CN215441475U - Bridge floor level detection device for bridge construction - Google Patents

Abstract

The utility model belongs to the technical field of bridge construction, and particularly relates to a bridge deck level detection device for bridge construction, which comprises a level detector body mainly comprising a support and a bubble level meter, wherein a chassis is welded between the support and the bubble level meter, and an insertion block is arranged at one end of the support, which is far away from the chassis; at support internally mounted's adjusting part, be convenient for finely tune the height of support for bubble spirit level keeps the horizontal position all the time, guarantees measurement accuracy, through the locating component at support surface mounting, prevents that this device from receiving external force to influence to produce and rocking, guarantees measurement accuracy.

Description

Bridge floor level detection device for bridge construction

Technical Field

The utility model belongs to the technical field of bridge construction, and particularly relates to a bridge floor level detection device for bridge construction.

Background

The spirit level is used for detecting the horizontally measuring device of bridge floor, when the bridge floor detected, need place on the bridge floor with the spirit level is stable, and current spirit level is mostly integrated into one piece from the support in area, does not have the function of high fine setting, and the spirit level receives the influence of bridge floor slope when placing, influences measurement accuracy easily, causes the inconvenience of normal use from this.

In order to solve the problem, the bridge deck level detection device for bridge construction is provided in this application.

SUMMERY OF THE UTILITY MODEL

To solve the problems set forth in the background art described above. The utility model provides a bridge floor level detection device for bridge construction, which has the characteristics of convenience in fine adjustment of height, prevention of shaking and guarantee of measurement accuracy.

In order to achieve the purpose, the utility model provides the following technical scheme: a bridge deck level detection device for bridge construction comprises a level detection machine body mainly composed of a support and a bubble level meter, wherein the support is arranged in an inclined mode, a chassis is welded between the support and the bubble level meter, an insertion block is arranged at one end, far away from the chassis, of the support, and an adjusting assembly is arranged inside the support;

the adjusting component comprises a transversely arranged rotating rod, an upper bevel gear, a lower bevel gear, a vertically arranged screw rod, a sleeve arranged in the concave manner and a sliding rod arranged in the concave manner, an inner cavity is formed in the surface of one end, far away from the chassis, of the support, the rotating rod and the upper bevel gear are both positioned in the inner cavity, one end of the rotating rod is welded with the axis of the outer wall of the upper bevel gear, the other end of the rotating rod penetrates through the surface of the support, the outer side surface of the rotating rod is attached to the support, the outer wall of the upper bevel gear is connected with the lower bevel gear in a meshed manner, the screw rod is welded at the axis of one side, far away from the upper bevel gear, of the outer wall of the lower bevel gear, the outer side surface of the screw rod is rotatably connected with a fixing plate through a bearing, the outer side wall of the fixing plate is fixedly connected with the inner wall of the inner cavity, and the sleeve and the sliding rod are both arranged in the inner cavity, the sleeve is located the interior concave surface of slide bar to with the inner wall welding of slide bar, the screw rod is kept away from the one end of conical gear runs through down the fixed plate surface, and with telescopic inner wall threaded connection.

Preferably, one end of the sliding rod is attached to one side, away from the lower conical gear, of the fixing plate, the other end of the sliding rod is welded to the surface of the inserting block, and the outer side face of the sliding rod is connected with the inner wall of the inner cavity in a sliding mode.

Preferably, the bridge floor level detection device for bridge construction of the utility model is characterized in that the adjusting component further comprises a fixing ring in annular design, symmetrically arranged connecting plates, a telescopic rod and a fixing disc in circular design, the fixing ring is sleeved outside the sliding rod, and is welded with the outer wall of one end of the sliding rod, which is close to the inserting block, the connecting plate is positioned on the surface of the fixed ring, and is welded with the outer side wall of the fixed ring, the chassis and the fixed disc are positioned on the same vertical horizontal plane, the telescopic rod is arranged between the fixed disk and the fixed ring, one end of the telescopic rod is rotationally connected with the outer side surface of the fixed disk, the rotating shaft is preset in the other end of the telescopic rod, and two ends of the rotating shaft penetrate through the outer wall of the telescopic rod and extend into the connecting plate to be connected with the inner wall of the connecting plate in a rotating mode.

Preferably, the bridge floor level detection device for bridge construction is provided with three groups of fixing rings and three groups of telescopic rods, two sides of the outer wall of each fixing ring are respectively attached to the surface of the inserting block and the port of the support, and the telescopic rods are distributed at equal intervals along the outer wall of the fixing disc.

Preferably, one end of the rotating rod, which is far away from the upper bevel gear, is fixedly connected with a screwing piece.

The bridge floor level detection device for bridge construction is preferable, and further comprises a positioning assembly arranged on the surface of the support, the positioning assembly comprises an obliquely arranged connecting rod and a transversely arranged positioning plate, the connecting rod is arranged beside the support, the screwing piece and the connecting rod are located on the same vertical horizontal plane, one end of the connecting rod is rotatably connected with the outer side wall of the support, the other end of the connecting rod is rotatably connected with the surface of the positioning plate, a through groove is formed in one side, close to the connecting rod, of the outer wall of the positioning plate, a screw is arranged on the inner wall of the through groove, and the outer side face of the screw is in threaded connection with the inner wall of the through groove of the positioning plate.

Preferably, the positioning assembly further comprises a non-slip pad, and the non-slip pad is positioned on one side of the outer wall of the positioning plate, which is far away from the connecting rod, and is connected with the surface of the positioning plate through bolts.

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

through the adjusting part at support internally mounted, be convenient for finely tune the height of support for bubble spirit level keeps the horizontal position all the time, guarantees measurement accuracy, through the locating component at support surface mounting, prevents that this device from receiving external force to influence to produce and rocking, guarantees measurement accuracy.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model. In the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view showing the internal structure of the stent of the present invention;

FIG. 3 is a schematic view showing a connection structure of a fixing ring, a telescopic rod and a fixing disk in the present invention;

FIG. 4 is a schematic view of the internal structure of the positioning assembly of the present invention;

FIG. 5 is a schematic view of the connection structure of the positioning plate and the non-slip mat according to the present invention;

in the figure:

1. a horizontal detector body; 101. a support; 102. a bubble level; 103. a chassis; 104. inserting a block;

2. an adjustment assembly; 201. a rotating rod; 202. an upper bevel gear; 203. a lower bevel gear; 204. a screw; 205. a sleeve; 206. a slide bar; 207. an inner cavity; 208. a fixing plate; 209. a fixing ring; 210. a connecting plate; 211. a telescopic rod; 212. fixing the disc; 213. a screwing member;

3. a positioning assembly; 301. a connecting rod; 302. positioning a plate; 303. a screw; 304. a non-slip mat.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example 1

As shown in fig. 1, 2 and 3:

the utility model provides a bridge floor level detection device for bridge construction, includes mainly by the level detection machine body 1 that support 101 and bubble level appearance 102 constitute, support 101 slope sets up, and the welding has chassis 103 between support 101 and the bubble level appearance 102, and the one end that chassis 103 was kept away from to support 101 is equipped with inserted block 104.

In this embodiment: when the bridge floor detects, need place on the bridge floor with bubble level gauge 102 is stable, and current bubble level gauge 102 is mostly integrated into one piece from the support 101 in area, does not possess the function of high fine setting, and bubble level gauge 102 receives the influence that plays the bridge floor slope when placing, influences measurement accuracy easily, causes the inconvenience of normal use from this.

On the basis, the adjusting component 2 arranged in the existing bracket 101 is convenient for finely adjusting the height of the bracket 101, so that the bubble level meter 102 always keeps a horizontal position, and the measuring precision is ensured.

This bridge floor level detection device for bridge construction, support 101 is inside to be provided with adjusting part 2.

The adjusting component 2 comprises a transversely arranged rotating rod 201, an upper bevel gear 202, a lower bevel gear 203, a vertically arranged screw 204, a concavely arranged sleeve 205 and a concavely arranged sliding rod 206, wherein an inner cavity 207 is formed in the surface of one end, away from the chassis 103, of the support 101, the rotating rod 201 and the upper bevel gear 202 are both positioned in the inner cavity 207, one end of the rotating rod 201 is welded with the axis of the outer wall of the upper bevel gear 202, the other end of the rotating rod 201 penetrates through the surface of the support 101, the outer side surface of the rotating rod 201 is attached to the support 101, the outer wall of the upper bevel gear 202 is in meshing connection with the lower bevel gear 203, the axis of one side, away from the upper bevel gear 202, of the outer wall of the lower bevel gear 203 is welded with the screw 204, the outer side surface of the screw 204 is rotatably connected with a fixing plate 208 through a bearing, the outer side wall of the fixing plate 208 is fixedly connected with the inner wall of the inner cavity 207, the sleeve 205 and the sliding rod 206 are both positioned in the inner cavity 207, the sleeve 205 is positioned in the inner concave surface of the sliding rod 206, and is welded with the inner wall of the sliding rod 206, and one end of the screw 204 far away from the lower bevel gear 203 penetrates the surface of the fixing plate 208 and is in threaded connection with the inner wall of the sleeve 205.

In this embodiment:

based on that the rotating rod 201 penetrates through the surface of the support 101, the upper bevel gear 202 welded to one end of the rotating rod 201 can be driven to rotate by rotating the rotating rod 201, the upper bevel gear 202 is meshed with the lower bevel gear 203 to be connected, the upper bevel gear 202 can drive the lower bevel gear 203 to rotate, a screw 204 welded to the surface of the lower bevel gear 203 can rotate, a sleeve 205 is welded to the inner concave surface of the sliding rod 206, the inner wall of the sleeve 205 is in threaded connection with the outer side surface of the screw 204, the sliding rod 206 can be driven to vertically move by rotating the screw 204, the lifting height of the support 101 can be adjusted, fine adjustment of the height of the support 101 is facilitated, the bubble level meter 102 can be kept at a horizontal position all the time, and the measurement accuracy is guaranteed.

It should be noted that: the lifting height of the bracket 101 can be adjusted by controlling the number of turns of the rotating rod 201.

Further, the method comprises the following steps:

in an alternative embodiment: one end of the sliding rod 206 is attached to one side of the fixing plate 208 far away from the lower bevel gear 203, the other end of the sliding rod 206 is welded to the surface of the insert block 104, and the outer side surface of the sliding rod 206 is connected with the inner wall of the inner cavity 207 in a sliding manner.

In this embodiment:

based on the sliding connection between the outer side surface of the sliding rod 206 and the inner wall of the inner cavity 207, the lifting of the sliding rod 206 can be assisted.

Further, the method comprises the following steps:

in an alternative embodiment: adjusting part 2 is still including the solid fixed ring 209 that is the annular design, the connecting plate 210 that the symmetry set up, telescopic link 211 and the fixed disk 212 that is circular design, gu fixed ring 209 cover is established in the slide bar 206 outside, and be close to the one end outer wall welding of inserted block 104 with slide bar 206, connecting plate 210 is located solid fixed ring 209 surface, and with the lateral wall welding of solid fixed ring 209, chassis 103 is located same vertical horizontal plane with fixed disk 212, be provided with telescopic link 211 between fixed disk 212 and the solid fixed ring 209, the one end of telescopic link 211 is rotated with the lateral surface of fixed disk 212 and is connected, the pivot has been preset to the other end inside of telescopic link 211, the outer wall of telescopic link 211 is all run through at the both ends of pivot, and extend into the inside inner wall rotation with connecting plate 210 of connecting plate 210 and be connected.

In an alternative embodiment: the fixed ring 209 and the telescopic link 211 are provided with three groups, two sides of the outer wall of the fixed ring 209 are respectively attached to the surface of the inserting block 104 and the port of the bracket 101, and the telescopic link 211 is equidistantly distributed along the outer wall of the fixed disc 212.

In this embodiment:

based on solid fixed ring 209 medial surface and the welding of slide bar 206 lateral surface, make slide bar 206 remove and to drive solid fixed ring 209 and remove, and then drive and solid fixed ring 209 lateral surface welded connecting plate 210 and remove, be connected with telescopic link 211 because of connecting plate 210 rotates through the pivot, and telescopic link 211's the other end rotates with fixed disk 212 and is connected, gu fixed ring 209 one end can drive telescopic link 211 from this and begin to stretch and be the tilt state, set up to three groups because of solid fixed ring 209 again, make three solid fixed ring 209 of group adaptation three supports 101 respectively, through the setting of three solid fixed ring 209 of group and three telescopic link 211 of group, guarantee the stability of support 101 at the lift in-process.

Further, the method comprises the following steps:

in an alternative embodiment: a screw 213 is fixedly connected to an end of the rotating rod 201 remote from the upper bevel gear 202.

It should be noted that: the screw 213 is provided so that the measurer can easily rotate the rotating rod 201.

As shown in fig. 1, 4 and 5:

with the above in mind: on this basis, at the locating component 3 of support 101 surface mounting, prevent that this device from receiving external force influence to produce and rocking, guarantee measurement accuracy.

This bridge floor level detection device is used in bridge construction, still including setting up the locating component 3 on support 101 surface, locating component 3 is including the connecting rod 301 that the slope set up and the locating plate 302 of horizontal setting, connecting rod 301 sets up the side at support 101, and it is located same vertical horizontal plane with connecting rod 301 to revolve wrong piece 213, the one end of connecting rod 301 rotates with the lateral wall of support 101 to be connected, the other end of connecting rod 301 rotates with the surface of locating plate 302 to be connected, logical groove has been seted up to one side that the outer wall of locating plate 302 is close to connecting rod 301, this logical inslot wall is provided with screw 303, the lateral surface of screw 303 and the inner wall threaded connection that locating plate 302 led to the groove.

In this embodiment:

one end based on connecting rod 301 rotates with support 101 lateral wall to be connected, make support 101 remove and drive connecting rod 301 and remove, the other end because of connecting rod 301 rotates with locating plate 302 outer wall to be connected, make locating plate 302 keep rotating with connecting rod 301 and be connected the relation, when carrying out the bridge floor measurement, flow because of river water flow drives the flow of wind, and support 101 bottom is through inserted block 104 and bridge floor contact, level detection machine body 1 rocks by the influence of wind-force production easily, after support 101 highly risees, the focus of level detection machine body 1 risees, it rocks to produce more easily by the influence of bridge floor wind-force, accessible rotating orientation board 302 from this, make locating plate 302 and bridge floor laminating, and then keep the fixed relation of locating plate 302 and bridge floor through screw 303, guarantee support 101's firm from this, prevent that this device from shaking by the influence production of external force, guarantee measurement accuracy.

Further, the method comprises the following steps:

in an alternative embodiment: the positioning assembly 3 further comprises a non-slip pad 304, wherein the non-slip pad 304 is positioned on one side of the outer wall of the positioning plate 302 away from the connecting rod 301 and is bolted with the surface of the positioning plate 302.

In this embodiment:

because locating plate 302 downside bolted connection's slipmat 304 for slipmat 304 can with the bridge floor contact, increases the frictional force between locating plate 302 and the bridge floor, prevents that locating plate 302 position from taking place the skew.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that changes may be made in the embodiments and/or equivalents thereof without departing from the spirit and scope of the utility model. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a bridge floor level detection device for bridge construction, includes mainly by horizontal detection machine body (1) that support (101) and bubble spirit level (102) are constituteed, support (101) slope sets up, just support (101) with welding has chassis (103) between bubble spirit level (102), support (101) are kept away from the one end of chassis (103) is equipped with inserted block (104), its characterized in that: an adjusting component (2) is arranged in the bracket (101);

the adjusting component (2) comprises a transversely arranged rotating rod (201), an upper bevel gear (202), a lower bevel gear (203), a vertically arranged screw rod (204), a sleeve (205) arranged in a concave manner and a sliding rod (206) arranged in the concave manner, an inner cavity (207) is formed in the surface of one end, away from the chassis (103), of the support (101), the rotating rod (201) and the upper bevel gear (202) are both positioned in the inner cavity (207), one end of the rotating rod (201) is welded to the axis of the outer wall of the upper bevel gear (202), the other end of the rotating rod (201) penetrates through the surface of the support (101), the outer side face of the rotating rod (201) is attached to the support (101), the outer wall of the upper bevel gear (202) is meshed and connected with the lower bevel gear (203), the outer wall of the lower bevel gear (203) is welded to the axis of one side, away from the upper bevel gear (202), of the screw rod (204), the outer side surface of the screw rod (204) is rotatably connected with a fixing plate (208) through a bearing, the outer side wall of the fixing plate (208) is fixedly connected with the inner wall of the inner cavity (207), the sleeve (205) and the sliding rod (206) are arranged in the inner cavity (207), the sleeve (205) is located on the inner concave surface of the sliding rod (206) and is welded with the inner wall of the sliding rod (206), and one end, far away from the lower conical gear (203), of the screw rod (204) penetrates through the surface of the fixing plate (208) and is in threaded connection with the inner wall of the sleeve (205).

2. The bridge deck level detection device for bridge construction according to claim 1, characterized in that: one end of the sliding rod (206) is attached to one side, far away from the lower bevel gear (203), of the fixing plate (208), the other end of the sliding rod (206) is welded to the surface of the inserting block (104), and the outer side face of the sliding rod (206) is connected with the inner wall of the inner cavity (207) in a sliding mode.

3. The bridge deck level detection device for bridge construction according to claim 1, characterized in that: the adjusting component (2) further comprises a fixing ring (209) with an annular design, a connecting plate (210) symmetrically arranged, a telescopic rod (211) and a fixing disc (212) with a circular design, the fixing ring (209) is sleeved on the outer side of the sliding rod (206) and is close to the sliding rod (206) to weld the outer wall of one end of the insert block (104), the connecting plate (210) is positioned on the surface of the fixing ring (209) and is welded with the outer wall of the fixing ring (209), the chassis (103) and the fixing disc (212) are positioned on the same vertical horizontal plane, the telescopic rod (211) is arranged between the fixing disc (212) and the fixing ring (209), one end of the telescopic rod (211) is rotatably connected with the outer side face of the fixing disc (212), a rotating shaft is preset in the other end of the telescopic rod (211), and the two ends of the rotating shaft penetrate through the outer wall of the telescopic rod (211), and extends into the connecting plate (210) to be rotationally connected with the inner wall of the connecting plate (210).

4. The bridge deck level detection device for bridge construction according to claim 3, characterized in that: fixed ring (209) with telescopic link (211) all are provided with three groups, the outer wall both sides of fixed ring (209) respectively with inserted block (104) surface with the port department of support (101) is laminated mutually, telescopic link (211) along the outer wall equidistance of fixed disk (212) distributes.

5. The bridge deck level detection device for bridge construction according to claim 1, characterized in that: and a screwing piece (213) is fixedly connected to one end, far away from the upper conical gear (202), of the rotating rod (201).

6. The bridge deck level detection device for bridge construction according to claim 5, characterized in that: still including setting up locating component (3) on support (101) surface, locating component (3) are including connecting rod (301) that the slope set up and horizontal locating plate (302) that sets up, connecting rod (301) set up support (101) side, just revolve wrong piece (213) with connecting rod (301) are located same vertical horizontal plane, the one end of connecting rod (301) with the lateral wall of support (101) rotates to be connected, the other end of connecting rod (301) with the surface rotation of locating plate (302) is connected, the outer wall of locating plate (302) is close to logical groove has been seted up to one side of connecting rod (301), and this logical inslot wall is provided with screw (303), the lateral surface of screw (303) with the inner wall threaded connection that locating plate (302) led to the groove.

7. The bridge deck level detection device for bridge construction according to claim 6, wherein: the positioning assembly (3) further comprises a non-slip pad (304), wherein the non-slip pad (304) is positioned on one side, away from the connecting rod (301), of the outer wall of the positioning plate (302) and is in bolted connection with the surface of the positioning plate (302).

Images