CN112338864A

CN112338864A - Automatic assembling machine for automobile nylon pipe joint

Info

Publication number: CN112338864A
Application number: CN202011229621.9A
Authority: CN
Inventors: 罗必锋
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-06
Filing date: 2020-11-06
Publication date: 2021-02-09
Also published as: WO2022095122A1

Abstract

The invention relates to an automatic assembling machine for a nylon pipe pipeline joint of an automobile, which comprises a workbench, a joint feeding assembly, a joint carrier, a first translation mechanism, a pipe fitting carrier, a second translation mechanism and an assembling assembly, wherein the joint feeding assembly, the joint carrier, the first translation mechanism, the pipe fitting carrier, the second translation mechanism and the assembling assembly are arranged on the workbench, the first translation mechanism is arranged in a horizontal state, the assembling assembly is positioned at one end of the first translation mechanism, the joint feeding assembly is positioned at the side of one end of the first translation mechanism, which is far away from the assembling assembly, the joint carrier is arranged on the first translation mechanism, the second translation mechanism is horizontally arranged at the side of the middle section of the first translation mechanism, the pipe fitting carrier is arranged on the second translation mechanism, the assembling assembly comprises a push rod which is horizontally arranged and is parallel to the first translation mechanism, a first accommodating groove for accommodating a joint is arranged, the automatic feeding device simplifies the complexity of manual feeding, improves the automation degree, saves time and cost, and improves the production efficiency.

Description

Automatic assembling machine for automobile nylon pipe joint

Technical Field

The invention relates to the field of assembly, in particular to an automatic assembling machine for an automobile nylon pipe pipeline joint.

Background

In the production and manufacturing process of automobile parts, the plastic fuel tank of the automobile is provided with a plurality of joints of nylon pipes on a fuel tank body, the nylon pipes are required to be installed on the joints firstly, then the joints are welded on the fuel tank, at present, the nylon pipes are installed on the joints by manual feeding, the feeding process is complicated, and the automation degree is low.

Disclosure of Invention

In order to solve the technical problem, the automatic assembling machine for the automobile nylon pipe joint is provided, and the problems of complex feeding process and low automation degree are solved by the technical scheme.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows:

the utility model provides an automatic assembly machine of car nylon tube line joint, including the workstation with set up the joint material loading subassembly on the workstation, the joint carrier, first translation mechanism, the pipe fitting carrier, second translation mechanism and assembly subassembly, first translation mechanism is the horizontal state setting, the assembly subassembly is located the one end of first translation mechanism, the joint material loading subassembly is located the one end side that assembly subassembly was kept away from to first translation mechanism, the joint carrier sets up on first translation mechanism, second translation mechanism is the level and sets up in the middle section side of first translation mechanism, the pipe fitting carrier sets up on second translation mechanism, the assembly subassembly includes that a level sets up and the push rod parallel with first translation mechanism, be equipped with the first holding tank that is used for holding the joint on the joint carrier, one side that first holding tank is close to the push rod is equipped with a circular through-hole that is used for dodging the joint.

Preferably, the joint feeding assembly comprises a first bar rod, a second bar rod, two first motors, two side plates and two rocker arms, the two first motors are fixedly arranged on the outer side of one side plate, the first bar rod and the second bar rod are parallel in a horizontal state and are arranged between the two side plates at intervals, two ends of the first bar rod and two ends of the second bar rod are aligned, the length direction of the first bar rod is parallel to the length direction of the side plates, the rocker arms comprise connecting shafts, connecting plates and shaft sleeves, the connecting shafts simultaneously penetrate through the bottoms of one ends of the first bar rod and the second bar rod, and the connecting shaft is connected with the connecting plate and the shaft sleeve in a shaft connection mode, one end of the connecting shaft is fixedly connected with one end of the connecting plate, the other end of the connecting plate is fixedly connected with the shaft sleeve, the connecting shaft and the shaft sleeve are respectively located on two sides of the connecting plate, the connecting shaft and the shaft sleeve are perpendicular to the connecting plate, the connecting shaft is parallel to the shaft sleeve, and an output shaft of the first motor penetrates through the side plate and is connected with one end.

Preferably, the top of every curb plate all is equipped with one row of spacing tooth, and the equal fixedly connected with in one end top that connects the carrier is kept away from to two curb plates and is the blanking swash plate that inclination set up.

Preferably, the joint carrier is provided with two avoidance grooves for avoiding the first connecting rod and the second connecting rod on one side close to the side plate.

Preferably, the top that connects the carrier is provided with first hold-down mechanism, first hold-down mechanism includes first cylinder, first pressure strip and two first guide arms, first cylinder is fixed to be set up directly over connecting the carrier through a type of falling L mounting bracket, first pressure strip is the horizontality and sets up between connecting carrier and first cylinder, first cylinder is vertical state setting and its output shaft downward with the top center department fixed connection of first pressure strip, two first guide arms all are vertical setting, the upper end of two first guide arms all with the top fixed connection of type of falling L mounting bracket, the both ends of first pressure strip slip cap respectively outside two first guide arms are located, first pressure strip is located directly over first holding tank.

Preferably, the pipe fitting carrier includes microscope carrier and second hold-down mechanism, be equipped with the second holding tank that holds the pipe fitting in the microscope carrier, second hold-down mechanism includes the second cylinder, second pinch plate and two second guide arms, the second cylinder is through falling L type mounting bracket fixed setting directly over the microscope carrier, the second pinch plate is the horizontality and sets up between microscope carrier and second cylinder, the second cylinder is vertical state setting and its output shaft is downward with the top center department fixed connection of second pinch plate, two second guide arms all are vertical setting, outside two second guide arms were located to the both ends of second pinch plate slip cap respectively, the second pinch plate is located directly over the second holding tank.

Preferably, assembly devices still includes support frame, third cylinder and propulsion platform, and the push rod sets up in the one side that the circular through-hole is close to in the propulsion platform, and the third cylinder is fixed to be set up in the one side that the push rod was kept away from to the support frame, and the top of support frame is equipped with the spacing unanimous with push rod length direction, and the propulsion platform slides and sets up on spacing, and the one side of keeping away from the push rod of propulsion platform is connected with the output of third cylinder.

Preferably, the first translation mechanism and the second translation mechanism are the same in structure and are both screw rod sliding tables.

Compared with the prior art, the invention has the beneficial effects that: the automatic feeding device simplifies the complexity of manual feeding, improves the automation degree, saves the time and the cost, and improves the production efficiency.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic perspective view of a connector loading assembly of the present invention;

FIG. 3 is a schematic perspective view of a joint carrier according to the present invention;

FIG. 4 is a schematic perspective view of a tube carrier according to the present invention;

FIG. 5 is a perspective view of the mounting assembly of the present invention;

FIG. 6 is a schematic perspective view of the first and second translation mechanisms of the present invention;

the reference numbers in the figures are: a joint feeding assembly 1; a joint carrier 2; a first translation mechanism 3; a pipe carrier 4; a second translation mechanism 5; assembling the assembly 6; a first accommodation groove 7; a circular through hole 8; a push rod 9; a first bar 10; a second bar 11; a first electric motor 12; side plates 13; a rocker arm 14; a connecting shaft 15; a connecting plate 16; a shaft sleeve 17; a semicircular groove 18; a limit tooth 19; a blanking sloping plate 20; an avoidance groove 21; a first pressing mechanism 22; a first cylinder 23; a first compression plate 24; a first guide rod 25; an inverted-L mounting bracket 26; a stage 27; a second pressing mechanism 28; the second accommodation groove 29; a second cylinder 30; a second clamping plate 31; a second guide bar 32; a support frame 33; a third cylinder 34; a propulsion stage 35; an L-shaped bracket 36; a lead screw slide table 37; a stopper strip 38; a working table (39).

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

Referring to fig. 1 to 6, the automatic assembling machine for pipe joints of automobile pipes comprises a workbench 39, a joint feeding assembly 1 arranged on the workbench 39, a joint carrier 2, and a first translation mechanism 3, pipe fitting carrier 4, second translation mechanism 5 and assembly subassembly 6, first translation mechanism 3 is the horizontal state setting, assembly subassembly 6 is located the one end of first translation mechanism 3, connect the one end side that assembly subassembly 6 was kept away from to material loading subassembly 1 is located first translation mechanism 3, connect carrier 2 to set up on first translation mechanism 3, second translation mechanism 5 is the level and sets up in the middle section side of first translation mechanism 3, pipe fitting carrier 4 sets up on second translation mechanism 5, assembly subassembly 6 includes that a level sets up and with the push rod 9 that first translation mechanism 3 is parallel, be equipped with the first holding tank 7 that is used for holding the joint on connecting carrier 2, one side that first holding tank 7 is close to push rod 9 is equipped with a circular through-hole 8 that is used for dodging the joint. Firstly, putting the joints into a joint feeding assembly 1 in batches, conveying the joints into a joint carrier 2 one by one through a joint feeding mechanism and sliding the joints into a first accommodating groove 7, driving the joint carrier 2 to move towards an assembling assembly 6 by a first translation mechanism 3 until a push rod 9 passes through a circular through hole 8 and is inserted into the joints, driving the joint carrier 2 to retreat by the first translation mechanism 3, so that the joints are drawn out from the circular through hole 8 by the push rod 9, then driving the first translation mechanism 3 to retreat to the original position to wait for the arrival of the next joint, then manually putting the pipe into a pipe carrier 4, driving the pipe carrier 4 to move towards the first translation mechanism 3 by a second translation mechanism 5, then driving the push rod 9 to extend by the assembling assembly 6 until the joint at the front section of the push rod 9 is inserted into one end of the pipe, then manually taking the pipe with the joints out of the pipe carrier 4, finally, the pipe carrier 4 is retracted to the original position for the joint carrier 2 to move to the assembly unit 6 again, and the assembly of the next joint and pipe is continued.

The joint feeding assembly 1 comprises a first strip-shaped rod 10, a second strip-shaped rod 11, two first motors 12, two side plates 13 and two rocker arms 14, wherein the two first motors 12 are fixedly arranged on the outer side of one side plate 13, the first strip-shaped rod 10 and the second strip-shaped rod 11 are arranged between the two side plates 13 in a horizontal state in parallel at intervals, two ends of the first strip-shaped rod 10 and two ends of the second strip-shaped rod 11 are aligned, the length direction of the first strip-shaped plate is parallel to the length direction of the side plates 13, each rocker arm 14 comprises a connecting shaft 15, a connecting plate 16 and a shaft sleeve 17, the connecting shaft 15 simultaneously penetrates through the bottoms of one ends of the first strip-shaped rod 10 and the second strip-shaped rod 11, the connecting shaft 15 is in shaft connection with the first strip-shaped rod and the second strip-shaped rod, one end of the connecting shaft 15 is fixedly connected with one end of the connecting plate 16, the other end of the connecting plate 16 is, the connecting shaft 15 is parallel to the shaft sleeve 17, the output shaft of the first motor 12 penetrates through the side plate 13 and is connected with one end, far away from the connecting plate 16, of the shaft sleeve 17, and the first bar-shaped rod 10 and the second bar-shaped rod 11 are provided with semicircular grooves 18 used for accommodating joints. The shaft sleeve 17 is driven to rotate by the first motor 12, the shaft sleeve 17 drives the connecting shaft 15 to perform circular motion through the connecting plate 16, and in the process of performing circular motion through the connecting shafts 15 at two ends, the first bar-shaped rod 10 and the second bar-shaped rod 11 are simultaneously subjected to lifting motion and front-back translational motion, so that the joints erected on the first bar-shaped rod 10 and the second bar-shaped rod 11 move forwards step by step.

The top of every curb plate 13 all is equipped with one row of spacing tooth 19, and the equal fixedly connected with in one end top that connects carrier 2 is kept away from to two curb plates 13 is the blanking swash plate 20 that inclination set up. The limiting teeth 19 are used for preventing the joints from rotating and moving when being erected on the two side plates 13, and the blanking sloping plate 20 is used for enabling the joints arranged in the blanking sloping plate to slide to the tops of the two side plates 13 under the action of self gravity and erecting the joints and waiting for the first bar-shaped rod 10 and the second bar-shaped rod 11 to arrive and move the first bar-shaped rod and the second bar-shaped rod forward to the next limiting tooth 19.

Two avoidance grooves 21 for avoiding the first connecting rod and the second connecting rod are formed in one side, close to the side plate 13, of the joint carrier 2. The avoidance groove 21 serves to avoid the first bar 10 and the second bar 11 from touching the side wall of the joint carrier 2 during the circular motion.

The top that connects carrier 2 is provided with first hold-down mechanism 22, first hold-down mechanism 22 includes first cylinder 23, first pressure strip 24 and two first guide arms 25, first cylinder 23 is fixed to be set up directly over connecting carrier 2 through a type of falling L mounting bracket 26, first pressure strip 24 is the horizontality and sets up between connecting carrier 2 and first cylinder 23, first cylinder 23 is vertical state setting and its output shaft is downward with the top center department fixed connection of first pressure strip 24, two first guide arms 25 all are vertical setting, the upper end of two first guide arms 25 all with the top fixed connection of type of falling L mounting bracket 26, the both ends of first pressure strip 24 are outside two first guide arms 25 are located respectively sliding sleeve, first pressure strip 24 is located directly over first holding tank 7. When the joint is sent into the first accommodating groove 7, the first air cylinder 23 drives the first pressing plate 24 to descend until the joint is pressed in the first accommodating groove 7, then the joint carrier 2 is driven by the first translation mechanism 3 to advance until the joint carrier contacts the push rod 9, in the process, one end of the push rod 9 can be inserted into one end of the pressed and fixed joint, then the first air cylinder 23 lifts the first pressing plate 24 upwards to loosen the joint, and the push rod 9 can take the joint out of the circular through hole 8 along with the retreating of the first translation mechanism 3.

Pipe fitting carrier 4 includes microscope carrier 27 and second hold-down mechanism 28, be equipped with the second holding tank 29 that holds the pipe fitting in microscope carrier 27, second hold-down mechanism 28 includes second cylinder 30, second pinch plate 31 and two second guide arms 32, second cylinder 30 is fixed to be set up directly over microscope carrier 27 through type of falling L mounting bracket 26, the second pinch plate is the horizontality and sets up between microscope carrier 27 and second cylinder 30, second cylinder 30 is vertical state setting and its output shaft is downward and the top center department fixed connection of second pinch plate, two second guide arms 32 all are vertical setting, outside two second guide arms 32 were located to the both ends difference sliding sleeve of second pinch plate, the second pinch plate is located second holding tank 29 directly over. When the pipe fitting is placed in the second accommodating groove 29, the second air cylinder 30 drives the second pressing plate to descend until the pipe fitting is pressed in the second accommodating groove 29, and then the pipe fitting carrier 4 with the pipe fitting is driven by the second translation mechanism 5 to advance to the same central position as the push rod 9.

The assembly component 6 further comprises a support frame 33, a third air cylinder 34 and a pushing platform 35, the push rod 9 is arranged on one side, close to the circular through hole 8, of the pushing platform 35, the third air cylinder 34 is fixedly arranged on one side, far away from the push rod 9, of the support frame 33, a limiting strip 38 which is identical to the push rod 9 in length direction is arranged at the top of the support frame 33, the pushing platform 35 is arranged on the limiting strip 38 in a sliding mode, and one side, far away from the push rod 9, of the pushing platform 35 is connected with the output end of the third. The third cylinder 34 drives the pushing platform 35 to push the joint sleeved on the push rod 9 into the pipe fitting to complete connection, then the second cylinder 30 drives the second pressing plate to vertically move upwards to loosen the pipe fitting, and finally the worker takes away the assembled pipe fitting.

The first translation mechanism 3 and the second translation mechanism 5 have the same structure and are both screw rod sliding tables 37. The uniform translation of the joint carrier 2 and the pipe fitting carrier 4 is realized through a screw rod sliding table.

The working principle of the invention is as follows: firstly, putting the joints into the joint feeding assembly 1 in batch, driving the shaft sleeve 17 to rotate through the first motor 12, further driving the connecting shaft 15 to do circular motion through the connecting plate 16 by the shaft sleeve 17, enabling the first bar-shaped rod 10 and the second bar-shaped rod 11 to do lifting motion and front-back translational motion simultaneously in the process of circular motion through the connecting shafts 15 at two ends, moving the joints erected on the first bar-shaped rod 10 and the second bar-shaped rod 11 forwards step by step in such a way, conveying the joints into the joint carrier 2 one by one and sliding down to the first accommodating groove 7, driving the first pressing plate 24 to descend through the first air cylinder 23 until the joints are pressed in the first accommodating groove 7 when the joints are conveyed into the first accommodating groove 7, then driving the joint carrier 2 to advance through the first translation mechanism 3 until the joint carrier contacts the push rod 9, and enabling one end of the push rod 9 to be inserted into one end of the pressed and fixed joints in the process, then the first air cylinder 23 lifts the first pressing plate 24 upwards to loosen the joint, and along with the retreating of the first translation mechanism 3, the push rod 9 can take the joint out of the circular through hole 8, then the first translation mechanism 3 retreats to the original place to wait for the arrival of the next joint, then the pipe is put into the pipe carrier 4 manually, when the pipe is put into the second accommodating groove 29, the second air cylinder 30 drives the second pressing plate to descend until the pipe is pressed in the second accommodating groove 29, then the second translation mechanism 5 drives the pipe carrier 4 to move to the same central position as the push rod 9 towards the first translation mechanism 3, then the third air cylinder 34 drives the pushing platform 35 to push the joint sleeved on the push rod 9 into the pipe to complete the connection, then the second air cylinder 30 drives the second pressing plate to vertically move upwards to loosen the pipe, and finally the worker takes the assembled pipe, finally, the pipe carrier 4 is retracted to the original position for the joint carrier 2 to move to the assembly unit 6 again, and the assembly of the next joint and pipe is continued.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. An automatic assembling machine for an automobile pipe fitting pipeline joint is characterized by comprising a workbench (39), a joint feeding assembly (1), a joint carrier (2), a first translation mechanism (3), a pipe fitting carrier (4), a second translation mechanism (5) and an assembling assembly (6), wherein the joint feeding assembly (1), the joint carrier (2), the first translation mechanism (39), the first translation mechanism (6), the assembling assembly (6) and the second translation mechanism (5) are arranged on the workbench (39), the first translation mechanism (2) is arranged in a horizontal state, the assembling assembly (6) is located at one end of the first translation mechanism (3), the joint feeding assembly (1) is located beside one end, far away from the assembling assembly (6), of the first translation mechanism (3), the second translation mechanism (5) is horizontally arranged beside the middle section of the first translation mechanism (3), the pipe fitting carrier (4) is arranged on the second translation mechanism (5), the assembling assembly (6) comprises a push rod (9) which is horizontally arranged and is parallel to the first translation mechanism (3), be equipped with on the joint carrier (2) and be used for holding the first holding tank (7) that connect, one side that first holding tank (7) are close to push rod (9) is equipped with one and is used for dodging circular through-hole (8) that connect.

2. The automatic assembling machine for the pipe joint of the automobile pipe fitting according to claim 1, wherein the joint feeding assembly (1) comprises a first strip-shaped rod (10), a second strip-shaped rod (11), two first motors (12), two side plates (13) and two rocker arms (14), the two first motors (12) are fixedly arranged on the outer side of one side plate (13), the first strip-shaped rod (10) and the second strip-shaped rod (11) are arranged between the two side plates (13) in a horizontal state in parallel at intervals, two ends of the first strip-shaped rod (10) and two ends of the second strip-shaped rod (11) are aligned, the length direction of the first strip-shaped rod is parallel to the length direction of the side plates (13), each rocker arm (14) comprises a connecting shaft (15), a connecting plate (16) and a shaft sleeve (17), the connecting shaft (15) simultaneously penetrates through the bottoms of one ends of the first strip-shaped rod (10) and the second strip-shaped rod (11), and connecting axle (15) and the two coupling, the one end of connecting axle (15) and the one end fixed connection of connecting plate (16), the other end and axle sleeve (17) fixed connection of connecting plate (16), connecting axle (15) and axle sleeve (17) are located the both sides of connecting plate (16) respectively, connecting axle (15) and axle sleeve (17) all are perpendicular with connecting plate (16), connecting axle (15) are parallel with axle sleeve (17), the output shaft of first motor (12) passes curb plate (13) and is connected with the one end that axle sleeve (17) kept away from connecting plate (16), all be equipped with on first bar (10) and the second bar (11) and be used for holding semicircle groove (18) that connect.

3. The automatic assembling machine for the pipe joint of the automobile pipe fittings as claimed in claim 2, wherein a row of limiting teeth (19) is arranged on the top of each side plate (13), and a blanking inclined plate (20) arranged at an inclined angle is fixedly connected to the tops of the ends of the two side plates (13) far away from the joint carrier (2).

4. The automatic assembling machine for the pipe joint of the automobile pipe fitting according to claim 2, wherein one side of the joint carrier (2) close to the side plate (13) is provided with two avoiding grooves (21) for avoiding the first connecting rod and the second connecting rod.

5. The automatic assembling machine for the pipe joint of the automobile pipe fitting according to claim 1, wherein a first pressing mechanism (22) is disposed at the top of the joint carrier (2), the first pressing mechanism (22) comprises a first cylinder (23), a first pressing plate (24) and two first guide rods (25), the first cylinder (23) is fixedly disposed right above the joint carrier (2) through an inverted L-shaped mounting frame (26), the first pressing plate (24) is disposed between the joint carrier (2) and the first cylinder (23) in a horizontal state, the first cylinder (23) is disposed in a vertical state, an output shaft of the first cylinder is downwardly and fixedly connected with the center of the top of the first pressing plate (24), the two first guide rods (25) are both disposed vertically, upper ends of the two first guide rods (25) are both fixedly connected with the top of the inverted L-shaped mounting frame (26), two ends of the first pressing plate (24) are respectively slidably sleeved outside the two first guide rods (25), the first pressing plate (24) is positioned right above the first accommodating groove (7).

6. The automatic assembling machine for the pipe joint of the automobile pipe fitting according to claim 1, wherein the pipe fitting carrier (4) comprises a carrying platform (27) and a second pressing mechanism (28), a second accommodating groove (29) for accommodating the pipe fitting is formed in the carrying platform (27), the second pressing mechanism (28) comprises a second cylinder (30), a second clamping plate (31) and two second guide rods (32), the second cylinder (30) is fixedly arranged right above the carrying platform (27) through an L-shaped bracket (36), the second pressing plate is horizontally arranged between the carrying platform (27) and the second cylinder (30), the second cylinder (30) is vertically arranged, an output shaft of the second cylinder is downwards fixedly connected with the center of the top of the second pressing plate, the two second guide rods (32) are vertically arranged, two ends of the second pressing plate are respectively slidably sleeved outside the two second guide rods (32), the second pressing plate is positioned right above the second accommodating groove (29).

7. The automatic assembling machine for the automobile pipe fitting pipeline joint as claimed in claim 1, wherein the assembling assembly (6) further comprises a support frame (33), a third cylinder (34) and a pushing table (35), the push rod (9) is arranged on one side, close to the circular through hole (8), of the pushing table (35), the third cylinder (34) is fixedly arranged on one side, away from the push rod (9), of the support frame (33), a limiting strip (38) which is identical to the push rod (9) in length direction is arranged at the top of the support frame (33), the pushing table (35) is slidably arranged on the limiting strip (38), and one side, away from the push rod (9), of the pushing table (35) is connected with an output end of the third cylinder (34).

8. The automatic assembling machine for the pipe joint of the automobile pipe fitting according to claim 1, wherein the first translation mechanism (3) and the second translation mechanism (5) are identical in structure and are both screw rod sliding tables (37).