CN209901618U

CN209901618U - Xy-axis point glue adjusting seat for die bonder

Info

Publication number: CN209901618U
Application number: CN201920397040.2U
Authority: CN
Inventors: 吴逵
Original assignee: Keguang Electronics (dongguan) Co Ltd
Current assignee: Keguang Electronics (dongguan) Co Ltd
Priority date: 2019-03-26
Filing date: 2019-03-26
Publication date: 2020-01-07
Anticipated expiration: 2029-03-26

Abstract

The utility model provides an xy-axis point gluing adjusting seat for a die bonder, which comprises a base, wherein an x-axis sliding connection structure is arranged on the base, an x-axis sliding block is fixed at the output end of the x-axis sliding connection structure, a y-axis sliding connection structure is arranged on the x-axis sliding block, and a y-axis sliding block is fixed at the output end of the y-axis sliding connection structure; an x-axis adjusting rod is further arranged on the base, a first spring is sleeved outside the x-axis adjusting rod, one end of the x-axis adjusting rod is in threaded connection with the x-axis adjusting screw hole, the other end of the x-axis adjusting rod is connected with a first positioning block, and the first positioning block is fixedly connected with an x-axis sliding block; still be equipped with the y axle on the x axle sliding block and adjust the pole, the y axle is adjusted the pole overcoat and is equipped with the second spring, and the one end and the y axle of y axle regulation pole are adjusted screw threaded connection, and the other end of y axle regulation pole is connected with the second locating piece, second locating piece and y axle sliding block fixed connection. The utility model discloses can realize reliable stable regulation to the plane position of point adhesive needle.

Description

Xy-axis point glue adjusting seat for die bonder

Technical Field

The utility model relates to a point is glued the structure, specifically discloses an xy axle point is glued and is adjusted seat for solid brilliant machine.

Background

The die bonder mainly comprises a conveying material channel, a die positioning mechanism, a glue dispensing mechanism and a movably positioned die transferring mechanism, wherein a lead frame material belt is placed on the conveying material channel, a die disc is placed on the die positioning mechanism, glue dispensing is realized on the lead frame by the glue dispensing mechanism, and the die transferring mechanism transfers the die on the die disc to the lead frame.

In the prior art, the dispensing needle is directly fixed on a dispensing mechanism of the die bonder, and when dispensing is performed on different products, adjustment can be achieved only by replacing the dispensing needle, but the horizontal position of the dispensing needle cannot be adjusted, and matched dispensing processing can be achieved only by using different die bonders or adjusting the positions of lead frames, so that the operation is complex and the input cost is high.

SUMMERY OF THE UTILITY MODEL

Based on this, it is necessary to provide an xy axis dispensing adjusting seat for die bonder, aiming at the problems in the prior art, which can realize reliable adjustment of the plane position of the dispensing needle and effectively solve the problem that the plane position of the dispensing needle can not be adjusted.

In order to solve the prior art problem, the utility model discloses an xy-axis glue dispensing adjusting seat for a die bonder, which comprises a base, wherein an x-axis sliding connection structure is arranged on the base, an x-axis sliding block is fixed at the output end of the x-axis sliding connection structure, a y-axis sliding connection structure is arranged on the x-axis sliding block, a y-axis sliding block is fixed at the output end of the y-axis sliding connection structure, and a plurality of glue dispensing needle mounting grooves are arranged on the y-axis sliding block;

an x-axis abdicating groove is further formed in the base, one end of the x-axis abdicating groove penetrates through one side of the base, an x-axis adjusting screw hole is formed in the other end of the x-axis abdicating groove, an x-axis adjusting rod is arranged in the x-axis abdicating groove, a first spring is sleeved outside the x-axis adjusting rod, one end of the x-axis adjusting rod is in threaded connection with the x-axis adjusting screw hole, the other end of the x-axis adjusting rod is connected with a first positioning block through a first bearing, the first positioning block is fixedly connected with an x-axis sliding block, two first locking elastic pieces are fixed below the first positioning block and are respectively located on two sides of the x-axis adjusting rod, a first locking through hole is formed in each first locking elastic piece, and a first locking screw is arranged in each;

still be equipped with the y axle recess of stepping down on the x axle sliding block, one side of x axle sliding block is run through to the one end of the recess of stepping down of y axle, the other end of the recess of stepping down of y axle is equipped with y axle regulation screw, it is equipped with y axle regulation pole to step down in the recess of y axle, y axle regulation pole overcoat is equipped with the second spring, the one end and the y axle regulation screw threaded connection of y axle regulation pole, the other end of y axle regulation pole is connected with the second locating piece through the second bearing, second locating piece and y axle sliding block fixed connection, be fixed with two second locking shell fragments under the second locating piece, two second locking shell fragments are located the both sides of y axle regulation pole respectively, be equipped with second locking through-hole in the second locking shell fragment, be equipped with a second locking screw in.

Further, the x-axis sliding connection structure is a cross roller guide rail.

Further, the y-axis sliding connection structure is a cross roller guide rail.

Furthermore, a first limiting baffle is fixed on the x-axis adjusting rod, and a first spring is located between the first limiting baffle and the end wall of the x-axis abdicating groove.

Furthermore, a second limiting baffle is fixed on the y-axis adjusting rod, and a second spring is located between the second limiting baffle and the end wall of the y-axis abdicating groove.

Furthermore, a first hand wheel is fixed at one end, away from the x-axis adjusting screw hole, of the x-axis adjusting rod, and a second hand wheel is fixed at one end, away from the y-axis adjusting screw hole, of the y-axis adjusting rod.

The utility model has the advantages that: the utility model discloses an xy axle point glue adjusting seat for solid brilliant machine sets up reliable xy plane and adjusts the structure, can realize reliable stable regulation to the plane position of point glue needle to effectively solve the problem that the plane position of point glue needle can't be adjusted, can effectively reduce solid brilliant machine's input cost, the point glue needle position of adjusting can be firmly locked, can effectively avoid the point to glue in-process point glue needle emergence skew, in addition, the structure of adjusting the seat is succinct, can effectively save the cost.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic view of the split structure of the present invention.

The reference signs are: the dispensing needle positioning device comprises a base 10, an x-axis sliding connection structure 11, an x-axis abdicating groove 12, an x-axis adjusting screw hole 13, an x-axis sliding block 20, a y-axis sliding connection structure 21, a y-axis abdicating groove 22, a y-axis adjusting screw hole 23, a y-axis sliding block 30, a dispensing needle mounting groove 31, an x-axis adjusting rod 40, a first limit baffle 401, a first spring 41, a first bearing 42, a first positioning block 43, a first locking elastic sheet 44, a first locking through hole 441, a first locking screw 45, a first hand wheel 46, a y-axis adjusting rod 50, a second limit baffle 501, a second spring 51, a second bearing 52, a second positioning block 53, a second locking elastic sheet 54, a second locking through hole 541, a second locking screw 55 and a second hand wheel 56.

Detailed Description

For further understanding of the features and technical means of the present invention, as well as the specific objects and functions attained by the present invention, the present invention will be described in further detail with reference to the accompanying drawings and detailed description.

Refer to fig. 1 and 2.

The embodiment of the utility model discloses xy-axis glue dispensing adjusting seat for a die bonder, which comprises a base 10, wherein an x-axis sliding connection structure 11 is arranged on the base 10, the fixed end of the x-axis sliding connection structure 11 is fixedly connected with the base 10, an x-axis sliding block 20 is fixed at the output end of the x-axis sliding connection structure 11, a y-axis sliding connection structure 21 is arranged on the x-axis sliding block 20, the fixed end of the y-axis sliding connection structure 21 is fixedly connected with the x-axis sliding block 20, a y-axis sliding block 30 is fixed at the output end of the y-axis sliding connection structure 21, and a plurality of glue dispensing needle mounting grooves 31 are arranged on the y-axis sliding;

the base 10 is further provided with an x-axis abdicating groove 12, one end of the x-axis abdicating groove 12 penetrates one side of the base 10, the other end of the x-axis abdicating groove 12 is provided with an x-axis adjusting screw hole 13, the x-axis adjusting screw hole 13 penetrates into the base 10, an x-axis adjusting rod 40 is arranged in the x-axis abdicating groove 12, a first spring 41 is sleeved outside the x-axis adjusting rod 40, one end of the x-axis adjusting rod 40 is in threaded connection with the x-axis adjusting screw hole 13, the other end of the x-axis adjusting rod 40 is connected with a first positioning block 43 through a first bearing 42, the first positioning block 43 is fixedly connected with the x-axis sliding block 20, two first locking spring pieces 44 are fixed below the first positioning block 43, the two first locking spring pieces 44 are respectively positioned at two sides of the x-axis adjusting rod 40, a first locking through hole 441 is arranged in the first locking spring piece 44, a first locking screw 45 is arranged in the two first locking through holes 441, and is in threaded connection with the other, or the first locking screw 45 penetrates through the two first locking through holes 441 and then is in threaded connection with the nut;

the x-axis sliding block 20 is further provided with a y-axis abdicating groove 22, the y-axis abdicating groove 22 is directly arranged on the x-axis sliding block 20, the structure can be effectively simplified, and the arrangement of redundant plate seats can be avoided, one end of the y-axis abdicating groove 22 penetrates through one side of the x-axis sliding block 20, the other end of the y-axis abdicating groove 22 is provided with a y-axis adjusting screw 23, the y-axis adjusting screw 23 penetrates into the x-axis sliding block 20, a y-axis adjusting rod 50 is arranged in the y-axis abdicating groove 22, a second spring 51 is sleeved outside the y-axis adjusting rod 50, one end of the y-axis adjusting rod 50 is in threaded connection with the y-axis adjusting screw 23, the other end of the y-axis adjusting rod 50 is connected with a second positioning block 53 through a second bearing 52, the second positioning block 53 is fixedly connected with the y-axis sliding block 30, two second locking elastic, the second locking spring 54 is provided with second locking through holes 541 therein, two second locking through holes 541 are provided with a second locking screw 55 therein, the second locking screw 55 passes through one second locking through hole 541 to be in threaded connection with the other second locking through hole 541, or the second locking screw 55 passes through two second locking through holes 541 to be in threaded connection with a nut.

The dispensing needle is arranged on the dispensing needle mounting groove 31; the position of the x-axis sliding block 20 can be adjusted by rotating the x-axis adjusting rod 40, after the position is adjusted, the two first locking elastic sheets 44 can be driven by the first locking screws 45 to lock the x-axis adjusting rod 40, and the deviation between the x-axis sliding block 20 and the base 10 in the dispensing process is avoided; the position of the y-axis sliding block 30 can be adjusted by rotating the y-axis adjusting rod 50, after the position is adjusted, the two second locking elastic pieces 54 can be driven by the second locking screws 55 to lock the y-axis adjusting rod 50, and the deviation between the y-axis sliding block 30 and the base 10 in the dispensing process is avoided.

The utility model discloses set up reliable xy plane and adjust the structure, can realize reliable stable regulation to the plane position of dispensing needle to effectively solve the problem that the plane position of dispensing needle can't be adjusted, can effectively reduce the input cost of solid brilliant machine, the dispensing needle position of adjusting can firmly be locked, can effectively avoid the point to glue in-process dispensing needle and take place the skew, in addition, the structure of adjusting the seat is succinct, can effectively save the cost.

In this embodiment, the x-axis sliding connection structure 11 is a cross roller guide rail, the cross roller guide rail is composed of two guide rails with V-shaped raceways, roller holder cylindrical rollers, and the like, the cylindrical rollers arranged in a cross manner reciprocate on the V-shaped raceway surface subjected to precision grinding, and can bear loads in various directions to realize high-precision and stable linear motion, one of the guide rails of the cross roller guide rail is set as a fixed end of the x-axis sliding connection structure 11, and the other guide rail is set as an output end.

Based on the above embodiment, the y-axis sliding connection structure 21 is a cross roller guide rail, the cross roller guide rail is composed of two guide rails with V-shaped raceways, roller holder cylindrical rollers, and the like, the cylindrical rollers arranged in a cross manner reciprocate on the V-shaped raceway surface subjected to precision grinding, and can bear loads in various directions, so as to realize high-precision and stable linear motion, one of the guide rails of the cross roller guide rail is set as the fixed end of the y-axis sliding connection structure 21, and the other guide rail is set as the output end.

In this embodiment, the x-axis adjusting rod 40 is fixed with a first limiting baffle 401, preferably, the first limiting baffle 401 is an annular structure, the first spring 41 is located between the first limiting baffle 401 and the end wall of the x-axis abdicating groove 12, the first limiting baffle 401 can prevent the first spring 41 from contacting the first bearing 42, and can prevent the first spring 41 and the first bearing 42 from affecting each other.

Based on the above embodiment, the y-axis adjusting rod 50 is fixed with the second limiting baffle 501, preferably, the second limiting baffle 501 is of an annular structure, the second spring 51 is located between the second limiting baffle 501 and the end wall of the y-axis abdicating groove 22, the second limiting baffle 501 can prevent the second spring 51 from contacting the second bearing 52, and can prevent the second spring 51 from interacting with the second bearing 52.

In this embodiment, a first hand wheel 46 is fixed to an end of the x-axis adjusting rod 40 away from the x-axis adjusting screw hole 13, a second hand wheel 56 is fixed to an end of the y-axis adjusting rod 50 away from the y-axis adjusting screw hole 23, and the x-axis adjusting rod 40 and the y-axis adjusting rod 50 can be effectively adjusted by the first hand wheel 46 and the second hand wheel 56.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is 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 spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims

1. An xy-axis dispensing adjusting seat for a die bonder is characterized by comprising a base (10), wherein an x-axis sliding connection structure (11) is arranged on the base (10), an x-axis sliding block (20) is fixed at the output end of the x-axis sliding connection structure (11), a y-axis sliding connection structure (21) is arranged on the x-axis sliding block (20), a y-axis sliding block (30) is fixed at the output end of the y-axis sliding connection structure (21), and a plurality of dispensing needle mounting grooves (31) are formed in the y-axis sliding block (30);

the base (10) is further provided with an x-axis abdicating groove (12), one end of the x-axis abdicating groove (12) penetrates through one side of the base (10), the other end of the x-axis abdicating groove (12) is provided with an x-axis adjusting screw hole (13), an x-axis adjusting rod (40) is arranged in the x-axis abdicating groove (12), a first spring (41) is sleeved outside the x-axis adjusting rod (40), one end of the x-axis adjusting rod (40) is in threaded connection with the x-axis adjusting screw hole (13), the other end of the x-axis adjusting rod (40) is connected with a first positioning block (43) through a first bearing (42), the first positioning block (43) is fixedly connected with the x-axis sliding block (20), two first locking elastic sheets (44) are fixed below the first positioning block (43), and the two first locking elastic sheets (44) are respectively positioned at two sides of the x-axis adjusting rod (40), a first locking through hole (441) is formed in the first locking elastic sheet (44), and a first locking screw (45) is arranged in each of the two first locking through holes (441);

the Y-axis abdicating mechanism is characterized in that a y-axis abdicating groove (22) is further arranged on the x-axis sliding block (20), one end of the y-axis abdicating groove (22) penetrates through one side of the x-axis sliding block (20), the other end of the y-axis abdicating groove (22) is provided with a y-axis adjusting screw hole (23), a y-axis adjusting rod (50) is arranged in the y-axis abdicating groove (22), a second spring (51) is sleeved outside the y-axis adjusting rod (50), one end of the y-axis adjusting rod (50) is in threaded connection with the y-axis adjusting screw hole (23), the other end of the y-axis adjusting rod (50) is connected with a second positioning block (53) through a second bearing (52), the second positioning block (53) is fixedly connected with the y-axis sliding block (30), two second locking elastic pieces (54) are fixed under the second positioning block (53), and the two second locking elastic pieces (54) are respectively positioned, and a second locking through hole (541) is formed in the second locking elastic sheet (54), and a second locking screw (55) is arranged in each of the two second locking through holes (541).

2. The xy-axis dispensing adjusting base for the die bonder as claimed in claim 1, wherein the x-axis sliding connection structure (11) is a cross roller guide.

3. The xy-axis dispensing adjusting base for the die bonder as claimed in claim 1 or 2, wherein the y-axis sliding connection structure (21) is a cross roller guide rail.

4. The xy-axis dispensing adjusting base for the die bonder as claimed in claim 1, wherein a first limiting baffle (401) is fixed on the x-axis adjusting rod (40), and the first spring (41) is located between the first limiting baffle (401) and the end wall of the x-axis abdicating groove (12).

5. The xy-axis dispensing adjusting base for the die bonder as claimed in claim 1 or 4, wherein a second limiting baffle (501) is fixed on the y-axis adjusting rod (50), and the second spring (51) is located between the second limiting baffle (501) and the end wall of the y-axis abdicating groove (22).

6. The xy-axis dispensing adjusting base for the die bonder as claimed in claim 1, wherein a first hand wheel (46) is fixed to one end of the x-axis adjusting rod (40) far away from the x-axis adjusting screw hole (13), and a second hand wheel (56) is fixed to one end of the y-axis adjusting rod (50) far away from the y-axis adjusting screw hole (23).