CN220097697U - PCB board diverging device - Google Patents

Abstract

The utility model discloses a PCB board shunt device, comprising: the first transmission line and the second transmission line have different transmission directions; the shunt table comprises a first transmission assembly and a second transmission assembly, wherein the output end of the first transmission assembly is connected with the first transmission line, and the output end of the second transmission assembly is connected with the second transmission line; and a lifting driving piece is arranged in the first transmission assembly and/or the second transmission assembly. According to the PCB shunt device, two sets of parallel transmission assemblies are adopted to realize the transmission of the PCB in two directions, the two sets of transmission assemblies are nested and independent, the occupied area is small, the structure is simple, and the PCB shunt efficiency is remarkably improved.

Description

PCB board diverging device

Technical Field

The utility model relates to the field of PCB transmission, in particular to a PCB shunt device.

Background

The PCB board needs to divide according to its self condition in the transmission process, and for example defective PCB board and nondefective PCB board need separate the transmission, in the reposition of redundant personnel in-process, need divide the PCB board on the reposition of redundant personnel platform to on different kinds of PCB transmission to different transmission lines.

When the PCB board is shunted on the same shunt table in the prior art, the PCB board needing to be shunted is usually pushed onto a transmission line on the side by means of a thrust component on the side of the shunt table. The stroke of the thrust component is required to be set according to the size of the PCB, and the PCB is required to be completely pushed out of the diversion table to ensure the smooth diversion process, namely the stroke of the thrust component is longer, the action time is longer, and the diversion efficiency is influenced; the thrust component cannot be well fused with the lateral transmission line, and the shunt efficiency is also affected.

Disclosure of Invention

The present utility model is directed to solving, at least to some extent, one of the problems in the related art. Therefore, the utility model aims to provide the PCB board flow dividing device, which adopts two sets of parallel transmission components to realize the transmission of the PCB boards in two directions, and the two sets of transmission components are nested and independent, so that the occupied area is small, the structure is simple, and the flow dividing efficiency of the PCB boards is obviously improved.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: a PCB board shunt device comprising: the first transmission line and the second transmission line have different transmission directions; the shunt table comprises a first transmission assembly and a second transmission assembly, wherein the output end of the first transmission assembly is connected with the first transmission line, and the output end of the second transmission assembly is connected with the second transmission line;

and a lifting driving piece is arranged in the first transmission assembly and/or the second transmission assembly.

Further, the transmission directions of the first transmission line and the second transmission line are vertical, and the transmission directions of the first transmission assembly and the second transmission assembly are vertical.

Further, the first transmission assembly comprises a plurality of shunt rollers which are arranged in parallel, two ends of each shunt roller are respectively connected with the inner side wall of the shunt table in a rotating mode, and the transmission directions of the first transmission assembly and the first transmission line are perpendicular to the central shaft of each shunt roller.

Further, a first roller is arranged in the first transmission line, and two ends of the first roller are respectively and rotatably connected with the inner side wall of the first transmission line; the first roller is parallel to the diverting roller.

Further, the first roller and the diverting roller are located in the same plane.

Further, the second transmission assembly comprises a shunt driving piece and a plurality of shunt transmission belts connected to the shunt driving piece, wherein the shunt transmission belts are positioned in gaps of adjacent shunt rollers, and the transmission direction of the shunt transmission belts is perpendicular to the transmission direction of the shunt rollers.

Further, the second transmission assembly comprises a lifting driving piece, and the lifting driving piece can drive the shunt transmission belt and the shunt driving piece to lift in a first direction; the first direction refers to a direction perpendicular to the plane of the diverter table.

Further, the lifting driving piece comprises a lifting table and a lifting cylinder, and the lifting cylinder can drive the lifting table to lift in a first direction; the lifting table is internally provided with a plurality of parallel diversion fixing frames, and the diversion fixing frames are positioned in gaps of adjacent diversion rollers.

Further, the shunt driving piece comprises a shunt driving shaft, a shunt driving wheel, a shunt driven wheel and a shunt driving cylinder, and the shunt driving shaft is positioned between the second transmission assembly and the second transmission line; the shunt driving shaft is perpendicular to the shunt roller, a shunt driving wheel is arranged in the shunt driving shaft, a plurality of shunt driven wheels are arranged in a shunt fixing frame, the connecting line direction of the shunt driving wheel and the shunt driven wheels is a second transmission direction, the shunt transmission belt is nested in the shunt driving wheel and the shunt driven wheels, and the shunt driving shaft is connected with a shunt driving cylinder.

Further, the second transmission line includes a second split transmission belt, and a transmission direction of the second split transmission belt is the same as a transmission direction of the split transmission belt.

Compared with the prior art, the technical scheme provided by the embodiment of the utility model has the following advantages: the shunt table comprises a first transmission assembly and a second transmission assembly, wherein the output end of the first transmission assembly is connected with a first transmission line, and the output end of the second transmission assembly is connected with a second transmission line; the lifting driving piece is arranged in at least one transmission component, and can drive the corresponding transmission component to lift, for example, the lifting driving piece is arranged in the second transmission component, when the PCB board is transmitted towards the first transmission line, the height of the first transmission component is larger than that of the second transmission component, namely, the PCB board is smoothly transmitted to the first transmission line in the first transmission component; when the PCB board is transmitted towards the second transmission line, the lifting drive drives the second transmission assembly to rise to the upper part of the first transmission assembly, namely the PCB board is smoothly transmitted to the second transmission line in the second transmission assembly; according to the utility model, the first transmission assembly and the second transmission assembly are nested and independent of each other, so that the transmission in two directions can be realized, and the two transmission lines can be smoothly butted, so that the whole shunt device has a small occupied area, the structure is simple, and the shunt efficiency of the PCB is remarkably improved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the utility model and together with the description, serve to explain the principles of the utility model.

In order to more clearly illustrate the embodiments of the utility model or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, and it will be obvious to a person skilled in the art that other drawings can be obtained from these drawings without inventive effort.

In the accompanying drawings:

FIG. 1 is a schematic view of a PCB shunt device according to the present utility model;

FIG. 2 is a schematic view of a splitter table according to the present utility model;

FIG. 3 is a schematic diagram of the overall structure of a second transmission assembly according to the present utility model;

FIG. 4 is a top view of a second transfer assembly of the present utility model;

reference numerals: 11. a first transmission line; 12. a diverting roller; 13. a first roller; 21. a second transmission line; 22. a shunt conveyor belt; 23. a split drive shaft; 24. a diverting drive wheel; 25. a shunt driven wheel; 26. a split-flow fixing frame; 3. a diversion table; 4. and a PCB board.

Detailed Description

For a clearer understanding of technical features, objects and effects of the present utility model, a detailed description of embodiments of the present utility model will be made with reference to the accompanying drawings. In the following description, it should be understood that the directions or positional relationships indicated by "front", "rear", "upper", "lower", "left", "right", "longitudinal", "transverse", "vertical", "horizontal", "top", "bottom", "inner", "outer", "head", "tail", etc. are configured and operated in specific directions based on the directions or positional relationships shown in the drawings, and are merely for convenience of describing the present utility model, not to indicate that the mechanism or element referred to must have specific directions, and thus should not be construed as limiting the present utility model.

It should also be noted that unless explicitly stated or limited otherwise, terms such as "mounted," "connected," "secured," "disposed," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communicated with the inside of two elements or the interaction relationship of the two elements. When an element is referred to as being "on" or "under" another element, it can be "directly" or "indirectly" on the other element or one or more intervening elements may also be present. The terms "first," "second," "third," and the like are used merely for convenience in describing the present utility model and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated, whereby features defining "first," "second," "third," etc. may explicitly or implicitly include one or more such features. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the following description, for purposes of explanation and not limitation, specific details are set forth such as the particular system architecture, techniques, etc., in order to provide a thorough understanding of the embodiments of the present utility model. It will be apparent, however, to one skilled in the art that the present utility model may be practiced in other embodiments that depart from these specific details. In other instances, detailed descriptions of well-known systems, mechanisms, circuits, and methods are omitted so as not to obscure the description of the present utility model with unnecessary detail.

Example 1

Referring to fig. 1-4, the present utility model provides a PCB board shunt device, which includes: the shunt table 3, the first transmission line 11 and the second transmission line 21, and the transmission directions of the first transmission line 11 and the second transmission line 21 are different; the shunt table 3 comprises a first transmission component and a second transmission component, wherein the output end of the first transmission component is connected with the first transmission line 11, and the output end of the second transmission component is connected with the second transmission line 21; the first transmission assembly and/or the second transmission assembly are/is provided with a lifting driving piece.

The shunt table 3 comprises a first transmission component and a second transmission component, wherein the output end of the first transmission component is connected with a first transmission line 11, and the output end of the second transmission component is connected with a second transmission line 21; the lifting driving piece is arranged in at least one transmission component, and can drive the corresponding transmission component to lift, for example, the lifting driving piece is arranged in the second transmission component, when the PCB 4 is transmitted towards the first transmission line 11, the height of the first transmission component is larger than that of the second transmission component, namely, the PCB 4 is smoothly transmitted to the first transmission line 11 in the first transmission component; when the PCB 4 is transferred towards the second transfer line 21, the lifting driving will drive the second transfer assembly to rise above the first transfer assembly, i.e. the PCB 4 is smoothly transferred to the second transfer line 21 in the second transfer assembly; according to the utility model, the first transmission assembly and the second transmission assembly are nested and independent of each other, so that the transmission in two directions can be realized, and the two transmission lines can be smoothly butted, so that the whole shunting device has a small occupied area, the structure is simple, and the shunting efficiency of the PCB 4 is remarkably improved.

The lifting driving piece is arranged in at least one transmission component, and the lifting driving piece has the function of driving one transmission component to a height higher than or lower than that of the other transmission component, the transmission component positioned at the high position is used for transmitting the PCB 4, and the transmission of the PCB 4 in two directions can be realized through the relative height conversion of the two transmission components.

Example 2

Referring to fig. 1-4, the present utility model provides a PCB board shunt device, which includes: the shunt table 3, the first transmission line 11 and the second transmission line 21, and the transmission directions of the first transmission line 11 and the second transmission line 21 are different; the shunt table 3 comprises a first transmission component and a second transmission component, wherein the output end of the first transmission component is connected with the first transmission line 11, and the output end of the second transmission component is connected with the second transmission line 21; the first transmission assembly and/or the second transmission assembly are/is provided with a lifting driving piece.

Specifically, in the present utility model, the transmission directions of the first transmission line 11 and the second transmission line 21 are vertical, and the transmission directions of the first transmission assembly and the second transmission assembly are vertical; i.e. to realize the shunting of the PCB board 4 in two perpendicular directions.

Further, the first transfer assembly and the first transfer line 11 are transferred using rollers. The first transmission assembly comprises a plurality of diverting rollers 12 which are arranged in parallel, two ends of the diverting rollers 12 are respectively and rotatably connected with the inner side wall of the diverting table 3, and the transmission directions of the first transmission assembly and the first transmission line 11 are perpendicular to the central axis of the diverting rollers 12. The first transmission line 11 is internally provided with a first roller 13, and two ends of the first roller 13 are respectively and rotatably connected with the inner side wall of the first transmission line 11; the first roller 13 is parallel to the diverting roller 12.

In the present utility model, the first roller 13 and the diverting roller 12 are located in the same plane, that is, the first transmission assembly and the first transmission line 11 are fixed in height, wherein the diverting roller 12 and the first roller 13 are located in the same plane, and together form the transmission of the PCB board 4 in one direction.

Further, the second transmission line 21 and the second transmission assembly adopt a transmission belt for transmission of the PCB board 4. The second conveying assembly comprises a split driving part and a plurality of split conveying belts 22 connected to the split driving part, the split conveying belts 22 are positioned in the gaps between the adjacent split rollers 12, and the conveying direction of the split conveying belts 22 is perpendicular to the conveying direction of the split rollers 12. The transmission direction of the diverting roller 12 is perpendicular to the central axis direction of the diverting roller 12, a diverting transmission belt 22 is arranged between adjacent diverting rollers 12, and the transmission direction of the diverting transmission belt 22 is parallel to the central axis direction of the diverting roller 12.

The height of the first transmission assembly is fixed, and the second transmission assembly comprises a lifting driving piece which can drive the split transmission belt 22 and the split driving piece to lift in the first direction; the first direction refers to a direction perpendicular to the plane of the tapping station 3; for example, the transmission direction of the first transmission line 11 is the X-axis direction, the transmission direction of the second transmission line 21 is the Y-axis direction, and the first direction is the Z-axis direction.

In the utility model, the split-flow transmission belt 22 is nested outside the driving wheel and the driven wheel, one driving wheel and a plurality of driven wheels can be arranged, and the connecting line of the driving wheel and the driven wheels is parallel to the central axis direction of the split-flow roller 12. As a specific embodiment, the lifting driving member comprises a lifting table and a lifting cylinder, wherein the lifting cylinder can drive the lifting table to lift in a first direction; a plurality of parallel diversion fixing frames 26 are arranged in the lifting table, and the diversion fixing frames 26 are positioned in the gaps of the adjacent diversion rollers 12.

The shunt driving part comprises a shunt driving shaft 23, a shunt driving wheel 24, a shunt driven wheel 25 and a shunt driving cylinder, and the shunt driving shaft 23 is positioned between the second transmission assembly and the second transmission line 21; the shunt driving shaft 23 is perpendicular to the shunt roller 12, a shunt driving wheel 24 is arranged in the shunt driving shaft 23, a plurality of shunt driven wheels 25 are arranged in a shunt fixing frame 26, the connecting line direction of the shunt driving wheel 24 and the shunt driven wheels 25 is a second transmission direction, the shunt transmission belt 22 is nested in the shunt driving wheel 24 and the shunt driven wheels 25, and the shunt driving shaft 23 is connected with a shunt driving cylinder. Since the split fixing frame 26 is located in the gap between the split rollers 12, the driving wheel and the driven wheel in the split fixing frame 26 and the separate transmission belt nested on the driving wheel and the driven wheel are located in the gap between the split rollers 12.

When the lifting cylinder drives the lifting platform to lift, the driving wheel and the driven wheel in the diversion fixing frame 26 and the separated conveying belt nested on the driving wheel and the driven wheel in the lifting platform synchronously lift. Such that the height of the second transport assembly is greater than or less than the height of the first transport assembly. When the second transfer assembly is higher than the first transfer assembly, the PCB on the diverting table 3 is transferred along the diverting conveyor belt 22 toward the second transfer line 21; when the second transfer assembly is lower in height than the first transfer assembly, the PCB on the diverting table 3 is transferred along the diverting roller 12 toward the first transfer line 11.

The second transmission line 21 in the present utility model includes a second split transmission belt 22, and the transmission direction of the second split transmission belt 22 is the same as the transmission direction of the split transmission belt 22. The specific structure of the second transmission line 21 may be similar to that of the second transmission assembly, and the height of the second transmission line 21 may be fixed at a height higher than that of the diversion table 3, or may be similar to that of the second transmission assembly, a lifting table and a lifting cylinder are provided, and a second fixing frame is provided in the lifting table.

Further, the second transmission line 21 may include a second driving member including a second driving shaft, a second driving wheel, a second driven wheel, and a second driving cylinder, the second driving shaft being located between the second transmission assembly and the second transmission line 21; the second driving shaft is perpendicular to the diverting roller 12, a second driving wheel is arranged in the second driving shaft, a plurality of second driven wheels are arranged in the second fixing frame, the connecting line direction of the second driving wheel and the second driven wheels is a second transmission direction, the second transmission belt is nested in the second driving wheel and the second driven wheels, and the second driving shaft is connected with a second driving cylinder.

When the PCB 4 on the diverting conveyor belt 22 is conveyed toward the second conveyor belt in the second conveyor line 21, the diverting conveyor belt 22 and the second conveyor belt are located at the same height and higher than the diverting roller 12 in the diverting table 3. The second driving shaft and the shunt driving shaft 23 rotate simultaneously, so that when the PCB board 4 is partially positioned on the second conveying belt, the PCB board can be continuously conveyed towards the second direction under the action of the second conveying belt.

In practical application, the height of one transmission assembly can be fixed only by the fact that the relative heights of the two transmission assemblies are different, and the relative heights of the two transmission assemblies are different by changing the height of the other transmission assembly.

It is to be understood that the above examples only represent preferred embodiments of the present utility model, which are described in more detail and are not to be construed as limiting the scope of the utility model; it should be noted that, for a person skilled in the art, the above technical features can be freely combined, and several variations and modifications can be made without departing from the scope of the utility model; therefore, all changes and modifications that come within the meaning and range of equivalency of the claims are to be embraced within their scope.

Claims (10)

1. A PCB board shunt device, comprising: the first transmission line and the second transmission line have different transmission directions; the shunt table comprises a first transmission assembly and a second transmission assembly, wherein the output end of the first transmission assembly is connected with the first transmission line, and the output end of the second transmission assembly is connected with the second transmission line;

and a lifting driving piece is arranged in the first transmission assembly and/or the second transmission assembly.

2. The PCB board shunt device of claim 1, wherein the transmission directions of the first transmission line and the second transmission line are perpendicular, and the transmission directions of the first transmission assembly and the second transmission assembly are perpendicular.

3. The PCB board diverging device of claim 2, wherein the first transmission assembly comprises a plurality of diverging rollers arranged in parallel, two ends of the diverging rollers are respectively and rotatably connected with the inner side wall of the diverging table, and the transmission directions of the first transmission assembly and the first transmission line are perpendicular to the central axis of the diverging rollers.

4. The PCB board shunt device according to claim 3, wherein a first roller is arranged in the first transmission line, and two ends of the first roller are respectively and rotatably connected with the inner side wall of the first transmission line; the first roller is parallel to the diverting roller.

5. The PCB board shunt device of claim 4, wherein the first roller and the shunt roller are in the same plane.

6. A PCB board diverting device according to claim 3, wherein the second conveying assembly comprises a diverting driving member and a plurality of diverting conveyor belts connected to the diverting driving member, the diverting conveyor belts are located in the gaps of adjacent diverting rollers, and the conveying direction of the diverting conveyor belts is perpendicular to the conveying direction of the diverting rollers.

7. The PCB board shunt device of claim 6, wherein the second transport assembly includes a lifting drive member capable of driving the shunt transport belt and the shunt drive member to lift in a first direction; the first direction refers to a direction perpendicular to the plane of the diverter table.

8. The PCB board shunt device of claim 7, wherein the lifting driving member comprises a lifting table and a lifting cylinder, and the lifting cylinder is capable of driving the lifting table to lift in a first direction; the lifting table is internally provided with a plurality of parallel diversion fixing frames, and the diversion fixing frames are positioned in gaps of adjacent diversion rollers.

9. The PCB board shunt device of claim 8, wherein the shunt driver comprises a shunt drive shaft, a shunt drive wheel, a shunt driven wheel, and a shunt drive cylinder, the shunt drive shaft being located between the second transmission assembly and the second transmission line; the shunt driving shaft is perpendicular to the shunt roller, a shunt driving wheel is arranged in the shunt driving shaft, a plurality of shunt driven wheels are arranged in a shunt fixing frame, the connecting line direction of the shunt driving wheel and the shunt driven wheels is a second transmission direction, the shunt transmission belt is nested in the shunt driving wheel and the shunt driven wheels, and the shunt driving shaft is connected with a shunt driving cylinder.

10. The PCB board shunt device of claim 6, wherein the second transmission line comprises a second shunt transmission band, and a transmission direction of the second shunt transmission band is the same as a transmission direction of the shunt transmission band.