CN211708561U - Press mounting device for assembling limit pin on clamp body assembly - Google Patents

Abstract

The utility model discloses a pincers body assembly assembling limiting pin press mounting device, which comprises a limiting pin vibration disc feeding mechanism, a limiting pin clamping and transferring mechanism and a limiting pin floating press mounting device, wherein the limiting pin floating press mounting device comprises a linear driver, a floating mechanism, a slide rail mechanism and a pressure head mechanism, the pressure head mechanism comprises a positioning sleeve, a pressure rod and an installation positioning head, the upper end of the pressure rod is movably connected with the floating mechanism, the installation positioning head is installed at the bottom of the positioning sleeve, and the installation positioning head is provided with a positioning hole for positioning the limiting pin; the limiting pin clamping and transferring mechanism comprises a material taking assembly, a rotary cylinder and a transverse moving cylinder, the material taking assembly comprises a material taking chuck, a feeding rod and a feeding cylinder, the rotary cylinder drives the material taking assembly to rotate, and the transverse moving cylinder is used for driving the rotary cylinder and the material taking structure to transversely move between a material taking position and a feeding position. The utility model discloses an autoloading and the pressure equipment of spacer pin can improve assembly efficiency and assembly quality.

Description

Press mounting device for assembling limit pin on clamp body assembly

Technical Field

The utility model relates to an automobile parts technical field, concretely relates to round pin assembly technique.

Background

In the assembly of automotive parts and other types of products, many have pin-type press-fit assemblies. At present, manual or semi-automatic assembly is adopted, the efficiency is low, and the assembly quality is not easy to guarantee.

Although the existing pin can realize automatic feeding, how to accurately feed the pin to the press-fitting position is difficult, and the feeding efficiency is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a pincers body assembly spacer pin pressure equipment device is provided realizes autoloading and the pressure equipment of round pin class accessory, raises the efficiency, guarantees the pressure equipment quality.

In order to solve the technical problem, the utility model adopts the following technical scheme: the clamp body assembly assembling limiting pin press-mounting device comprises a limiting pin vibrating disc feeding mechanism, a limiting pin clamping and transferring mechanism and a limiting pin floating press-mounting device, wherein the limiting pin floating press-mounting device comprises a linear driver, a floating mechanism, a slide rail mechanism and a pressure head mechanism, the linear driver is connected with the floating mechanism, the floating mechanism is connected with the slide rail mechanism, the pressure head mechanism comprises a positioning sleeve, a pressure rod and an installing positioning head, the positioning sleeve guides the pressure rod to move linearly up and down, the upper end of the pressure rod is movably connected with the floating mechanism, the installing positioning head is installed at the bottom of the positioning sleeve, and the installing positioning head is provided with a positioning hole for positioning the limiting pin; the limiting pin clamping and transferring mechanism comprises a material taking assembly, a rotary cylinder and a transverse moving cylinder, the material taking assembly comprises a material taking chuck, a feeding rod and a feeding cylinder, the material taking chuck is provided with a clamping hole for clamping the limiting pin, the limiting pin vibration disc feeding mechanism feeds the limiting pin into the clamping hole, the rotary cylinder drives the material taking assembly to rotate, the clamping hole is opposite to a discharge hole of the limiting pin vibration disc feeding mechanism in a material taking state, the clamping hole is vertical and opposite to a positioning hole in a feeding state, the feeding cylinder drives the feeding rod to eject the limiting pin out of the positioning hole and feed the limiting pin into the positioning hole, and the transverse moving cylinder is used for driving the rotary cylinder and the material taking structure to transversely move between a material taking position and a feeding position.

Optionally, the mounting and positioning head is connected with a positioning plunger bolt perpendicular to the axis of the positioning hole, and the head of the positioning plunger bolt extends into the positioning hole and is used for clamping a limit pin in the positioning hole.

Optionally, the device further comprises a pressure head fine adjustment mechanism for adjusting the horizontal position of the pressure head mechanism, the positioning sleeve is installed on the positioning sleeve connecting plate, and the positioning sleeve connecting plate is connected with the pressure head fine adjustment mechanism.

Optionally, the pressure head fine-tuning mechanism comprises a left adjusting plate, a right adjusting plate, a first dovetail plate, a left adjusting plate and a right adjusting plate, the left adjusting plate and the right adjusting plate are fixed on the left side and the right side of the first dovetail plate respectively, the left adjusting plate is connected with a left fixing bolt, the right adjusting plate is connected with a right fine-tuning bolt, the first dovetail plate and the first dovetail plate are matched with each other, the first dovetail plate can move left and right, and the left and right positions of the first dovetail plate can be adjusted through the left fixing bolt and the right fine-tuning bolt.

Optionally, the pressure head fine adjustment mechanism further includes a front adjustment plate, a rear adjustment plate, a second wedge-shaped tenon plate, and a second wedge-shaped tenon plate, the second wedge-shaped tenon plate is fixed below the first wedge-shaped tenon plate, the front adjustment plate and the rear adjustment plate are respectively fixed on the front side and the rear side below the second wedge-shaped tenon plate, the front adjustment plate is connected with the front fine adjustment bolt, the rear adjustment plate is connected with the rear fixing bolt, the second wedge-shaped tenon plate is matched with the second wedge-shaped tenon plate, so that the second wedge-shaped tenon plate can move back and forth, and the front position and the rear position below the second wedge-shaped tenon plate are adjusted through the rear fixing bolt and the front fine adjustment bolt.

Optionally, the floating mechanism is connected with a pressure sensor for detecting the press-fitting force.

Optionally, a stopping structure for pressing the limit pin is arranged above the discharge port of the limit pin vibration disc feeding mechanism, the stopping structure comprises a stopping cylinder and a stopping head driven by the braking cylinder, an in-place sensor for detecting the limit pin is correspondingly arranged at the discharge port of the limit pin vibration disc feeding mechanism, and when the in-place sensor detects that the limit pin is conveyed to the discharge port, the stopping cylinder drives the stopping head to press the limit pin.

Optionally, the material taking chuck is provided with a guide hole matched with the feeding rod, the guide hole is connected with the positioning hole, the diameter of the guide hole is smaller than that of the positioning hole, the material taking chuck is mounted on a feeding cylinder connecting block, the feeding cylinder connecting block is connected with a feeding cylinder, and a cylinder ejector rod of the feeding cylinder is connected with the feeding rod.

Optionally, the feeding cylinder connecting block is connected with the rotating block, a rotating part of the rotating cylinder is connected with the rotating block, the rotating cylinder is installed on the rotating cylinder connecting block, the rotating cylinder connecting block is connected with the transverse moving cylinder connecting block, and the transverse moving cylinder connecting block is connected with a cylinder ejector rod of the transverse moving cylinder.

Optionally, the rotary cylinder connecting block and the transverse moving cylinder connecting block are mounted on a linear guide rail mechanism, and the linear guide rail mechanism and the transverse moving cylinder are mounted on the side plate.

The utility model adopts the above technical scheme, following beneficial effect has:

1. the stop pin vibrating disc feeding mechanism finishes automatic feeding of the stop pin, the stop pin clamping and transferring mechanism sends the stop pin to the pressure head mechanism, the servo electric press is started to drive the pressure rod to carry out press mounting of the stop pin, so that automatic feeding and press mounting of the stop pin are realized, and the assembling efficiency and the assembling quality can be improved.

2. In the limiting pin clamping and transferring mechanism, the rotary cylinder drives the material taking assembly to rotate, the positioning hole is opposite to a discharge hole of the limiting pin vibration disc feeding mechanism in the material taking state, the positioning hole is vertical in the feeding state, and the feeding cylinder drives the feeding rod to eject the limiting pin out of the positioning hole and feed the limiting pin into the positioning hole of the mounting positioning head so as to position the limiting pin, so that the pin can be accurately fed to a press-fitting position. The transverse moving cylinder is used for driving the rotating cylinder and the material taking structure to move transversely, and displacement between a material taking position and a material feeding position is achieved.

3. The pressure of the servo electric press is transmitted to the pressure rod of the pressure head mechanism through the floating mechanism and the pressure head fine adjustment mechanism, the slide rail mechanism guides the pressure head mechanism to vertically press down without deviation, the pressure head fine adjustment mechanism can finely adjust the positions of the pressure head in the front, back, left and right directions, the pressure rod can buffer the impact force in the press mounting process through the floating mechanism, and the press mounting quality is guaranteed.

5. Whether the press mounting is qualified or not can be judged according to the pressure value and the displacement of the pressure sensor.

The specific technical solution and the advantages of the present invention will be described in detail in the following detailed description with reference to the accompanying drawings.

Drawings

The invention will be further described with reference to the accompanying drawings and specific embodiments:

fig. 1 is a schematic structural view of a stop pin vibrating disk feeding mechanism of the present invention;

fig. 2 is a schematic structural view of a first spacing pin clamping and transferring mechanism of the present invention;

fig. 3 is a schematic structural view of a second spacing pin clamping and transferring mechanism of the present invention;

fig. 4 is a schematic structural view of the material taking assembly of the present invention;

fig. 5 is a schematic view of a partial structure of the spacing pin clamping and transferring mechanism of the present invention;

FIG. 6 is a front view of the floating press-fitting device for a stop pin of the present invention;

FIG. 7 is a side view of the floating press-fitting device for a stop pin of the present invention;

fig. 8 is a schematic structural view of the middle pressure head mechanism of the present invention;

fig. 9 is a first schematic view of the installation structure of the positioning plunger bolt of the middle pressure head mechanism of the present invention;

fig. 10 is a second schematic view of the installation structure of the positioning plunger bolt of the middle pressure head mechanism of the present invention;

FIG. 11 is a schematic view of a first dovetail plate of the present invention;

FIG. 12 is a schematic view of the structure under the first dovetail plate of the present invention;

fig. 13 is a schematic view of the wedge fit structure between the first dovetail board and the first dovetail board of the present invention;

in the figure:

1-a limit pin vibration disc feeding mechanism, 1.1-a vibration disc and 1.2-a stop structure;

2-a limiting pin clamping and transferring mechanism, 2.1-a material taking chuck, 2.2-a feeding rod, 2.3-a feeding cylinder, 2.4-a feeding cylinder connecting block, 2.5-a rotating cylinder, 2.6-a rotating cylinder connecting block, 2.7-a linear guide rail mechanism, 2.8-a transverse moving cylinder connecting block, 2.9-a transverse moving cylinder, 2.10-a side plate, 2.11-an upright post and 2.12-a limiting pin;

3-a limit pin floating press-mounting device, 3.1-a servo electric press, 3.2-a floating mechanism, 3.3-a pressure sensor, 3.4-a pressure head fine-adjustment mechanism, 3.5-a pressure head mechanism and 3.6-a slide rail mechanism;

3.4.1-sliding connection plate, 3.4.2-left adjustment plate, 3.4.3-right adjustment plate, 3.4.4-on first dovetail plate, 3.4.5-under first dovetail plate, 3.4.6-left fixing bolt, 3.4.7-right fine adjustment bolt, 3.4.8-on second dovetail plate, 3.4.9-under second dovetail plate, 3.4.10-rear fixing bolt, 3.4.11-front fine adjustment bolt;

3.5.1-compression bar, 3.5.2-locating sleeve connecting plate, 3.5.3-locating sleeve, 3.5.4-oilless bush, 3.5.5-spacer bush, 3.5.6-mounting locating head and locating plunger bolt 3.5.7.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. The following description of at least one exemplary embodiment is merely illustrative in nature and is in no way intended to limit the invention, its application, or uses. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It is to be understood that the features of the following examples and embodiments may be combined with each other without conflict.

It should be understood that the terms "upper", "lower", "front", "rear", "left", "right", etc. indicating directions or positional relationships in the present invention are based only on the directions or positional relationships shown in the drawings, and are only for convenience of description and simplification of the description, but do not indicate or imply that the device/element referred to must have a particular direction or be constructed and operated in a particular direction, and therefore should not be construed as limiting the present invention.

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

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

In the assembly process of the caliper body assembly after the calipers are rotated, press fitting of the limit pin is required, and the press fitting of the limit pin is taken as an example in the embodiment to specifically describe the press fitting and assembling equipment for pins. Of course, it will be understood by those skilled in the art that the present invention may also be used for pin-type press-fit assembly in the assembly of automotive components and other types of products.

As shown in fig. 1 to 13, the stop pin press-fitting device for assembling the clamp body assembly comprises a stop pin automatic feeding device and a stop pin floating press-fitting device 3, wherein the stop pin automatic feeding device comprises a stop pin vibration disc feeding mechanism 1 and a stop pin clamping and transferring mechanism 2, the stop pin vibration disc feeding mechanism 1 clamps the stop pin to the stop pin clamping and transferring mechanism 2 to convey the stop pin, and the stop pin clamping and transferring mechanism 2 clamps the stop pin from the stop pin vibration disc feeding mechanism 1 and sends the stop pin to the stop pin floating press-fitting device 3 for press-fitting.

Referring to fig. 1, the stop pin vibration disc feeding mechanism 1 includes a vibration disc 1.1 and a discharge rail, one end of the discharge rail is connected with the vibration disc 1.1, and the other end is provided with a discharge hole. And a stop structure 1.2 for pressing the limit pin is arranged above the discharge hole of the limit pin vibration disc feeding mechanism.

Specifically, the stop structure 1.2 comprises a stop cylinder and a stop head driven by the stop cylinder to move downwards. And meanwhile, an in-place sensor for detecting the position of the limiting pin is correspondingly arranged at the position of the discharge hole of the limiting pin vibrating disc feeding mechanism, and when the in-place sensor detects that the limiting pin is conveyed to the position of the discharge hole, the stop cylinder drives the stop head to press the limiting pin.

Operation process of the stop pin vibration disc feeding mechanism 1:

manually placing the limiting pin materials in a vibration disc in a centralized manner;

the vibrating disc moves, and the limiting pins are sequentially arranged to the discharge hole;

the in-place sensor detects the limit pin, and the stop cylinder of the stop structure moves to press the limit pin;

the limiting pin clamping and transferring mechanism 2 moves;

the stop cylinder of the stop structure 1.2 returns to the original position, and sends out a limit pin to the limit pin clamping and transferring mechanism 2;

the in-place sensor detects the limit pin, the stop cylinder of the stop structure 1.2 moves to press the limit pin, and the actions are circulated in sequence.

Referring to fig. 2 to 5, the limiting pin clamping and transferring mechanism 2 includes a material taking assembly, a rotary cylinder 2.5 and a transverse cylinder 2.9, the material taking assembly includes a material taking chuck 2.1, a feeding rod 2.2 and a feeding cylinder 2.3, the material taking chuck 2.1 is provided with a clamping hole for positioning the limiting pin 2.12, the limiting pin vibrating disk feeding mechanism feeds the limiting pin 2.12 into the clamping hole, the rotary cylinder 2.5 drives the material taking assembly to rotate, so that the clamping hole is opposite to a discharge port of the limiting pin vibrating disk feeding mechanism in a material taking state, the clamping hole is vertical in the feeding state, the feeding cylinder 2.3 drives the feeding rod 2.2 to eject the limiting pin from the clamping hole, and the transverse cylinder 2.9 is used for driving the rotary cylinder 2.5 and the material taking assembly to move transversely.

The material taking chuck 2.1 is provided with a guide hole matched with the feeding rod 2.2, the guide hole is connected with the clamping hole, the diameter of the guide hole is smaller than that of the clamping hole, a step structure is formed, the bottom of the clamping hole is positioned towards the limiting pin, the limiting pin cannot enter the guide hole, and the feeding rod 2.2 can stretch into the clamping hole.

Specifically, the material taking chuck 2.1 is installed on a connecting block 2.4 of a feeding cylinder, the connecting block 2.4 of the feeding cylinder is connected with a feeding cylinder 2.3, and a cylinder ejector rod of the feeding cylinder is connected with a feeding rod 2.2. The feeding cylinder connecting block 2.4 is connected with the rotating block, and the rotating part of the rotating cylinder is connected with the rotating block. The rotary cylinder 2.5 is arranged on the rotary cylinder connecting block 2.6, the rotary cylinder connecting block 2.6 is connected with the transverse moving cylinder connecting block 2.8, and the transverse moving cylinder connecting block 2.8 is connected with a cylinder ejector rod of the transverse moving cylinder.

Furthermore, the rotary cylinder connecting block 2.6 and the transverse cylinder connecting block 2.8 are arranged on a linear guide rail mechanism 2.7, and the linear guide rail mechanism 2.7 and the transverse cylinder 2.9 are arranged on a side plate 2.10 to ensure the linear motion of the side plate. A sliding block of the linear guide rail mechanism is connected with a transverse cylinder connecting block 2.8, and a side plate 2.10 is fixed on an upright post 2.11.

Referring to fig. 6 and 7, the floating press-fitting device 3 for the limit pin comprises a linear driver, a floating mechanism 3.2, a sliding rail mechanism 3.6 and a pressure head mechanism 3.5, wherein the linear driver is connected with the floating mechanism 3.2, and the floating mechanism 3.2 is connected with the sliding rail mechanism 3.6.

Specifically referring to fig. 8, the pressure head mechanism 3.5 includes a pressure lever 3.5.1, a positioning sleeve 3.5.3, and an installation positioning head 3.5.6, the positioning sleeve 3.5.3 guides the pressure lever 3.5.1 to move linearly up and down, the upper end of the pressure lever 3.5.1 is movably connected to the floating mechanism 3.2, the installation positioning head 3.5.6 is installed at the bottom of the positioning sleeve, the installation positioning head 3.5.6 has a positioning hole for positioning a limit pin, and the feeding cylinder 2.3 drives the feeding rod 2.2 to eject the limit pin 2.12 from the clamping hole and feed the limit pin into the positioning hole.

The mounting and positioning head 3.5.6 is connected with the positioning sleeve 3.5.3 by bolts, as shown in fig. 9 and 10, the mounting and positioning head 3.5.6 is connected with a positioning plunger bolt 3.5.7 perpendicular to the axis of the positioning hole, and the head of the positioning plunger bolt 3.5.7 extends into the positioning hole for clamping a limit pin in the positioning hole. Specifically, location plunger bolt 3.5.7 and the threaded hole threaded connection on the installation location head 3.5.6, the front end of location plunger bolt 3.5.7 has the circular arc head that stretches into the locating hole, and the rear end of location plunger bolt 3.5.7 still is located the threaded hole, and is equipped with the hexagon socket head structure on the rear end face for spanner rotation location plunger bolt 3.5.7 to the adjusting position.

Referring to fig. 8, two oilless bushings 3.5.4 and a spacer 3.5.5 separating the two oilless bushings are mounted in the positioning sleeve 3.5.3, and the oilless bushing 3.5.4 is slidably engaged with the pressure lever 3.5.1. Depression bar 3.5.1 includes head section, middle section and the back end that meets and the diameter increases in proper order mutually in order, position sleeve 3.5.3 includes the guide part, the guide part is equipped with the guiding hole, the guiding hole is including the big footpath direction section and the path direction section that meet from top to bottom in proper order, oilless bush 3.5.4 and spacer 3.5.5 install in big footpath direction section, middle section and oilless bush cooperation, head section and path direction section cooperation, and head section and locating hole clearance fit extrude the spacer pin from the locating hole. Because the diameter of the large-diameter guide section is larger than that of the small-diameter guide section, a limiting step for limiting the middle section can be formed to limit the downward position of the pressure rod.

Referring to fig. 6, the floating mechanism 3.2 is connected to a pressure sensor 3.3 for detecting the press-fitting force, and whether the press-fitting is qualified or not can be judged according to the pressure value and the displacement of the pressure sensor 3.3.

The floating mechanism may be constructed in a manner that the floating mechanism includes a floating plate, a sliding plate located below the floating plate, a guide rod connecting the floating plate and the sliding plate, and a spring nested in the guide rod and having two ends respectively abutting against the floating plate and the sliding plate, so that the floating plate can elastically float up and down. The floating plate is driven by a linear driver and connected with a pressure sensor 3.3, the pressure sensor is connected with a floating rod, a T-shaped head is arranged at the lower end of the floating rod, a floating joint is arranged at the upper end of the pressing rod and provided with a T-shaped floating groove, and the T-shaped head is in clearance fit with the floating groove to realize floating. The sliding plate is connected with the sliding block of the sliding rail mechanism 3.6.

Preferably, the linear driver is a servo electric press 3.1, and the servo electric press 3.1 is provided with a guide rod connected with the floating plate.

In order to adjust the horizontal position of the pressure head mechanism 3.5, the limiting pin floating press-mounting device 3 further comprises a pressure head fine adjustment mechanism 3.4. The position sleeve 3.5.3 is installed on position sleeve connecting plate 3.5.2, position sleeve connecting plate 3.5.2 is connected on pressure head fine-tuning 3.4.

Specifically, the pressure head fine adjustment machine 3.4 comprises a left adjusting plate 3.4.2, a right adjusting plate 3.4.3, a first wedge head plate upper 3.4.4 and a first wedge head plate lower 3.4.5, the first wedge head plate upper is fixed on a sliding connection plate 3.4.1, the left adjusting plate 3.4.2 and the right adjusting plate 3.4.3 are respectively fixed on the left side and the right side of the first wedge head plate, the left adjusting plate is connected with a left fixing bolt 3.4.6, the right adjusting plate is connected with a right fine adjustment bolt 3.4.7, the first wedge head plate upper and the first wedge head plate lower are matched, so that the first wedge head plate can move left and right under a tenon, and the left and right positions under the first wedge head plate are adjusted through the left fixing bolt and the right fine adjustment bolt.

Further, the pressure head fine adjustment mechanism 3.4 further comprises a front adjustment plate, a rear adjustment plate, a second wedge-shaped tenon head plate upper 3.4.8 and a second wedge-shaped tenon head plate lower 3.4.9, the second wedge-shaped tenon head plate upper is fixed below the first wedge-shaped tenon head plate, the front adjustment plate and the rear adjustment plate are respectively fixed on the front side and the rear side below the second wedge-shaped tenon head plate, the front adjustment plate is connected with the front fine adjustment bolt 3.4.11, the rear adjustment plate is connected with the rear fixing bolt 3.4.10, the second wedge-shaped tenon head plate upper is matched with the second wedge-shaped tenon head plate lower to enable the second wedge-shaped tenon head plate lower to move back and forth, and the front position and the rear position below the second wedge-shaped tenon head plate are adjusted through the rear fixing bolt and the front fine.

Wherein the sliding connection plate 3.4.1 is connected with the sliding plate, and the second dovetail board lower 3.1.9 is connected with the positioning sleeve connection plate 3.5.2.

In addition, as can be understood by those skilled in the art, the linear actuator of the present invention may also be an air cylinder, an oil cylinder, etc.

The utility model discloses an operation flow:

positioning a product (taking press mounting of a caliper bushing as an example in the device), and starting equipment;

the limiting pin vibrating disc feeding mechanism 1 finishes automatic feeding of the limiting pin 2.12, the limiting pin 2.12 is fed into the material taking chuck 2.1, and the limiting pin vibrating disc feeding mechanism 1 stops feeding;

the rotary cylinder 2.5 is started and rotates 90 degrees, so that the material taking chuck 2.1 and the limiting pin 2.12 face upwards;

the transverse moving cylinder 2.9 is started, and the limit pin 2.12 is sent to the lower part of the positioning head 3.5.6;

the feeding cylinder 2.3 is started to drive the feeding rod 2.2 to push the limiting pin 2.12 into the positioning head 3.5.6, and the limiting pin 2.12 keeps the position under the action of the positioning plunger bolt 3.5.7;

the feeding cylinder 2.3 returns, the transverse moving cylinder 2.9 returns, the rotating cylinder 2.5 returns, and the limiting pin clamping and transferring mechanism 2 is in an initial state;

a power cylinder of the slide rail mechanism 3.6 is started to move the positioning head 3.5.6 to a product position;

starting the servo press 3.1, and driving the pressure rod 3.5.1 to press and mount the limit pin 2.12;

after press mounting is finished, the servo press 3.1 returns, the power cylinder of the slide rail mechanism 3.6 returns, and the limit pin press mounting detection mechanism 3 is in an initial state;

the equipment judges whether the press mounting is qualified or not according to the 3.3 pressure value and the displacement of the pressure sensor;

and (5) finishing automatic press fitting of the limiting pin, and taking out the product.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and those skilled in the art should understand that the present invention includes but is not limited to the contents described in the above specific embodiments. Any modification which does not depart from the functional and structural principles of the present invention is intended to be included within the scope of the claims.

Claims (10)

1. Pincers body assembly spacer pin pressure equipment device, its characterized in that: the limiting pin floating press-mounting device comprises a linear driver, a floating mechanism, a slide rail mechanism and a press head mechanism, wherein the linear driver is connected with the floating mechanism, the floating mechanism is connected with the slide rail mechanism, the press head mechanism comprises a positioning sleeve, a press rod and an installation positioning head, the positioning sleeve guides the press rod to move linearly up and down, the upper end of the press rod is movably connected with the floating mechanism, the installation positioning head is installed at the bottom of the positioning sleeve, and the installation positioning head is provided with a positioning hole for positioning the limiting pin; the limiting pin clamping and transferring mechanism comprises a material taking assembly, a rotary cylinder and a transverse moving cylinder, the material taking assembly comprises a material taking chuck, a feeding rod and a feeding cylinder, the material taking chuck is provided with a clamping hole for clamping the limiting pin, the limiting pin vibration disc feeding mechanism feeds the limiting pin into the clamping hole, the rotary cylinder drives the material taking assembly to rotate, the clamping hole is opposite to a discharge hole of the limiting pin vibration disc feeding mechanism in a material taking state, the clamping hole is vertical and opposite to a positioning hole in a feeding state, the feeding cylinder drives the feeding rod to eject the limiting pin out of the positioning hole and feed the limiting pin into the positioning hole, and the transverse moving cylinder is used for driving the rotary cylinder and the material taking structure to transversely move between a material taking position and a feeding position.

2. The press fitting device for assembling the limit pin on the caliper body assembly according to claim 1, wherein: the mounting positioning head is connected with a positioning plunger bolt perpendicular to the axis of the positioning hole, and the head of the positioning plunger bolt extends into the positioning hole and is used for clamping a limiting pin in the positioning hole.

3. The press fitting device for assembling the limit pin on the caliper body assembly according to claim 2, wherein: the pressure head fine adjustment mechanism is used for adjusting the horizontal position of the pressure head mechanism, the positioning sleeve is installed on the positioning sleeve connecting plate, and the positioning sleeve connecting plate is connected with the pressure head fine adjustment mechanism.

4. The press fitting device for assembling the limit pin on the caliper body assembly according to claim 3, wherein: the pressure head fine adjustment mechanism comprises a left adjusting plate, a right adjusting plate, a first wedge-shaped tenon plate and a second wedge-shaped tenon plate, wherein the left adjusting plate and the right adjusting plate are respectively fixed at the left side and the right side of the first wedge-shaped tenon plate, the left adjusting plate is connected with a left fixing bolt, the right adjusting plate is connected with a right fine adjustment bolt, the first wedge-shaped tenon plate and the first wedge-shaped tenon plate are matched with each other, the first wedge-shaped tenon plate can move left and right, and the left and right positions of the first wedge-shaped tenon plate can be adjusted through the left fixing bolt and the right fine adjustment bolt.

5. The press fitting device for assembling the limit pin on the caliper body assembly according to claim 4, wherein: the pressure head fine adjustment mechanism further comprises a front adjustment plate, a rear adjustment plate, a second wedge-shaped tenon plate and a second wedge-shaped tenon plate, the second wedge-shaped tenon plate is fixed below the first wedge-shaped tenon plate, the front adjustment plate and the rear adjustment plate are respectively fixed on the front side and the rear side below the second wedge-shaped tenon plate, the front adjustment plate is connected with a front fine adjustment bolt, the rear adjustment plate is connected with a rear fixing bolt, the second wedge-shaped tenon plate is matched with the second wedge-shaped tenon plate, the second wedge-shaped tenon plate can move back and forth, and the front position and the rear position below the second wedge-shaped tenon plate are adjusted through the rear fixing bolt and the front fine adjustment bolt.

6. The press fitting device for assembling the limit pin on the caliper body assembly according to claim 1, wherein: the floating mechanism is connected with a pressure sensor for detecting press-fitting force.

7. The press fitting device for assembling the limit pin on the caliper body assembly according to any one of claims 1 to 6, wherein: the stopping structure for pressing the limiting pin is arranged above the discharge port of the limiting pin vibration disc feeding mechanism and comprises a stopping cylinder and a stopping head driven by the braking cylinder, an in-place sensor for detecting the limiting pin is correspondingly arranged at the discharge port of the limiting pin vibration disc feeding mechanism, and the stopping cylinder drives the stopping head to press the limiting pin when the in-place sensor detects that the limiting pin is conveyed to the discharge port.

8. The press fitting device for assembling the limit pin on the caliper body assembly according to claim 7, wherein: the material taking chuck is provided with a guide hole matched with the feeding rod, the guide hole is connected with the positioning hole, the diameter of the guide hole is smaller than that of the positioning hole, the material taking chuck is installed on a feeding cylinder connecting block, the feeding cylinder connecting block is connected with a feeding cylinder, and a cylinder ejector rod of the feeding cylinder is connected with the feeding rod.

9. The press fitting device for assembling the limit pin on the caliper body assembly according to claim 8, wherein: the feeding air cylinder connecting block is connected with the rotating block, the rotating part of the rotating air cylinder is connected with the rotating block, the rotating air cylinder is installed on the rotating air cylinder connecting block, the rotating air cylinder connecting block is connected with the transverse moving air cylinder connecting block, and the transverse moving air cylinder connecting block is connected with an air cylinder ejector rod of the transverse moving air cylinder.

10. The assembly assembling limit pin press-fitting device for the caliper body assembly according to claim 9, wherein: the rotary cylinder connecting block and the transverse cylinder connecting block are arranged on the linear guide rail mechanism, and the linear guide rail mechanism and the transverse cylinder are arranged on the side plate.

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