CN219009219U - Switching platform and antenna attaching equipment with same - Google Patents

Abstract

The utility model provides a switching platform and antenna attaching equipment with the same, which comprises a mounting seat, and a first conveying assembly and a second conveying assembly which are fixedly arranged on the mounting seat, wherein the first conveying assembly and the second conveying assembly respectively reciprocate along the length direction of the mounting seat; the first conveying assembly comprises a first bearing jig and a track plate, wherein a moving slideway is arranged on the track plate, one end of the first bearing jig is slidably arranged on the moving slideway, the moving slideway is arranged along the length direction of the mounting seat, and at least comprises a descending section and an ascending section, so that the moving paths of the first conveying assembly and the second conveying assembly are respectively coplanar at the two ends of the mounting seat in the length direction, and the moving paths are mutually separated at other positions of the mounting seat in the length direction. The utility model performs the antenna attaching action to improve the production efficiency and ensure the attaching precision.

Description

Switching platform and antenna attaching equipment with same

Technical Field

The utility model relates to the technical field of antenna attaching equipment, in particular to a switching platform and antenna attaching equipment with the same.

Background

An antenna is a transducer that converts a guided wave propagating on a transmission line into an electromagnetic wave propagating in an unbounded medium, typically free space, or vice versa, and is a component used in a radio device to transmit or receive electromagnetic waves. Many electronic products such as mobile phones require an internal antenna for transmitting or receiving electromagnetic waves. With the development of 5G mobile phone technology, more mobile phone antennas need to be accommodated in the mobile phone, and the requirements on the assembly accuracy of the antennas and the mobile phone are also higher. The manual antenna attaching mode adopted in the prior art is low in efficiency and cannot guarantee the attaching precision requirement.

Disclosure of Invention

Therefore, the utility model provides the switching platform and the antenna pasting equipment with the switching platform, so that the antenna pasting action is automatically performed, the production efficiency is improved, and the pasting precision is ensured.

In order to achieve the above purpose, the technical scheme provided by the utility model is as follows:

the switching platform comprises a mounting seat, and a first conveying assembly and a second conveying assembly which are fixedly arranged on the mounting seat, wherein the first conveying assembly and the second conveying assembly respectively reciprocate along the length direction of the mounting seat; the first conveying assembly comprises a first bearing jig and a track plate, wherein a moving slideway is arranged on the track plate, one end of the first bearing jig is slidably arranged on the moving slideway, the moving slideway is arranged along the length direction of the mounting seat, and at least comprises a descending section and an ascending section, so that the moving paths of the first conveying assembly and the second conveying assembly are respectively coplanar at the two ends of the mounting seat in the length direction, and the moving paths are mutually separated at other positions of the mounting seat in the length direction.

Further, the moving path of the second conveying component is linearly reciprocated along the length direction of the mounting seat, the moving path of the first conveying component is located below the moving path of the second conveying component, and the heights of the two ends of the moving slideway along the height direction of the mounting seat are higher than those of the middle section, so that the moving paths of the first conveying component and the second conveying component are respectively collinear at the positions of the two ends of the mounting seat along the length direction, and are separated from each other at other positions of the mounting seat along the length direction.

Further, the number and positions of the descending section and the ascending section of the moving slide rail are one, the descending section is obliquely downward from one end of the moving slide rail, an arc-shaped transition section is arranged between the descending section and the ascending section, and the ascending section is obliquely upward extended from the arc-shaped transition section to the other end of the moving slide rail.

Further, two ends of the moving slide rail are flush, and a section horizontally extends to two sides respectively.

Further, the mount pad includes two parallel curb plates and is located the bottom plate between the both sides board, second conveying subassembly spans in the top of both sides board, and follows the length direction reciprocating motion of both sides board, first conveying subassembly is located between the both sides board, the track board is fixed to be located on the bottom plate.

Further, the second conveying assembly comprises a driving part and a second bearing jig, the second bearing jig spans over the two side plates, and the driving part is connected with the second bearing jig to drive the second bearing jig to horizontally reciprocate.

Furthermore, the first bearing jig and the second bearing jig are fixedly provided with backlight plates for placing products.

The utility model also provides antenna attaching equipment which comprises a switching platform, an antenna attaching manipulator and a product conveying line, wherein the switching platform is arranged in the moving range of the antenna attaching manipulator, the switching platform is used for conveying antennas, the product conveying line conveys mobile phone shells, and the antenna attaching manipulator grabs and attaches the antennas on the switching platform to the mobile phone shells positioned on the product conveying line.

Further, the antenna feeding device is arranged at two ends of the switching platform along the length direction of the mounting seat, the antenna feeding device is used for feeding an antenna to the first conveying assembly or the second conveying assembly which are positioned at the end part of the mounting seat, and the antenna feeding device is used for grabbing an antenna which is positioned on the first conveying assembly or the second conveying assembly at the end part of the mounting seat.

Further, the antenna attaching device comprises a four-axis manipulator and an absorbing part positioned at the output end of the four-axis manipulator, the four-axis manipulator drives the absorbing part to move to the switching platform and absorbs the antenna, and then the antenna is driven to be transferred to the product conveying line, so that the antenna is attached to a mobile phone shell positioned on the product conveying line.

The technical scheme provided by the utility model has the following beneficial effects:

through set up antenna loading attachment and paste antenna device respectively at the both ends of switching platform to realize automatic antenna action that pastes, and first conveying subassembly and second conveying subassembly alternate reciprocating motion between antenna loading attachment and paste antenna device, reduce antenna loading attachment and paste antenna device's operating sequence, improve production efficiency.

Drawings

FIG. 1 is a schematic diagram of a first embodiment of the present utility model;

FIG. 2 is a schematic diagram II of another embodiment of the present utility model;

FIG. 3 is a schematic view of a first embodiment of the present utility model, in which a side plate is hidden;

fig. 4 is a schematic structural diagram of a second embodiment of the present utility model;

fig. 5 is a schematic structural diagram of the switching platform and the antenna-attaching device according to the present utility model.

Description of the reference numerals:

mounting base 1, side plate 11, bottom plate 12, first conveying component 2, first bearing jig 21, track plate 22, first driving piece 23, movement slideway 220, descending section 2201, ascending section 2202, arc transition section 2203, second conveying component 3, driving part 31, second bearing jig 32, backlight plate 300;

the switching platform 10, the antenna attaching device 20, the four-axis manipulator 201, the suction part 202 and the product conveying line 30.

Detailed Description

For further illustration of the various embodiments, the utility model is provided with the accompanying drawings. The accompanying drawings, which are incorporated in and constitute a part of this disclosure, illustrate embodiments and together with the description, serve to explain the principles of the embodiments. With reference to these matters, one of ordinary skill in the art will understand other possible embodiments and advantages of the present utility model. The components in the figures are not drawn to scale and like reference numerals are generally used to designate like components.

The utility model will now be further described with reference to the drawings and detailed description.

Example 1

Referring to fig. 1 to 3, the switching platform provided in this embodiment includes a mounting base 1, and a first conveying component 2 and a second conveying component 3 fixedly disposed on the mounting base 1, where the first conveying component 2 and the second conveying component 3 respectively reciprocate along a length direction of the mounting base 1; by placing the articles to be conveyed on the first conveying component 2 and the second conveying component 3, the articles can be conveyed from one end of the mounting seat 1 to the other end of the mounting seat 1, and the articles are transferred. The first conveying component 2 comprises a first bearing jig 21 and a track plate 22, wherein a moving slideway 220 is formed in the track plate 22, one end of the first bearing jig 21 is slidably arranged on the moving slideway 220, the moving slideway 220 is arranged along the length direction of the mounting seat 1, and the moving slideway 220 at least comprises a descending section 2201 and an ascending section 2202, so that the moving paths of the first conveying component 2 and the second conveying component 3 are respectively coplanar at the two end positions in the length direction of the mounting seat 1, and are mutually separated at other positions in the length direction of the mounting seat 1.

Like this, be equipped with processingequipment respectively at switching platform's both ends tip, the tip that moves to the one end of mount pad 1 through first conveying subassembly 2 and second conveying subassembly 3 is in the coplanar, and the processingequipment of being convenient for moves first conveying subassembly 2 or second conveying subassembly 3 in this position, and in other positions, the removal of first conveying subassembly 2 and second conveying subassembly 3 does not interfere each other. Compared with the mode that a single conveying mechanism is arranged between two processing devices to carry out conveying in the prior art, the processing devices on two sides can act on the conveying mechanism reaching the position after waiting for the conveying mechanism to come and go. The first conveying component 2 and the second conveying component 3 alternately reciprocate, so that the waiting time of processing mechanisms at two ends is reduced, and the working efficiency is improved. The processing device in this embodiment may be configured to feed the product onto the first conveying component 2 or the second conveying component 3, or to discharge the product from the first conveying component 2 or the second conveying component 3, or to process the product on the first conveying component 2 or the second conveying component 3, which is not limited herein.

In this embodiment, referring to fig. 3, the moving path of the second conveying assembly 3 is linearly reciprocated along the length direction of the mounting base 1, the moving path of the first conveying assembly 2 is located below the moving path of the second conveying assembly 3, and the heights of the two ends of the moving slideway 220 along the height direction of the mounting base 1 are higher than the height of the middle section, so that the moving paths of the first conveying assembly 2 and the second conveying assembly 3 are respectively coplanar at the two end positions of the mounting base 1 along the length direction, and are separated from each other at other positions of the mounting base 1 along the length direction. Specifically, the number of the descending sections 2201 and the ascending sections 2202 of the moving slide 220 are one, the descending sections 2201 incline downwards from one end of the moving slide 220, an arc transition section 2203 is arranged between the descending sections 2201 and the ascending sections 2202, and the ascending sections 2202 incline upwards from the arc transition section 2203 to the other end of the moving slide 220, so that the moving slide 220 is in a V-shaped structure as a whole. And the two ends of the moving slideway 220 are flush, and horizontally extend to two sides for a section respectively. The V-shaped structure of the moving slideway 220 is convenient for the first bearing fixture 21 to stably move on the moving slideway 220, and when the first conveying component 2 and the second conveying component 3 are close to each other, the first conveying component 2 moves towards the bottom of the U-shape of the moving slideway 220, and the distance between the first conveying component 2 and the second conveying component 3 is far, so that interference is avoided, and the movement of the first conveying component and the second conveying component is influenced. Of course, in other embodiments, the descending section 2201 and the ascending section 2202 may be vertically lifted, and a horizontal section is formed between the descending section 2201 and the ascending section 2202, so that the movement slide 220 has a substantially U-shaped structure, and thus, the movement paths of the first conveying component 2 and the second conveying component 3 can be respectively coplanar at two end positions in the length direction of the mounting base 1, and separated from each other at other positions in the length direction of the mounting base 1, which is not limited herein.

Specifically, with continued reference to fig. 3, the mounting base 1 includes two parallel side plates 11 and a bottom plate 12 located between the two side plates 11, and the second conveying assembly 3 spans the top of the two side plates 11 and reciprocates along the length direction of the two side plates 11; the first conveying assembly 2 is located between the two side plates 11, and the track plate 22 is fixedly arranged on the bottom plate 12. In this way, the first conveying component 2 moves along the moving slideway 220, the first bearing jig 21 is lower than the height of the two side plates 11, and when moving to the two ends of the moving slideway 220, the first bearing jig 21 of the first conveying component 2 rises to the top of the two side plates 11 and is coplanar with the second conveying component 3 positioned at the top of the two side plates 11, so that the processing mechanisms positioned at the two sides of the mounting seat 1 can respectively act on the first conveying component 2 and the second conveying component 3 positioned at the same plane; and the first conveying component 2 and the second conveying component 3 are skillfully combined with the two side plates 11 and the bottom plate 12 of the mounting seat 1, so that the structure is simple and skillful, and the switching platform is convenient to apply to various equipment which needs to convey products.

The second conveying assembly 3 includes a driving portion 31 and a second carrying jig 32, the second carrying jig 32 spans across the two side plates 11, and the driving portion 31 is connected with the second carrying jig 32 to drive the second carrying jig 32 to horizontally reciprocate. Specifically, the driving portion 31 is a belt sliding rail assembly driven by a motor, the sliding rail is disposed at the top of the two side plates 11, and the second bearing fixture 32 slides on the sliding rail through a sliding block, so as to realize linear reciprocating movement of the second bearing fixture 32. Of course, in other embodiments, the driving portion 31 may be a screw sliding rail assembly to realize horizontal movement, which is not limited herein.

The first conveying assembly 2 also includes a first driving member 23, the first driving member 23 adopts a manner of a rod sliding rail assembly, the sliding rail is disposed at two ends of the track plate 22, and the first bearing fixture 21 slides on the sliding rail through a sliding block, so as to realize that the first bearing fixture 21 slides along the moving slideway 220. Of course, in other embodiments, the first driving member 23 may also be a belt-slide assembly driven by a motor, which is not limited herein.

In this embodiment, the backlight plate 300 is fixedly disposed on the first carrying jig 21 and the second carrying jig 32 for placing the product, and the product is placed in the backlight plate 300 to help identify and position the product.

Example two

Referring to fig. 4 to 5, the present utility model further provides an antenna attaching apparatus, which includes a switching platform 10, an antenna attaching device 20, a product conveying line 30, and an antenna feeding device (not shown in the drawings), where the switching platform 10 is the switching platform according to the first embodiment, the switching platform 10 and the product conveying line 30 are located in a moving range of the antenna attaching device 20, the switching platform 10 is used for conveying antennas, the product conveying line 30 conveys mobile phone shells, and the antenna attaching device 20 grabs and attaches the antennas on the switching platform 10 to the mobile phone shells located on the product conveying line 30. Therefore, the action of attaching the antenna to the mobile phone shell is automatically realized, the manual participation is reduced, and the working efficiency is improved.

The switching platform 10 is abutted with the antenna attaching device 20 along the end of one end of the length direction of the mounting seat 1, the end of the other end is abutted with the antenna feeding device, the antenna feeding device feeds the antenna onto the first conveying component 2 or the second conveying component 3 positioned at the end of the mounting seat 1, and the antenna attaching device 20 grabs the antenna positioned on the first conveying component 2 or the second conveying component 3 positioned at the end of the other end of the mounting seat 1. In this embodiment, the first conveying component 2 and the second conveying component 3 of the switching platform 10 are alternately and reciprocally transferred between the antenna attaching device 20 and the antenna feeding device, so as to reduce the waiting time of the antenna attaching device 20 and the antenna feeding device, and further improve the working efficiency.

Specifically, the antenna feeding device comprises an antenna feeding mechanism and a sheet label stripping mechanism, wherein the antenna feeding mechanism and the sheet label stripping mechanism are common mechanisms in the field, and are not described in detail herein. The antenna sheet is fed through the antenna feeding mechanism and is peeled off from the sheet by the sheet label peeling mechanism to the first conveying assembly 2 or the second conveying assembly 3 of the switching platform 10. Of course, in other embodiments, the antenna feeding device may be just an antenna feeding mechanism, so as to feed the single antenna onto the first conveying component 2 or the second conveying component 3 of the switching platform 10, which is not limited herein. The antenna attaching device 20 includes a four-axis manipulator 201 and an absorbing portion 202 located at an output end of the four-axis manipulator 201, the four-axis manipulator 201 drives the absorbing portion 202 to move to the switching platform 10, and absorbs an antenna, and then drives the antenna to move to the product conveying line 30, so that the antenna is attached to a mobile phone shell located on the product conveying line 30. The product conveyor line 30 comprises an endless conveyor belt and a drive means comprising a drive motor and a gear transmission or the like, the manner in which the endless conveyor belt and the drive means are connected being well known to those skilled in the art and will not be described here. Be equipped with the tool on the product transfer chain 30 in order to spacing cell-phone casing, product transfer chain 30 processing cell-phone casing carries to paste antenna device 20, pastes antenna device 20 in order to laminate the antenna that snatchs to the cell-phone casing of product transfer chain 30. In order to improve the working efficiency, the periphery of the product conveying line 30 may be provided with a plurality of groups of antenna attaching devices 20 and switching platforms to act simultaneously, so as to attach antennas to the mobile phone housing on the product conveying line 30.

The specific working process of the utility model is as follows:

the antenna feeding device feeds the antenna to the first conveying component 2 or the second conveying component 3 located at one end of the switching platform 10 (in this embodiment, the feeding of the antenna to the first conveying component 2 is taken as an example, and the operation process of the second conveying component 3 is the same); the first conveying component 2 of the rear switching platform 10 is conveyed to the end part of the other end of the switching platform, namely the side where the antenna device 20 is located, and the antenna device 20 grabs the antenna located on the first conveying component 2 and conveys the antenna to the side where the product conveying line is located;

meanwhile, the product conveying line conveys the mobile phone shell to the antenna attaching device 20;

the antenna device 20 is attached to attach the antenna to the handset housing. Thus, the antenna pasting action is automatically completed, and the production efficiency and quality are improved.

While the utility model has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (10)

1. The utility model provides a switching platform which characterized in that: the device comprises a mounting seat, and a first conveying assembly and a second conveying assembly which are fixedly arranged on the mounting seat, wherein the first conveying assembly and the second conveying assembly respectively reciprocate along the length direction of the mounting seat; the first conveying assembly comprises a first bearing jig and a track plate, wherein a moving slideway is arranged on the track plate, one end of the first bearing jig is slidably arranged on the moving slideway, the moving slideway is arranged along the length direction of the mounting seat, and at least comprises a descending section and an ascending section, so that the moving paths of the first conveying assembly and the second conveying assembly are respectively coplanar at the two ends of the mounting seat in the length direction, and the moving paths are mutually separated at other positions of the mounting seat in the length direction.

2. The switching platform of claim 1, wherein: the moving path of the second conveying assembly is linearly reciprocated along the length direction of the mounting seat, the moving path of the first conveying assembly is positioned below the moving path of the second conveying assembly, and the heights of the two ends of the moving slide rail along the height direction of the mounting seat are higher than those of the middle section, so that the moving paths of the first conveying assembly and the second conveying assembly are respectively coplanar at the positions of the two ends of the mounting seat along the length direction, and are mutually separated at other positions of the mounting seat along the length direction.

3. The switching platform of claim 2, wherein: the number and the positions of the descending section and the ascending section of the moving slide rail are one, the descending section is obliquely downwards from one end of the moving slide rail, an arc transition section is arranged between the descending section and the ascending section, and the ascending section is obliquely upwards extended from the arc transition section to the other end of the moving slide.

4. A switching platform according to claim 3, characterized in that: the two ends of the moving slideway are flush, and a section of moving slideway horizontally extends to two sides respectively.

5. The switching platform of claim 2, wherein: the mounting seat comprises two parallel side plates and a bottom plate positioned between the two side plates, the second conveying assembly spans the tops of the two side plates and moves reciprocally along the length direction of the two side plates, the first conveying assembly is positioned between the two side plates, and the track plate is fixedly arranged on the bottom plate.

6. The switching platform of claim 5, wherein: the second conveying assembly comprises a driving part and a second bearing jig, the second bearing jig spans over the two side plates, and the driving part is connected with the second bearing jig to drive the second bearing jig to horizontally reciprocate.

7. The switching platform of claim 6, wherein: and backlight plates are fixedly arranged on the first bearing jig and the second bearing jig for placing products.

8. An antenna-attaching device, characterized in that: the antenna device comprises a switching platform, an antenna pasting device and a product conveying line, wherein the switching platform is any one of claims 1-7, the switching platform and the product conveying line are located in the moving range of the antenna pasting device, the switching platform is used for conveying an antenna, the product conveying line conveys a mobile phone shell, and the antenna pasting device grabs and pastes the antenna on the switching platform on the mobile phone shell located on the product conveying line.

9. The patch antenna device of claim 8, wherein: the antenna feeding device and the antenna pasting device are respectively arranged at two ends of the switching platform along the length direction of the mounting seat, the antenna feeding device is used for feeding antennas to the first conveying assembly or the second conveying assembly which are positioned at the end part of the mounting seat, and the antenna pasting device is used for grabbing antennas on the first conveying assembly or the second conveying assembly which are positioned at the end part of the mounting seat.

10. The patch antenna device of claim 8, wherein: the antenna pasting device comprises a four-axis manipulator and an absorbing part positioned at the output end of the four-axis manipulator, the four-axis manipulator drives the absorbing part to move to the switching platform and absorbs the antenna, and then the antenna is driven to be transferred to the product conveying line, so that the antenna is pasted on a mobile phone shell positioned on the product conveying line.

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