CN110831426B - Bending processing assembly line for small plug-in components of elevator circuit board - Google Patents

Abstract

The invention discloses a small plug-in unit press-bending processing assembly line of an elevator circuit board, which structurally comprises a control box, a pressing fixed channel and a clamping plate channel, wherein the bottom end of the control box is welded on the upper surface of a middle box, the outer surface of the middle box is provided with the pressing fixed channel, one end of a small plug-in unit is welded and fixed on a bottom plate, the bottom plate is continuously conveyed, the other end which is not welded is erected, so that the small plug-in unit is bent along the inclination of a middle sliding expanded channel, an object which is collided by the outside can be subjected to compression deformation along the inclination of the object, an outer sliding layer can be pushed and pressed by the object, an inclined hook inside the small plug-in unit is implemented, the small plug-in unit cannot swing excessively, an inner oval plug can be deformed to form a certain counter force, when the small plug-in unit moves to the tail end, the force which is collided and swung by the oval plug-in, one end is fixed, and the other end can be smoothly shaped and welded in the continuous conveying process.

Description

Bending processing assembly line for small plug-in components of elevator circuit board

Technical Field

The invention belongs to the field of a plug-in assembly production line, and particularly relates to a small plug-in bending processing production line of an elevator circuit board.

Background

When the circuit bottom plate of the elevator is transported on a processing assembly line, in the transportation process, the upper end of the circuit bottom plate is provided with the small plug-in units which are installed on the surface of the circuit bottom plate and have the same frequency with the small plug-in units, and because the shapes and the installation modes of the circuit board plug-in units of the elevator are different, the installation end of each step is different, and the small plug-in units of which the two ends are welded on the bottom plate need to be welded step by step.

Based on the discovery of the inventor, the existing plug-in unit processing line of the elevator circuit board mainly has the following defects, such as:

when one end of the small plug-in is positioned, placed and welded on the bottom plate, the other end of the small plug-in bends downwards along with the reduction of the space of the upper pressing plate, when the small plug-in is bent in a limited mode, the small plug-in bends to swing and is easy to deviate from a required direction, and when the small plug-in is adjusted subsequently, the fixed end of the small plug-in is bent to be weak, so that the service life of the small plug-in is influenced.

Therefore, a small plug-in unit bending processing line of the elevator circuit board needs to be provided.

Disclosure of Invention

The problem of the technique that after one end of a small plug-in unit is positioned, placed and welded on a bottom plate, the other end of the small plug-in unit bends downwards along with the reduction of the space of an upper pressing plate, when the small plug-in unit bends limitedly, the small plug-in unit bends to easily deviate from a required direction, and when the small plug-in unit is adjusted subsequently, the fixed end of the small plug-in unit is bent to be weak, so that the service life of the small plug-in unit is influenced is solved.

The invention relates to a purpose and an effect of a small plug-in bending processing line of an elevator circuit board, which are achieved by the following specific technical means:

the structure of the device comprises a control box, a profiling fixing channel, a clamping plate channel and a middle box.

The bottom end of the control box is welded on the upper surface of the middle box, a pressing fixing channel is arranged on the outer surface of the middle box, and the clamping plate channel penetrates through the inside of the pressing fixing channel.

The profiling fixed channel comprises a slow raised head, a spacer block and a slow bending core, wherein the slow raised head is attached to the outer surface of the slow bending core, and the slow bending core is connected with the spacer block.

As a further improvement of the invention, the slow bending core comprises positioning swing angles, a middle sliding expanding channel, shaping pressing openings and an interlayer, wherein the positioning swing angles are connected with the interlayer, the shaping pressing openings are attached to the outer surface of the interlayer, the middle sliding expanding channel is arranged in the interlayer, four and two positioning swing angles form a group, and two shaping pressing openings are arranged.

As a further improvement of the invention, the positioning swing angle comprises a fixed block, a large clamping ball, an elliptical clamp, an outer sliding layer, inclined hooks and expansion balls, wherein the expansion balls are embedded in the fixed block, the expansion balls are connected with the large clamping ball, the elliptical clamp is abutted against the outer surface of each inclined hook, one end of each inclined hook, far away from the elliptical clamp, is connected with the outer sliding layer, the expansion balls are of a ball body structure and are two, and five outer sliding layers are arranged.

As a further improvement of the invention, the elliptical clamp comprises a glue layer, an arc supporting head, a semi-sticky arc, uniformly-dispersed balls, an outer soft layer and an elliptical core, wherein the glue layer is attached to the outer surface of the arc supporting head, the arc supporting head is connected with the semi-sticky arc, the uniformly-dispersed balls are embedded in the outer soft layer, the elliptical core is installed in the outer soft layer, the uniformly-dispersed balls are of a spherical structure and are uniformly distributed, and four and two of the semi-sticky arcs are arranged to form a group.

As a further improvement of the invention, the inclined hook comprises a guide hook, an outer hard layer, a middle partition ball and a corner protector, wherein the corner protector is attached to the outer surface of the guide hook, the guide hook is connected with the outer hard layer, the middle partition ball is embedded into the outer hard layer, the corner protector is made of rubber materials and has certain pulling performance, and the middle partition ball is of a semi-arc structure.

As a further improvement of the invention, the shaping pressure port comprises a sliding arc, a curved glue layer, four elliptical core bodies and a hard type layer, wherein the sliding arc is embedded in the hard type layer, the elliptical core bodies are arranged on the inner wall of the curved glue layer, the number of the elliptical core bodies is four, and the sliding arc is of a semi-arc structure.

Compared with the prior art, the invention has the following beneficial effects:

one end of the small plug-in is welded and fixed on the bottom plate, the bottom plate is still in continuous conveying, the other end which is not welded is erected, the small plug-in can be abutted against the slow raised head, so that the small plug-in is bent along the inclination of the middle sliding expanding channel, in the process of moving on the middle sliding expanding channel, an object which is abutted from the outside can be forced and deformed along the inclination of the object, the object can push the outer sliding layer to be forced, the inclined hook is implemented in the inner part, the inner elliptical core cannot swing excessively, the inner elliptical core can deform to form a certain counter force, when the tail end is moved, the force which is abutted and swung by the elliptical core is adjusted and returned, the small plug-in can be smoothly shaped and welded, when the small plug-in is installed on an elevator circuit board, one end is fixed, in the process of continuous conveying, the other end of the small plug-in can also be.

Drawings

Fig. 1 is a schematic structural diagram of a bending processing line for small plug-in units of elevator circuit boards.

Fig. 2 is a schematic diagram of a right-view internal structure of a profiling fixed channel according to the present invention.

FIG. 3 is a left-view internal structural diagram of a slow bending core according to the present invention.

Fig. 4 is a schematic view of an elevation internal structure of a positioning swing angle according to the present invention.

Fig. 5 is a schematic view of an elliptical binder according to the present invention.

FIG. 6 is a front view of an interior structure of an inclined hook according to the present invention.

Fig. 7 is a schematic front view of the inner structure of a sizing die according to the present invention.

In the figure: the device comprises a control box-11, a profiling fixed channel-22, a clamping channel-33, a middle box-44, a slow raised head-aa 1, a spacer-aa 2, a slow bending core-aa 3, a positioning swing angle-tt 1, a middle sliding channel-tt 2, a shaping press opening-tt 3, an interlayer-tt 4, a fixed block-a 1a, a large clamping ball-a 2a, an elliptic clamp-a 3a, an outer sliding layer-a 4a, a tendency hook-a 5a, an expansion ball-a 6a, an adhesive layer-qwe 1, a arc supporting head-qwe 2, a semi-sticky arc-qwe 3, a uniform scattering ball-qwe 4, an outer soft layer-qwe 5, an elliptic core-qwe 6, a guide hook-z qwe6, an outer hard layer-z qwe6, an intermediate ball-qwe 6, a corner protector-z qwe6, a smooth arc-ss layer-qwe 6, a curved adhesive layer-qwe 6, an elliptic core-z qwe6 and an elliptic hard core-qwe 6.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in figures 1 to 7:

the invention provides a small plug-in unit bending processing line of an elevator circuit board, which structurally comprises a control box 11, a profiling fixing channel 22, a clamping plate channel 33 and a middle box 44.

The bottom end of the control box 11 is welded on the upper surface of the middle box 44, the outer surface of the middle box 44 is provided with a pressing fixing channel 22, and the clamping plate channel 33 penetrates through the pressing fixing channel 22.

The pressing fixed channel 22 comprises a slow raised head aa1, a partition block aa2 and a slow bending core aa3, wherein the slow raised head aa1 is attached to the outer surface of the slow bending core aa3, and the slow bending core aa3 is connected with the partition block aa 2.

The slow bending core aa3 comprises a positioning swing angle tt1, a middle sliding expanded channel tt2, a shaping pressing port tt3 and a partition layer tt4, the positioning swing angle tt1 is connected with the partition layer tt4, the shaping pressing port tt3 is attached to the outer surface of the partition layer tt4, the middle sliding expanded channel tt2 is installed inside the partition layer tt4, four and two positioning swing angles tt1 are arranged in one group, two shaping pressing ports tt3 are arranged, the middle sliding expanded channel tt2 can enable objects collided with the outside to be pressed and deformed along the inclination of the objects, the positioning swing angle tt1 enables the objects to be gradually moved and positioned, and the shaping pressing port tt3 enables the objects to be accurately positioned at the tail end.

The positioning swing angle tt1 comprises a fixed block a1a, a large clamping ball a2a, an elliptical clamp a3a, an outer sliding layer a4a, an inclined hook a5a and an expanded ball a6a, wherein the expanded ball a6a is embedded in the fixed block a1a, the expanded ball a6a is connected with the large clamping ball a2a, the elliptical clamp a3a abuts against the outer surface of the inclined hook a5a, one end, away from the elliptical clamp a3a, of the inclined hook a5a is connected with the outer sliding layer a4a, the expanded balls a6a are of a ball structure and are two, five outer sliding layers a4a are arranged, the outer sliding layer a4a enables an external object to smoothly abut against the expanded balls, the inclined hook a5a enables the force bearing point of the joint part to change towards the direction, and the elliptical clamp a3a can be stressed by external force to return to the resistance when the external force is lost, and can not swing the large clamping ball a2a to be excessively and can not swing.

The elliptic clamp a3a comprises a glue layer qwe1, an arc supporting head qwe2, a semi-sticky arc qwe3, uniformly-scattered balls qwe4, an outer soft layer qwe5 and an elliptic core qwe6, wherein the glue layer qwe1 is attached to the outer surface of the arc supporting head qwe2, the arc supporting head qwe2 is connected with the semi-sticky arc qwe3, the uniformly-scattered balls qwe4 are embedded into the outer soft layer qwe5, the elliptic core qwe6 is installed inside the outer soft layer qwe5, the uniformly-scattered balls qwe4 are of a spherical structure and are uniformly distributed, four semi-sticky arcs qwe3 are arranged, two semi-sticky arcs are in one group, the semi-sticky arcs qwe3 enable the whole stress to have a balanced point, the arc supporting head qwe2 expands the stress area of a joint part, the uniformly-scattered balls qwe4 generate required displacement deformation along with the force born by the outside, and the outer soft layer qwe5 changes along with the change of the inside, so that the outer soft layer qwe5 plays a role in protection.

The inclined hook a5a comprises a guide hook z01, an outer hard layer z02, an intermediate ball z03 and an angle bead z04, wherein the angle bead z04 is attached to the outer surface of the guide hook z01, the guide hook z01 is connected with the outer hard layer z02, the intermediate ball z03 is embedded into the outer hard layer z02, the angle bead z04 is made of rubber and has certain pulling performance, the intermediate ball z03 is of a semi-arc structure, the outer hard layer z02 enables the whole body to change when being subjected to certain force, the guide hook z01 enables the force resisted by the outside to change the implementation direction, the intermediate ball z03 plays a role in protecting the movable bending angle of the intermediate ball, and the joint part of the angle bead z04 cannot swing excessively when moving.

The shaping notch tt3 comprises sliding arcs ss01, a curved glue layer ss02, an elliptical core body ss03 and a hard layer ss04, the sliding arcs ss01 are embedded in the hard layer ss04, the elliptical core body ss03 is installed on the inner wall of the curved glue layer ss02, the elliptical core body ss03 is of an elliptical structure and is provided with four sliding arcs ss01, the sliding arcs ss01 are of a half-arc structure, objects collided by the outside cannot cause hard force damage to the inside, the elliptical core body ss03 plays a role in buffering when auxiliary force is too large, and the curved glue layer ss02 plays a role in protecting the inside.

The specific use mode and function of the embodiment are as follows:

in the invention, when the circuit bottom board of the elevator is placed on the card board channel 33 and passes through the inside of the profiling fixed channel 22, one end of the small plug-in is welded and fixed on the bottom board, the bottom board is continuously conveyed, the other end which is not welded is erected and is abutted against the slow raised head aa1, so that the small plug-in is bent along the inclination of the middle sliding expanded channel tt2, the small plug-in is abutted against the lateral positioning swing angle tt1 simultaneously in the process of moving the middle sliding expanded channel 539tt 7, the small plug-in pushes and presses the outer sliding layer a4a, so that the inner inclined hook a5a is implemented, the outer hard layer z02 transmits force to the guide hook z01, the guide hook z01 pulls the protective angle z04 to play a protective role, and when the inclined hook a5a guides the force pushed by the outer sliding layer a4a to abut against the elliptical clamp a3, the outer sliding layer a qwe3 is pushed by the inclined hook a5 829685 to drive the soft ball 369634 to swing towards the lateral side qwe5, the inner elliptical core qwe6 will deform to form a certain counterforce, the outer sliding layer a4a is enabled to integrally bear the force on the large clamping ball a2a connected together, the expansion ball a6a is enabled to be clamped reversely, the positioning swing angle tt1 is enabled to control the gradual positioning of one end of the small plug-in unit and continuously move, when the small plug-in unit moves to the tail end, the small plug-in unit will abut against the shaping pressing opening tt3, the small plug-in unit will slide along the sliding arc ss01, the abutting swing force of the elliptical core body ss03 is adjusted to return, and the small plug-in unit can be smoothly shaped and welded.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (1)

1. The utility model provides a little plug-in components of elevator circuit board assembly line that bends, its structure includes control box (11), the solid way of die mould (22), cardboard way (33), well case (44), control box (11) bottom weld in well case (44) upper surface, well case (44) surface mounting has the solid way of die mould (22), inside the cardboard way (33) run through in the solid way of die mould (22), its characterized in that:

the pressing fixed channel (22) comprises a slow raised head (aa1), a spacer block (aa2) and a slow bending core (aa3), wherein the slow raised head (aa1) is attached to the outer surface of the slow bending core (aa3), and the slow bending core (aa3) is connected with the spacer block (aa 2);

the slow bending core (aa3) comprises a positioning swing angle (tt1), a middle sliding expanding channel (tt2), a shaping pressing opening (tt3) and an interlayer (tt4), the positioning swing angle (tt1) is connected with the interlayer (tt4), the shaping pressing opening (tt3) is attached to the outer surface of the interlayer (tt4), and the middle sliding expanding channel (tt2) is installed inside the interlayer (tt 4);

the positioning swing angle (tt1) comprises a fixed block (a1a), a large clamping ball (a2a), an oval clip (a3a), an outer sliding layer (a4a), an inclined hook (a5a) and an expansion ball (a6a), wherein the expansion ball (a6a) is embedded in the fixed block (a1a), the expansion ball (a6a) is connected with the large clamping ball (a2a), the oval clip (a3a) abuts against the outer surface of the inclined hook (a5a), and one end, far away from the oval clip (a3a), of the inclined hook (a5a) is connected with the outer sliding layer (a4 a);

the elliptic clamp (a3a) comprises a glue layer (qwe1), an arc supporting head (qwe2), a semi-sticky arc (qwe3), uniformly-scattered balls (qwe4), an outer soft layer (qwe5) and an elliptic core (qwe6), wherein the glue layer (qwe1) is attached to the outer surface of the arc supporting head (qwe2), the arc supporting head (qwe2) is connected with the semi-sticky arc (qwe3), the uniformly-scattered balls (qwe4) are embedded into the outer soft layer (qwe5), and the elliptic core (qwe6) is installed in the outer soft layer (qwe 5);

the inclined hook (a5a) comprises a guide hook (z01), an outer hard layer (z02), a middle partition ball (z03) and a corner protector (z04), wherein the corner protector (z04) is attached to the outer surface of the guide hook (z01), the guide hook (z01) is connected with the outer hard layer (z02), and the middle partition ball (z03) is embedded in the outer hard layer (z 02);

the shaping pressure port (tt3) comprises a sliding arc (ss01), a curved glue layer (ss02), an elliptical core body (ss03) and a hard type layer (ss04), wherein the sliding arc (ss01) is embedded in the hard type layer (ss04), and the elliptical core body (ss03) is mounted on the inner wall of the curved glue layer (ss 02).

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