CN220346991U - Tailed screw sleeve machining device - Google Patents

Abstract

The utility model is applicable to the technical field of automatic assembly, and provides a tailed screw sleeve machining device which comprises a fixed frame, a moving assembly and an action assembly; the moving component is arranged at the bottom of the fixed frame; the action assembly is arranged on the fixing frame and comprises an installation shell, a punching pin, a limiting assembly and a first power source; the punching needle is fixed at the tail end of the mounting shell; the tail end of the limiting assembly is contacted with the top end of the punching needle, and the tail end of the output shaft of the first power source is arranged on the limiting assembly. The utility model is provided with the moving component which is used for moving the moving component for a certain distance so as to position the processing position of the tail screw sleeve before processing the workpiece, the moving component is provided with the limiting component for limiting the movement stroke of the punching needle, and the spring is also provided so that a certain impact force is superimposed when the punching needle moves forwards, the whole process does not need manual operation, and the problem caused by overlarge impact force or insufficient impact force is solved.

Description

Tailed screw sleeve machining device

Technical Field

The utility model belongs to the technical field of automatic assembly, and particularly relates to a device for processing a threaded sleeve with a tail.

Background

The steel wire thread sleeve is a novel internal thread fastener, which is suitable for threaded connection, is screwed into and fastened in a threaded hole of one of the connected pieces to form a standard internal thread, and is screwed into a bolt (or screw), and is also called a thread sleeve for short. The spring-shaped internal and external thread concentric body is formed by precisely processing a stainless steel wire with high strength, high precision and smooth surface, is mainly used for reinforcing and protecting the internal thread made of low-strength materials, has the functions of high connection strength, shock resistance and wear resistance, can disperse stress to protect the thread of a matrix, greatly prolongs the service life of the matrix, and is widely applied to various fields.

The connection can be strengthened by the tail handle on the steel wire screw sleeve, the tail handle can be provided with the tail hole, when the screw sleeve is arranged in a material, the tail handle can be pricked into the material, and the tail hole is positioned in the material, so that the stability and the strength of connection are improved, and the screw sleeve can be conveniently installed and detached by the design of the tail handle.

In the prior art, in the processing process of tail holes on a steel wire threaded sleeve, the positions of the tail holes are marked on a workpiece, and then the workpiece is impacted into a required hole shape by using a punch breaker and a special die in the tail punching process. In the tail punching process, the punch breaker can apply high pressure to the workpiece, the workpiece is enabled to penetrate through and form the through hole through rapid impact, the punch breaker is required to provide proper impact force and also meet proper speed, professional operators are required to operate under most conditions, but improper operation can cause safety risks, if insufficient impact force can lead to incapability of forming a tail hole in the operation process, and the excessive impact force can lead to deformation or fracture of the workpiece.

Disclosure of Invention

The embodiment of the utility model aims to provide a tailed screw sleeve processing device, which aims to solve the problems that professional operators are required to operate in most cases, but safety risks can be caused by improper operation, such as incapability of forming a tailhole due to insufficient impact force in the operation process, deformation or breakage of a workpiece due to excessive impact force, and the like.

The embodiment of the utility model is realized in such a way that a device for processing the threaded sleeve with the tail comprises: the device comprises a fixing frame, a moving assembly and an action assembly;

the moving assembly is arranged at the bottom of the fixed frame and used for guiding the movement of the action assembly so that the tail end of the action assembly is contacted with the processing position of the tailed screw sleeve;

the action assembly is arranged on the fixing frame and comprises an installation shell, a punching pin, a limiting assembly and a first power source; the punching needle is fixed at the tail end of the mounting shell and is used for punching a machining position on a workpiece to form a hole; the tail end of the limiting component is contacted with the top end of the punch needle, and the limiting component is used for guiding the movement of the punch needle and limiting the movement stroke of the punch needle; the tail end of the output shaft of the first power source is arranged on the limiting assembly, and the first power source is used for providing power for the limiting assembly and the movement of the punch needle.

Preferably, the action assembly further comprises a spring, one end of the spring is installed on the limiting assembly, the other end of the spring is installed on the first power source, and the spring is used for providing power for the limiting assembly and the movement of the punching needle.

Preferably, the limiting assembly comprises a sleeve, a limiting block and a limiting pin;

the sleeve is of a hollow structure, the top end of the sleeve is used for installing the tail end of an output shaft of the first power source, the tail end of the sleeve is used for installing a limiting block, a limiting through hole is formed in the sleeve, and the limiting through hole is used for limiting the movement stroke of the limiting block;

the limiting block is provided with a mounting hole, the mounting hole is used for fixing the limiting pin, and the limiting block is in sliding connection with the sleeve;

one end of the limiting pin is fixed on the limiting block, the other end of the limiting pin is in clearance fit with the limiting through hole of the sleeve, and the limiting pin is used for limiting the movement stroke of the limiting block on the sleeve.

Preferably, the first power source is provided with a first push rod and a fixing seat, the fixing seat is installed at the top end of the installation shell, the fixing seat is used for fixing the first power source on the installation shell, the first push rod is in sliding connection with the fixing seat, and the first push rod is embedded at the top end of the limiting assembly.

Preferably, the punch pin is provided with a fixing sleeve, the fixing sleeve is fixed at the tail end of the mounting shell and used for limiting the movement stroke of the punch pin, and the outer wall of the mounting part of the punch pin is in contact with the inner wall of the mounting shell.

Preferably, the installation shell is hollow structure, the installation shell sets up first installation position and second installation position, first installation position is located the installation shell top and is used for fixed first power supply, the second installation position is located the installation shell end and is used for installing towards the needle.

Preferably, the moving assembly comprises a second power source, a second push rod and a support, wherein the second power source is fixed on the support, one end of the second push rod is installed on the second power source, the other end of the second push rod is installed on the fixing frame, the second push rod is used for guiding the fixing frame and moving the moving assembly, and the second power source is used for providing power for the movement of the second push rod.

Preferably, the fixing frame is provided with a base and a supporting frame, one end face of the base is provided with a hole groove, the hole groove is used for fixing the moving assembly, the supporting frame is fixed on the base, and the supporting frame is used for fixing the action assembly.

The utility model is provided with the moving component for moving the moving component for a certain distance so as to position the machining position of the tail screw sleeve before machining the workpiece, the moving component is arranged, the first power source in the moving component provides power for the movement of the punching needle, the limiting component limits the movement stroke of the punching needle, and the spring is also arranged so that a certain impact force is superposed when the punching needle moves forwards, and the buffer effect can be achieved after the machining is finished, the whole process does not need manual operation, the safety risk is avoided, the addition of the first power source and the spring force can meet the machining of the workpiece through hole, the retraction of the spring plays a certain buffer effect, and the problem caused by overlarge impact force or insufficient impact force is solved.

Drawings

FIG. 1 is a perspective view of a device for processing a tailed screw sleeve according to an embodiment of the present utility model;

FIG. 2 is a cross-sectional view of a three-dimensional structure of a device for processing a tailed screw sleeve according to an embodiment of the present utility model;

FIG. 3 is a cross-sectional view of an action assembly of a tailed insert machining device according to an embodiment of the present utility model;

fig. 4 is a structural cross-sectional view of a moving assembly of a tailed screw sleeve processing apparatus according to an embodiment of the present utility model.

In the accompanying drawings: 1. a fixing frame; 11. a support frame; 12. a base; 2. an action assembly; 21. a first power source; 211. a first push rod; 212. a fixing seat; 22. a limit component; 221. a sleeve; 2211. limiting through holes; 222. a limiting block; 223. a limiting pin; 23. a mounting shell; 24. punching needles; 241. a fixed sleeve; 3. a moving assembly; 31. a second power source; 32. a second push rod; 33. and (3) a bracket.

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.

Specific implementations of the utility model are described in detail below in connection with specific embodiments.

1-2, a structure diagram of a processing device for a threaded sleeve with a tail according to an embodiment of the present utility model includes: a fixed frame 1, a moving assembly 3 and an action assembly 2;

the moving component 3 is arranged at the bottom of the fixed frame 1, and the moving component 3 is used for guiding the movement of the action component 2 so that the tail end of the action component 2 is contacted with the processing position of the tailed screw sleeve;

the action assembly 2 is arranged on the fixed frame 1, and the action assembly 2 comprises an installation shell 23, a punch pin 24, a limiting assembly 22 and a first power source 21; the punching needle 24 is fixed on the tail end of the mounting shell 23, and the punching needle 24 is used for punching a machining position on a workpiece into a hole; the tail end of the limiting component 22 is contacted with the top end of the punch pin 24, and the limiting component 22 is used for guiding the movement of the punch pin 24 and limiting the movement stroke of the punch pin 24; the tail end of the output shaft of the first power source 21 is mounted on the limiting assembly 22, and the first power source 21 is used for providing power for the limiting assembly 22 and the movement of the punch pin 24.

In the embodiment of the utility model, the tailed screw processing device mainly comprises a fixing frame 1, a moving assembly 3 and an action assembly 2, preferably, the action assembly 2 is installed on the fixing frame 1, the moving assembly 3 is installed at the bottom of the fixing frame 1, when the tailed screw is located at a set processing station, the moving assembly 3 pushes the action assembly 2 and moves towards the processing station where the tailed screw is located, so that the tail end of a punch needle 24 on the action assembly 2 is abutted, the punch needle 24 can move a certain distance and the moving direction is opposite to the pushing direction of the moving assembly 3, at the moment, after the tailed screw is completely positioned by the punch needle 24, a first power source 21 on the action assembly 2 provides power to enable the punch needle 24 to process towards the processing position of the tailed screw with larger impact force, a limit assembly 22 connected between the first power source 21 and the punch needle 24 can limit the movement stroke of the punch needle 24 to prevent the impact force of the punch needle 24 from being too large or the stroke from damaging the tailed screw, when the first power source 21 acts, the first push rod 211 guides the power assembly 22 to the upper power assembly 22 to the tail end of the punch needle 24 and transmits the impact force to the limit assembly 24 to the limit end of the punch needle 24, and the limit sleeve is contacted with the punch needle 24.

As shown in fig. 1-2, the action assembly 2 further comprises a spring, one end of which is mounted on the limit assembly 22 and the other end of which is mounted on the first power source 21, for powering the movement of the limit assembly 22 and the punch pin 24, as a preferred embodiment of the present utility model.

In the embodiment of the present utility model, the action assembly 2 may further be provided with a spring, preferably, the spring may be an elastic member with a certain length, one end of the spring may be fixed on the output end of the first power source 21, the other end of the spring may be installed on the limit assembly 22, when the first power source 21 drives the first push rod 211 to retract, the first power source 21 drives the limit assembly 22 to move towards the same direction, at this time, the spring may be compressed between the first power source 21 and the limit assembly 22, when the first power source 21 pushes the first push rod 211 to move, at this time, the first push rod 211 pushes the limit assembly 22 and the punch pin 24 contacting the limit assembly 22 move towards the processing position of the punch pin 24 with the distance between the first power source 21 and the limit assembly 22 increasing, the spring bounces towards the direction of the punch pin 24, so that the punch pin 24 obtains an overlapped impact force in the processing process, the spring bounces downwards, and then resets, the punch pin is completed, and the spring drives the limit assembly 22 to push the punch pin 24 to impact the punch pin 24 to the impact pin 24 to the end of a large extent, thereby preventing the problem of breakage of the punch pin 24 caused by the impact force from being generated.

As shown in fig. 3, the limiting assembly 22 includes a sleeve 221, a limiting block 222, and a limiting pin 223 as a preferred embodiment of the present utility model;

the sleeve 221 is of a hollow structure, the top end of the sleeve 221 is used for installing the tail end of the output shaft of the first power source 21, the tail end of the sleeve 221 is used for installing the limiting block 222, the sleeve 221 is provided with a limiting through hole 2211, and the limiting through hole 2211 is used for limiting the movement stroke of the limiting block 222;

the limiting block 222 is provided with a mounting hole for fixing the limiting pin 223, and the limiting block 222 is in sliding connection with the sleeve 221;

one end of the limiting pin 223 is fixed on the limiting block 222, the other end of the limiting pin 223 is in clearance fit with the limiting through hole 2211 of the sleeve 221, and the limiting pin 223 is used for limiting the movement stroke of the limiting block 222 on the sleeve 221.

In the embodiment of the present utility model, the limiting component 22 mainly comprises a sleeve 221, a limiting block 222 and a limiting pin 223, preferably, the sleeve 221 may be cylindrical with a certain length, the inner diameter of the port at the top end of the sleeve 221 is not greater than the inner diameter of the port at the end of the sleeve 221, the inner diameter of the port at the top end of the sleeve 221 may be the same as the outer diameter of the first push rod 211 on the first power source 21, the inner diameter of the port at the end of the sleeve 221 may be the same as the outer diameter of the limiting block 222, a limiting through hole 2211 with a certain length may be provided on the outer wall of the sleeve 221, the length of the limiting through hole 2211 is determined according to the movement stroke of the punch pin 24, the width of the limiting through hole 2211 may be determined according to the outer diameter of the limiting pin 223, the limiting through hole 2211 is used for guiding the movement of the limiting pin 223 and limiting the movement stroke of the limiting pin 223, and the limiting through hole 2211 is matched with the limiting pin 223.

Preferably, the limiting block 222 may be provided with two mounting holes, the inner diameter of each mounting hole may be equal to the outer diameter of the limiting pin 223, the depth of each mounting hole is not greater than the length of the limiting pin 223, one end of the limiting pin 223 may be fixed by each mounting hole, the limiting block 222 may be a cylindrical member with a certain length, the mounting holes are arranged on the outer wall of the limiting block 222, the centers of the two mounting holes may be located on the same straight line in the length direction of the limiting block 222, the outer diameter of the limiting block 222 is not greater than the inner diameter of the sleeve 221, and the limiting block 222 is connected with the sleeve 221 through the limiting pin 223, so that sliding connection is formed between the limiting block 222 and the sleeve 221.

Preferably, the limiting pin 223 may be a rod member having a certain length, the length of the limiting pin 223 is not greater than the cross-sectional diameter of the sleeve 221, the limiting pin 223 may be provided in two sets and respectively mounted on the mounting holes of the limiting block 222, and the limiting pin 223 may also be used to fix one end of the spring in place.

As shown in fig. 3, as a preferred embodiment of the present utility model, the first power source 21 is provided with a first push rod 211 and a fixed seat 212, the fixed seat 212 is mounted at the top end of the mounting shell 23, the fixed seat 212 is used for fixing the first power source 21 on the mounting shell 23, the first push rod 211 is slidably connected with the fixed seat 212, and the first push rod 211 is embedded at the top end of the limiting assembly 22.

In the embodiment of the present utility model, the first power may be provided with the first push rod 211 and the fixing base 212, preferably, the fixing base 212 may be a fixing member with a hollow structure, the inner diameter of the fixing base 212 may be the same as the outer diameter of the first push rod 211, one end surface of the fixing base 212 may fix the other end of the spring by welding, and the wall surface of the fixing base 212 is embedded on the mounting shell 23 so that the entire first power source 21 is fixed on the top end of the mounting shell 23. Preferably, the first push rod 211 may be a rod with a certain length, the first push rod 211 is provided with a mounting portion and a connecting portion, the mounting portion of the first push rod 211 is in sliding connection with the hollow structure portion of the fixed seat 212, the connecting portion of the first push rod 211 is embedded on the top end of the mounting shell 23 in the limit assembly 22, when the first push rod 211 is pushed, the tail end of the first push rod 211 contacts with the top end of the limit block 222 and transmits the thrust to the limit block 222, the limit block 222 moves towards the direction of the punch needle 24, and the tail end of the limit block 222 contacts with the top end of the punch needle 24 and transmits the thrust to the punch needle 24 again, so that after the punch needle 24 impacts the processing position of the tailed screw sleeve.

As shown in fig. 3, as a preferred embodiment of the present utility model, the punch pin 24 is provided with a fixing sleeve 241, the fixing sleeve 241 is fixed at the end of the mounting shell 23, the fixing sleeve 241 is used for limiting the movement travel of the punch pin 24, and the outer wall of the mounting portion of the punch pin 24 is in contact with the inner wall of the mounting shell 23.

In an embodiment of the present utility model, the punch pin 24 may be a rod member having a certain length, and the punch pin 24 may be provided as a mounting portion, which may be a projection protruding along an outer wall of the punch pin 24, and an actuating portion for contacting with the tailed screw and processing a through hole, the mounting portion being for fixing the punch pin 24 in place. Preferably, the punch pin 24 may be provided with a fixing sleeve 241, one end surface of the fixing sleeve 241 is in contact with the end surface of the end of the mounting shell 23, and a fixing portion of the fixing sleeve 241 is fixed in the mounting shell 23, the fixing sleeve 241 may be of a hollow structure, the inner diameter of the fixing sleeve 241 may be the same as the outer diameter of the action portion of the punch pin 24, and when the fixing sleeve 241 is connected with the punch pin 24 in place, the end surface of a bump on the punch pin 24 is in contact with the end surface of the fixing portion of the fixing sleeve 241.

As shown in fig. 3, as a preferred embodiment of the present utility model, the mounting case 23 is of a hollow structure, and the mounting case 23 is provided with a first mounting position at the top end of the mounting case 23 for fixing the first power source 21 and a second mounting position at the end of the mounting case 23 for mounting the punch pin 24.

In this embodiment of the present utility model, preferably, the installation shell 23 may be a cylindrical tube with a hollow structure and has a certain length, two cavity structures with different inner diameters may be formed inside the installation shell 23, a first installation site is located at the top end of the installation shell 23, a second installation site is located at the end port of the installation shell 23, the inner diameter of the first installation site is greater than the inner diameter of the second installation site, a groove may be provided at the top end port of the installation shell 23 for fixing the fixing seat 212 on the first power source 21, and a limiting component 22 is connected to the end of the first power source 21, the limiting component 22 is located inside the installation shell 23 and has a length not less than the length of the sleeve 221 plus the movement stroke of the limiting block 222 and the first push rod 211, the inner diameter of the first installation site is not less than the outer diameter of the sleeve 221, and the inner diameter of the second installation site is the same as the outer diameter of the fixing part of the fixing sleeve 241 and greater than the outer diameter of the actuating part of the punch pin 24.

As shown in fig. 4, as a preferred embodiment of the present utility model, the moving assembly 3 includes a second power source 31, a second push rod 32, and a bracket 33, the second power source 31 is fixed on the bracket 33, one end of the second push rod 32 is mounted on the second power source 31, the other end is mounted on the fixed frame 1, the second push rod 32 is used for guiding the movement of the fixed frame 1 and the moving assembly 2, and the second power source 31 is used for providing power for the movement of the second push rod 32.

In the embodiment of the present utility model, the moving assembly 3 mainly comprises a second power source 31, a second push rod 32 and a bracket 33, preferably, the bracket 33 is used for fixing the second power source 31 and is provided with a mounting hole to be fixed on the outer wall of the second power source 31, a cavity structure is arranged in the second power source 31, one end of the second push rod 32 is installed in the cavity structure of the second power source 31 and is matched with the cavity structure to form sliding connection, the other end of the second push rod 32 is installed at one end of the fixing frame 1, the second power source 31 provides power for the movement of the second push rod 32, and the second push rod 32 guides the fixing frame 1 and the action assembly 2 on the fixing frame 1 to move a certain distance, so that the tail end of the punch pin 24 on the action assembly 2 contacts with the processing position of the tailed screw sleeve.

As shown in fig. 2, as a preferred embodiment of the present utility model, the fixing frame 1 is provided with a base 12 and a supporting frame 11, one end surface of the base 12 is provided with a hole groove, the hole groove is used for fixing the moving assembly 3, the supporting frame 11 is fixed on the base 12, and the supporting frame 11 is used for fixing the actuating assembly 2.

In the embodiment of the present utility model, preferably, the fixing frame 1 may be provided with the base 12 and the supporting frame 11, one side end surface of the base 12 may be provided with a hole groove having a certain length, the hole groove may be used for installing the second push rod 32 in the moving assembly 3, the supporting frame 11 may be fixed in place by a through hole provided on the top surface of the base 12 by using a screw, and a fixing hole having a size consistent with the outer diameter of the mounting shell 23 may be provided on the supporting frame 11, so that the mounting shell 23 of the moving assembly 2 passes through and fixes the connection port of the fixing hole by using a bolt and a screw sleeve, thereby limiting the moving freedom of the moving assembly 2.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the utility model.

Claims (8)

1. The utility model provides a there is tail swivel nut processingequipment which characterized in that, there is tail swivel nut processingequipment includes: the device comprises a fixing frame, a moving assembly and an action assembly;

the moving assembly is arranged at the bottom of the fixed frame and used for guiding the movement of the action assembly so that the tail end of the action assembly is contacted with the processing position of the tailed screw sleeve;

the action assembly is arranged on the fixing frame and comprises an installation shell, a punching pin, a limiting assembly and a first power source; the punching needle is fixed at the tail end of the mounting shell and is used for punching a machining position on a workpiece to form a hole; the tail end of the limiting component is contacted with the top end of the punch needle, and the limiting component is used for guiding the movement of the punch needle and limiting the movement stroke of the punch needle; the tail end of the output shaft of the first power source is arranged on the limiting assembly, and the first power source is used for providing power for the limiting assembly and the movement of the punch needle.

2. The device of claim 1, wherein the action assembly further comprises a spring having one end mounted on the stop assembly and the other end mounted on the first power source, the spring being configured to power the stop assembly and the movement of the punch pin.

3. The device for machining a tailed screw sleeve according to claim 1, wherein the limiting assembly comprises a sleeve, a limiting block and a limiting pin;

the sleeve is of a hollow structure, the top end of the sleeve is used for installing the tail end of an output shaft of the first power source, the tail end of the sleeve is used for installing a limiting block, a limiting through hole is formed in the sleeve, and the limiting through hole is used for limiting the movement stroke of the limiting block;

the limiting block is provided with a mounting hole, the mounting hole is used for fixing the limiting pin, and the limiting block is in sliding connection with the sleeve;

one end of the limiting pin is fixed on the limiting block, the other end of the limiting pin is in clearance fit with the limiting through hole of the sleeve, and the limiting pin is used for limiting the movement stroke of the limiting block on the sleeve.

4. The device for machining the tailed screw sleeve according to claim 1, wherein the first power source is provided with a first push rod and a fixing seat, the fixing seat is installed at the top end of the installation shell, the fixing seat is used for fixing the first power source on the installation shell, the first push rod is in sliding connection with the fixing seat, and the first push rod is embedded at the top end of the limiting assembly.

5. The device for machining the thread insert with the tail according to claim 1, wherein the punch pin is provided with a fixing sleeve, the fixing sleeve is fixed at the tail end of the mounting shell and used for limiting the movement stroke of the punch pin, and the outer wall of the mounting part of the punch pin is in contact with the inner wall of the mounting shell.

6. The device for machining the threaded tail sleeve according to claim 1, wherein the mounting shell is of a hollow structure, the mounting shell is provided with a first mounting position and a second mounting position, the first mounting position is located at the top end of the mounting shell and is used for fixing the first power source, and the second mounting position is located at the tail end of the mounting shell and is used for mounting the punching pin.

7. The device of claim 1, wherein the moving assembly comprises a second power source, a second push rod and a bracket, the second power source is fixed on the bracket, one end of the second push rod is mounted on the second power source, the other end of the second push rod is mounted on the fixed frame, the second push rod is used for guiding the fixed frame and the movement of the moving assembly, and the second power source is used for providing power for the movement of the second push rod.

8. The device for processing the threaded sleeve with the tail according to claim 1, wherein the fixing frame is provided with a base and a supporting frame, one end surface of the base is provided with a hole groove, the hole groove is used for fixing the moving assembly, the supporting frame is fixed on the base, and the supporting frame is used for fixing the action assembly.