CN217901814U - Double-alignment floating plugging mechanism - Google Patents

Abstract

The utility model relates to the technical field of contraposition splicing, in particular to a double contraposition floating splicing mechanism, which comprises a fixed frame, a first contraposition splicing panel, a movable bracket, a second contraposition splicing panel and a splicing leading-in device, wherein the fixed frame is provided with a guide channel; the first pair of inserting panels are provided with floating screws which are arranged in the guide channels, and are provided with a first pair of inserting ports and a first inserting guide element; the movable bracket can move in the guide channel; the second pair of inserting panels are arranged on the movable support, each second pair of inserting panels is provided with a second inserting port and a second inserting guide element, and traction elements are arranged on two sides of each second pair of inserting panels; the inserting and guiding devices are arranged on two sides of the first inserting panel pair and are used for matching with the traction elements to pull and insert the second inserting panel pair into the first inserting panel pair. The utility model discloses insert through the traction element cooperation when pegging graft, the grafting precision is high, and the structure is reliable, sets up grafting guide element moreover and is used for the direction grafting, is applicable to automatic grafting.

Description

Double-alignment floating plugging mechanism

Technical Field

The utility model relates to a counterpoint grafting technical field especially relates to a double counterpoint grafting mechanism that floats.

Background

With the development of society, the quality requirements of people on electronic products are higher and higher, and in order to improve the delivery quality of the electronic products, the electronic products need to be subjected to an aging test before delivery. In the prior art, when an electronic product is subjected to aging test, the product at the previous station is generally conveyed by hands through a belt during feeding, wherein all aging and testing links are manually operated, firstly, an operator places the product into an aging jig one by one to form an aging electronic part, then the aging electronic part is placed into an aging placing position of an aging testing frame for aging, the aging electronic part is manually taken out for testing various performances after aging is completed, and when the product is discharged after testing is completed, the aging electronic part is placed back to the belt one by one and conveyed to the next station.

In the aging testing process, need place the tool with the product, tool rethread automation structure realizes automatic grafting, and single grafting to singleness can also master at the grafting in-process that has now, then hardly masters when inserting to the plug-in of multiunit, leads to in the grafting process plug-in connector and inserting groove the collision to appear damaging.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a be used for the movable support direction to send into through the direction passageway, send into the back and insert the second through the leading-in device of pegging graft to the panel cooperation of inserting to first pair, insert through the traction element cooperation when pegging graft, the grafting precision is high, and the structure is reliable, sets up grafting guide element moreover and is used for the direction grafting, is applicable to the automatic double counterpoint grafting mechanism that floats of pegging graft.

The utility model adopts the technical proposal that: a double-alignment floating insertion mechanism comprises a fixed frame, a first insertion panel, a movable support, a second insertion panel and an insertion guiding device, wherein the fixed frame is provided with a guide channel; the first pair of inserting panels are provided with floating screws which are arranged in the guide channels, and are provided with a first pair of inserting ports and a first inserting guide element; the movable bracket can move in the guide channel; the second pair of inserting panels are arranged on the movable support and provided with second inserting ports and second inserting guide elements, the second inserting ports correspond to the first inserting ports, the second inserting guide elements correspond to the first inserting guide elements, and traction elements are arranged on two sides of the second inserting panels; the inserting and guiding devices are arranged on two sides of the first inserting panel and are used for matching with the traction elements to pull and insert the second inserting panel into the first inserting panel.

The further improvement of the scheme is that the fixing frame comprises a fixing table and two guide strips symmetrically arranged on two sides of the fixing table, a guide channel is formed between the two guide strips, and the first pair of inserting panels are arranged on the fixing table and correspond to the guide channel.

The technical scheme is further improved in that an L-shaped plate is installed on the guide strips, a first guide groove is formed in the bottom surface of the L-shaped plate, a second guide groove is formed in the side surface of the L-shaped plate, a first universal ball is installed on the first guide groove, and a second universal ball is installed on the second guide groove.

The further improvement of the scheme is that the fixing frame is provided with a connecting block, the first pair of inserting panels are connected to the connecting block through the floating screws, the floating screws are provided with floating columns, floating holes are formed in the first pair of inserting panels, and gaps are reserved between the floating holes and the floating columns.

In a further improvement of the above solution, the first pair of socket ports includes a thimble port and a connector port, and both the thimble port and the connector port are mounted on the first pair of socket panels; the second opposite-inserting port comprises a contact port and an inserting port, the contact port is matched with the thimble port, and the inserting port is matched with the connector port.

The further improvement of the scheme is that the two sides of the connector port are provided with inserting guide grooves, the inserting port is provided with a matching guide block, and the matching guide block can be inserted into the inserting guide grooves.

The further improvement of the scheme is that the first inserting guide element is an inserting guide pin arranged on the first inserting panel, an inserting chamfer is arranged on the inserting guide pin, the second inserting guide element is a guide shaft sleeve, and the guide shaft sleeve is matched with the inserting guide pin.

The further improvement of the scheme is that the movable support comprises an underframe and a plurality of layers of test placing frames arranged on the underframe, a test position is arranged on each test placing frame and is electrically connected with the second opposite plug panel, a traction table is arranged between the two sides of the traction table, and the guide frames are movably arranged in guide channels.

The further improvement of the scheme is that the traction element comprises a traction support arranged on the second opposite insertion panel, the traction support is provided with a traction shaft sleeve, and the traction shaft sleeve is provided with a traction fixing hole.

The scheme is further improved in that the inserting and guiding device comprises a propelling cylinder, an inserting cylinder connected with the propelling cylinder and an inserting positioning pin connected with the inserting cylinder, and the inserting positioning pin is matched with the traction fixing hole.

The utility model has the advantages that:

compare current grafting structure, the utility model discloses a direction passageway is used for the movable support direction to send into, sends into the back and inserts the second through the leading-in device of pegging graft the panel cooperation of inserting to first pair of inserting the panel, inserts through traction element cooperation when pegging graft, and the grafting precision is high, and the structure is reliable, sets up grafting guide element moreover and is used for the direction to peg graft, is applicable to automatic grafting. Specifically, a fixed frame, a first inserting panel, a movable support, a second inserting panel and an inserting guiding device are arranged, and the fixed frame is provided with a guiding channel; the first pair of inserting panels are provided with floating screws and installed in the guide channels, and the first pair of inserting panels are provided with a first pair of inserting ports and a first inserting guide element; the movable bracket can move in the guide channel; the second pair of inserting panels are arranged on the movable support, the second pair of inserting panels are provided with second inserting ports and second inserting guide elements, the second inserting ports correspond to the first inserting ports, the second inserting guide elements correspond to the first inserting guide elements, and traction elements are arranged on two sides of the second inserting panels; the inserting and guiding device is arranged on two sides of the first inserting panel and is used for matching with a traction element to pull and insert the second inserting panel into the first inserting panel. In the plugging process, the two opposite plugging ports are matched and plugged with each other to realize electric conduction or data transmission, and the plugging guide elements are matched to ensure the plugging precision; still adopted the floating screw to be used for connecting first a pair of plug panel at the direction passageway, had certain floating space at the grafting in-process, guaranteed the grafting precision, the structure is reliable, and the practicality is strong.

Drawings

Fig. 1 is a schematic perspective view of the dual-alignment floating plugging mechanism of the present invention;

FIG. 2 is a schematic perspective view of the dual-alignment floating plugging mechanism of FIG. 1 from another perspective;

FIG. 3 is a schematic perspective view of the fixing frame of the dual-alignment floating plug-in mechanism of FIG. 1;

FIG. 4 is a schematic perspective view of a movable bracket of the dual-alignment floating plugging mechanism in FIG. 1;

FIG. 5 is an enlarged view of the point A in FIG. 1;

FIG. 6 is an enlarged view of the point B in FIG. 1;

FIG. 7 is a schematic structural diagram of a floating screw of the dual-alignment floating plug-in mechanism shown in FIG. 1;

fig. 8 is a schematic diagram of the first mating board and the second mating board of the dual-alignment floating plugging mechanism in fig. 1.

Description of reference numerals: the test device comprises a fixed frame 1, a guide channel 11, a fixed table 12, a guide strip 13, an L-shaped plate 131, a first universal ball 132, a second universal ball 133, a connecting block 134, a first pair of insertion panels 2, a floating screw 21, a floating column 211, a first pair of insertion ports 22, an ejector pin port 221, a connector port 222, an insertion guide groove 222a, a first insertion guide element 23, an insertion guide pin 231, a movable support 3, a bottom frame 31, a traction table 311, a guide frame 312, a test placement frame 32, a test position 321, a second pair of insertion panels 4, a second pair of insertion ports 41, a contact port 411, an insertion port 412, a matching guide block 412a, a second insertion guide element 42, a guide shaft sleeve 421, a traction element 43, a traction support 431, a traction shaft sleeve 432, a traction fixing hole 433, an insertion guide device 5, a pushing cylinder 51, an insertion cylinder 52 and an insertion positioning pin 53.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

As shown in fig. 1 to 8, a double-alignment floating plug-in mechanism includes a fixed frame 1, a first plug-in panel 2, a movable bracket 3, a second plug-in panel 4, and a plug-in lead-in device 5, wherein the fixed frame 1 is provided with a guide channel 11; the first pair of inserting panels 2 are provided with floating screws 21 which are arranged in the guide channels 11, and the first pair of inserting panels 2 are provided with a first pair of inserting ports 22 and a first inserting guide element 23; the movable bracket 3 can move in the guide channel 11; the second pair of inserting panels 4 are arranged on the movable support 3, the second pair of inserting panels 4 are provided with a second pair of inserting ports 41 and a second inserting guide element 42, the second pair of inserting ports 41 correspond to the first pair of inserting ports 22, the second inserting guide element 42 corresponds to the first inserting guide element 23, and two sides of the second pair of inserting panels 4 are provided with traction elements 43; the plug-in guides 5 are mounted on both sides of the first pair of plug-in panels 2 and are used to engage the pulling elements 43 for pulling the second pair of plug-in panels 4 into the first pair of plug-in panels 2.

Mount 1 includes fixed station 12 and locates two gibs 13 that 12 bilateral symmetry of fixed station was equipped with, forms direction passageway 11 between two gibs 13, first to inserting panel 2 installs at fixed station 12 and corresponds at direction passageway 11, is equipped with gib 13 through fixed station 12 both sides, and gib 13 is used for leading-in of movable support 3, and the direction is stable, and the structure is reliable, and convenient grafting is particularly suitable for removing the grafting.

L template 131 is installed to gib block 13, first guide way has been seted up to L template 131's bottom surface, the second guide way has been seted up to the side, first universal ball 132 is installed to first guide way, second universal ball 133 is installed to the second guide way, has still set up L template 131, has set up the guide way on L template 131, has installed universal ball in the guide way, is used for leading movable support 3 through universal ball to guarantee first plug panel 2 and the mutual grafting of second plug panel 4.

Mount 1 is equipped with connecting block 134, unsteady screw 21 is connected first pair of picture peg board 2 at connecting block 134, unsteady screw 21 is equipped with unsteady post 211, unsteady hole has been seted up to first pair picture peg board 2, leave the clearance between unsteady hole and the unsteady post 211, through the connection of connecting block 134 cooperation unsteady screw 21, and unsteady screw 21 is through the connection in unsteady post 211 and unsteady hole to it can float to have the clearance when pegging graft.

The first pair of socket ports 22 includes a spike port 221 and a connector port 222, and the spike port 221 and the connector port 222 are both mounted on the first pair of socket panels 2; the second mating port 41 includes a contact port 411 and a mating port 412, the contact port 411 is matched with the thimble port 221, the mating port 412 is matched with the connector port 222, and the thimble port 221 is matched with the contact port 411, so that contact conduction can be realized without mutual mating, the structure precision is high, the conduction is stable, the contact is stable, the two connector ports 222 are matched with the mating port 412 for mating and mating, and the mating is convenient.

The insertion guide grooves 222a are formed in two sides of the connector port 222, the insertion port 412 is provided with the matching guide blocks 412a, the matching guide blocks 412a can be inserted into the insertion guide grooves 222a, in the opposite insertion process, the matching guide blocks 412a are matched with the insertion guide grooves 222a, the connector port 222 and the insertion port 412 can be matched and inserted, insertion is stable, and accuracy is high.

First grafting guide element 23 is for installing at the first grafting guide pin 231 to inserting panel 2, grafting chamfer has been seted up to grafting guide pin 231, second grafting guide element 42 is guide shaft sleeve 421, guide shaft sleeve 421 cooperates with grafting guide pin 231, adopts grafting guide pin 231 cooperation guide shaft sleeve 421 to insert, has guaranteed the precision that the structure was pegged graft, and the counterpoint precision is high.

The movable support 3 includes chassis 31 and installs a plurality of layers of test rack 32 on chassis 31, test rack 32 installs test position 321, test position 321 is connected 4 electricity of inserting the panel with the second, chassis 31 is equipped with between two parties and pulls platform 311, it is equipped with leading truck 312 to pull platform 311 both sides, leading truck 312 is mobile at direction passageway 11, is used for the product to insert through test position 321 and connects, and the test is inserted to the convenience, is particularly suitable for the aging testing, and pull platform 311 then accessible mobile robot drives the movable support and remove, realizes that automatic removal is pegged graft and is counterpointed, and degree of automation is high.

The pulling element 43 comprises a pulling bracket 431 mounted on the second pair of inserting panels 4, the pulling bracket 431 is mounted with a pulling sleeve 432, the pulling sleeve 432 is provided with a pulling fixing hole 433, and the further improvement is that the inserting guiding device 5 comprises a pushing cylinder 51, an inserting cylinder 52 connected to the pushing cylinder 51, and an inserting positioning pin 53 connected to the inserting cylinder 52, the inserting positioning pin 53 is matched with the pulling fixing hole 433, the inserting cylinder 52 is driven by the pushing cylinder 51 to move towards the position of the second pair of inserting panels 4, when the inserting cylinder moves to a specified position, the inserting positioning pin 53 is driven by the inserting cylinder 52 to be inserted into the pulling fixing hole 433, the inserting cylinder 51 drives the inserting cylinder 52 to drive the second pair of inserting panels 4 to move towards the first pair of inserting panels 2, the inserting guide pin 231 is matched with the guide sleeve 421, the inserting guide pin is continuously pulled after matching, the second pair of inserting panels 4 and the first pair of inserting panels 2 are matched and inserted together, and the inserting is stable and has high precision.

The utility model discloses a direction passageway 11 is used for the direction of movable support 3 to send into, inserts second opposite plug panel 4 cooperation to first opposite plug panel 2 through grafting leading-in device 5 after sending into, inserts through the cooperation of traction element 43 when pegging graft, and the grafting precision is high, and the structure is reliable, sets up grafting guide element moreover and is used for the direction to peg graft, is applicable to automatic grafting. Specifically, a fixed frame 1, a first pair of inserting panels 2, a movable support 3, a second pair of inserting panels 4 and an inserting guiding device 5 are arranged, and the fixed frame 1 is provided with a guide channel 11; the first pair of inserting panels 2 are provided with floating screws 21 which are arranged in the guide channels 11, and the first pair of inserting panels 2 are provided with a first pair of inserting ports 22 and a first inserting guide element 23; the movable bracket 3 can move in the guide channel 11; the second pair of inserting panels 4 are arranged on the movable support 3, the second pair of inserting panels 4 are provided with a second pair of inserting ports 41 and a second inserting guide element 42, the second pair of inserting ports 41 correspond to the first pair of inserting ports 22, the second inserting guide element 42 corresponds to the first inserting guide element 23, and two sides of the second pair of inserting panels 4 are provided with traction elements 43; the plug-in lead-in devices 5 are mounted on both sides of the first pair of plug-in panels 2 and are used to insert the second pair of plug-in panels 4 into the first pair of plug-in panels 2 in a pulling manner in cooperation with the pulling elements 43. In the plugging process, the two opposite plugging ports are matched and plugged with each other to realize electric conduction or data transmission, and the plugging guide elements are matched to ensure the plugging precision; still adopted floating screw 21 to be used for connecting first pair of inserting panel 2 at direction passageway 11, had certain floating space at the grafting in-process, guaranteed the grafting precision, the structure is reliable, and the practicality is strong.

The above-mentioned embodiments only represent several embodiments of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the concept of the present invention, several variations and modifications can be made, which all fall within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The utility model provides a double counterpoint mechanism of plugging that floats which characterized in that: comprises that

The fixing frame is provided with a guide channel;

the first inserting panel is provided with a floating screw and is installed in the guide channel, and the first inserting panel is provided with a first inserting port and a first inserting guide element;

the movable bracket can move in the guide channel;

the second opposite-inserting panel is arranged on the movable support and provided with a second opposite-inserting port and a second inserting guide element, the second opposite-inserting port corresponds to the first opposite-inserting port, the second inserting guide element corresponds to the first inserting guide element, and traction elements are arranged on two sides of the second opposite-inserting panel;

the inserting and guiding devices are arranged on two sides of the first inserting panel and are used for matching with the traction elements to pull and insert the second inserting panel into the first inserting panel.

2. The dual-alignment floating plugging mechanism of claim 1, wherein: the fixing frame comprises a fixing table and two guide strips symmetrically arranged on two sides of the fixing table, a guide channel is formed between the two guide strips, and the first pair of inserting panels are arranged on the fixing table and correspond to the guide channel.

3. The dual-alignment floating plugging mechanism of claim 2, wherein: the L-shaped plate is installed on the guide strip, a first guide groove is formed in the bottom surface of the L-shaped plate, a second guide groove is formed in the side surface of the L-shaped plate, a first universal ball is installed on the first guide groove, and a second universal ball is installed on the second guide groove.

4. The dual-alignment floating plugging mechanism of claim 1, wherein: the fixing frame is provided with a connecting block, the floating screw is used for connecting the first pair of inserting panels to the connecting block, the floating screw is provided with a floating column, the first pair of inserting panels are provided with floating holes, and a gap is reserved between the floating holes and the floating column.

5. The dual-alignment floating plugging mechanism of claim 1, wherein: the first plug-in ports comprise a thimble port and a connector port, and the thimble port and the connector port are both arranged on the first plug-in panel; the second opposite-inserting port comprises a contact port and an inserting port, the contact port is matched with the thimble port, and the inserting port is matched with the connector port.

6. The dual-alignment floating plugging mechanism of claim 5, wherein: the connector comprises a connector port and is characterized in that inserting guide grooves are formed in two sides of the connector port, a matching guide block is arranged on the inserting port, and the matching guide block can be inserted into the inserting guide grooves.

7. The dual-alignment floating plugging mechanism of claim 1, wherein: the first inserting guide element is an inserting guide pin installed on the first inserting panel, an inserting chamfer is formed in the inserting guide pin, the second inserting guide element is a guide shaft sleeve, and the guide shaft sleeve is matched with the inserting guide pin.

8. The dual-alignment floating plugging mechanism of claim 1, wherein: the movable support comprises a bottom frame and a plurality of layers of test placing frames arranged on the bottom frame, a test position is arranged on each test placing frame and electrically connected with the second opposite plug panel, a traction table is arranged in the middle of the bottom frame, guide frames are arranged on two sides of the traction table, and the guide frames can be movably arranged in guide channels.

9. The dual-alignment floating plugging mechanism of claim 1, wherein: the traction element comprises a traction support arranged on the second opposite-inserting panel, the traction support is provided with a traction shaft sleeve, and the traction shaft sleeve is provided with a traction fixing hole.

10. The double-alignment floating plugging mechanism of claim 9, wherein: the inserting and guiding device comprises a propelling cylinder, an inserting cylinder connected with the propelling cylinder and an inserting positioning pin connected with the inserting cylinder, and the inserting positioning pin is matched with the traction fixing hole.

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