CN212945936U - Collect equipment riveting soldering tin machine in Type-c iron-clad equipment of an organic whole - Google Patents

Abstract

The utility model relates to a Type-c iron shell device integrating a riveting soldering machine into a whole, which comprises a workbench and a production line positioned on the workbench, wherein the workbench is provided with a feeding mechanism, a slide rail is arranged between the feeding mechanism and the production line, one end of the slide rail is fixedly connected with a vibration disc of the feeding mechanism, the other end of the slide rail is provided with a switching table, the switching table is arranged at the front end of the production line, the workbench is also provided with an iron shell opening mechanism, a threading mechanism, a riveting module and a soldering module, the iron shell opening mechanism, the threading mechanism, the riveting module and the soldering module are sequentially fixed at the position close to the production line, the riveting module is used for pressing the iron shell, the soldering module is used for soldering the interface of the iron shell, the iron shell starts from the vibration disc and enters the production line through the slide rail, a plurality of processing procedures are sequentially completed, the product integrates assembling, riveting and soldering into a whole, the working speed, the labor and the time are saved, and the working efficiency is improved.

Description

Collect equipment riveting soldering tin machine in Type-c iron-clad equipment of an organic whole

Technical Field

The utility model relates to a connector technical field particularly, relates to a collect equipment riveting soldering tin machine in Type-c iron-clad equipment of an organic whole.

Background

In multiple processes such as Type-c iron-clad equipment, riveting and soldering tin, at first need the manual work to open the iron-clad, then manually wear the line into, send the manual work on the riveting machine to carry out the riveting again, carry out soldering tin by the manual work at last again, each step all needs a manual work to accomplish, will realize whole process, needs three people altogether. The required manpower is much, the operation time is long, the cost is overhigh, the efficiency is low, and the whole process is not fast and efficiently carried out.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model discloses can realize collecting equipment, riveting, soldering tin in an organic whole, have high efficiency and reduce artificial characteristics.

The utility model provides a technical scheme that its technical problem adopted is: the utility model provides a collect equipment riveting soldering tin machine in Type-c iron-clad equipment of an organic whole, its improvement lies in: the automatic feeding device comprises a workbench and a production line positioned on the workbench, wherein a feeding mechanism is arranged on the workbench, a sliding rail is arranged between the feeding mechanism and the production line, one end of the sliding rail is fixedly connected with a vibrating disc of the feeding mechanism, a switching table is arranged at the other end of the sliding rail, and the switching table is arranged at the front end of the production line;

still be equipped with on the workstation and open iron-clad mechanism, threading mechanism, riveting module and soldering tin module, open iron-clad mechanism, threading mechanism, riveting module and soldering tin module and be fixed in the position that is close to the assembly line in proper order, the riveting module is used for compressing tightly the iron-clad, the soldering tin module is used for carrying out soldering tin to the iron-clad kneck, the iron-clad is followed the vibration dish and is started, gets into to the assembly line on through the slide rail, successively accomplishes multichannel manufacturing procedure.

As an improvement of the technical scheme, a first X-axis cylinder and a first Y-axis cylinder are arranged on the switching table, the first X-axis cylinder and the first Y-axis cylinder are both fixed on the workbench, the first X-axis cylinder and the first Y-axis cylinder are both close to the initial end position of the assembly line, the first X-axis cylinder is used for driving the iron shell to translate on the switching table, so that the iron shell enters the initial end of the assembly line, and the first Y-axis cylinder is used for driving the assembly line to operate.

As an improvement of the above technical scheme, the iron shell opening mechanism includes an X-axis driving module, the X-axis driving module includes a second X-axis cylinder, an X-axis base and an X-axis slider, the second X-axis cylinder is fixed on the X-axis base, a slide rail adapted to the X-axis slider is provided on the X-axis base, and the second X-axis cylinder is used for driving the X-axis slider to reciprocate on the slide rail.

As an improvement of the above technical scheme, the iron shell opening mechanism comprises a Y-axis driving module arranged on an X-axis slider, the Y-axis driving module comprises a second Y-axis cylinder, a Y-axis base and a Y-axis slider, the side edge of the Y-axis slider is connected with the side edge of the Y-axis base in a sliding manner, a V-shaped shell opening member for opening the iron shell is arranged at the bottom of the Y-axis slider, and the second Y-axis cylinder is used for driving the Y-axis slider to reciprocate along the side edge of the Y-axis base.

As an improvement of the above technical scheme, the threading mechanism includes a guide threading module, the guide threading module includes a thin cylinder, a screw rod and a limiting door, the limiting door is fixed on the screw rod, the limiting door is used for limiting the position of the iron shell, the lines can be conveniently threaded into the iron shell, a lead block is arranged on the screw rod, the thin cylinder is used for driving the screw rod to move vertically, and the lead block is used for pressing the lines downwards to enable the lines to pass through the iron shell.

As the improvement of the technical scheme, the threading mechanism comprises an automatic threading module, the automatic threading module comprises a sliding table cylinder and a finger cylinder, the sliding table cylinder is used for driving the finger cylinder to do reciprocating motion in the horizontal direction, and the finger cylinder is used for jacking a clamped point of a clamped line and closing an iron shell.

As an improvement of the above technical solution, the riveting module includes a riveting press machine, and the riveting press machine is used for pressing the iron shell.

As an improvement of the above technical solution, the soldering module includes a soldering machine, and the soldering machine is used for welding and sealing the opening position of the iron case.

The utility model has the advantages that: this still is novel through structural improvement, can collect equipment, riveting, soldering tin in an organic whole, has high efficiency and reduces artificial characteristics, simple structure moreover, and work efficiency is high, compares in the manual work, and the effectual operating speed that has improved has saved manpower and time, has improved work efficiency.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is an enlarged schematic view of the structure 12 of fig. 1.

Fig. 3 is a schematic structural diagram of the iron case opening mechanism of the present invention.

Detailed Description

The present invention will be further explained with reference to the drawings and examples.

The conception, the specific structure, and the technical effects produced by the present invention will be clearly and completely described below in conjunction with the embodiments and the accompanying drawings to fully understand the objects, the features, and the effects of the present invention. Obviously, the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and other embodiments obtained by those skilled in the art without inventive labor based on the embodiments of the present invention all belong to the protection scope of the present invention. In addition, all the connection/connection relations referred to in the patent do not mean that the components are directly connected, but mean that a better connection structure can be formed by adding or reducing connection auxiliary components according to specific implementation conditions. The utility model discloses each technical feature in the creation can the interactive combination under the prerequisite that does not contradict conflict each other.

As shown in fig. 1, the utility model relates to a Type-c iron shell device integrating assembling, riveting and soldering tin machine into a whole, which comprises a workbench 1 and a production line 2 positioned on the workbench 1, wherein a feeding mechanism 3 is arranged on the workbench 2, a slide rail 4 is arranged between the feeding mechanism 3 and the production line 2, one end of the slide rail 4 is fixedly connected with a vibration disc 31 of the feeding mechanism 3, the other end is provided with an adapter table 32, and the adapter table 32 is arranged at the front end of the production line 2; still be equipped with on the workstation 1 and open iron-clad mechanism 11, threading mechanism 12, riveting module 13 and soldering tin module 14, open iron-clad mechanism 11, threading mechanism 12, riveting module 13 and soldering tin module 14 and be fixed in the position that is close to assembly line 2 in proper order, riveting module 13 is used for compressing tightly the iron-clad, soldering tin module 14 is used for carrying out soldering tin to the iron-clad kneck, the iron-clad starts from vibration dish 31, enters into to assembly line 2 through slide rail 4 on, successively accomplishes multichannel manufacturing procedure. Be equipped with first X axle cylinder 33 and first Y axle cylinder 34 on the switching platform 32, first X axle cylinder 33 and first Y axle cylinder 34 are all fixed on workstation 1, and first X axle cylinder 33 and first Y axle cylinder 34 are all close to assembly line 2 initial end position, first X axle cylinder 33 is used for driving the translation of iron casing on switching platform 32, makes the iron casing get into the initial end of assembly line 2, first Y axle cylinder 34 is used for ordering about assembly line 2 and operates.

In the above-mentioned embodiment, the iron shell gets into revolving stage 32 along 4 glides of slide rail from vibration dish 31, under the drive of first X axle cylinder 33, the translation gets into assembly line 2's initial position, comes to open iron shell mechanism 11 and opens the iron shell process under the effect of first Y axle cylinder 34, has opened and has got into threading mechanism 12 behind the iron shell and carry out the threading, accomplishes behind the threading process, through riveting module 13's extrusion for the iron shell is pressed from both sides tightly, sends soldering tin module 14 at last and carries out the soldering tin of kneck, accomplishes whole processes, the utility model discloses with equipment, riveting, soldering tin collection in an organic whole, have high efficiency and reduce artificial characteristics.

The feed mechanism still include support shelf 35, support shelf 35 is highly unanimous with workstation 1, is convenient for vibrate the material loading of dish 31 and convey the iron-clad to switching platform 32.

Further, as shown in fig. 3, the iron shell opening mechanism 11 includes an X-axis driving module, the X-axis driving module includes a second X-axis cylinder 101, an X-axis base 102, and an X-axis slider 103, the second X-axis cylinder 101 is fixed on the X-axis base 102, a slide rail (not shown) adapted to the X-axis slider 103 is disposed on the X-axis base 102, and the second X-axis cylinder 101 is configured to drive the X-axis slider 103 to reciprocate on the slide rail. Open iron shell mechanism 11 including setting up the Y axle drive module on X axle slider 103, Y axle drive module includes second Y axle cylinder 104, Y axle base 105 and Y axle slider 106, slide rail (not shown) sliding connection of Y axle slider 106 side and Y axle base 105 side, the bottom of Y axle slider 106 is equipped with the V type of opening the iron shell and opens shell spare 107, second Y axle cylinder 104 is used for driving Y axle slider 106 and is reciprocating motion along the slide rail of Y axle base 105 side.

In the above embodiment, when the iron casing was conveyed to second Y axle cylinder 104 below, second Y axle cylinder 104 pushed down pound to the iron casing, the iron casing was opened to the V-arrangement, second X axle cylinder 101 drive Y axle drive module stretches out forward, make the V-arrangement open shell spare 107 and carry out the translation along the inner wall of iron casing, at this in-process, guarantee the homogeneity of iron casing both sides atress, simultaneously because the V-arrangement is opened shell spare 107 and is from inside to outside removal on the iron casing, the inside stress of elimination iron casing that can be fine, avoid the iron casing to open the back owing to the resilience that the reason of stress appears, consequently, the utility model discloses an open iron casing mechanism, realization that can be smooth opens the iron casing operation, compare the artifical mode of opening the iron casing, the inside stress of elimination iron casing that can be better, avoid leading to the contained angle of iron casing both sides diminishes owing to kick-back, and influence follow-up technology. And then the iron shell enters the riveting module 13 along the assembly line 2, the cylinder rod of the second Y-axis cylinder 104 retracts, the Y-axis driving module returns to the original position under the action of the second X-axis cylinder 101, the second Y-axis cylinder 106 is driven to repeat the action of smashing the iron shell downwards, and the iron shell is repeatedly opened in such a circulating way.

Still further, as shown in fig. 2, the threading mechanism 12 includes a threading guiding module 121, the threading guiding module 121 includes a thin cylinder 1211, a screw rod 1212 and a limit door 1213, the limit door 1213 is fixed on the screw rod 1212, the limit door 1213 is used for positioning the thread 5, so that the thread 5 can be conveniently threaded into the iron case, a wire guiding block (not shown) is disposed on the screw rod 1212, the thin cylinder 1211 is used for driving the screw rod 1212 to vertically move, and the wire guiding block is used for pressing the thread 5 downward, so that the thread can pass through the iron case. The threading mechanism 12 comprises an automatic threading module 122, the automatic threading module 122 comprises a sliding table cylinder 1214 and a finger cylinder 1215, the sliding table cylinder 1214 is used for driving the finger cylinder 1215 to do reciprocating motion in the horizontal direction, the finger cylinder 1215 is used for ejecting the clamped lines 5 into a clamping point (not shown) position and closing an iron shell, and it is noted that sliding mechanisms are respectively adapted on the sliding table cylinder 1214 and the thin cylinder 1211 and are matched with the movement of the finger cylinder 1215 and the lead screw 1212.

In the above embodiment, after the iron case is opened by the iron case opening mechanism 11, the iron case passes by the limit door 1213 of the threading guiding module 121, then the line 5 is placed at the opening of the iron case, the thin cylinder 1211 drives the screw rod 1212, so that the wire block below the screw rod 1212 presses down the line 5, the line 5 passes through the iron case, when the iron case runs below the finger cylinder 1215, the finger cylinder 1215 clamps the line 5 to push the line 5 into the position of the iron case clamping point (not shown), and then the finger cylinder 1215 clamps the iron case to close the iron case.

In addition, the riveting module 13 includes a riveting press machine, the riveting press machine is used for pressing the iron shell, the iron shell enters the riveting press machine after coming out from the threading mechanism, and is pressed and closed, it can be understood that the riveting press machine includes a pressing block for pressing the iron shell and an air cylinder for driving the pressing block to reciprocate, and the structure of the riveting press machine belongs to the category of the prior art, so the detailed description is omitted in this embodiment. Finally, the soldering module 14 includes a soldering machine for welding and sealing the opening of the iron shell, and the sealed and welded iron shell completes all processing procedures, and as the soldering machine is a technology well developed in the prior art, the structure of the soldering machine will not be described in detail in this embodiment.

The utility model has the advantages that: the utility model discloses a structural improvement can collect equipment, riveting, soldering tin in an organic whole, has high efficiency and reduces artificial characteristics, simple structure moreover, and work efficiency is high, compares in the manual work, the effectual operating speed that has improved, has saved manpower and time, has improved work efficiency.

While the preferred embodiments of the present invention have been described, the present invention is not limited to the above embodiments, and those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present invention, and such equivalent modifications or substitutions are intended to be included within the scope of the present invention as defined by the appended claims.

Claims (8)

1. The utility model provides a collect equipment riveting soldering tin machine in Type-c iron-clad equipment of an organic whole which characterized in that: the automatic feeding device comprises a workbench and a production line positioned on the workbench, wherein a feeding mechanism is arranged on the workbench, a sliding rail is arranged between the feeding mechanism and the production line, one end of the sliding rail is fixedly connected with a vibrating disc of the feeding mechanism, a switching table is arranged at the other end of the sliding rail, and the switching table is arranged at the front end of the production line;

still be equipped with on the workstation and open iron-clad mechanism, threading mechanism, riveting module and soldering tin module, open iron-clad mechanism, threading mechanism, riveting module and soldering tin module and be fixed in the position that is close to the assembly line in proper order, the riveting module is used for compressing tightly the iron-clad, the soldering tin module is used for carrying out soldering tin to the iron-clad kneck, the iron-clad is followed the vibration dish and is started, gets into to the assembly line on through the slide rail, successively accomplishes multichannel manufacturing procedure.

2. The Type-c iron case device integrating riveting, pressing and soldering machine assembling as claimed in claim 1, wherein: the assembly line is characterized in that a first X-axis cylinder and a first Y-axis cylinder are arranged on the transfer table, the first X-axis cylinder and the first Y-axis cylinder are fixed on the workbench, the first X-axis cylinder and the first Y-axis cylinder are close to the initial end of the assembly line, the first X-axis cylinder is used for driving the iron shell to translate on the transfer table, the iron shell is made to enter the initial end of the assembly line, and the first Y-axis cylinder is used for ordering about the operation of the assembly line.

3. The Type-c iron case device integrating riveting, pressing and soldering machine assembling as claimed in claim 1, wherein: open iron-clad mechanism and include X axle drive module, X axle drive module includes second X axle cylinder, X axle base and X axle slider, second X axle cylinder is fixed in on the X axle base, be equipped with the slide rail of adaptation X axle slider on the X axle base, second X axle cylinder is used for driving X axle slider and is reciprocating motion on the slide rail.

4. The Type-c iron case device integrating riveting, pressing and soldering machine assembly according to claim 3, wherein: open iron-clad mechanism including setting up the Y axle drive module on X axle slider, Y axle drive module includes second Y axle cylinder, Y axle base and Y axle slider, the slide rail sliding connection on Y axle slider side and Y axle base side, the bottom of Y axle slider is equipped with the V type of opening the iron-clad and opens shell spare, second Y axle cylinder is used for driving Y axle slider and is reciprocating motion along the slide rail of Y axle base side.

5. The Type-c iron case device integrating riveting, pressing and soldering machine assembling as claimed in claim 1, wherein: the threading mechanism is including guiding threading module, guiding threading module includes slim cylinder, lead screw and spacing door, spacing door is fixed on the lead screw, and just spacing door is used for restricting the position of iron-clad, and the iron-clad is worn into to the lines of being convenient for, be equipped with a wire piece on the lead screw, slim cylinder is used for driving the lead screw and is vertical motion, the wire piece is used for pushing down the lines, makes the lines pass the iron-clad.

6. The Type-c iron case device integrating riveting, pressing and soldering machine assembly according to claim 5 is characterized in that: the threading mechanism includes automatic threading module, automatic threading module includes slip table cylinder and finger cylinder, the slip table cylinder is used for the drive to point the cylinder and is the reciprocating motion of horizontal direction, the finger cylinder is used for pushing into the checkpoint position with the lines top of getting to close the iron-clad.

7. The Type-c iron case device integrating riveting, pressing and soldering machine assembling as claimed in claim 1, wherein: the riveting module comprises a riveting press machine, and the riveting press machine is used for pressing the iron shell.

8. The Type-c iron case device integrating riveting, pressing and soldering machine assembling as claimed in claim 1, wherein: the soldering module comprises a soldering machine, and the soldering machine is used for welding and sealing the opening position of the iron shell.

Images