CN219541619U - Switching tool for integrated load sensor of riveter - Google Patents

Abstract

The utility model discloses a transfer tool for integrating a load sensor by a riveter, which comprises a base, a quick-cutting mounting block, the load sensor and a riveting die, wherein the bottom of the base is detachably connected with the riveter through a positioning rod, and a mounting groove is formed in the upper part of the base and is mounted in a matched manner with the bottom of the load sensor by an anti-tilting guide rod on the mounting groove; the upper portion of the load sensor can be disassembled and provided with a quick cutting installation block, the central part of the quick cutting installation block is provided with a central through hole along the vertical direction, the riveting die can be disassembled and installed in the central through hole, the side wall of the quick cutting installation block is provided with a threaded hole along the horizontal direction, and the threaded hole penetrating into the side wall of the quick cutting installation block by using a jackscrew fixes the riveting die inserted into the central through hole of the quick cutting installation block. The switching tool for integrating the load sensor of the riveter, which is designed by the utility model, can integrate the load sensor on the riveter better.

Description

Switching tool for integrated load sensor of riveter

Technical Field

The utility model belongs to the technical field of connection processes, and relates to a switching tool for an integrated load sensor of a riveter.

Background

Riveting materials such as aluminum alloy and steel is a common connection mode in the fields of automobile manufacturing, aerospace and the like. However, the riveting equipment has no unified industrial technical standard, the control principle of the riveting equipment of each equipment manufacturer is different, and because of the influence of the self-interference degree of the riveter, the load is lack of an accurate acquisition or correction mode in the real-time riveting process, so that an accurate load sensor is required to be added on the existing riveter, and the load change in the riveting process is acquired in real time. How to integrate the load sensor on the riveter better is the technical problem to be solved at present.

Disclosure of Invention

The utility model aims to provide a transfer tool for integrating a load sensor of a riveter, and the load sensor can be better integrated on the riveter by utilizing the transfer tool designed by the utility model.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

a switching frock for integrated load sensor of riveter includes:

the base is detachably connected with the riveter;

the load sensor is detachably arranged at the upper part of the base;

the quick cutting installation block is arranged at the upper part of the load sensor; the quick-cutting mounting block is detachably connected with the load sensor, and a central through hole is formed in the central part of the quick-cutting mounting block along the vertical direction;

and the riveting die is detachably arranged in the central through hole.

Further, the bottom of base sets up the locating lever, the locating lever can dismantle with the riveter and be connected.

Further, an installation groove is formed in the upper surface of the base, and an anti-tilting guide rod is arranged in the installation groove and is in clearance fit with the bottom installation hole of the load sensor.

Further, the annular anti-tilting guide rod is provided with a plurality of first countersunk holes on the base, and the fastening bolts detachably connect the bottom of the load sensor with the base through the countersunk holes.

Further, the bottom of the quick-cutting installation block is provided with a threaded rod, and the threaded rod is in threaded connection with the installation hole at the top of the load sensor.

Further, a plurality of positioning ring grooves are arranged on the upper surface of the quick cutting installation block around the central through hole array, and the positioning ring grooves are formed by uniformly distributing 3 arc-shaped bulges along the same circle at equal intervals.

Further, a threaded hole is formed in the side wall of the quick cutting installation block along the horizontal direction, and a rivet die inserted into a central through hole of the quick cutting installation block is fixed by utilizing a threaded hole in which a jackscrew penetrates into the side wall of the quick cutting installation block.

Further, the base is detachably provided with an installing support, the bending plate is composed of two plates which are perpendicular to each other, and a plurality of second threaded holes are arrayed on the plate surface.

Advantageous effects

1. The utility model relates to a transfer tool for integrating a load sensor of a riveter, which is characterized in that a main structure of the transfer tool is composed of a base, a quick-cutting mounting block, a load sensor and a riveting die, and the transfer tool is optimally designed structurally, so that the base can be quickly and conveniently mounted with the riveter; the mounting groove of the load sensor is formed in the base, and the stability of the vertical direction of the load sensor is kept through the anti-tilting guide rod, so that the structural stability of the whole device is improved. The quick cutting mounting block is arranged between the load sensor and the riveting die, connection between the load sensor and the riveting die is achieved, and the positioning ring groove on the quick cutting mounting block is used for quickly positioning and mounting the standard mechanical sample preparation clamp.

2. The base of the switching tool designed by the utility model and the original rivet gun mounting base are positioned in a fastening mode in the same way, so that quick switching can be realized, and different experimental requirements can be met. In the normal riveting process, load data are collected in real time by using the loaded load sensor, and accurate mechanical data support is provided for riveting process research.

Drawings

FIG. 1 is a schematic view of a transfer tool

FIG. 2 is an explosion diagram of the transfer tool

FIG. 3 is a schematic view of a base

FIG. 4 is a schematic top view of a base

FIG. 5 is a schematic bottom view of the base

FIG. 6 is a schematic diagram of a load cell

FIG. 7 is a schematic view of a mounting bracket

FIG. 8 is a schematic view of a quick cut installation

In the figure, 1, a riveter, 2, a base, 201, a first countersink, 202, an anti-tilting guide rod, 203, a second countersink, 204, a first threaded hole, 205, a positioning ring, 206, a positioning rod, 207, a mounting groove, 3, a load sensor, 4, a quick-cutting mounting block, 401, a threaded rod, 402, a jackscrew, 403, a positioning ring groove, 404, a central through hole, 5, a riveting die, 6, a mounting bracket, 601, a through hole, 602 and a second threaded hole.

Detailed Description

The present utility model will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present utility model more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

The switching tool for the integrated load sensor of the riveter comprises a base 2, a quick cutting mounting block 4, a load sensor 3 and a riveting die 5, wherein the switching tool is shown in fig. 1 and 2.

As shown in FIG. 3, the structure of the base 2 is that a positioning rod 206 is arranged at the bottom of the base 2, and the bottom of the base 2 can be matched with the riveter 1 through the positioning rod 206. In this embodiment, the rivet gun 1 is provided with a mounting hole matched with the positioning rod 206, so that during installation, the positioning rod 206 is only required to be inserted into the corresponding mounting hole of the rivet gun 1, and the base 2 and the rivet gun 1 can be locked through the fastening bolt passing through the first countersunk hole 201.

The upper surface of the base 2 is provided with a mounting groove 207 of the load sensor 3, and an anti-tilting guide rod 202 is arranged in the mounting groove 207, the anti-tilting guide rod 202 is in clearance fit with a bottom mounting hole of the load sensor 3, and the load sensor 3 is kept stable in the vertical direction through the anti-tilting guide rod 202, so that the load sensor 3 is prevented from excessively tilting in the operation process.

A positioning ring 205 is provided around the bottom of the anti-roll bar 202, and the positioning ring 205 is used as a positioning means for the load sensor 3.

The ring anti-tilting guide rod 202 is provided with a plurality of first countersunk holes 201 on the base 2, and the first countersunk holes 201 are uniformly distributed. Through the counter bore 201, the bottom of the load sensor 3 is detachably connected to the base 2 by a fastening bolt. In the present embodiment, the first counter bores 201 are provided 4 in the circumferential direction of the anti-tilting guide bar 202.

The load sensor 3 adopted in the utility model can be of the model of kistler 9363c and the like, the bottom and the top of the load sensor 3 are respectively provided with mounting holes, and the mounting holes at the bottom of the load sensor 3 are matched with the anti-tilting guide rod 202, so that the load sensor 3 is fixed on the base 2. The mounting hole at the top of the load sensor 3 is matched with the quick-cutting mounting block 4.

The top at load sensor 3 is installed in the cooperation of quick-cut installation piece 4, and the structure is as shown in fig. 8, and the bottom of quick-cut installation piece 4 sets up threaded rod 401, and central through-hole 404 is seted up along vertical direction to the central part of quick-cut installation piece 4, and a plurality of locating ring grooves 403 are arranged around central through-hole 404 array at quick-cut installation piece 4 upper surface. Screw holes are formed in the side wall of the quick cutting installation block 4 along the horizontal direction. The quick-cutting installation block 4 is in threaded connection with the installation hole at the top of the load sensor 3 by utilizing the threaded rod 401, so that the riveting die 5 can be quickly installed in the central through hole 404 of the quick-cutting installation block 4, and the riveting die 5 is fixed by utilizing the jackscrew 402 through the threaded hole on the side wall of the quick-cutting installation block 4. The positioning ring groove 403 is formed by uniformly distributing 3 arc-shaped bulges along the same circle, and can be used for positioning and installing a mechanical standard sample preparation clamp.

More preferably, the adaptor fixture designed by the utility model can be further provided with a mounting bracket 6. The structure of the mounting bracket 6 is shown in fig. 7, and the whole mounting bracket is a bending plate and is composed of two mutually perpendicular plates, a plurality of second threaded holes 602 are arrayed on the plate surface, and the arrayed threaded holes 602 serve as prefabricated hole sites to provide expansion space for the tool.

In order to realize the detachable connection between the mounting bracket 6 and the base 2, a second counter bore 203 is further arranged on the upper surface of the base 2, and 2 second counter bores 203 are arranged and are positioned at the same side edge of the base 2. The side of the mounting bracket 6 is provided with 2 connecting parts, each connecting part is provided with a through hole 601, the through holes 601 are in one-to-one correspondence with the second counter sunk holes 203 on the base 2, and the mounting bracket 6 and the base 2 are detachably connected by using fastening bolts.

In order to more clearly illustrate the switching tool for the integrated load sensor of the riveter, the utility model is designed to be used for assembling and working processes of the switching tool in detail.

1-8 in the specification, the base 2 of the switching tool is matched with the riveter 1 through the positioning rod 206, the countersunk holes 203 correspond to mounting holes on the riveter, and the base is mechanically connected by fastening bolts; the load sensor 3 is mounted on the mounting groove 207 of the base 2, the positioning ring 205 is used as a positioning device, 4 fastening bolts are used for penetrating through the first counter bore 201 to be locked, and the anti-tilting guide rod 202 is in clearance fit with the load sensor 3 and is used for preventing the load sensor 3 from excessively tilting in the operation process; the installing support 6 passes through the through-hole 601 through fastening bolt and is connected with the corresponding position mechanically to get the first screw hole 204 on the base 2, and the quick cutting installation piece 4 utilizes its threaded rod 401 to carry out mechanical connection with load sensor 3, rivets mould 5 and can install in the central through-hole 404 of quick cutting installation quick 4 fast to utilize jackscrew 402 to fix between riveting mould 5 and the quick cutting installation quick 4, the locating ring groove 403 on the quick cutting installation quick 4 can be used as location installation mechanics standard sample preparation anchor clamps.

In order to ensure that the tool strength and the riveting experiment have enough operation space, the base 2 adopts a U-shaped design with a groove in the middle, the quick cutting installation block 4 also adopts a thin design, the installation height of the novel tool riveting die is only higher than that of the original riveting die by one load sensor, and the whole tool installation and the quick cutting mode of the riveting die are the same as the original design of the riveting gun, so that the learning cost and the operation difficulty are reduced. The above is only a preferred embodiment of the present device, but the protection scope of the present device is not limited thereto, and any person skilled in the art should be able to apply equivalent substitutions or alterations to the technical solution of the present device and the device concept thereof within the scope of the present device.

Claims (8)

1. A switching frock for integrated load sensor of riveter, its characterized in that includes:

the base (2) is detachably connected with the riveter (1);

the load sensor (3) is detachably arranged at the upper part of the base (2);

a quick-cutting mounting block (4) arranged at the upper part of the load sensor (3); the quick-cutting mounting block (4) is detachably connected with the load sensor (3), and a central through hole (404) is formed in the central part of the quick-cutting mounting block (4) along the vertical direction;

and the riveting die (5) is detachably arranged in the central through hole (404).

2. The adapting tool for the integrated load sensor of the riveter according to claim 1, wherein a positioning rod (206) is arranged at the bottom of the base (2), and the positioning rod (206) is detachably connected with the riveter (1).

3. The switching tool for the integrated load sensor of the riveter according to claim 1, wherein a mounting groove (207) is formed in the upper surface of the base (2), an anti-tilting guide rod (202) is arranged in the mounting groove (207), and the anti-tilting guide rod (202) is in clearance fit with a bottom mounting hole of the load sensor (3).

4. A transfer tool for a riveter integrated load sensor according to claim 3, characterized in that the ring anti-tilting guide rod (202) is provided with a plurality of first countersunk holes (201) on the base (2), and the fastening bolts detachably connect the bottom of the load sensor (3) with the base (2) through the countersunk holes (201).

5. The adapting tool for the integrated load sensor of the riveter according to claim 1, wherein a threaded rod (401) is arranged at the bottom of the quick cutting mounting block (4), and the threaded rod (401) is in threaded connection with a mounting hole at the top of the load sensor (3).

6. The adapting tool for the integrated load sensor of the riveter according to claim 1 or 5, wherein a plurality of positioning ring grooves (403) are arranged on the upper surface of the quick cutting installation block (4) around the central through hole (404) in an array, and the positioning ring grooves (403) are formed by uniformly distributing 3 arc-shaped bulges along the same circle.

7. The adapting tool for the integrated load sensor of the riveter according to claim 6, wherein the side wall of the quick cutting installation block (4) is provided with a threaded hole along the horizontal direction, and the riveting die (5) inserted into the central through hole (404) of the quick cutting installation block (4) is fixed by penetrating the threaded hole of the side wall of the quick cutting installation block (4) through a jackscrew (402).

8. The adapting tool for the integrated load sensor of the riveter according to claim 1, 3 or 4, wherein the mounting bracket (6) is detachably arranged on the base (2), the mounting bracket (6) is a bending plate, and is composed of two mutually perpendicular plates, and a plurality of second threaded holes (602) are arrayed on the plate.