CN114353622B - Device for calculating length parameter of outer stirrup of foundation - Google Patents

Abstract

The application provides a lower margin outer stirrup length parameter calculation device, include: the first ruler rail, the second ruler rail, the first sliding part, the second sliding part and the measuring rope; the first ruler rail is provided with scales and a first rail side by side along the length direction; the second ruler rail is provided with scales and a second rail side by side along the length direction, one end of the second ruler rail is connected with one end of the first ruler rail, and the first ruler rail is vertical to the second ruler rail; the first sliding part is in sliding connection with the first track; the second sliding part is in sliding connection with the second track; the scale starting end of the measuring rope is connected with the first sliding part; the first sliding part slides a first distance in a direction away from the second ruler rail, the second sliding part slides a second distance in a direction away from the first ruler rail, the measuring rope is straightened and wound to the second sliding part, and the scales of the measuring rope at the position of the second sliding part are read to obtain the length of the hypotenuse section of the corresponding foundation external stirrup. The device solves the problem that the length of the hypotenuse section of the external stirrup is difficult to calculate for site constructors.

Description

Device for calculating length parameter of outer stirrup of foundation

Technical Field

The application relates to the technical field of foundation construction, in particular to a length parameter calculation device for external hoops of foundation.

Background

Currently, the determination of the length parameters of the external stirrup of the anchor with 6, 8, 12 or even more anchor bolts involves root number calculation, for example, the length of the hypotenuse section of the external stirrup of eight anchor bolts requires root number calculation. However, as knowledge literacy of the processing staff is not uniform, knowledge reserves of some processing staff are less and cannot be calculated by using root numbers, and tools such as a ruler and the like are used for determining the length of a required processing part in a multi-habit manner, and no corresponding and convenient-to-calculate tool is used currently, the processing staff can only determine the length parameters of the outer stirrups through repeated lofting for many times by experience, so that time and labor are wasted in determining the length parameters of the outer stirrups on site, and dimensional errors are caused frequently, rework is caused, and the processing errors are large, so that the construction quality cannot be guaranteed.

How to simply and quickly calculate the length of the outer stirrup and the length of the hypotenuse section in the outer stirrup is an urgent problem to be solved.

Disclosure of Invention

The invention mainly aims to provide a length parameter calculating device for an external stirrup of a foundation, which solves the technical problem that the length of a hypotenuse section of the external stirrup of the foundation is difficult to calculate.

In order to solve the technical problems, the embodiment of the application provides the following technical scheme:

on the one hand, the application provides a lower margin outer stirrup length parameter calculation device, includes: a first scale rail, which is provided with scales and a first rail side by side along the length direction;

the second ruler rail is provided with scales and a second rail side by side along the length direction, one end of the second ruler rail is connected with one end of the first ruler rail, and the first ruler rail and the second ruler rail are vertical;

a first sliding part which is connected with the first track in a sliding way;

a second sliding part which is connected with the second track in a sliding way;

the scale starting end of the measuring rope is connected with the first sliding part;

the length of the hypotenuse section of the corresponding foundation outer stirrup can be obtained by reading the scale of the measuring rope at the position of the second sliding part.

The object of the invention can be further achieved by the following technical measures.

Optionally, the aforementioned calculating device for length parameter of external stirrup of foot leg, wherein the connection parts of the first ruler rail and the second ruler rail are 0 scale positions of the first ruler rail and the second ruler rail respectively;

the two ends of the first track correspond to the starting position and the ending position of the scale on the first ruler rail respectively, and the two ends of the second track correspond to the starting position and the ending position of the scale on the second ruler rail respectively.

Optionally, the aforementioned calculation device for length parameters of external stirrup of foot, wherein the measuring rope is connected to one side of the first sliding part facing away from the space enclosed by the first ruler rail and the second ruler rail.

Optionally, the aforementioned device for calculating the length parameter of the external stirrup for the foot further comprises:

the third sliding part is in sliding connection with the second sliding rail, and the third sliding part is far away from the first ruler rail relative to the second sliding part.

Optionally, the aforementioned device for calculating the length parameter of the external stirrup for the foot further comprises:

a third scale rail, which is provided with scales and a third rail side by side along the length direction;

a fourth scale rail, which is provided with scales and a fourth rail side by side along the length direction;

the first ruler rail, the second ruler rail, the third ruler rail and the fourth ruler rail are sequentially connected end to form a rectangle.

Optionally, the aforementioned device for calculating the length parameter of the external stirrup for the foot further comprises:

a fourth sliding portion, a fifth sliding portion, and a sixth sliding portion;

the fourth sliding part is in sliding connection with the third rail, and the fourth sliding part is connected with the first sliding part through a first connecting strip; the fifth sliding part and the sixth sliding part are both in sliding connection with the fourth rail, the fifth sliding part is close to the first ruler rail relative to the fourth sliding part, the fifth sliding part is connected with the second sliding part through a second connecting strip, and the sixth sliding part is connected with the third sliding part through a third connecting strip.

Optionally, in the foregoing apparatus for calculating a length parameter of an external stirrup for a foot, a connection position between the third rule rail and the second rule rail is a 0 scale position of the third rule rail, and scale values of the third rule rail are parallel to and one-to-one opposite to scale values of the first rule rail;

the connection position of the fourth ruler rail and the first ruler rail is the 0 scale position of the fourth ruler rail, and the scale values of the fourth ruler rail are parallel and opposite to the scale values of the second ruler rail one by one.

Optionally, the aforementioned device for calculating length parameters of external hooping of feet, wherein the first connecting strip is located above or below the second connecting strip and the third connecting strip.

Optionally, in the foregoing apparatus for calculating a length parameter of an external stirrup for a foot, the structures of the first sliding portion to the sixth sliding portion are the same, and the connection modes of the first sliding portion to the sixth sliding portion and the first rail to the fourth rail are the same;

the first sliding part comprises an adjusting screw and a locking nut, the first rail is a through groove penetrating through the thickness direction of the first ruler rail, the adjusting screw penetrates through the first rail and is matched with the locking nut, and the adjusting screw can be limited at any position of the first rail by adjusting the locking nut;

the section of the screw rod of the adjusting screw is drum-shaped.

Optionally, in the foregoing apparatus for calculating a length parameter of an external stirrup for a foot, the unit of the scales on the first rule rail, the second rule rail, the third rule rail and the fourth rule rail is millimeter, and the scale is 1:1-1:5.

By means of the technical scheme, the length parameter calculating device for the outer stirrup of the foundation has at least the following advantages:

according to the foundation outer stirrup length parameter calculating device, two foundation bolts in the foundation are simulated through the first sliding part and the second sliding part, the first sliding part and the second sliding part are respectively connected to the first ruler rail and the second ruler rail in a sliding mode, the first ruler rail and the second ruler rail are vertical, the foundation bolts corresponding to the outer stirrup bevel edge sections in the foundation are simulated through sliding the first sliding part by a first distance and sliding the second sliding part by a second distance, then measuring ropes connected with the scale starting end and the first sliding part are straightened and wound to the second sliding part, outer stirrups surrounding the two foundation bolts can be simulated through the measuring ropes, and the simulated parts of the outer stirrup bevel edge sections are the outer stirrup bevel edge sections, and the lengths of the outer stirrup bevel edge sections can be obtained through reading the lengths of the corresponding measuring ropes at the second sliding part.

The foregoing description is only an overview of the present invention, and is intended to provide a better understanding of the present invention, as it is embodied in the following description, with reference to the preferred embodiments of the present invention and the accompanying drawings.

Drawings

The above, as well as additional purposes, features, and advantages of exemplary embodiments of the present application will become readily apparent from the following detailed description when read in conjunction with the accompanying drawings. Several embodiments of the present application are illustrated by way of example and not by way of limitation in the figures of the accompanying drawings, in which like reference numerals refer to similar or corresponding parts and in which:

FIG. 1 schematically shows a schematic structure of a device for calculating length parameters of an external foundation stirrup;

fig. 2 schematically shows a technical parameter identification diagram of an eight-foot external stirrup.

The reference numerals in the drawings are:

the first scale rail 1, the first rail 101, the second scale rail 2, the second rail 201, the first sliding part 3, the second sliding part 4, the measuring rope 5, the third sliding part 6, the third scale rail 7, the third rail 71, the fourth scale rail 8, the fourth rail 801, the fourth sliding part 9, the fifth sliding part 10, the sixth sliding part 11, the first connecting strip 12, the second connecting strip 13, the third connecting strip 14, the first distance S1, the second distance S2, the third distance S3, the anchor bolt M, the bevel edge section X and the straight edge section Z.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

It is noted that unless otherwise indicated, technical or scientific terms used herein should be given the ordinary meaning as understood by one of ordinary skill in the art to which this application belongs.

Fig. 1 is a schematic structural diagram of a device for calculating length parameters of external stirrups of feet, and for explaining the use mode and principle of the device, an eight-foot diagram with technical parameters is shown in fig. 2, and the device for calculating length parameters of external stirrups of feet according to the embodiment of the invention comprises: a first ruler rail 1, a second ruler rail 2, a first sliding part 3, a second sliding part 4 and a measuring rope 5; the first ruler rail 1 is provided with scales and a first rail 101 side by side along the length direction; the second ruler rail 2 is provided with scales and a second rail 201 in parallel along the length direction, one end of the second ruler rail 2 is connected with one end of the first ruler rail 1, and the first ruler rail 1 and the second ruler rail 2 are vertical; the first sliding part 3 is in sliding connection with the first track 101; the second sliding part 4 is in sliding connection with the second track 201; the scale starting end of the measuring rope 5 is connected with the first sliding part 3;

the length of the hypotenuse section X of the outer stirrup of the foot can be obtained by sliding the first sliding part 3 away from the second rule rail 2 by a first distance S1, sliding the second sliding part 4 away from the first rule rail 1 by a second distance S2, straightening the measuring rope 5 and winding the measuring rope 5 around the second sliding part 4, and reading the scale of the measuring rope 5 at the position of the second sliding part 4.

Specifically, the first tape rail 1 is a long strip body, and may be made of a metal material having a certain strength, for example, using an unmodified material, the first tape rail 1 is provided with graduations from one end to the other end in the length direction, and the first rail 101 is provided in the length direction, that is, the first rail 101 and the graduations are side by side. The first rail 101 may be a through groove penetrating through two sides of the first ruler rail 1, a dovetail groove, a necking groove, or the like, or the first rail 101 may be a rail with an i-shaped, T-shaped or dovetail-shaped cross section, as long as the first sliding portion 3 is slidably connected with the first rail 101.

Likewise, the second scale rail 2 is a long strip, which may be made of a metallic material having a certain strength, for example, a non-modified material, and the second scale rail 2 is provided with graduations from one end to the other end in the length direction, and the second rail 201 is provided in the length direction, that is, the second rail 201 and the graduations are side by side. The second rail 201 may be a through groove penetrating through two sides of the second ruler rail 2, or may be a groove body such as a dovetail groove and a necking groove, or the second rail 201 may be a rail with an i-shaped, T-shaped or dovetail-shaped section, as long as the second sliding portion 4 is slidably connected with the second rail 201.

The first sliding portion 3 and the second sliding portion 4 are respectively slidably engaged with the first rail 101 and the second rail 201, and may be block-shaped or rod-shaped structures engaged with groove-shaped rails, or block structures with sliding grooves engaged with i-shaped, T-shaped or dovetail-shaped rails, that is, as long as the first sliding portion 3 and the second sliding portion 4 can be slidably connected with the first rail 101 and the second rail 201, respectively. In order to limit the first sliding portion 3 and the second sliding portion 4 to any position of the first rail 101 and the second rail 201, a pressing portion may be provided on each of the first sliding portion 3 and the second sliding portion 4, and the first rail 101 or the second rail 201 may be pressed by the pressing portion to limit the positions.

The measuring rope 5 is a measuring tool provided with scales along the length direction of the rope, the measuring rope 5 simulates an outer stirrup in the measuring tool, and the length is read through the scales of the measuring rope 5, so that the starting end of the scales of the measuring rope 5, namely, the zero scale end, is connected with the first sliding part 3, the free end of the measuring rope can be manually stretched, and then after the first distance of the first sliding part 3 and the second distance of the second sliding part 4 are adjusted, the measuring rope 5 can be stretched around the second sliding part 4 by stretching the measuring rope 5, and the measuring rope 5 can simulate the outer stirrup. The first distance S1 and the second distance S2 are parameter sizes given by a designer when the outer stirrup is produced, and are calculated according to different numbers and distribution forms of the foundation bolts M.

According to the foundation outer stirrup length parameter calculating device, two foundation bolts M in the foundation are simulated through the first sliding part 3 and the second sliding part 4, the first sliding part 3 and the second sliding part 4 are respectively connected to the first rule rail 1 and the second rule rail 2 in a sliding mode, the first rule rail 1 and the second rule rail 2 are vertical, and further the length of the outer stirrup hypotenuse section X can be obtained by sliding the first distance S1 of the first sliding part 3 and sliding the second distance S2 of the second sliding part 4, foundation bolts M corresponding to the outer stirrup hypotenuse section X in the foundation are simulated, then the measuring ropes 5 connected with the scale starting end and the first sliding part 3 are straightened and wound to the second sliding part 4, the outer stirrups around the two foundation bolts M can be simulated through the measuring ropes 5, and the simulated outer stirrup hypotenuse section X is very part, and then the length of the outer stirrup hypotenuse section X can be obtained by reading the length of the corresponding measuring ropes 5 at the second sliding part 4.

As shown in fig. 1, in an implementation, the connection point of the first ruler rail 1 and the second ruler rail 2 is the 0 scale position of the first ruler rail 1 and the second ruler rail 2 respectively;

wherein, the two ends of the first track 101 respectively correspond to the start and end positions of the scale marks on the first scale track 1, and the two ends of the second track 201 respectively correspond to the start and end positions of the scale marks on the second scale track 2.

Specifically, the first ruler rail 1 and the second ruler rail 2 are connected in a right-angle state, a right-angle ruler structure is formed after the first ruler rail 1 and the second ruler rail 2 are connected, 0 scale marks of the first ruler rail and the second ruler rail are overlapped, and the 0 scale marks are located at right-angle bending positions. When the external stirrup is used, a worker can move the first sliding part 3 by a first distance S1 and move the second sliding part 4 by a second distance S2 according to parameters of external stirrups given by the technician, and as the joint of the first ruler rail 1 and the second ruler rail 2 is zero scale, the first sliding part 3 can be directly moved to a scale position corresponding to the first distance S1 when sliding in a direction away from the second ruler rail 2, the second sliding part 4 can be directly moved to a scale position corresponding to the second distance S2 when sliding in a direction away from the first ruler rail 1, the operation and the reading of the worker are facilitated, and then two anchor bolts M corresponding to the hypotenuse section X of the external stirrup and the positions of the two anchor bolts M can be simulated by moving the first sliding part 3 and the second sliding part 4 to corresponding appointed distances.

As shown in fig. 1, in an embodiment, the measuring cable 5 is connected to the side of the first sliding part 3 facing away from the space enclosed by the first and second measuring rails 1, 2.

Specifically, since the outer stirrup surrounds the outer sides of the plurality of anchor bolts M, in order to truly simulate the arrangement condition of the outer stirrup so as to obtain the accurate length of the hypotenuse section X of the outer stirrup, the zero scale position of the measuring rope 5 is connected to the side of the first sliding part 3, which is away from the space surrounded by the first rail 1 and the second rail 2, so that the measuring rope 5 truly simulates the state of the outer stirrup around the anchor bolts M, and importantly, the arrangement mode enables the measuring rope 5 to simulate the curved surrounding of the end part of the hypotenuse section X of the outer stirrup around the outer sides of the anchor bolts M so as to obtain the length of the real hypotenuse section X. And when the first sliding part 3 and the second sliding part 4 move a first distance S1 and a second distance S2 according to parameters given by technicians, the length of the measuring rope 5 read corresponding to the position of the second sliding part 4 comprises the length of the bent arc section, which is positioned at the two ends of the hypotenuse section X and surrounds the outer sides of the two foundation bolts M, of the outer stirrup, and the length of the obtained hypotenuse section X is identical to the real length, so that the accuracy of the length of the obtained hypotenuse section X is effectively ensured.

The measuring rope 5 and the first sliding part 3 can be connected in a clamping way through a clamping ring, a binding belt and self-encircling and fastening on the first sliding part 3.

As shown in fig. 1, in an implementation, the device for calculating the length parameter of the external stirrup for the foundation provided in the embodiment of the present application further includes: the third sliding part 6 is slidably connected with the second sliding rail, and the third sliding part 6 is far away from the first ruler rail 1 relative to the second sliding part 4.

Specifically, after the first sliding portion 3 and the second sliding portion 4 are adjusted by sliding, the length of the hypotenuse section X of the outer stirrup can be read through the measuring rope 5, and the third sliding portion 6 is further slid, so that the third sliding portion 6 slides to the position of the anchor bolt M corresponding to the straight edge section Z connected to the hypotenuse section X of the outer stirrup, that is, after the third sliding portion 6 is moved by the third distance S3 or 2 times S3 according to the parameters given by the technician, the measuring rope 5 is straightened and sequentially looped on the second sliding portion 4 and the third sliding portion 6, and then the length of the measuring rope 5 is read through the scale of the third sliding portion 6 corresponding to the second ruler rail 2, then the sum of the lengths of the hypotenuse section X of the outer stirrup and the straight edge section Z of the adjacent hypotenuse section X can be obtained, and then the number N of the hypotenuse sections X and the adjacent straight edge sections Z (for example, eight feet have four, that is n=4) of the overall length of the outer stirrup can be calculated quickly and conveniently.

As shown in fig. 1, in an implementation, the device for calculating the length parameter of the external stirrup for the foundation provided in the embodiment of the present application further includes: a third scale rail 7 provided with graduations and a third rail 71 side by side in the length direction; a fourth scale rail 8 provided with graduations and a fourth rail 801 side by side in the longitudinal direction; the first ruler rail 1, the second ruler rail 2, the third ruler rail 7 and the fourth ruler rail 8 are sequentially connected end to form a rectangle, and the first ruler rail 1, the second ruler rail 2, the third ruler rail 7 and the fourth ruler rail 8 have the same structure.

As shown in fig. 1, further, the device for calculating the length parameter of the external stirrup for the foundation according to the embodiment of the present application further includes:

a fourth sliding portion 9, a fifth sliding portion 10, and a sixth sliding portion 11; the fourth sliding part 9 is slidably connected with the third rail 71, and the fourth sliding part 9 and the first sliding part 3 are connected through a first connecting strip 12; the fifth sliding portion 10 and the sixth sliding portion 11 are both slidably connected to the fourth track 801, and the fifth sliding portion 10 is relatively close to the first ruler rail 1 with respect to the fourth sliding portion 9, the fifth sliding portion 10 is connected to the second sliding portion 4 through a second connecting strip 13, and the sixth sliding portion 11 is connected to the third sliding portion 6 through a third connecting strip 14.

Specifically, through the setting of third chi rail 7 and fourth chi rail 8, make first chi rail 1 through fourth chi rail 8 surround into the rectangle, can be square or rectangle for example, form the frame of rectangle promptly, the outer stirrup length parameter calculation device of lower margin of this structure is convenient for hold more, convenient operation. The first sliding part 3 and the fourth sliding part 9 are linked, the second sliding part 4 is linked with the fifth sliding part 10, and the third sliding part 6 is linked with the sixth sliding part 11 through the arrangement of the fourth sliding parts 9 to the sixth sliding part 11 and the first connecting strip 12 to the third connecting strip 14, so that when the first sliding part 3, the second sliding part 4 and the third sliding part 6 are adjusted, the corresponding connecting strips can be manually operated to slide, and the operation is convenient. Wherein the first 12 to third 14 connecting strips need to be rigid metal strips, such as stainless steel strips.

Still further, the connection position of the third ruler rail 7 and the second ruler rail 2 is the 0 scale position of the third ruler rail 7, and the scale values of the third ruler rail 7 are parallel and opposite to the scale values of the first ruler rail 1 one by one; the connection position of the fourth ruler rail 8 and the first ruler rail 1 is the 0 scale position of the fourth ruler rail 8, and the scale values of the fourth ruler rail 8 are parallel and opposite to the scale values of the second ruler rail 2 one by one.

Specifically, by setting the scales of the first rule rail 1 and the third rule rail 7 to be parallel and in one-to-one correspondence, and setting the scales of the second rule rail 2 and the fourth rule rail 8 to be parallel and in one-to-one correspondence, when the first sliding part 3, the second sliding part 4 and the third sliding part 6 are adjusted, whether the sliding parts connected to the two ends of the connecting bar are aligned with the same scales can be judged, whether the position is adjusted to an accurate position can be judged, and the accuracy of adjusting the position of the sliding parts can be further improved.

As shown in fig. 1, in an implementation in which the first connecting bar 12 is located above or below the second connecting bar 13 and the third connecting bar 14.

Specifically, since the second connecting bar 13 and the third connecting bar 14 are in the same plane and both are parallel and adjusted to one side, there is no problem of interference, whereas the first connecting bar 12 is perpendicular to the second connecting bar 13 and the third connecting bar 14, and in order to avoid interference, the first connecting bar 12 is disposed above or below the second connecting bar 13 and the third connecting bar 14.

In a specific implementation, the structures of the first sliding part 3 to the sixth sliding part 11 are the same, and the connection manners of the first sliding part 3 to the sixth sliding part 11 and the first rail 101 to the fourth rail 801 are the same.

The present embodiment will be described on the basis of the structure of the first sliding portion 3 and the connection manner of the first sliding portion 3 and the first rail 101, and the second sliding portion 4 to the sixth sliding portion 11 refer to the first sliding portion 3. The first sliding part 3 comprises an adjusting screw and a locking nut, the first rail 101 is a through groove penetrating through the thickness direction of the first ruler rail 1, the section of a screw rod of the adjusting screw is drum-shaped, the adjusting screw penetrates through the first rail 101 and is matched with the locking nut, the plane of the screw rod with the drum-shaped section is in sliding fit with the first rail 101, the arc surface of the screw rod with the drum-shaped section is provided with threads and is used for being matched with the locking nut, and the adjusting screw can be limited at any position of the first rail 101 by adjusting the locking nut.

In a specific implementation, the scales on the first scale rail 1, the second scale rail 2, the third scale rail 7 and the fourth scale rail 8 are in millimeters, and the scales are 1:1-1:5.

Specifically, the setting of scale is in order to be less with the whole overall dimension setting of lower margin outer stirrup length parameter calculation device, convenient to use, and the setting of scale can correspond with the scale of the technical parameter of outer stirrup that technical personnel provided simultaneously, and then convenient conversion.

It will be appreciated that the relevant features of the apparatus described above may be referred to with respect to each other. In addition, the "first", "second", and the like in the above embodiments are for distinguishing the embodiments, and do not represent the merits and merits of the embodiments.

In the description provided herein, numerous specific details are set forth. However, it is understood that embodiments of the invention may be practiced without these specific details. In some instances, well-known structures and techniques have not been shown in detail in order not to obscure an understanding of this description.

The foregoing is merely specific embodiments of the present application, but the scope of the present application is not limited thereto, and any person skilled in the art can easily think about changes or substitutions within the technical scope of the present application, and the changes and substitutions are intended to be covered by the scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a lower margin outer stirrup length parameter calculation device which characterized in that includes:

a first scale rail, which is provided with scales and a first rail side by side along the length direction;

the second ruler rail is provided with scales and a second rail side by side along the length direction, one end of the second ruler rail is connected with one end of the first ruler rail, and the first ruler rail and the second ruler rail are vertical;

a first sliding part which is connected with the first track in a sliding way;

a second sliding part which is connected with the second track in a sliding way;

the scale starting end of the measuring rope is connected with the first sliding part;

the length of the hypotenuse section of the corresponding foundation outer stirrup can be obtained by reading the scale of the measuring rope at the position of the second sliding part.

2. The device for calculating the length parameter of the external stirrup of the foundation according to claim 1, wherein,

the joint of the first ruler rail and the second ruler rail is the 0 scale position of the first ruler rail and the second ruler rail respectively;

the two ends of the first track correspond to the starting position and the ending position of the scale on the first ruler rail respectively, and the two ends of the second track correspond to the starting position and the ending position of the scale on the second ruler rail respectively.

3. The device for calculating the length parameter of the external stirrup of the foundation according to claim 1, wherein,

the measuring rope is connected to one side of the first sliding part, which is away from the space surrounded by the first ruler rail and the second ruler rail in the scale increasing direction.

4. The device for calculating the length parameter of the external stirrup of the foundation according to claim 1, further comprising:

and the third sliding part is in sliding connection with the second track, and is far away from the first ruler rail relative to the second sliding part.

5. The device for calculating the length parameter of the external stirrup of the foundation according to claim 4, further comprising:

a third scale rail, which is provided with scales and a third rail side by side along the length direction;

a fourth scale rail, which is provided with scales and a fourth rail side by side along the length direction;

the first ruler rail, the second ruler rail, the third ruler rail and the fourth ruler rail are sequentially connected end to form a rectangle.

6. The device for calculating the length parameter of the external stirrup of the foundation according to claim 5, further comprising:

a fourth sliding portion, a fifth sliding portion, and a sixth sliding portion;

the fourth sliding part is in sliding connection with the third rail, and the fourth sliding part is connected with the first sliding part through a first connecting strip; the fifth sliding part and the sixth sliding part are both in sliding connection with the fourth rail, the fifth sliding part is close to the first ruler rail relative to the fourth sliding part, the fifth sliding part is connected with the second sliding part through a second connecting strip, and the sixth sliding part is connected with the third sliding part through a third connecting strip.

7. The device for calculating the length parameter of the external stirrup of the foundation according to claim 6, wherein,

the connection position of the third ruler rail and the second ruler rail is the 0 scale position of the third ruler rail, and the scale values of the third ruler rail are parallel to and opposite to the scale values of the first ruler rail one by one;

the connection position of the fourth ruler rail and the first ruler rail is the 0 scale position of the fourth ruler rail, and the scale values of the fourth ruler rail are parallel and opposite to the scale values of the second ruler rail one by one.

8. The device for calculating the length parameter of the external stirrup of the foundation according to claim 6, wherein,

the first connecting strip is positioned above or below the second connecting strip and the third connecting strip.

9. The device for calculating the length parameter of the external stirrup of the foundation according to claim 6, wherein,

the first sliding part and the sixth sliding part have the same structure, and the connection modes of the first sliding part and the sixth sliding part and the first rail and the fourth rail are respectively the same;

the first sliding part comprises an adjusting screw and a locking nut, the first rail is a through groove penetrating through the thickness direction of the first ruler rail, the adjusting screw penetrates through the first rail and is matched with the locking nut, and the adjusting screw can be limited at any position of the first rail by adjusting the locking nut;

the section of the screw rod of the adjusting screw is drum-shaped.

10. The device for calculating the length parameter of the external stirrup of the foundation according to claim 5, wherein,

the scales on the first ruler rail, the second ruler rail, the third ruler rail and the fourth ruler rail are in millimeter units, and the scales are 1:1-1:5.