper end of lower carrier plate is located at is slidably matched, and has Body is that the bottom plate 11 is slidably matched with the sliding slot 601 being provided on 60 outside of fixed plate, and the two of the sliding slot 601 End is respectively equipped with limit plate 160, and the bottom plate 11 is limited in the sliding slot 601 by the limit plate 160, the first connecting rod 2 one end is hinged on the bottom plate 11, and one end of the swing rod 3 is hinged on the middle part at the first connecting rod 2, the swing rod 3 other end is hinged on the corresponding lug 70 in 30 upper end of lower carrier plate, and one end of the second connecting rod 4 is hinged on institute On the small end for stating cone-plate 12, the elevating lever 5 includes that the fixed link 51 of 40 lower end of upper adjustable plate is arranged in and is arranged in institute State the pressing plate 52 of 51 lower end of fixed link, the other end of the first connecting rod 2 is hinged on the lower part of the fixed link 51, and described second The other end of connecting rod 4 is hinged on the middle part of the fixed link 51, and the setting of the first spring 6 is in the pressing plate 52 and the lower branch Between plate 30, specifically, one end of first spring 6 is set in the upper guide post 521 of 52 lower end of pressing plate, institute The other end for stating the first spring 6 is set in the lower guide post 301 of 30 upper end of lower carrier plate.

As shown in figure 3, the bottom plate 11 can be connected by second spring 80 with the fixed plate 60, it is specifically, described One end of second spring 80 is hung on the pin shaft 111 on the bottom plate 11, and the other end of the second spring 80 is hung On being located at the fixed plate 60 in corresponding fixed column 602, and annular groove 6021 is offered on the periphery of the fixed column 602, The other end of the second spring 80 is hung on the bottom wall of the annular groove 6021.

In the present embodiment, the fixed plate 60 is equipped with several fixed columns 602, the other end of the second spring 80 It can hang over nearby in a certain fixed column 602.

As shown in figure 3, the bottom plate 11 is equipped with a L shape hand-held pole 130, the hand-held pole 130 by a plectane 140 with The bottom plate 11 is connected, and the quarter butt of the hand-held pole 130 is connected with the plectane 140, and the stock of the hand-held pole 130 is to a pair The axis direction of bracket 10 extends.

When needing that the position of upper adjustable plate 40 is adjusted, corresponded to firstly, being detached from the other end of second spring 80 Fixed column 602, then hold hand-held pole 130 stock, push bottom plate 11, first connecting rod 2 and second connecting rod 4 gearing make Under, so that swing rod 3 is swung, elevating lever 5 is moved up and down, and is compressed the first spring 6 or restored the first spring 6, to realize Adjusting to the position of upper adjustable plate 40, it is after the position of upper adjustable plate 40 regulates, the other end of second spring 80 is nearest It is hung in corresponding fixed column 602.

As shown in Figure 4 and Figure 5, the connection component includes upper cylindrical base 90, lower semisphere pedestal 100, several thirds Spring 120 and elastic parts, since connection component includes several third springs 120 and elastic parts, so that upper adjusting Plate 40 can be constantly in stable state during the verticality to building detects, so that the architectural engineering is vertical Degree detection device can more accurately detect the verticality of building, avoid occurring accident, the upper cylindrical base 90 with The upper adjustable plate 40 is connected, and the top of the lower semisphere pedestal 100 is connected by connecting column 110 with the lower carrier plate 30, if In the space that dry 120 annular spread of third spring is formed between the upper cylindrical base 90 and the lower semisphere pedestal 100, The second annular groove 1001 is offered on the end face of the lower semisphere pedestal 100, the bottom wall of second annular groove 1001 is equipped with Several equally distributed lower pillars 1002, one end of the third spring 120 is set on corresponding lower pillar 1002, described The other end of third spring 120 is set on corresponding upper pillar 901 on upper 90 bottom surface of cylindrical base, the elasticity Component is arranged between the upper cylindrical base 90 and the lower semisphere pedestal 100, and the elastic parts be located at several the In three springs 120, the elastic parts includes rubber column 7, rubber bodies 8 and annular support member 9, one end of the rubber column 7 with The upper cylindrical base 90 is connected, and first annular slot 71 is offered on the other end of the rubber column 7, the rubber bodies 8 include Rubber circular plate 81, rubber short column 82 and the rubber hemisphere body 83 being sequentially connected, the rubber circular plate 81 are another with the rubber column 7 One end is connected, and the diameter of the rubber short column 82 is less than the diameter of the rubber circular plate 81, the rubber circular plate 81 and the rubber Glue short column 82 is respectively positioned on outside the lower semisphere pedestal 100, and the rubber hemisphere body 83 is embedded on the lower semisphere pedestal 100 In half ball groove 1001, the top of the annular support member 9 is located in the first annular slot 71, and the annular support member 9 First annular mounting groove 91 is offered on the periphery on top, the annular convex platform 711 on 71 lateral wall of annular groove is embedded In the first annular mounting groove 91, the lower part of the annular support member 9 is located at the rubber column 7 and the lower semisphere pedestal The second annular mounting groove 92 is offered between 100, and in the inner circumferential of the lower part of the annular support member 9, the glue plectane 81 Outer rim is embedded in second annular mounting groove 92, and the inner circumferential of the lower part of the annular support member 9 and the rubber short column 82 side wall contact, since elastic parts includes supporting element 9, it is thus possible to prevent rubber column 7 and rubber bodies 8 from occurring excessively to become Shape, extends the service life of elastic parts, and then extends the service life of connection component, further extends support base tune The service life for saving component, to extend the service life of the architectural engineering testing apparatus for verticality.

It should be noted that embodiment of the present invention is only to realize preferred embodiment of the invention, to belonging to this Invention general idea, and be only obvious change, be within the scope of protection of the invention within.

Claims (9)

1. a kind of architectural engineering testing apparatus for verticality, including a pair of of support base adjust component, the support base adjusts component packet It includes a pair of brackets (10), the lower end of the bracket (10) is equipped with support (20), passes through lower carrier plate (30) between a pair of brackets (10) It is connected, the top of the lower carrier plate (30) is equipped with upper adjustable plate (40), and the upper end of the upper adjustable plate (40) is equipped with centre mount (50), which is characterized in that several pairs of adjusting components and several are equipped between the upper adjustable plate (40) and the lower carrier plate (30) A connection component, the connection component be located at it is a pair of adjust between component, and the both ends of the upper adjustable plate (40) respectively with position Guide rail (101) on the inside of corresponding bracket (10) is slidably matched.

2. architectural engineering testing apparatus for verticality according to claim 1, which is characterized in that the adjusting component includes:

Drive rod (1), the drive rod (1) include the cone-plate (12) of bottom plate (11) and setting in the bottom plate (11) upper end, institute The big end for stating cone-plate (12) is connected with the bottom plate (11), and the bottom plate (11) is corresponding with the lower carrier plate (30) upper end is located at Fixed plate (60) is slidably matched；

One end of first connecting rod (2), the first connecting rod (2) is hinged on the bottom plate (11)；

Swing rod (3), one end of the swing rod (3) are hinged on the middle part at the first connecting rod (2), the swing rod (3) it is another End is hinged on the corresponding lug (70) in the lower carrier plate (30) upper end；

One end of second connecting rod (4), the second connecting rod (4) is hinged on the small end of the cone-plate (12)；

Elevating lever (5), the elevating lever (5) include that setting exists in the fixed link (51) of upper adjustable plate (40) lower end and setting The pressing plate (52) of fixed link (51) lower end, the other end of the first connecting rod (2) are hinged under the fixed link (51) The other end in portion, the second connecting rod (4) is hinged on the middle part of the fixed link (51).

3. architectural engineering testing apparatus for verticality according to claim 2, which is characterized in that the adjusting component further includes First spring (6), first spring (6) are arranged between the pressing plate (52) and the lower carrier plate (30).

4. architectural engineering testing apparatus for verticality according to claim 3, which is characterized in that the bottom plate (11) can lead to Second spring (80) is crossed to be connected with the fixed plate (60).

5. architectural engineering testing apparatus for verticality according to claim 1, which is characterized in that the connection component includes:

Upper cylindrical base (90), the upper cylindrical base (90) are connected with the upper adjustable plate (40)；

The top of lower semisphere pedestal (100), the lower semisphere pedestal (100) passes through connecting column (110) and the lower carrier plate (30) It is connected；

Several third springs (120), several third spring (120) annular spreads the upper cylindrical base (90) with it is described In the space formed between lower semisphere pedestal (100)；

Elastic parts, the elastic parts are arranged between the upper cylindrical base (90) and the lower semisphere pedestal (100), and The elastic parts is located in several third springs (120).

6. architectural engineering testing apparatus for verticality according to claim 5, which is characterized in that the elastic parts includes:

Rubber column (7), one end of the rubber column (7) are connected with the upper cylindrical base (90), the rubber column (7) it is another First annular slot (71) are offered on end；

Rubber bodies (8), the rubber bodies (8) include the rubber circular plate (81), rubber short column (82) and rubber hemispherical being sequentially connected Body (83), the rubber circular plate (81) are connected with the other end of the rubber column (7), and the diameter of the rubber short column (82) is less than The diameter of the rubber circular plate (81), the rubber circular plate (81) and the rubber short column (82) are respectively positioned on the lower semisphere pedestal (100) outside, the rubber hemisphere body (83) is embedded half ball groove (1001) on the lower semisphere pedestal (100) Nei；

Annular support member (9), the top of the annular support member (9) is located in the first annular slot (71), and the annular First annular mounting groove (91) are offered on the periphery on the top of supporting element (9), are located on the annular groove (71) lateral wall Annular convex platform (711) is embedded in the first annular mounting groove (91), and the lower part of the annular support member (9) is located at the rubber Between rubber column gel column (7) and the lower semisphere pedestal (100), and second is offered in the inner circumferential of the lower part of the annular support member (9) Annular mounting groove (92), the outer rim of the glue plectane (81) is embedded in second annular mounting groove (92), and the annular The inner circumferential of the lower part of supporting element (9) is contacted with the side wall of the rubber short column (82).

7. architectural engineering testing apparatus for verticality according to claim 4, which is characterized in that the bottom plate (11) is equipped with One hand-held pole (130), the hand-held pole (130) are connected by a plectane (140) with the bottom plate (11).

8. architectural engineering testing apparatus for verticality according to claim 1, which is characterized in that the upper adjustable plate (40) The inside and outside two sides of end offer vertical slot (401) respectively, and the vertical slot (401) side wall corresponding with the guide rail (101) are located at On riser (1011) be slidably matched, offer dovetail groove (402), the dovetail groove on the end of the upper adjustable plate (40) (402) it is slidably matched with the pillar (1012) being located on the guide rail (101) bottom wall.

9. architectural engineering testing apparatus for verticality according to claim 8, which is characterized in that the support base adjusts component It further include a pair of cover board (150) matched with corresponding guide rail (101), the cover board (150) is by the upper adjustable plate (40) Corresponding end is limited in corresponding guide rail (101).