CN216130069U - Positioning device for floating bollard guide rail embedded part - Google Patents

Abstract

The utility model provides a positioning device for a guide rail embedded part of a floating mooring bollard, wherein the guide rail embedded part comprises a main rail embedded part and a corner protection embedded part, the main rail embedded part comprises a rail groove, and one end of the guide rail embedded part in the length direction is placed on a base; the locating group is located on the base, the locating group includes first setting element, second setting element and third setting element, the constant head tank is injectd to first setting element and third setting element, the main track buries the one end card of the width direction of piece in the constant head tank, the second setting element card is in the track groove, first setting element and second setting element are located the both sides that the piece thickness direction was buried to the guide rail, the flexible direction of first setting element is parallel with the horizontal plane with the flexible direction of second setting element, the flexible direction of first setting element is parallel with the axis direction in track groove, the flexible direction perpendicular to axis direction in track groove of second setting element, the flexible direction perpendicular to horizontal plane of third setting element. According to the positioning device for the floating bollard guide rail embedded part, the guide rail embedded part can be calibrated.

Description

Positioning device for floating bollard guide rail embedded part

Technical Field

The utility model relates to the technical field of floating bollard construction, in particular to a positioning device for a guide rail embedded part of a floating bollard.

Background

In the construction process of the floating mooring post embedded part of the ship lock, the traditional installation and construction process of the floating mooring post guide rail embedded part mainly adopts a first-stage structure reserved groove, then the floating mooring post guide rail embedded part is installed, after the checking is right, a second-stage template is installed, and finally second-stage concrete is poured. In the first period of the process, the reserved grooves have more joint bars and pull rods, and common quality problems such as honeycomb pitted surface and the like are easy to occur; the second-stage structure and the first-stage structure are easy to generate the phenomenon of structure dislocation. The second-stage structure has narrow operation space, is high-altitude operation and has higher safety risk. The secondary installation process of the guide rail embedded part of the floating mooring column in the ship lock engineering is excessive, the construction efficiency is poor, the construction period is long, and the cost is higher. And a second-stage structure is eliminated, and the floating bollard guide rail embedded part and the first-stage structure are implemented simultaneously, so that the safety, the quality, the cost and the progress are relatively controllable.

The total number of the floating mooring column guide rail embedded parts of a single section is 4, and in order to achieve the effect that the floating mooring column guide rail embedded parts and a first-stage structure are implemented simultaneously, 4 guide rail embedded parts need to be installed before a first-stage template is installed, and after the guide rail embedded parts are spliced, position correction before pouring needs to be carried out after the guide rail embedded parts are transferred to a construction cabin surface. Due to the fact that the number of the embedded parts is large and the embedded parts are relatively single and thin, the problems that the embedded parts of the guide rails are deformed and not installed in place easily, installation time is too long and the like occur during installation.

SUMMERY OF THE UTILITY MODEL

In view of the above, there is a need for a positioning device for a floating bollard guide rail insert, which can adjust the position of the spliced guide rail insert after being placed on the installation cabin surface before pouring, and improve the accuracy of the levelness and verticality of the guide rail insert placement position.

According to the positioning device of the floating bollard guide rail embedded part, the guide rail embedded part comprises a main rail embedded part and a corner protection embedded part, the main rail embedded part is connected with the corner protection embedded part, the main rail embedded part comprises a rail groove, and the positioning device of the floating bollard guide rail embedded part comprises: the guide rail embedded part is arranged on the base; the location group, the location group is located on the base, the location group includes first setting element, second setting element and third setting element, the constant head tank is injectd to first setting element and third setting element, the main track buries the one end card of the width direction of piece in the constant head tank, the second setting element card is in the track groove, first setting element and second setting element are located the guide rail respectively and bury the both sides of a thickness direction, wherein, the flexible direction of first setting element and the flexible direction of second setting element are all parallel and the horizontal plane, the flexible direction of first setting element is on a parallel with the axis direction in track groove, the flexible direction perpendicular to track groove's of second setting element axis direction, the flexible direction perpendicular to horizontal plane of third setting element.

According to the positioning device of the floating bollard guide rail embedded part, disclosed by the embodiment of the utility model, the transverse accuracy of the guide rail embedded part on the horizontal plane after being placed on the base is adjusted through the first positioning part, the longitudinal accuracy of the guide rail embedded part on the horizontal plane after being placed on the base is adjusted through the second positioning part, and the vertical accuracy of the guide rail embedded part on the vertical direction after being placed on the base is adjusted through the third positioning part, so that the three-dimensional positions of the guide rail embedded part are adjusted, the accuracy of the placement position of the guide rail embedded part is improved, and the accuracy of the position of the guide rail after pouring is improved.

According to the positioning device of the floating bollard guide rail embedded part of the embodiment of the utility model, the positioning group further comprises: the fourth setting element, the laminating of a side surface of the thickness direction of fourth setting element and angle bead embedded piece, the flexible direction perpendicular to horizontal plane of fourth setting element, because the guide rail embedded piece includes that the main track buries the piece and the angle bead buries the piece in width direction, set up the third setting element in the position that the main track buried the piece and carry out the adjustment of straightness that hangs down and set up the fourth setting element in the position that the angle bead buried the piece and carry out the adjustment of straightness that hangs down can make the guide rail bury the whole higher in the position precision of straightness direction that hangs down.

Optionally, the fourth positioning element and the third positioning element are located on the same side in the thickness direction of the embedded guide rail, so that the calibration standard of the verticality of the embedded guide rail is the same, and the verticality accuracy is higher.

Optionally, first setting element, second setting element, third setting element and fourth setting element are screw jack, because the guide rail buries a length longer, weight is great, screw jack has simple structure, longe-lived and can bear the great advantage of weight, can promote the work efficiency and the life of first setting element, second setting element, third setting element and fourth setting element.

Optionally, the second positioning element extends towards the direction close to the positioning slot or retracts towards the direction far away from the positioning slot. Two opposite side walls of the track groove are turned towards the direction far away from each other to form turned edges, and the turned edges far away from one side of the corner protector embedded part are clamped in the positioning groove and attached to the side walls of the positioning groove. When burying a width direction's one end with the primary rail and placing in the constant head tank, because manual operation, before the calibration, the position that the primary rail buried a piece is not accurate enough, can place and make the partial lateral wall and the turn-ups laminating of constant head tank, set up the direction that the second setting element orientation is close to the constant head tank and stretch out or the direction withdrawal of second setting element orientation keeping away from the constant head tank, can adjust the turn-ups that the primary rail buried a piece and the cooperation of constant head tank, make the lateral wall of constant head tank and the area of turn-ups laminating bigger, thereby promote the accuracy of first setting element calibration.

Optionally, the first positioning element, the second positioning element, the third positioning element and the fourth positioning element are detachably connected with the base, after the position of the guide rail embedded element is calibrated, the first positioning element, the second positioning element, the third positioning element and the fourth positioning element are detached from the base, the base and the guide rail embedded element are jointly poured, pouring of the guide rail embedded element is completed, and the first positioning element, the second positioning element, the third positioning element and the fourth positioning element can be recycled.

According to the positioning device for the floating bollard guide rail embedded parts, the number of the guide rail embedded parts is two, the two guide rail embedded parts are in mirror symmetry, the number of the positioning groups is two, and the positioning groups are in mirror symmetry, so that the calibration of the accuracy of three dimensions of the two guide rail embedded parts is realized, and the construction quality and the accuracy can be improved.

According to the positioning device of the floating bollard guide rail embedded part, the base is composed of the two transverse supports and the two longitudinal supports, so that the base is simple in structure, the construction requirement can be met by using less materials, and the production cost is reduced on the premise of meeting the construction quality.

Drawings

Fig. 1 is a schematic view of a positioning device for a floating bollard rail insert and rail insert according to an embodiment of the present invention.

Reference numerals:

a positioning device 1 of a floating bollard guide rail embedded part,

a base 10, a positioning set 11, a first positioning member 112, a second positioning member 113, a third positioning member 114, a positioning groove 115, a fourth positioning member 116,

rail insert 2, main rail insert 21, rail groove 212, flange 214, and corner insert 22.

Detailed Description

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be further described below with reference to specific embodiments and drawings, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without inventive labor.

A positioning device 1 for a floating bollard guide insert according to an embodiment of the utility model is described below with reference to the accompanying drawings.

As shown in fig. 1, according to positioning apparatus 1 of floating bollard guide embedded parts according to an embodiment of the present invention, guide embedded parts 2 include main rail embedded parts 21 and corner embedded parts 22, main rail embedded parts 21 are connected with corner embedded parts 22, main rail embedded parts 21 include rail grooves 212, and positioning apparatus 1 of floating bollard guide embedded parts includes: the base 10, one end of the length direction of the guide rail embedded part 2 is placed on the base 10; the positioning set 11, the positioning set 11 is disposed on the base 10, the positioning set 11 includes a first positioning member 112, a second positioning member 113 and a third positioning member 114, the first positioning member 112 and the third positioning member 114 define a positioning groove 115, one end of the main rail embedded member 21 in the width direction is clamped in the positioning groove 115, the second positioning member 113 is clamped in the rail groove 212, the first positioning member 112 and the second positioning member 113 are respectively located at two sides of the thickness direction of the rail embedded member 2, wherein the telescopic direction of the first positioning member 112 is parallel to the telescopic direction of the second positioning member 113, the telescopic direction of the first positioning member 112 is parallel to the axis direction of the rail groove 212, the telescopic direction of the second positioning member 113 is perpendicular to the axis direction of the rail groove 212, and the telescopic direction of the third positioning member 114 is perpendicular to the horizontal plane.

According to the positioning device 1 of the floating bollard guide rail embedded part, the transverse accuracy of the guide rail embedded part 2 on the horizontal plane after being placed on the base 10 is adjusted through the first positioning part 112, the longitudinal accuracy of the guide rail embedded part 2 on the horizontal plane after being placed on the base 10 is adjusted through the second positioning part 113, and the vertical accuracy of the guide rail embedded part 2 on the vertical direction after being placed on the base 10 is adjusted through the third positioning part 114, so that the three-dimensional positions of the guide rail embedded part 2 are adjusted, the accuracy of the placement position of the guide rail embedded part 2 is improved, and the accuracy of the position of the guide rail after pouring is improved.

As shown in fig. 1, according to the positioning device 1 of the floating bollard guide rail embedded part of the embodiment of the utility model, the positioning group 11 further comprises: the fourth positioning piece 116, the fourth positioning piece 116 is attached to one side surface of the thickness direction of the embedded corner protector 22, the telescopic direction of the fourth positioning piece 116 is perpendicular to the horizontal plane, and since the embedded guide rail part 2 comprises the embedded main rail part 21 and the embedded corner protector part 22 in the width direction, the third positioning piece 114 is arranged at the position of the embedded main rail part 21 to perform verticality adjustment, and the fourth positioning piece 116 is arranged at the position of the embedded corner protector part 22 to perform verticality adjustment, so that the position precision of the embedded guide rail part 2 in the verticality direction is higher.

Optionally, the fourth positioning element 116 and the third positioning element 114 are located on the same side in the thickness direction of the rail embedded part 2, so that the calibration standard of the verticality of the rail embedded part 2 is the same, and the accuracy of the verticality is higher.

Optionally, the first positioning element 112, the second positioning element 113, the third positioning element 114, and the fourth positioning element 116 are all screw jacks, and since the guide rail embedded element 2 is long in length and heavy in weight, the screw jacks have the advantages of simple structure, long service life, and capability of bearing heavy weight, and can improve the working efficiency and the service life of the first positioning element 112, the second positioning element 113, the third positioning element 114, and the fourth positioning element 116.

Alternatively, the second positioning member 113 extends toward the positioning groove 115 or the second positioning member 113 retracts away from the positioning groove 115. Two opposite side walls of the track groove 212 are turned towards the direction away from each other to form flanges 214, and the flanges 214 at the side away from the corner protection embedded part 22 are clamped in the positioning groove 115 and attached to the side walls of the positioning groove 115. When placing main track buried piece 21 width direction's one end in constant head tank 115, because manual operation, before the calibration, main track buried piece 21's position is not accurate enough, may place and make constant head tank 115's partial lateral wall and turn-ups 214 laminate, set up that second setting element 113 stretches out towards the direction that is close to constant head tank 115 or second setting element 113 retracts towards the direction of keeping away from constant head tank 115, can adjust main track buried piece 21's turn-ups 214 and constant head tank 115 cooperation, make constant head tank 115's lateral wall and the area of turn-ups 214 laminating bigger, thereby promote the accuracy of first setting element 112 calibration.

Optionally, the first positioning element 112, the second positioning element 113, the third positioning element 114, and the fourth positioning element 116 are detachably connected to the base 10, after the position of the embedded guide rail element 2 is calibrated, the first positioning element 112, the second positioning element 113, the third positioning element 114, and the fourth positioning element 116 are detached from the base 10, the base 10 and the embedded guide rail element 2 are cast together, the casting of the embedded guide rail element 2 is completed, and the first positioning element 112, the second positioning element 113, the third positioning element 114, and the fourth positioning element 116 can also be recycled.

According to the positioning device 1 of the floating bollard guide rail embedded parts, the number of the guide rail embedded parts 2 is two, the two guide rail embedded parts 2 are in mirror symmetry, the number of the positioning groups 11 is two, and the number of the positioning groups 11 is in mirror symmetry, so that the calibration of the accuracy of the three dimensions of the two guide rail embedded parts 2 is realized, and the construction quality and the accuracy can be improved.

According to the positioning device 1 of the floating bollard guide rail embedded part, provided by the embodiment of the utility model, the base 10 consists of two transverse brackets and two longitudinal brackets, so that the base 10 is simple in structure, can meet construction requirements with less material, and reduces the production cost on the premise of meeting the construction quality.

It will be understood that the terms "upper," "lower," "front," "rear," "left," "right," "horizontal," "top," "inner," and the like are used in the orientation or positional relationship indicated in the drawings for convenience in describing the utility model and for simplicity in description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the utility model.

The terms "first", "second" and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, features defined as "first", "second", "third" may explicitly or implicitly include one or more of the features. In the description of the present invention, a "set" means two or more unless otherwise specified.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (8)

1. A positioner that floating bollard guide rail was buried piece, guide rail buried piece include that main track buries piece and angle bead and buries the piece, main track bury the piece with the angle bead buries the piece and is connected, main track buries the piece and includes the track groove, its characterized in that includes:

the guide rail embedded part is arranged on the base, and one end of the guide rail embedded part in the length direction is placed on the base;

a positioning set, which is arranged on the base and comprises a first positioning piece, a second positioning piece and a third positioning piece, wherein the first positioning piece and the third positioning piece define a positioning groove, one end of the main track embedded piece in the width direction is clamped in the positioning groove, the second positioning piece is clamped in the track groove, the first positioning piece and the second positioning piece are respectively arranged at two sides of the guide track embedded piece in the thickness direction, wherein,

the telescopic direction of the first positioning piece and the telescopic direction of the second positioning piece are parallel to the horizontal plane, the telescopic direction of the first positioning piece is parallel to the axis direction of the track groove, the telescopic direction of the second positioning piece is perpendicular to the axis direction of the track groove, and the telescopic direction of the third positioning piece is perpendicular to the horizontal plane.

2. The floating bollard guide insert locating device of claim 1 wherein the locating set further comprises: and the fourth positioning piece is attached to one side surface of the corner protector embedded piece in the thickness direction, and the telescopic direction of the fourth positioning piece is perpendicular to the horizontal plane.

3. The device of claim 2, wherein the fourth location member and the third location member are located on the same side of the rail insert in the thickness direction.

4. The device of claim 3, wherein the first, second, third and fourth positioning members are screw jacks.

5. The device of claim 4, wherein said second positioning element extends toward said positioning slot or said second positioning element retracts toward a direction away from said positioning slot.

6. The floating bollard guide track insert positioning device of claim 4 wherein the first positioning member, the second positioning member, the third positioning member and the fourth positioning member are removably connected to the base.

7. The floating bollard guide track insert locating device of claim 1, wherein there are two of said guide track inserts, and wherein there are two of said locating groups that are mirror images.

8. The floating bollard guide track insert locating device of claim 1 wherein the base is comprised of two transverse supports and two longitudinal supports.

Images