CN223088943U - Assistant positioning tool for mounting assembled building frame - Google Patents

Abstract

The utility model relates to the field of auxiliary installation devices of building frames, in particular to an auxiliary positioning tool for installing an assembled building frame, which comprises a supporting frame assembly, an upper platform, a lower platform, an upper auxiliary bracket arm group, a lower auxiliary bracket arm group, an upper pressing part and a lower pressing part, wherein the supporting frame assembly is installed on a peripheral frame, the upper platform is installed at the top of the supporting frame assembly, the lower platform is installed at the bottom of the supporting frame assembly, the upper platform, the lower platform and the supporting frame assembly are fixed together, in the specific operation using process, the clamping and positioning pressing mechanism can replace manual work, the single installation, clamping and positioning of the building frame to be installed can be realized, the labor intensity of operators is reduced, and the field installation operation requirement of the building frame is met.

Description

Assistant positioning tool for mounting assembled building frame

Technical Field

The utility model relates to the field of building frame auxiliary installation devices, in particular to an auxiliary positioning tool for installing an assembled building frame.

Background

The assembled building structure is a structure form capable of being quickly installed, building components for assembly are generally standardized in a production workshop, then the produced building components are transported to a construction site for quick installation and use operation, a building frame is a foundation support and bearing structure used in the assembled building structure, two or four groups of frames are required to be installed and connected through connecting pieces on an operation site for guaranteeing the overall stability of the building frame, meanwhile, in order to guarantee the accuracy of an installation position, a plurality of operators are required to cooperatively operate to realize installation and positioning of the installed building frame during installation of the existing building frame, the working amount of operators is large, the installation operation efficiency is low, and the on-site installation operation requirement of the building frame cannot be met.

Disclosure of utility model

The utility model aims to provide an auxiliary positioning tool for mounting an assembled building frame, which can replace manual work by a clamping positioning pressing mechanism in the specific operation and use process, and can perform single mounting, clamping and positioning on the building frame to be mounted, so that the positioning on the building frame can be met by using fewer manual work, the labor intensity of operators is reduced, and the field mounting operation requirement of the building frame is met.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

The auxiliary positioning tool for the assembly type building frame installation comprises a supporting frame assembly, an upper platform, a lower platform, an upper auxiliary supporting arm set, a lower auxiliary supporting arm set, an upper pressing part and a lower pressing part, wherein the supporting frame assembly is installed on a peripheral frame, the upper platform is installed at the top of the supporting frame assembly, the lower platform is installed at the bottom of the supporting frame assembly, the upper platform, the lower platform and the supporting frame assembly are fixed together, the upper auxiliary supporting arm set is installed at the upper part of the supporting frame assembly, the lower auxiliary supporting arm set is installed at the lower part of the supporting frame assembly, the upper pressing part is installed on the upper platform and connected with the upper platform in an installation mode, and the lower pressing part is installed on the lower platform and connected with the lower platform in an installation mode.

The support frame assembly comprises a left frame, a right frame, an upper bearing frame and a lower bearing frame, wherein the left frame is arranged at the left side end of the lower bearing frame and fixedly connected with the lower bearing frame, the right frame is arranged at the right side end of the lower bearing frame and fixedly connected with the lower bearing frame, and the upper bearing frame stretches across the tops of the left frame and the right frame and is fixedly connected with the left frame and the right frame respectively.

The upper auxiliary supporting arm group and the lower auxiliary supporting arm group have the same structure, and comprise a left support, a right support, a supporting rod frame, a first supporting arm part and a second supporting arm part, wherein the left support and the right support are fixedly arranged on the upper bearing frame and the lower bearing frame, one end of the supporting rod frame is arranged on the left support and connected with the left support, the other end of the supporting rod frame is arranged on the right support and connected with the right support, the first supporting arm part and the second supporting arm part are arranged on the supporting rod frame, and the first supporting arm part and the second supporting arm part are in movable contact with the supporting rod frame.

The first bracket arm part and the second bracket arm part have the same structure, and comprise an adjusting sleeve, a mounting bracket and a bracket arm body, wherein the adjusting sleeve is provided with a mounting hole, the adjusting sleeve is movably mounted on a support rod frame through the mounting hole, the upper part of the mounting bracket is arranged on the adjusting sleeve and fixedly connected with the adjusting sleeve, and the bracket arm body is mounted on the side surface of the mounting bracket and connected with the mounting bracket through a mounting bolt.

Furthermore, the whole bracket body is an L-shaped structure body.

The upper compression part and the lower compression part have the same structure, and comprise a working cylinder body, a cylinder body seat, a pushing rod and a compression block, wherein the cylinder body seat is arranged on the upper platform and the lower platform, the working cylinder body is arranged on the cylinder body seat and fixedly connected with the cylinder body seat, the pushing rod is arranged on the working cylinder body, and the compression block is arranged at the outer end of the pushing rod and connected with the outer end of the pushing rod.

Further, a guide rod is arranged on the compression block, a guide hole is processed on the cylinder body seat, one end of the guide rod is fixedly connected with the compression block, and the other end of the guide rod penetrates through the guide hole processed on the cylinder body seat and is in sliding contact with the inner wall of the guide hole.

The auxiliary positioning tool for the assembly type building frame installation has the advantages that the whole structure design is scientific, the installation operation is simple and convenient, and the auxiliary positioning tool has the following advantages when being specifically operated and used:

1. The auxiliary positioning tool for installing the building frame can carry out rapid clamping and positioning on the building frame through the cooperative operation of the upper auxiliary supporting arm group, the lower auxiliary supporting arm group, the upper pressing part, the lower pressing part and other component parts when the auxiliary positioning tool for installing the building frame is specifically used, and the operation using requirements of installing and connecting two groups or four groups of frames through connecting pieces are met, so that the installation and connection operation efficiency of the building frame is ensured;

2. The auxiliary positioning tool for the building frame installation has the advantages that in the using process, operators only have an auxiliary operation function, the clamping and positioning of the building frame can be realized without the cooperation of more operators, the labor workload of the operators is low, and the clamping and positioning requirements of the building frame during the field installation operation are met.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the auxiliary positioning tool for mounting a building frame;

FIG. 2 is a schematic view of the structure of the support frame assembly of the present utility model;

FIG. 3 is a schematic view of the structure of the upper and lower auxiliary brackets of the present utility model;

FIG. 4 is a schematic view of the first supporting arm and the first supporting arm according to the present utility model;

FIG. 5 is a schematic view of the structure of the upper and lower pressing parts of the present utility model;

The drawing is marked as a 1-supporting frame assembly, a 2-upper platform, a 3-lower platform, a 4-upper auxiliary supporting arm group, a 5-lower auxiliary supporting arm group, a 6-upper pressing part, a 7-lower pressing part, an 11-left frame, a 12-right frame, a 13-upper bearing frame, a 14-lower bearing frame, a 41-left support, a 42-right support, a 43-supporting rod frame, a 44-first supporting arm part, a 45-first supporting arm part, a 441-adjusting sleeve, a 442-mounting bracket, a 443-supporting arm body, a 61-working cylinder body, a 62-cylinder body seat, a 63-pushing rod, a 64-pressing block and a 65-guiding rod.

Detailed Description

Example 1 in order to provide a better understanding of the technical solution of the present utility model, the present utility model will be further described in detail below with reference to the drawings and the detailed description, wherein when an element is referred to as being "fixed" or "disposed" on another element, it can be directly or indirectly connected to the other element. When an element is referred to as being "connected to" another element, it can be directly or indirectly connected to the other element. The terms "left" and "right" used in the present document to indicate orientation are each based on the specific structure shown in the drawings, and do not constitute a limitation on the structure.

In the embodiment 1, as shown in fig. 1 of the specification, the auxiliary positioning tool for mounting an assembled building frame mainly comprises a supporting frame assembly 1, an upper platform 2, a lower platform 3, an upper auxiliary supporting arm set 4, a lower auxiliary supporting arm set 5, an upper pressing part 6 and a lower pressing part 7, wherein the supporting frame assembly 1 is used for mounting and supporting the upper platform 2, the lower platform 3, the upper auxiliary supporting arm set 4 and the lower auxiliary supporting arm set 5, the supporting frame assembly 1 is mounted on a peripheral frame when being mounted, an upper platform 2 for mounting the upper pressing part 6 is mounted at the top position of the supporting frame assembly 1, a lower platform 3 for mounting the lower pressing part 7 is mounted at the bottom position of the supporting frame assembly 1, the upper platform 2 and the lower platform 3 are fixed together with the supporting frame assembly 1, the upper auxiliary supporting arm set 4 is mounted at the upper part of the supporting frame assembly 1 and used for assisting in pressing and positioning the building frame, the lower supporting arm set 5 is mounted at the lower part of the supporting frame assembly 1 and used for mounting the lower supporting arm set 5 and assisting in pressing the upper pressing part 7, and the lower supporting frame assembly 3 is mounted at the lower part 3 when being connected with the upper supporting frame assembly 1 and used for mounting the lower supporting frame assembly 3 and assisting in positioning the upper pressing part 3.

As shown in fig. 2 of the specification of the present utility model, the support frame assembly 1 for mounting and supporting the upper platform 2, the lower platform 3, the upper auxiliary bracket arm set 4 and the lower auxiliary bracket arm set 5 comprises a left frame 11, a right frame 12, an upper bearing frame 13 and a lower bearing frame 14, wherein the left frame 11 is mounted at the left side end of the lower bearing frame 14 and fixedly connected with the lower bearing frame 14 during mounting, the right frame 12 is mounted at the right side end of the lower bearing frame 14 and fixedly connected with the lower bearing frame 14, the upper platform 2 is mounted on the upper bearing frame 13, the lower platform 3 is mounted on the lower bearing frame 14, and the upper bearing frame 13 spans over the top of the left frame 11 and the right frame 12 and is fixedly connected with the left frame 11 and the right frame 12 respectively.

As shown in fig. 3 of the specification of the present utility model, the upper auxiliary bracket set 4 and the lower auxiliary bracket set 5 for clamping and positioning the building frame in cooperation with the upper pressing part 6 and the lower pressing part 7 have the same structure, and the two auxiliary bracket sets comprise a left support 41, a right support 42, a support rod frame 43, a first bracket portion 44 and a second bracket portion 45, wherein the left support 41 and the right support 42 are used for mounting and supporting the support rod frame 43, the left support 41 and the right support 42 are fixedly mounted on the upper bearing frame 13 and the lower bearing frame 14, one end of the support rod frame 43 is mounted on the left support 41 and connected with the left support 41, the other end of the support rod frame 43 is mounted on the right support 42 and connected with the right support 42, the first bracket portion 44 and the second bracket portion 45 for assisting in clamping and positioning are arranged on the support rod frame 43, and the first bracket portion 44 and the second bracket portion 45 are movably contacted with the support rod frame 43 when mounted.

As shown in fig. 4 of the specification of the utility model, the first supporting arm part 44 and the second supporting arm part 45 for assisting in holding and positioning the building frame have the same structure, and the first supporting arm part 44 and the second supporting arm part 45 comprise an adjusting sleeve 441, a mounting bracket 442 and a supporting arm body 443, wherein the adjusting sleeve 441 is provided with a mounting hole matched with the supporting rod frame 43, the adjusting sleeve 441 is movably and adjustably mounted on the supporting rod frame 43 through the mounting hole during mounting, the mounting bracket 442 is used for mounting and supporting the supporting arm body 443, the upper part of the mounting bracket 442 is arranged on the adjusting sleeve 441 and fixedly connected with the adjusting sleeve 441 during mounting, the supporting arm body 443 contacted with the building frame is mounted on the side surface of the mounting bracket 442 and connected with the mounting bracket 442 through a mounting bolt, and the supporting arm body 443 is an L-shaped structure as a whole.

As shown in fig. 5 of the specification of the utility model, the upper pressing part 6 and the lower pressing part 7 for pressing and positioning the building frame have the same structure, and the two parts comprise a working cylinder body 61, a cylinder body seat 62, a pushing rod 63 and a pressing block 64, wherein the working cylinder body 61 is used for driving the pushing rod 63 to stretch and retract, the cylinder body seat 62 is arranged on the upper platform 2 and the lower platform 3, the working cylinder body 61 is arranged on the cylinder body seat 62 and fixedly connected with the cylinder body seat 62 during installation, the pushing rod 63 for driving the pressing block 64 to perform pressing action on the building frame is arranged on the working cylinder body 61, and the pressing block 64 is arranged at the outer end of the pushing rod 63 and connected with the outer end of the pushing rod 63 during installation. It should be noted that, in order to ensure the movement stability of the compression block 64 during the compression operation, a guide rod 65 for guiding the compression block 64 is mounted on the compression block 64, a guide hole is machined on the cylinder block 62, one end of the guide rod 65 is fixedly connected with the compression block 64, and the other end of the guide rod 65 penetrates through the guide hole machined on the cylinder block 62 and is in sliding contact with the inner wall of the guide hole.

The utility model relates to an auxiliary positioning tool for mounting an assembled building frame, which comprises the following mounting and using processes when being specifically mounted and used:

1. The installation process is as follows:

First, the installer can install the support frame assembly 1, specifically, install the left side frame 11 on the left side end of the lower bearing frame 14 and fixedly connect with the lower bearing frame 14, install the right side frame 12 on the right side end of the lower bearing frame 14 and fixedly connect with the lower bearing frame 14, install the upper platform 2 on the upper bearing frame 13, install the lower platform 3 on the lower bearing frame 14, finally, span the upper bearing frame 13 on the top of the left side frame 11 and the right side frame 12, then install the upper auxiliary bracket set 4 and the lower auxiliary bracket set 5, specifically, install the left support 41 and the right support 42 on the upper bearing frame 13 and the lower bearing frame 14, specifically, install one end of the support rod frame 43 on the left support 41, install the other end of the support rod frame 43 on the right support 42, movably adjust the support rod frame 43 through the mounting hole, install the bracket 442 for mounting the bracket 443 on the support, finally, fix the upper portion of the bracket 442 on the support rod 441, install the bracket body on the side surface of the bracket 443, install the bracket body on the side of the bracket 443 and install the bracket body on the side of the bracket body, install the cylinder body on the cylinder body 63 through the mounting bracket body 443, install the pressing block 62 on the outer support block 63, install the cylinder body 63, and install the pressing block 63 on the outer support block 63. Meanwhile, in order to ensure the movement stability of the compression block 64 in the compression operation process, a guide rod 65 for guiding the compression block 64 is arranged on the compression block 64, a guide hole is processed on the cylinder body seat 62, one end of the guide rod 65 is fixedly connected with the compression block 64, and the other end of the guide rod 65 penetrates through the guide hole processed on the cylinder body seat 62 and is in sliding contact with the inner wall of the guide hole;

2. the use process is as follows:

When the support frame is particularly used, as shown in figure 1 of the specification, two groups of upper auxiliary supporting arm groups 4, upper pressing parts 6, two groups of lower auxiliary supporting arm groups 5 and lower pressing parts 7 are respectively arranged in the support frame assembly 1; when the device is specifically used, an operator can sequentially place a single building frame to be assembled in a space between the upper auxiliary bracket arm group 4 and the upper pressing part 6 and a space between the lower auxiliary bracket arm group 5 and the lower pressing part 7 through an external auxiliary hanging part, after the placing action of the building frame is completed, the operator can start working to realize the pressing positioning of the building frame through controlling the working cylinder body 61, specifically, the working cylinder body 61 can drive the push rod 63 to extend outwards, the push rod 63 can drive the pressing block 64 to press and position the building frame between the pressing block 64 and the bracket arm body 443 while extending outwards, at the moment, when the building frame is pressed and positioned, an installer can install and connect the pressed and positioned single building frame through a connecting piece, meanwhile, the adjusting sleeve 441 in the first bracket arm 44 and the first bracket arm 44 can be movably adjusted on the support rod frame 43, the operator can adaptively adjust the distance between the first bracket arm 44 and the first bracket arm 44 according to the width of the specific building frame, specifically, the adjusting sleeve 441 can drive the bracket 442 to move and drive the bracket 442 to move when the movable bracket arm 442 on the support frame 43 to adjust. In general, in the specific operation and use process, the single installation, clamping and positioning of the building frame to be installed can be carried out by replacing manual work by the clamping and positioning pressing mechanism (the upper auxiliary supporting arm group 4, the lower auxiliary supporting arm group 5, the upper pressing part 6, the lower pressing part 7 and the like), the installation of the building frame can be met by using fewer manual work, the labor intensity of operators is reduced, and then the field installation operation requirement of the building frame is met. The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims.

Claims (7)

1. The auxiliary positioning tool for the assembly type building framework installation is characterized by comprising a supporting framework assembly (1), an upper platform (2), a lower platform (3), an upper auxiliary supporting arm group (4), a lower auxiliary supporting arm group (5), an upper pressing part (6) and a lower pressing part (7), wherein the upper platform (2) is installed at the top position of the supporting framework assembly (1), the lower platform (3) is installed at the bottom position of the supporting framework assembly (1), the upper platform (2), the lower platform (3) and the supporting framework assembly (1) are fixed together, the upper auxiliary supporting arm group (4) is installed at the upper part of the supporting framework assembly (1), the lower auxiliary supporting arm group (5) is installed at the lower part of the supporting framework assembly (1), the upper pressing part (6) is installed on the upper platform (2) and is connected with the upper platform (2), and the lower pressing part (7) is installed on the lower platform (3) and is connected with the lower platform (3).

2. The auxiliary positioning tool for mounting the assembled building frame is characterized in that the supporting frame assembly (1) comprises a left frame (11), a right frame (12), an upper bearing frame (13) and a lower bearing frame (14), wherein the left frame (11) is mounted at the left side end of the lower bearing frame (14) and fixedly connected with the lower bearing frame (14), the right frame (12) is mounted at the right side end of the lower bearing frame (14) and fixedly connected with the lower bearing frame (14), and the upper bearing frame (13) spans the tops of the left frame (11) and the right frame (12) and is fixedly connected with the left frame (11) and the right frame (12) respectively.

3. The auxiliary positioning tool for mounting the assembled building frame according to claim 2 is characterized in that the upper auxiliary bracket arm group (4) and the lower auxiliary bracket arm group (5) are identical in structure, the upper auxiliary bracket arm group (4) and the lower auxiliary bracket arm group (5) comprise a left bracket (41), a right bracket (42), a support rod frame (43), a first bracket arm (44) and a second bracket arm (45), the left bracket (41) and the right bracket (42) are fixedly mounted on the upper bearing frame (13) and the lower bearing frame (14), one end of the support rod frame (43) is mounted on the left bracket (41), the other end of the support rod frame (43) is mounted on the right bracket (42), the support rod frame (43) is provided with the first bracket arm (44) and the second bracket arm (45), and the first bracket arm (44) and the second bracket arm (45) are in movable contact with the support rod frame (43).

4. The auxiliary positioning tool for mounting the assembled building frame according to claim 3, wherein the first supporting arm part (44) and the second supporting arm part (45) have the same structure, the first supporting arm part and the second supporting arm part comprise an adjusting sleeve (441), a mounting bracket (442) and a supporting arm body (443), the adjusting sleeve (441) is provided with a mounting hole, the adjusting sleeve (441) is movably mounted on the supporting rod frame (43) through the mounting hole, the upper part of the mounting bracket (442) is arranged on the adjusting sleeve (441), and the supporting arm body (443) is mounted on the side surface of the mounting bracket (442) and is connected with the mounting bracket (442).

5. The auxiliary positioning tool for mounting an assembled building frame according to claim 4, wherein the bracket body (443) is an L-shaped structure.

6. The auxiliary positioning tool for mounting the assembled building frame according to claim 1 is characterized in that the upper pressing part (6) and the lower pressing part (7) have the same structure, and comprise a working cylinder body (61), a cylinder body seat (62), a pushing rod (63) and a pressing block (64), wherein the cylinder body seat (62) is mounted on the upper platform (2) and the lower platform (3), the working cylinder body (61) is mounted on the cylinder body seat (62), the pushing rod (63) is mounted on the working cylinder body (61), and the pressing block (64) is mounted at the outer end of the pushing rod (63) and is connected with the outer end of the pushing rod (63).

7. The auxiliary positioning tool for mounting an assembled building frame according to claim 6, wherein a guide rod (65) is mounted on the compression block (64), a guide hole is formed in the cylinder block (62), one end of the guide rod (65) is fixedly connected with the compression block (64), and the other end of the guide rod (65) penetrates through the guide hole formed in the cylinder block (62) and is in sliding contact with the inner wall of the guide hole.