CN216264466U - Riveting and blanking mechanism for air pipe joint - Google Patents

Abstract

The utility model relates to a riveting and blanking mechanism for a gas pipe joint, which comprises a rack, wherein a riveting base is arranged on the rack, a positioning notch is arranged on the riveting base, a clamping unit for clamping the gas pipe joint in the positioning notch is arranged above the positioning notch, a riveting component for abutting against a copper body on the gas pipe joint and enabling the copper body to be in riveting connection with a plastic body is arranged on one side of the positioning notch, the riveting component comprises a riveting rod and a riveting driving unit for controlling the riveting rod to move along the axis direction of the riveting rod, a chute for allowing the riveted gas pipe joint to slide downwards is arranged on one side of the positioning notch facing the riveting rod, and the upper end of the chute is communicated with the positioning notch. The automatic riveting and blanking device can realize automatic riveting and blanking of the copper body and the plastic body, improve the production efficiency, save labor force and reduce the production cost.

Description

Riveting and blanking mechanism for air pipe joint

Technical Field

The utility model relates to the field of production equipment of air pipe connectors, in particular to a riveting and blanking mechanism of an air pipe connector.

Background

The air pipe connector is widely applied to the gas fluid industry due to the fact that the air pipe connector has the characteristic of being convenient to install, the air pipe connector can be used for installing a pipeline under the condition that tools are not needed, the air pipe connector is linear and L-shaped, the air pipe connector mainly comprises a plastic body, sleeve assemblies and copper bodies, the sleeve assemblies and the copper bodies are arranged at two ends of the plastic body, air pipe buttons are arranged on the sleeve assemblies, and the copper bodies are connected with the plastic body in a riveting mode. During air pipe joint production of prior art, the riveting is carried out with the plastic body to the copper body, but such production methods is inefficient, consumes the labour, and enterprise manufacturing cost is high.

SUMMERY OF THE UTILITY MODEL

Aiming at the defects in the prior art, the utility model provides a riveting and blanking mechanism for a gas pipe joint, which can realize automatic riveting and blanking of a copper body and a plastic body, improve the production efficiency, save the labor force and reduce the production cost.

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

the utility model provides a trachea joint riveting unloading mechanism, includes the frame, be equipped with the riveting base in the frame, it lacks the groove to be equipped with the location on the riveting base, the top that the groove was lacked in the location is equipped with and is used for pressing from both sides the tight unit of clamp in the groove is lacked in the location with the trachea joint, one side that the groove was lacked in the location is equipped with and is used for supporting the riveting subassembly that presses the copper body on the trachea joint and make copper body and plastic body riveting, the riveting subassembly includes riveting pole and control riveting pole along its axis direction activity riveting drive unit, the groove is lacked in the location is equipped with the chute that supplies the trachea joint after the riveting to fall downwards towards one side of riveting pole, the upper end and the location of chute lack the intercommunication.

As a preferred scheme, the clamping unit is a clamping cylinder arranged above the positioning notch, and a movable joint of the clamping cylinder extends downwards and is connected with a clamp.

As a preferable scheme, a transverse driving assembly and a longitudinal driving assembly are arranged on the rack and used for controlling the clamping unit to move, the transverse driving assembly comprises a transverse sliding plate movably arranged on the rack and a transverse air cylinder used for controlling the transverse sliding plate to move transversely, the longitudinal driving assembly comprises a longitudinal sliding plate movably arranged on the transverse sliding plate and a longitudinal air cylinder used for controlling the longitudinal sliding plate to move up and down, and the clamping unit is arranged on the longitudinal sliding plate and can move along with the longitudinal sliding plate.

As a preferred scheme, the positioning notch is arranged in an L shape.

As a preferable scheme, the riveting driving unit is a riveting driving cylinder, and one end of the riveting rod is connected with a movable joint of the riveting driving cylinder.

As a preferable scheme, a positioning block is arranged on the riveting base, the positioning notch is arranged on the positioning block, and the positioning block is in screwed connection with the riveting base through a screw.

As a preferable scheme, the riveting base is provided with an installation groove on the upper surface thereof for installing a positioning block, and the positioning block is installed in the installation groove.

As an optimal scheme, the lower extreme of chute is equipped with swivel sleeve and control swivel sleeve pivoted revolving cylinder, swivel sleeve's axis direction is parallel with the direction of the extension of chute to swivel sleeve's middle part is equipped with the holding tank with the chute intercommunication, holding tank and copper body adaptation, the bottom of chute lower extreme is equipped with the discharge gate, be equipped with in the frame and push away subassembly and flexible striker assembly, the top pushes away the top that the subassembly includes ejector pin and control ejector pin activity and pushes away the actuating cylinder, the axis of ejector pin is parallel with the extending direction of chute to during the holding tank is located in the upper end activity of ejector pin, flexible striker assembly includes the flexible striker cylinder of flexible striker plate and the flexible striker plate activity of control, the end activity that stretches out of flexible striker plate is located in the discharge gate.

As a preferable scheme, the upper surface of the telescopic striker plate is flush with the bottom of the chute.

As a preferable scheme, a finished product discharging groove extending downwards in an inclined mode is arranged below the discharging hole.

Compared with the prior art, the riveting device has the obvious advantages and beneficial effects that specifically, by arranging the riveting base, the clamping unit and the riveting assembly, the positioning notch groove is formed in the riveting base, the chute is formed in one side, facing the riveting assembly, of the positioning notch groove, the clamping unit clamps the air pipe joint in the positioning notch groove during riveting, the copper body and the plastic body are riveted by utilizing the abutting pressure of the riveting rod, the air pipe joint is released by the clamping unit after riveting is completed, and the air pipe joint is separated from the positioning notch groove and automatically falls down along the chute under the action of the gravity of the copper body, so that the automatic riveting and blanking of the copper body and the plastic body are realized, the production efficiency is improved, the labor force is saved, and the production cost is reduced; the positioning blocks are screwed with the riveting base through screws, positioning notches with different sizes can be arranged on the plurality of positioning blocks, and the positioning requirements can be met by replacing the corresponding positioning blocks according to the sizes of the produced products; through setting up rotating sleeve, top pushing assembly and flexible fender subassembly, the air pipe joint after accomplishing the riveting falls to rotating sleeve along the chute in, rotating sleeve rotates and drives copper body and rotates detectable copper body and whether target in place with plastic body riveting, utilizes top pushing assembly and the flexible discharge gate that keeps off the material subassembly to fall the ejecting rotating sleeve of air pipe joint and from the discharge gate on the chute down, and degree of automation is high.

To more clearly illustrate the structural features and technical means of the present invention and the specific objects and functions attained thereby, the present invention will be described in further detail with reference to the accompanying drawings and specific embodiments:

drawings

FIG. 1 is a view of a gas line connector according to an embodiment of the present invention;

FIG. 2 is an exploded view of the copper body and the plastic body of FIG. 1;

FIG. 3 is a schematic view of an assembly structure according to an embodiment of the present invention;

FIG. 4 is a partial cross-sectional view of an embodiment of the present invention;

FIG. 5 is a schematic diagram illustrating a usage status of the embodiment of the present invention.

The attached drawings indicate the following:

10-a gas pipe joint; 11-a plastic body; 12-a copper body;

20-a frame; 21-riveting the base; 211-a mounting groove;

22-a positioning block; 23-positioning the notch; 24-a riveting assembly;

241-riveting rod; 242-rivet pressing drive unit; 25-chute;

26-a transverse drive assembly; 261-transverse slide plate; 262-transverse cylinder;

27-a longitudinal drive assembly; 271-longitudinal sliding plate; 272-longitudinal cylinders;

28-a clamping unit; 29-a clip; 30-rotating the sleeve;

301-accommodating grooves; 31-a rotary cylinder; 32-a pushing assembly;

321-a push rod; 322-a pushing cylinder; 33-a telescopic material blocking assembly;

331-a telescopic striker plate; 332-telescopic material blocking cylinder; 34-a discharge hole;

and 35-finished product discharging groove.

Detailed Description

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the positions or elements referred to must have specific orientations, be constructed in specific orientations, and be operated, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; 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 as appropriate by those of ordinary skill in the art.

As shown in fig. 1 to 5, a riveting and blanking mechanism for an air pipe joint comprises a frame 20, a riveting base 21 is arranged on the frame 20, a mounting groove 211 is formed in the upper surface of the riveting base 21, a positioning block 22 is arranged in the mounting groove 211, a positioning notch 23 is formed in the positioning block 22, the positioning notch 23 is arranged in an L shape, the positioning block 22 is screwed with the riveting base 21 through a screw, a clamping unit for clamping the air pipe joint 10 in the positioning notch 23 is arranged above the positioning notch 23, a riveting component 24 for abutting against a copper body 12 on the air pipe joint 10 and enabling the copper body 12 to be riveted with a plastic body 11 is arranged on one side of the positioning notch 23, the riveting component 24 comprises a riveting rod 241 and a riveting driving unit 242 for controlling the riveting rod 241 to move along the axial direction thereof, the riveting driving unit 242 is a riveting driving cylinder, riveting bar 241's one end and riveting pressure drive the swing joint of actuating cylinder and be connected, location lacks the groove 23 and is equipped with the chute 25 that supplies the downward landing of air pipe connector 10 after the riveting towards one side of riveting bar 241, chute 25's upper end and location lack groove 23 intercommunication, after air pipe connector 10 put into location lacks groove 23, the one end that plastic body 11 was kept away from to copper body 12 stretches into chute 25, because gravity concentrates on copper body 12, can make air pipe connector 10 break away from location lack groove 23 and fall along chute 25 automatically under the effect of gravity.

The clamping unit is a clamping cylinder, a movable joint of the clamping cylinder extends downwards to be connected with a clamp 29, a transverse driving assembly 26 and a longitudinal driving assembly 27 are arranged on the rack 20 and used for controlling the clamping unit to move, the transverse driving assembly 26 comprises a transverse sliding plate 261 movably arranged on the rack 20 and a transverse cylinder 262 used for controlling the transverse sliding plate 261 to move transversely, the longitudinal driving assembly 27 comprises a longitudinal sliding plate 271 movably arranged on the transverse sliding plate 261 and a longitudinal cylinder 272 used for controlling the longitudinal sliding plate 271 to move up and down, and the clamping unit 28 is arranged on the longitudinal sliding plate 271 and can move along with the longitudinal sliding plate 271.

The lower end of the chute 25 is provided with a rotary sleeve 30 and a rotary cylinder 31 for controlling the rotary sleeve 30 to rotate, the axial direction of the rotary sleeve 30 is parallel to the extending direction of the chute 25, the middle part of the rotary sleeve 30 is provided with a holding tank 301 communicated with the chute 25, the holding tank 301 is matched with the copper body 12, after the air pipe joint 10 is riveted, the copper body 12 and the plastic body 11 can rotate relatively but cannot be pulled out, when the air pipe joint 10 falls down along the chute 25, the copper body 12 enters the holding tank 301, the rotary cylinder 31 controls the rotary sleeve 30 to rotate 180 degrees, so that the rotary sleeve 30 drives the copper body 12 to rotate 180 degrees relative to the plastic body 11, if the copper body 12 has large resistance and slow rotation speed in the rotation process, two groups of the copper body 12 are closely matched, the copper body 12 can be considered to be riveted, otherwise, the copper body 12 has small resistance and fast rotation speed, which indicates that the two groups of the copper body 12 are not matched with each other, the copper body 12 is not riveted in place, and the specific resistance value and the rotation speed value can be set according to different products with different requirements.

The bottom of chute 25 lower extreme is equipped with discharge gate 34, be equipped with top pushing assembly 32 and flexible striker assembly 33 on the frame 20, top pushing assembly 32 includes push rod 321 and the top pushing cylinder 322 of control push rod 321 activity, the axis of push rod 321 is parallel with the extending direction of chute 25, and the upper end activity of push rod 321 locates in holding tank 301, flexible striker assembly 33 includes flexible striker plate 331 and the flexible striker cylinder 332 of control flexible striker plate 331 activity, the end activity of stretching out of flexible striker plate 331 locates in discharge gate 34, flexible striker plate 331 blocks discharge gate 34 completely and can make air pipe joint 10 slide into holding tank 301 smoothly along chute 25, otherwise, flexible striker plate 331 moves back from discharge gate 34 and can make the ejecting air pipe joint 10 of push rod 321 fall from discharge gate 34 smoothly, the upper surface of flexible striker plate 331 is parallel and level with the bottom of chute 25, a finished product discharging groove 35 extending obliquely downwards is arranged below the discharging hole 34.

The working principle of the utility model is as follows: in the former process, the copper body 12 is pre-assembled on the plastic body 11 to form the semi-finished product of the air pipe joint 10, the clamping unit 28 takes the semi-finished product of the air pipe joint 10 into the positioning notch 23 under the control of the transverse driving assembly 26 and the longitudinal driving assembly 27, and the clamp cylinder controls the clamp 29 to keep clamping the plastic body 11, the riveting driving unit 242 controls the riveting rod 241 to press against the copper body 12 to rivet and connect the copper body 12 with the plastic body 11, then the clamp 29 is released, the air pipe joint 10 falls along the chute 25 under the action of gravity, the copper body 12 enters the holding tank 301, the rotating cylinder 31 controls the rotating seat to drive the copper body 12 to rotate 180 degrees, the pushing cylinder 322 controls the pushing rod 321 to move upwards to push the copper body 12 out of the holding tank 301, the telescopic material blocking cylinder 332 controls the telescopic material blocking plate 331 to retreat from the discharge hole 34, and the pushed air pipe joint 10 falls to the finished product discharging groove 35 through the discharge hole 34.

In conclusion, the riveting base, the clamping unit and the riveting component are arranged, the positioning notch groove is formed in the riveting base, the chute is formed in one side, facing the riveting component, of the positioning notch groove, the clamping unit clamps the air pipe joint in the positioning notch groove during riveting, the copper body and the plastic body are riveted through the abutting pressure of the riveting rod, the air pipe joint is loosened through the clamping unit after riveting is completed, the air pipe joint is separated from the positioning notch groove under the action of gravity of the copper body and automatically falls along the chute, and therefore automatic riveting blanking of the copper body and the plastic body is achieved, production efficiency is improved, labor is saved, and production cost is reduced; the positioning blocks are screwed with the riveting base through screws, positioning notches with different sizes can be arranged on the plurality of positioning blocks, and the positioning requirements can be met by replacing the corresponding positioning blocks according to the sizes of the produced products; through setting up rotating sleeve, top pushing assembly and flexible fender subassembly, the air pipe joint after accomplishing the riveting falls to rotating sleeve along the chute in, rotating sleeve rotates and drives copper body and rotates detectable copper body and whether target in place with plastic body riveting, utilizes top pushing assembly and the flexible discharge gate that keeps off the material subassembly to fall the ejecting rotating sleeve of air pipe joint and from the discharge gate on the chute down, and degree of automation is high.

The above description is only for the preferred embodiment of the present invention and is not intended to limit the present invention, so that any modifications, equivalents, improvements, etc. made to the above embodiment according to the present invention are within the scope of the present invention.

Claims (10)

1. The utility model provides a trachea joint riveting unloading mechanism, a serial communication port, which comprises a frame, be equipped with the riveting base in the frame, it lacks the groove to be equipped with the location on the riveting base, the top that the groove was lacked in the location is equipped with and is used for pressing from both sides the tight clamping unit who lacks the groove in the location with the trachea joint clamp, one side that the groove was lacked in the location is equipped with and is used for supporting the riveting subassembly that presses the last copper body of trachea joint and make copper body and plastic body riveting be connected, the riveting subassembly includes riveting pole and control riveting pole along its axis direction activity riveting drive unit, the groove is lacked in the location is equipped with the chute that supplies the trachea joint after the riveting to descend to slide downwards towards one side of riveting pole, the upper end and the location of chute lack the groove intercommunication.

2. The riveting and blanking mechanism for the air pipe joint according to claim 1, wherein the clamping unit is a clamping cylinder arranged above the positioning notch, and a movable joint of the clamping cylinder extends downwards and is connected with a clamp.

3. A pneumatic tube end riveter-pressing and blanking mechanism as claimed in claim 2, wherein the frame is provided with a transverse driving assembly and a longitudinal driving assembly for controlling the movement of the clamping unit, the transverse driving assembly comprises a transverse sliding plate movably arranged on the frame and a transverse cylinder for controlling the transverse sliding plate to move transversely, the longitudinal driving assembly comprises a longitudinal sliding plate movably arranged on the transverse sliding plate and a longitudinal cylinder for controlling the longitudinal sliding plate to move up and down, and the clamping unit is mounted on the longitudinal sliding plate and can move along with the longitudinal sliding plate.

4. The riveting and blanking mechanism for the air pipe joint according to claim 1, wherein the positioning notch is arranged in an L shape.

5. The air pipe joint riveting and blanking mechanism according to claim 1, wherein the riveting driving unit is a riveting driving cylinder, and one end of the riveting rod is connected with a movable joint of the riveting driving cylinder.

6. The blanking mechanism of claim 1, wherein the riveting base is provided with a positioning block, the positioning notch is formed in the positioning block, and the positioning block is screwed with the riveting base through a screw.

7. The blanking mechanism of claim 6, wherein the riveting base has a mounting groove for mounting a positioning block, and the positioning block is mounted in the mounting groove.

8. The riveting and blanking mechanism for the air pipe joint according to claim 1, wherein the lower end of the chute is provided with a rotating sleeve and a rotating cylinder for controlling the rotation of the rotating sleeve, the axial direction of the rotating sleeve is parallel to the extending direction of the chute, and the middle part of the rotary sleeve is provided with a holding tank communicated with the chute, the holding tank is matched with the copper body, a discharge hole is arranged at the bottom of the lower end of the chute, a pushing assembly and a telescopic material blocking assembly are arranged on the frame, the pushing assembly comprises a pushing rod and a pushing cylinder for controlling the pushing rod to move, the axis of the pushing rod is parallel to the extending direction of the chute, and the upper end activity of ejector pin is located in the holding tank, flexible fender subassembly includes flexible striker plate and the flexible fender cylinder of the flexible striker plate activity of control, the end activity that stretches out of flexible striker plate is located in the discharge gate.

9. The pneumatic pipe joint rivet pressing blanking mechanism of claim 8, wherein the upper surface of the retractable striker plate is flush with the bottom of the chute.

10. The air pipe joint riveting and blanking mechanism of claim 8, wherein a finished product blanking groove extending obliquely downwards is arranged below the discharge hole.

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