CN214537719U - Building spacing control ruler - Google Patents

Abstract

The utility model relates to a building interval control chi. The problem that operation is complex and measurement is inconvenient when the distance between buildings is measured in the prior art is solved. It includes transparent tensile chi, and transparent tensile chi one end has location structure, and the other end is equipped with the horizontal stretching mechanism who is perpendicular setting with transparent tensile chi, and horizontal stretching mechanism both ends are equipped with through location coupling mechanism can keep parallel arrangement's vertical stretching subassembly with transparent tensile chi all the time when horizontal stretching mechanism inclines, have the length measurement scale on the transparent tensile chi, and fixed connection between transparent tensile chi one end and the horizontal stretching mechanism. The utility model has the advantages that: the operation is simple and the measurement is convenient.

Description

Building spacing control ruler

Technical Field

The utility model relates to a building design technical field, concretely relates to building interval control chi.

Background

As shown in fig. 1, the building distance control is a key point of the general diagram layout, when measuring the distance between two adjacent buildings which are not parallel, a method of connecting the midpoint of the wall surface of the projection overlapping area is required to determine whether the control requirement is met, so that a designer needs to operate the computer to draw the overlapping area and then find out the connecting line of the central points of the overlapping area to determine whether the requirement is met.

Disclosure of Invention

The utility model aims at the above-mentioned problem, provide a reasonable in design, measure convenient building interval control chi.

In order to achieve the above purpose, the utility model adopts the following technical proposal: this building interval control chi, including transparent tensile chi, transparent tensile chi one end has location structure, and the other end is equipped with the horizontal stretching mechanism who is perpendicular setting with transparent tensile chi, and horizontal stretching mechanism both ends are equipped with through location coupling mechanism can keep parallel arrangement's vertical stretching subassembly with transparent tensile chi all the time when horizontal stretching mechanism inclines, have the length measurement scale on the transparent tensile chi, and fixed connection between transparent tensile chi one end and the horizontal stretching mechanism. The transverse stretching mechanism is arranged at one end of the transparent stretching ruler, during measurement, the transverse stretching mechanism is enabled to be flush with the side face of one building, the end point of the transverse stretching mechanism is enabled to be flush with the end part of the building, vertical stretching is conducted through the longitudinal stretching assemblies arranged at the two ends of the transverse stretching mechanism, one end of one longitudinal stretching assembly is enabled to extend to the end part of the other building, one end of the other longitudinal stretching assembly is in contact with the other building, the lengths of the two ends of the transverse stretching mechanism are adjusted and kept consistent, the transparent stretching ruler is enabled to be always located at the central point of the transverse stretching mechanism, and the transparent stretching ruler and the transverse stretching mechanism are enabled to be vertically arranged.

In the building space control ruler, one end of the transparent stretching ruler connected with the transverse stretching mechanism is positioned at the central point of the transverse stretching mechanism.

In foretell building interval control chi, horizontal stretching mechanism includes the horizontal location body of rod, and horizontal location body of rod middle part is equipped with tensile chi mounting, and transparent tensile chi one end is fixed in horizontal location body of rod middle part through tensile chi mounting is removable, and horizontal location body of rod both ends are connected with the horizontal stretching body of rod through stretching mechanism.

In the building space control ruler, one end of the transverse stretching rod body, which is far away from the stretching mechanism, is connected with the positioning and connecting mechanism through the inserting part, and the transverse stretching rod body is provided with length scale marks. The length scale marks are convenient for keeping the stretching lengths of the transverse stretching rod bodies at the two ends of the transverse positioning rod body consistent all the time, so that one end of the transparent stretching ruler is always positioned at the central point of the transverse stretching mechanism.

In foretell building interval control chi, tensile mechanism is equipped with the regulation tooth including setting up the tensile spout at the inboard of transverse orientation body of rod both ends circumference, tensile spout inner wall, and transverse orientation body of rod one end sets up in tensile spout, and transverse orientation body of rod both sides are equipped with and adjust the tooth and be the location tooth of dislocation joint one by one. The setting of adjusting tooth and location tooth makes the horizontal tensile body of rod can remain stable after flexible, plays limiting displacement.

In the building space control ruler, the longitudinal stretching assembly comprises a longitudinal stretching rod body, one end of the longitudinal stretching rod body is connected with the positioning portion through a tension spring, and the other end of the longitudinal stretching rod body is connected with the positioning connecting mechanism through a connecting portion.

In the building space control ruler, the positioning connection mechanism comprises a positioning shaft, the bottom of the positioning shaft is in a conical shape, and an upper fixing groove and a lower rotating groove are sequentially arranged at the upper end of the positioning shaft from top to bottom. The bottom of the positioning shaft is in a conical shape, so that the positioning shaft can be effectively fixed outside, and the measurement stability is improved.

In the building space control ruler, the connecting part at one end of the longitudinal stretching rod body is fixedly connected with the upper fixing groove, and the lower rotating groove is connected with the end part of the transverse stretching mechanism in an inserting manner through the annular rotating part. Because the building is arranged in a relatively inclined manner during measurement, the arrangement of the annular rotating part is convenient for the transverse stretching mechanism to flexibly adjust and attach according to the inclination of the building.

In foretell building interval control chi, the one end that the horizontal tensile body of rod set up in tensile spout has the spread groove, and the one end that the horizontal tensile body of rod was kept away from to tensile spout is equipped with spacing extension spring through the fixing base, and spacing extension spring one end is fixed to be set up in the spread groove. The limiting tension spring can prevent the transverse stretching rod body from sliding out of the stretching sliding groove.

In the building space control ruler, the positioning structure comprises a rectangular connecting part, and an annular positioning hole is formed in the middle of the rectangular connecting part.

Compared with the prior art, the utility model has the advantages of: reasonable in design, convenient operation, through setting up horizontal tension mechanism perpendicularly in transparent tension ruler one end, and set up the vertical stretching subassembly that keeps parallel with transparent tension ruler all the time at horizontal tension mechanism both ends, during the measurement, make horizontal tension mechanism keep flushing with one of them building side, and horizontal tension mechanism endpoint keeps flushing with this building tip, carry out vertical stretching through the vertical stretching subassembly that sets up at horizontal tension mechanism both ends, make two vertical stretching subassemblies be the tip of opposite direction and the contact of the endpoint of two buildings, because transparent tension ruler keeps perpendicular setting with horizontal tension mechanism, therefore, the length of then transparent tension ruler is then the interval between the building when transparent tension ruler contacts another building, and convenient for measurement, result display is more directly perceived, and effectively improved work efficiency.

Drawings

FIG. 1 is a schematic view illustrating a typical measurement of inter-building distance;

fig. 2 is a schematic view of the overall structure of the utility model;

fig. 3 is a detailed structural schematic diagram of the transverse stretching mechanism in the utility model;

FIG. 4 is an enlarged view of the structure at A in FIG. 3;

fig. 5 is a schematic structural view of the positioning connection mechanism of the present invention;

fig. 6 is a schematic structural view of the annular rotating part in the present invention;

fig. 7 is a schematic structural view of the positioning part 53 in the present invention;

fig. 8 is a schematic view of the utility model in daily use.

In the figure, the transparent stretching ruler 1, the positioning structure 2, the rectangular connecting portion 21, the annular positioning hole 22, the transverse stretching mechanism 3, the transverse positioning rod 31, the stretching ruler fixing member 32, the transverse stretching rod 33, the inserting portion 34, the length scale mark 35, the positioning connecting mechanism 4, the positioning shaft 41, the upper fixing groove 42, the lower rotating groove 43, the annular rotating portion 44, the longitudinal stretching assembly 5, the longitudinal stretching rod 51, the tension spring 52, the positioning portion 53, the connecting portion 54, the stretching mechanism 6, the stretching sliding groove 61, the adjusting tooth 62, the positioning tooth 63, the connecting groove 64, the fixing seat 65 and the limit tension spring 66.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 2-8, this building interval control chi, including transparent tensile chi 1, transparent tensile chi 1 one end has location structure 2, and the other end is equipped with and is the horizontal stretching mechanism 3 that is perpendicular setting with transparent tensile chi 1, and horizontal stretching mechanism 3 both ends are equipped with through location coupling mechanism 4 and can keep parallel arrangement's vertical stretching subassembly 5 with transparent tensile chi 1 all the time when horizontal stretching mechanism 3 inclines, have length measurement scale 11 on the transparent tensile chi 1, and fixed connection between transparent tensile chi 1 one end and the horizontal stretching mechanism 3. Carry out synchronous stretching through the both ends of perpendicular setting at the horizontal stretching mechanism 3 of transparent stretching chi 1 tip, tensile in-process transparent stretching chi 1 is located horizontal stretching mechanism 3 central point all the time, utilizes to remove the vertical stretching assembly 5 that sets up at horizontal stretching mechanism 3 and confirms the central point of transparent stretching chi 1, can be through the accurate interval that obtains between the building of the length of transparent stretching chi 1 to judge whether the interval satisfies the requirement.

Wherein, the end of the transparent stretching ruler 1 connected with the transverse stretching mechanism 3 is positioned at the central point of the transverse stretching mechanism 3.

Visibly, the transverse stretching mechanism 3 comprises a transverse positioning rod body 31, a stretching ruler fixing part 32 is arranged in the middle of the transverse positioning rod body 31, one end of the transparent stretching ruler 1 is detachably fixed in the middle of the transverse positioning rod body 31 through the stretching ruler fixing part 32, and two ends of the transverse positioning rod body 31 are connected with a transverse stretching rod body 33 through a stretching mechanism 6. The transverse stretching rod body 33 keeps the same stretching length when stretching, so that the transparent stretching ruler 1 is always positioned at the central point of the transverse stretching mechanism 3.

Obviously, the end of the transverse stretching rod 33 away from the stretching mechanism 6 is connected with the positioning connection mechanism 4 through the insertion part 34, and the length scale mark 35 is arranged on the transverse stretching rod 33. The length scale mark 35 is used for judging whether the stretching lengths of the transverse stretching rod bodies 33 at the two ends are consistent.

Further, the stretching mechanism 6 comprises stretching sliding grooves 61 which are arranged on the inner sides of the circumferential directions of the two ends of the transverse positioning rod body 31, adjusting teeth 62 are arranged on the inner walls of the stretching sliding grooves 61, one end of the transverse stretching rod body 33 is arranged in the stretching sliding grooves 61, and positioning teeth 63 which are in one-to-one staggered joint with the adjusting teeth 62 are arranged on the two sides of the transverse stretching rod body 33. The mutual matching of the adjusting teeth 62 and the positioning teeth 63 can keep the stretched transverse positioning rod body 31 stable, retraction cannot be generated, and measurement is facilitated.

Further, the longitudinal stretching assembly 5 comprises a longitudinal stretching rod 51, one end of which is connected with a positioning part 53 through a tension spring 52, and the other end of which is connected with the positioning connection mechanism 4 through a connection part 54.

Specifically, the positioning connection mechanism 4 includes a positioning shaft 41, the bottom of the positioning shaft 41 is in a conical shape, and an upper fixing groove 42 and a lower rotating groove 43 are sequentially arranged at the upper end of the positioning shaft 41 from top to bottom. The bottom of the positioning shaft 41 is tapered to facilitate the fixation to the outside.

More specifically, the connecting portion 54 at one end of the longitudinal stretching rod body is fixedly connected with the upper fixing groove 42, and the lower rotating groove 43 is connected with the end of the transverse stretching mechanism 3 in an inserting manner through the annular rotating portion 44.

In detail, one end of the transverse stretching rod 33 disposed in the stretching sliding groove 61 is provided with a connecting groove 64, one end of the stretching sliding groove 61 far away from the transverse stretching rod 33 is provided with a limit tension spring 66 through a fixing seat 65, and one end of the limit tension spring 66 is fixedly disposed in the connecting groove 64.

Preferably, the positioning structure 2 comprises a rectangular connecting portion 21, and an annular positioning hole 22 is formed in the middle of the rectangular connecting portion 21.

In summary, the principle of the present embodiment is: the building spacing control ruler is suitable for Wuhan areas in China. By arranging the transverse stretching mechanism 3 at one end of the transparent stretching ruler 1, the transverse stretching rod bodies 33 at the two ends of the transverse stretching mechanism 3 are synchronously stretched during measurement, wherein, the interaction of the adjusting teeth 62 and the positioning teeth 63 is utilized to carry out positioning, so that the stretching length of the transverse stretching rod body 33 is kept consistent, so that the transparent stretching ruler 1 is always positioned at the central point of the transverse stretching mechanism 3, at the moment, the longitudinal stretching rod body 51 is stretched, the end points of the longitudinal stretching rod body 51 positioned at different ends are respectively positioned at the end parts of two buildings, because the transparent stretching ruler 1 and the transverse stretching mechanism 3 are vertically arranged, and the longitudinal stretching component 5 and the transparent stretching ruler 1 are parallel, therefore, when the transparent stretching ruler 1 contacts another building, the length of the transparent stretching ruler 1 is the distance between the two buildings, the measurement is convenient, the result display is more visual, and the operation is easy.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Although the terms of the transparent stretch rule 1, the positioning structure 2, the rectangular connecting portion 21, the annular positioning hole 22, the transverse stretching mechanism 3, the transverse positioning rod 31, the stretch rule fixing member 32, the transverse stretching rod 33, the inserting portion 34, the length scale mark 35, the positioning connecting mechanism 4, the positioning shaft 41, the upper fixing groove 42, the lower rotating groove 43, the annular rotating portion 44, the longitudinal stretching assembly 5, the longitudinal stretching rod 51, the tension spring 52, the positioning portion 53, the connecting portion 54, the stretching mechanism 6, the stretching sliding groove 61, the adjusting tooth 62, the positioning tooth 63, the connecting groove 64, the fixing seat 65, the limit tension spring 66, etc. are used more frequently, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed in a manner that is inconsistent with the spirit of the invention.

Claims (10)

1. The utility model provides a building interval control chi, includes transparent tensile chi (1), transparent tensile chi (1) one end location structure (2) have, the other end is equipped with and is perpendicular horizontal tension mechanism (3) that set up with transparent tensile chi (1), its characterized in that, horizontal tension mechanism (3) both ends be equipped with through location coupling mechanism (4) and can keep parallel arrangement's vertical tensile subassembly (5) with transparent tensile chi (1) all the time when horizontal tension mechanism (3) slope, transparent tensile chi (1) on have length measurement scale (11), and fixed connection between transparent tensile chi (1) one end and the horizontal tension mechanism (3).

2. The building spacing control ruler according to claim 1, wherein the end of the transparent stretching ruler (1) connected with the transverse stretching mechanism (3) is located at the center point of the transverse stretching mechanism (3).

3. The building spacing control ruler according to claim 2, wherein the transverse stretching mechanism (3) comprises a transverse positioning rod body (31), a stretching ruler fixing part (32) is arranged in the middle of the transverse positioning rod body (31), one end of the transparent stretching ruler (1) is detachably fixed in the middle of the transverse positioning rod body (31) through the stretching ruler fixing part (32), and two ends of the transverse positioning rod body (31) are connected with the transverse stretching rod body (33) through the stretching mechanism (6).

4. A building spacing control ruler according to claim 3, characterized in that one end of the transverse stretching rod body (33) far away from the stretching mechanism (6) is connected with the positioning connecting mechanism (4) through a plug-in part (34), and the transverse stretching rod body (33) is provided with a length scale mark (35).

5. The building spacing control ruler according to claim 4, characterized in that the stretching mechanism (6) comprises stretching sliding grooves (61) which are arranged at the circumferential inner sides of two ends of the transverse stretching rod body (31), adjusting teeth (62) are arranged on the inner wall of each stretching sliding groove (61), one end of the transverse stretching rod body (33) is arranged in each stretching sliding groove (61), and positioning teeth (63) which are in one-to-one staggered clamping connection with the adjusting teeth (62) are arranged on two sides of the transverse stretching rod body (33).

6. A building spacing control ruler according to claim 1, characterized in that the longitudinal stretching assembly (5) comprises a longitudinal stretching rod body (51), one end of the longitudinal stretching rod body is connected with a positioning part (53) through a tension spring (52), and the other end of the longitudinal stretching rod body is connected with a positioning connecting mechanism (4) through a connecting part (54).

7. The building spacing control ruler according to claim 6, wherein the positioning connection mechanism (4) comprises a positioning shaft (41), the bottom of the positioning shaft (41) is conical, and an upper fixing groove (42) and a lower rotating groove (43) are sequentially arranged at the upper end of the positioning shaft (41) from top to bottom.

8. The building spacing control ruler of claim 7, wherein the connecting part (54) at one end of the longitudinal stretching rod body is fixedly connected with the upper fixing groove (42), and the lower rotating groove (43) is connected with the end part of the transverse stretching mechanism (3) in an inserting way through the annular rotating part (44).

9. The building spacing control ruler according to claim 5, wherein one end of the transverse stretching rod body (33) arranged in the stretching sliding groove (61) is provided with a connecting groove (64), one end of the stretching sliding groove (61) far away from the transverse stretching rod body (33) is provided with a limit tension spring (66) through a fixing seat (65), and one end of the limit tension spring (66) is fixedly arranged in the connecting groove (64).

10. A building spacing control ruler according to claim 1, characterized in that said positioning structure (2) comprises a rectangular connecting part (21), and an annular positioning hole (22) is arranged in the middle of said rectangular connecting part (21).

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