CN219667265U - Label feeding mechanism of die bonding equipment - Google Patents

Abstract

The utility model discloses a label feeding mechanism of die-attaching equipment, which comprises a large bottom plate, a first variable-pitch plate, a second variable-pitch plate, a first driving piece, a second driving piece, a first sliding component, a second sliding component, a third sliding component, a jig connecting block A, a jig connecting block B, a jig connecting block C, a jig connecting block D, a jig connecting block E, a jig connecting block F, a jig connecting block G, a jig connecting block H, a jig connecting block I, a jig connecting block J, a jig connecting block K, a jig connecting block L, a fixed regulating block A and the like.

Description

Label feeding mechanism of die bonding equipment

Technical Field

The utility model relates to the technical field of labeling, in particular to a label feeding mechanism of a die labeling device.

Background

The in-mold labeling machine is mainly used for blow molding and injection molding products of PP, PE, PET and other materials, the printed in-mold labeling is placed into a blowing and injection molding cavity before blow molding and injection molding, when the mold is closed for blowing and injection, special adhesive on the in-mold labeling is melted through the action of high temperature and high pressure in the mold, the special adhesive is melted with the surface of a bottle body or an injection molding part to form a whole, and after the mold is opened, the label is integrally formed with the product, so that the processes of manual labeling and secondary processing are omitted.

In-mold labeling machine sold in the existing market, because the center distance of a plurality of products is small due to the fact that the jig is fixed, when the standard is normally placed on the jig, standard paper cannot be normally placed on the jig, and standard suction cannot be normally conducted on the jig.

Disclosure of Invention

In order to solve the technical problem, the utility model provides a label feeding mechanism of a die bonding device, comprising: the large bottom plate comprises a web plate and four mounting sections which are staggered with each other, and the mounting sections are divided into a first mounting section, a second mounting section, a third mounting section and a fourth mounting section;

the first variable-pitch plate is arranged on the first installation section and the second installation section, the second variable-pitch plate is arranged on the third installation section and the fourth installation section, the first variable-pitch plate and the second variable-pitch plate are respectively connected with the large bottom plate in a sliding manner through a first sliding component, the first variable-pitch plate and the large bottom plate are also connected with a second driving piece, the second variable-pitch plate and the large bottom plate are also connected with a first driving piece, and the first sliding component, the first driving piece and the second driving piece are all arranged along a first direction;

the second sliding component is fixedly connected to the first variable-pitch plate along the second direction, the third sliding component is fixedly connected to the second variable-pitch plate along the second direction, the second sliding component and the third sliding component are both in sliding connection with jig connecting blocks, each pair of jig connecting blocks is provided with a fixed adjusting seat on the same side, the fixed adjusting seats are fixedly connected to the variable-pitch plate, the jig connecting blocks which are in sliding connection with the second sliding component are respectively arranged in a staggered manner with the jig connecting blocks which are in sliding connection with the third sliding component along the second direction, and each pair of jig connecting blocks is fixedly connected with a jig;

the fixed adjusting block A is positioned on the four mutually staggered mounting sections, is arranged at one end of the first sliding component, which is far away from the driving piece fixing block, and is fixedly connected with the mounting section through the fixed adjusting block base A, and can be adjusted through screw hole positions on the fixed adjusting block base A, and the first variable-pitch plate and the second variable-pitch plate are positioned below the fixed adjusting block A along the third direction.

Further, the first driving piece is fixedly connected with the web plate through a driving piece fixing block, and the first driving piece is fixedly connected with the second variable-pitch plate through a driving piece connecting seat; the second driving piece is fixedly connected with the web plate through the driving piece fixing block, and the second driving piece is fixedly connected with the first variable-pitch plate through the driving piece connecting seat.

Further, the jig connecting blocks of the second sliding assembly are 3 pairs, and are sequentially arranged along the second direction, namely a jig connecting block A, a jig connecting block B, a jig connecting block C, a jig connecting block D, a jig connecting block E and a jig connecting block F, wherein the jig connecting block A is connected with the jig connecting block B through a tension spring, the jig connecting block A is connected with the jig connecting block C through a variable-distance connecting rod, the jig connecting block E is connected with the jig connecting block F through the tension spring, the jig connecting block D is connected with the jig connecting block F through the variable-distance connecting rod, the jig connecting block A is fixedly connected with the jig A, the jig connecting block B is fixedly connected with the jig connecting block B, the jig connecting block C is fixedly connected with the jig connecting block C, the jig connecting block D is fixedly connected with the jig E, and the jig connecting block F is fixedly connected with the jig connecting block F;

the third sliding component is in sliding connection with 3 pairs of jig connecting blocks, namely a jig connecting block G, a jig connecting block H, a jig connecting block I, a jig connecting block J, a jig connecting block K and a jig connecting block L, which are sequentially arranged along a second direction, wherein the jig connecting block G is connected with the jig connecting block H through the tension spring, the jig connecting block G is connected with the jig connecting block I through the variable-pitch connecting rod, the jig connecting block K is connected with the jig connecting block L through the tension spring, the jig connecting block J is connected with the jig connecting block L through the variable-pitch connecting rod, the jig connecting block G is fixedly connected with the jig G, the jig connecting block H is fixedly connected with the jig connecting block H, the jig connecting block I is fixedly connected with the jig connecting block J, the jig connecting block K is fixedly connected with the jig connecting block K, and the jig connecting block L is fixedly connected with the jig connecting block J;

the fixed adjusting seat comprises a first fixed adjusting seat, a second fixed adjusting seat, a third fixed adjusting seat, a fourth fixed adjusting seat, a fifth fixed adjusting seat and a sixth fixed adjusting seat, wherein the first fixed adjusting seat is positioned on one side of the jig connecting block A, which is far away from the jig connecting block B, the second fixed adjusting seat is positioned between the jig connecting block B and the jig connecting block C, the third fixed adjusting seat is positioned between the jig connecting block D and the jig connecting block E, the fourth fixed adjusting seat is positioned between the jig connecting block H and the jig connecting block I, the fifth fixed adjusting seat is positioned between the jig connecting block J and the jig connecting block K, and the sixth fixed adjusting seat is positioned on one side of the jig connecting block L, which is far away from the jig connecting block K;

the first fixed adjusting seat is matched with the jig connecting block G and the jig connecting block H, the second fixed adjusting seat is matched with the jig connecting block I and the jig connecting block J, the third fixed adjusting seat is matched with the jig connecting block K and the jig connecting block L, the fourth fixed adjusting seat is matched with the jig connecting block A and the jig connecting block B, the fifth fixed adjusting seat is matched with the jig connecting block C and the jig connecting block D, and the sixth fixed adjusting seat is matched with the jig connecting block E and the jig connecting block F;

the fixed adjusting block A is located between the jig connecting block A and the jig connecting block B, between the jig connecting block E and the jig connecting block F, between the jig connecting block G and the jig connecting block H, between the jig connecting block K and the jig connecting block L along the second direction.

Further, be equipped with first buffer on the installation section of four dislocation each other, first buffer is located first slip subassembly is kept away from the one end of driving piece fixed block, next to fixed regulating block A, first buffer one end pass through first buffer mount pad with installation section fixed connection, first buffer is kept away from the other end and the first buffer stopper of first buffer mount pad mutually support, first buffer stopper is located respectively first displacement board back with the second displacement board back.

Further, the second fixed adjusting seat and the fifth fixed adjusting seat are respectively provided with a second buffer, a second buffer limiting block is respectively arranged between the jig connecting block C and the jig connecting block D and between the jig connecting block I and the jig connecting block J, and the second buffers are matched with the second buffer limiting blocks.

Further, the jig connecting block A, the jig connecting block B, the jig connecting block C, the jig connecting block D, the jig connecting block E, the jig connecting block F, the jig connecting block G, the jig connecting block H, the jig connecting block I, the jig connecting block J, the jig connecting block K, the jig connecting block L is provided with inclined planes on one side close to a central shaft of the large bottom plate.

Further, the first fixed adjusting seat the second fixed adjusting seat the third fixed adjusting seat the fourth fixed adjusting seat the fifth fixed adjusting seat with two axisymmetric fixed adjusting blocks B are fixedly connected to the sixth fixed adjusting seat, the fixed adjusting blocks B are provided with inclined planes matched with the inclined planes of the jig connecting blocks A, B, C, D, E, F, G, H, I, J, K, L.

Further, the first sliding assembly comprises a first sliding rail and a first sliding block, the first sliding rail is in threaded connection with the mounting section along the first direction, and the first sliding block is in threaded connection with the first variable-pitch plate and the second variable-pitch plate;

the second sliding component comprises a second sliding rail and a second sliding block, the second sliding rail is in threaded connection with the first variable-pitch plate along the second direction, and the second sliding block is in threaded connection with the jig connecting block A, the jig connecting block B, the jig connecting block C, the jig connecting block D, the jig connecting block E and the jig connecting block F which are sequentially arranged along the second direction respectively;

the third sliding assembly comprises a third sliding rail and a third sliding block, the third sliding rail is in threaded connection with the second distance changing plate along the second direction, and the third sliding block is in threaded connection with the jig connecting block G, the jig connecting block H, the jig connecting block I, the jig connecting block J, the jig connecting block K and the jig connecting block L which are sequentially arranged along the second direction respectively.

Further, the jig A, the jig B, the jig C, the jig D, the jig E, the jig F, the jig G, the jig H, the jig I, the jig J, the jig K and the jig L are all provided with air slots.

Further, tool connecting block A tool connecting block B tool connecting block E tool connecting block F tool connecting block G tool connecting block H tool connecting block K with all fixedly connected with extension spring pillar on the tool connecting block L, be equipped with the through hole site on the extension spring pillar, extension spring passes through the through hole site with the extension spring pillar is connected.

The utility model has the beneficial effects that:

compared with the prior art, the utility model combines two design methods of dislocation and displacement to enable the whole label feeding mechanism to present different use states in a time-changing space, thereby saving the use space to the greatest extent on the basis of meeting the labeling requirement, successfully solving the technical problem that the center distance of a plurality of products is small due to the fixation of the jig, and when the label is normally placed on the jig, the label paper cannot be normally placed on the jig, so that the jig cannot normally absorb the label, and greatly improving the universality of the device.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model and do not constitute a limitation on the utility model. In the drawings:

FIG. 1 is a rear view of the present utility model;

FIG. 2 is a front view of the present utility model;

FIG. 3 is a side view of the present utility model;

FIG. 4 is a partial exploded view of the present utility model;

in the figure:

1, a large bottom plate; 101 webs; 102 a first mounting section; 103 a second mounting section; 104 a third mounting section; 105 a fourth mounting section;

2, a first variable-pitch plate;

3, a second variable-pitch plate;

4 a first slide assembly; 401 a first slide rail; 402 a first slider;

5 a first driving member; 6 a second driving member;

a second slide assembly; 701 a fixture connecting block A;702 jig connection block B;703 jig connection block C;704 jig connecting block D;705 tool connecting block E;706 jig connection block F;707 jig a;708 jig B;709 fixture C;710 jig D;711 jig E;712 jig F;

8 a third slide assembly; 801 jig connection block G;802 jig connecting block H;803 jig connecting block I;804 jig connection block J;805 jig connection block K;806 jig connection block L;807 jig G;808 jig H;809 fixture I;810 jig J;811 jig K;812 jig L;

9 stretching a spring; 10, a variable-pitch connecting rod;

11 a first fixed adjusting seat; a second fixed adjusting seat; 13 a third fixed adjusting seat; 14 a fourth fixed adjusting seat; 15 a fifth fixed adjusting seat; 16 a sixth fixed adjusting seat; 17 fixing an adjusting block B;

18, fixing an adjusting block A;1801 fixing an adjusting block base A;

a first buffer 19; 1901 a first buffer mount; 1902 first buffer stop block;

a second buffer 20; 2001 second buffer stopper.

Detailed Description

Various embodiments of the utility model are disclosed in the following drawings, in which details of the practice are set forth in the following description for the purpose of clarity. However, it should be understood that these practical details are not to be taken as limiting the utility model. That is, in some embodiments of the utility model, these practical details are unnecessary. Moreover, for the purpose of simplifying the drawings, some conventional structures and components are shown in the drawings in a simplified schematic manner.

It should be noted that all directional indications such as up, down, left, right, front, and rear … … in the embodiments of the present utility model are merely used to explain the relative positional relationship, movement, etc. between the components in a particular posture such as that shown in the drawings, and if the particular posture is changed, the directional indication is changed accordingly.

In addition, the descriptions of the "first," "second," and the like, herein are for descriptive purposes only and are not intended to be specifically construed as order or sequence, nor are they intended to limit the utility model solely for distinguishing between components or operations described in the same technical term, but are not to be construed as indicating or implying any relative importance or order of such features. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions of the embodiments may be combined with each other, but it is necessary to base that the technical solutions can be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not within the scope of protection claimed in the present utility model.

Example 1

Referring to fig. 1 to 4, the present embodiment provides a label feeding mechanism of a die-bonding apparatus, which is used for solving the technical problem that the label feeding mechanism of the die-bonding apparatus includes:

referring to fig. 1, the large base plate 1 includes a web 101 and four mounting sections offset from each other, and the mounting sections are divided into a first mounting section 102, a second mounting section 103, a third mounting section 104 and a fourth mounting section 105;

referring to fig. 2, the pitch plate includes a first pitch plate 2 and a second pitch plate 3; the first variable-pitch plate 2 is arranged on the first mounting section 102 and the second mounting section 103, is in sliding connection with the first mounting section 102 and the second mounting section 103 through the first sliding component 4, and can reciprocate on the first sliding component 4 along the first direction;

the second variable-pitch plate 3 is arranged on the third mounting section 104 and the fourth mounting section 105, is in sliding connection with the third mounting section 104 and the fourth mounting section 105 through the first sliding component 4, and can reciprocate on the first sliding component 4 along the first direction;

the first variable-pitch plate 2 and the large bottom plate 1 are also connected with a second driving piece 6, and the second variable-pitch plate 3 and the large bottom plate 1 are also connected with a first driving piece 5;

the first driving piece 5 is fixedly connected with the web plate 101 through a driving piece fixing block, and the first driving piece 5 is fixedly connected with the second variable-pitch plate 3 through a driving piece connecting seat;

the second driving piece 6 is fixedly connected with the web plate 101 through a driving piece fixing block, and the second driving piece 6 is fixedly connected with the first variable-pitch plate 2 through a driving piece connecting seat; the driving piece connecting seat is arranged on the back surface of the second variable-pitch plate 3 and the back surface of the second variable-pitch plate 3.

Referring to fig. 2 and 3, a second sliding component 7 is disposed on the first distance changing plate 2 and is perpendicular to the first sliding component 4, the second sliding component 7 is respectively connected with a jig connection block a701, a jig connection block B702, a jig connection block C703, a jig connection block D704, a jig connection block E705, and a jig connection block F706, which are sequentially arranged along the second direction, the jig connection block a701 is connected with the jig connection block B702 through a tension spring 9, the jig connection block a701 is connected with the jig connection block C703 through a distance changing connection rod 10, the jig connection block E705 is connected with the jig connection block F706 through a tension spring 9, the jig connection block D704 is connected with the jig connection block F706 through a distance changing connection rod 10, a first fixed adjustment seat 11 is disposed on a side of the jig connection block a701 away from the jig connection block B702, a second fixed adjustment seat 12 is disposed between the jig connection block B702 and the jig connection block C703, a third fixed adjustment seat 13 is disposed between the jig connection block D704 and the jig connection block E705, a jig connection block a is fixedly connected with the jig connection block a707, a jig connection block B is fixedly connected with the jig connection block C706, and a fixed connection block D is fixedly connected with the jig connection block B is connected with the jig connection block B706;

the third sliding component 8 is arranged on the second variable-pitch plate 3 and is perpendicular to the first sliding component 4, the third sliding component 8 is respectively connected with a jig connecting block G801, a jig connecting block H802, a jig connecting block I803, a jig connecting block J804, a jig connecting block K805 and a jig connecting block L806 which are sequentially arranged along the second direction in a sliding manner, the jig connecting block G801 is connected with the jig connecting block H802 through a tension spring 9, the jig connecting block G801 is connected with the jig connecting block I803 through a variable-pitch connecting rod 10, a fourth fixed adjusting seat 14 is arranged between the jig connecting block H802 and the jig connecting block I803, the jig connecting block K805 is connected with the jig connecting block L806 through a variable-pitch connecting rod 10, a fifth fixed adjusting seat 15 is arranged between the jig connecting block J804 and the jig connecting block K805, one side of the jig connecting block L806 is far away from the jig connecting block K805 is provided with a sixth fixed adjusting seat 16, the jig G801 is fixedly connected with the jig connecting block G807, the jig connecting block H808 is fixedly connected with the jig connecting block H808, the jig connecting block I is fixedly connected with the jig connecting block I803, and the jig connecting block I is fixedly connected with the jig connecting block J connecting block I805;

the jig A707, the jig B708, the jig C709, the jig D710, the jig E711, the jig F712, the jig G807, the jig H808, the jig I809, the jig J810, the jig K811 and the jig L812 are all provided with air slots;

referring back to fig. 3, for the understanding of the present embodiment, a direction axis is established, the PA direction is a first direction, the PB direction is a second direction, and the PC direction is a third direction, where the first direction, the second direction and the third direction are perpendicular to each other, and the first direction and the second direction are parallel to the upper surface of the large bottom plate 1, and the third direction is perpendicular to the upper surface of the large bottom plate 1.

Referring to fig. 4, a fixture connection block a701, a fixture connection block B702, a fixture connection block E705, a fixture connection block F706, a fixture connection block G801, a fixture connection block H802, a fixture connection block K805 and a fixture connection block L806 are all fixedly connected with a tension spring support, a through hole is arranged on the tension spring support, and a tension spring 9 is connected with the tension spring support through the through hole;

referring back to fig. 2 and 4, a fixed adjusting block a18 is located on four mounting sections which are staggered with each other, and is located at one end of the first sliding component 4 far away from the driving piece fixing block, the fixed adjusting block a18 is fixedly connected with the mounting sections through a fixed adjusting block base a1801, the fixed adjusting block a18 is in threaded connection or integrated formation with the fixed adjusting block base a1801, the fixed adjusting block a18 can be adjusted through screw hole positions on the fixed adjusting block base a1801, the first variable-pitch plate 2 and the second variable-pitch plate 3 are located below the fixed adjusting block a18 along the third direction, and the fixed adjusting block a18 is located between the jig connecting block a701 and the jig connecting block B702, between the jig connecting block E705 and the jig connecting block F706, between the jig connecting block G801 and the jig connecting block H802, and between the jig connecting block K805 and the jig connecting block L806 respectively along the second direction;

the first fixed adjusting seat 11 is matched with the jig connecting block G801 and the jig connecting block H802, the second fixed adjusting seat 12 is matched with the jig connecting block I803 and the jig connecting block J804, the third fixed adjusting seat 13 is matched with the jig connecting block K805 and the jig connecting block L806, the fourth fixed adjusting seat 14 is matched with the jig connecting block A701 and the jig connecting block B702, the fifth fixed adjusting seat 15 is matched with the jig connecting block C703 and the jig connecting block D704, and the sixth fixed adjusting seat 16 is matched with the jig connecting block E705 and the jig connecting block F706.

The first buffer 19 is located on four mutually staggered installation sections, is located the one end that the driving piece fixed block was kept away from to first slip subassembly 4, and the next-door neighbour is fixed regulating block A18, and first buffer 19 one end is through first buffer mount pad 1901 and installation section fixed connection, and the other end that first buffer 19 kept away from first buffer mount pad 1901 and first buffer stopper 1902 mutually support, and first buffer stopper 1902 is located the back of first displacement board 2 and the back of second displacement board 3 respectively.

The second buffer 20 is arranged on the second fixed adjusting seat 12 and the fifth fixed adjusting seat 15, the second buffer limiting block 2001 is arranged between the jig connecting block C703 and the jig connecting block D704 and between the jig connecting block I803 and the jig connecting block J804, and the second buffer 20 is matched with the second buffer limiting block 2001.

With the aid of the combined design, the first driving piece 5 and the second driving piece 6 which are symmetrical in center and have completely opposite ejection directions are utilized to simultaneously drive the first variable-pitch plate 2 and the second variable-pitch plate 3 to move away from the central shaft of the large base plate 1 along the first direction, specifically, the first driving piece 5 drives the second variable-pitch plate 3 to move away from the central shaft of the large base plate 1 along the first direction on the first sliding component 4, and the second driving piece 6 drives the first variable-pitch plate 2 to move away from the center of the large base plate 1 along the first direction on the first sliding component 4 until the fixed adjusting block A18 is in conflict with the jig connecting block A701, the jig connecting block B702, the jig connecting block E705, the jig connecting block F706, the jig connecting block G801, the jig connecting block H802, the jig connecting block K805 and the jig connecting block L.

Along with the further ejection of the first driving piece 5, the fixture connecting block G801 and the fixture connecting block H802 are reversely moved and separated on the third sliding component 8 by the fixed adjusting block A18, and meanwhile, the fixture connecting block G801 drives the fixture connecting block I803 to move towards the same direction through the variable-pitch connecting rod 10; the fixture connecting block K805 and the fixture connecting block L806 are reversely moved and separated on the third sliding component 8 by the fixed adjusting block A18, and meanwhile, the fixture connecting block L806 drives the fixture connecting block J804 to move towards the same direction by the variable-pitch connecting rod 10, so that the fixture connecting block I803 and the fixture connecting block J804 reversely move and are separated on the third sliding component 8;

meanwhile, as the second driving piece 6 is further ejected, the fixture connection block a701 and the fixture connection block B702 are reversely moved and separated on the second sliding assembly 7 by the fixed adjusting block a18, and meanwhile, the fixture connection block a701 drives the fixture connection block C703 to move in the same direction through the variable-pitch connecting rod 10; the fixture connection block E705 and the fixture connection block F706 are reversely moved and separated on the second sliding component 7 by the fixed adjusting block A18, and meanwhile, the fixture connection block F706 drives the fixture connection block D704 to move towards the same direction by the variable-pitch connecting rod 10, so that the fixture connection block C703 and the fixture connection block D704 reversely move and are separated on the second sliding component 7;

until the first buffer 19 collides with the first buffer stopper 1902, the first driving member 5 and the second driving member 6 stop ejecting.

At this time, the jig connection block a701, the jig connection block B702, the jig connection block C703, the jig connection block D704, the jig connection block E705, the jig connection block F706, the jig connection block G801, the jig connection block H802, the jig connection block I803, the jig connection block J804, the jig connection block K805, and the jig connection block L806 are in a state of being separated from each other, and the label is released from the label bin, and the jig a707, the jig B708, the jig C709, the jig D710, the jig E711, the jig F712, the jig G807, the jig H808, the jig I809, the jig J810, the jig K811, and the jig L812 adsorb the label.

After the labels are adsorbed, the first driving piece 5 and the second driving piece 6 simultaneously drive the second variable-pitch plate 3 and the first variable-pitch plate 2 to be close to each other along the central axis of the large bottom plate 1 in the first direction, the fixed adjusting block A18 and the jig connecting block A701, the jig connecting block B702, the jig connecting block C703, the jig connecting block D704, the jig connecting block E705, the jig connecting block F706, the jig connecting block G801, the jig connecting block H802, the jig connecting block I803, the jig connecting block J804, the jig connecting block K805 and the jig connecting block L806 are separated, and simultaneously under the contraction action of the tension spring 9, the jig connecting block A701 and the jig connecting block B702 are close to each other, and the jig connecting block E705 and the jig connecting block F706 are close to each other, as the jig connecting block A701 drives the jig connecting block C703 to move in the same direction through the variable-pitch connecting rod 10, and the jig connecting block F706 drives the jig connecting block D704 to move in the same direction through the variable-pitch connecting rod 10, so that the jig connecting block C703 and the jig connecting block D704 are close to each other on the second sliding component 7; at this time, under the contraction action of the tension spring 9, the jig connecting block G801 and the jig connecting block H802 are mutually closed, and the jig connecting block K805 and the jig connecting block L806 are mutually closed, because the jig connecting block G801 drives the jig connecting block I803 to move in the same direction through the distance-changing connecting rod 10, and the jig connecting block L806 drives the jig connecting block J804 to move in the same direction through the distance-changing connecting rod 10, the jig connecting block I803 and the jig connecting block J804 are mutually closed on the third sliding component 8;

under the further driving of the first driving piece 5 and the second driving piece 6, the first fixed adjusting seat 11 is matched with the jig connecting block G801 and the jig connecting block H802, the second fixed adjusting seat 12 is matched with the jig connecting block I803 and the jig connecting block J804, the third fixed adjusting seat 13 is matched with the jig connecting block K805 and the jig connecting block L806, the fourth fixed adjusting seat 14 is matched with the jig connecting block A701 and the jig connecting block B702, the fifth fixed adjusting seat 15 is matched with the jig connecting block C703 and the jig connecting block D704, and the sixth fixed adjusting seat 16 is matched with the jig connecting block E705 and the jig connecting block F706;

until the second buffer 20 collides with the second buffer stopper 2001, the first driving member 5 and the second driving member 6 stop retreating, and at this time, the whole label feeding member enters the injection molding machine mold in a closed state.

Compared with the prior art, the utility model combines two design methods of dislocation and displacement, so that the whole label feeding mechanism presents different use states in a time-changing space, the use space is saved to the greatest extent on the basis of meeting the labeling requirement, the problem that the center distance of a plurality of products is small due to fixed interval of the jigs at present is successfully solved, and when the labels are normally placed on the jigs, the labels cannot be normally placed on the jigs, so that the technical problem that the jigs cannot normally absorb the labels is solved, and the universality of the device is greatly improved.

Example two

Referring to fig. 1 to 4, the present embodiment provides a label feeding mechanism of a die-bonding apparatus, which is used for solving the technical problem that a product is not completely labeled and cannot be effectively labeled due to the fixed fixture space, and when the fixture space is large and the fixture space is small, the label feeding mechanism of the die-bonding apparatus improves some of the structures on the basis of the first embodiment, and compared with the label feeding mechanism of the die-bonding apparatus provided by the first embodiment, the specific improvement is as follows:

referring back to fig. 2 and 4, the jig connection blocks a701, B702, C703, D704, E705, F706, G801, H802, I803, J804, K805, and L806 are all provided with inclined planes on the sides close to the central axis of the large base plate 1.

The first fixed adjusting seat 11, the second fixed adjusting seat 12, the third fixed adjusting seat 13, the fourth fixed adjusting seat 14, the fifth fixed adjusting seat 15 and the sixth fixed adjusting seat 16 are fixedly connected with two axisymmetric fixed adjusting blocks B17, and the fixed adjusting blocks B17 are provided with inclined planes matched with the inclined planes of the jig connecting block A701, the jig connecting block B702, the jig connecting block C703, the jig connecting block D704, the jig connecting block E705, the jig connecting block F706, the jig connecting block G801, the jig connecting block H802, the jig connecting block I803, the jig connecting block J804, the jig connecting block K805 and the jig connecting block L806.

With the help of the design, in this embodiment, compared with the first embodiment, in the process that the first and second variable-pitch plates 2 and 3 are close to the central axis of the large base plate 1, the jig connecting block a701, the jig connecting block B702, the jig connecting block C703, the jig connecting block D704, the jig connecting block E705, the jig connecting block F706, the jig connecting block G801, the jig connecting block H802, the jig connecting block I803, the jig connecting block J804, the jig connecting block K805, the jig connecting block L806 and the fixed adjusting block B17 are attached to each other by the inclined plane guiding so as to be increased tightly, so that the whole label feeding mechanism structure is more compact.

Example III

Referring to fig. 1 to 4, the present embodiment provides a label feeding mechanism of a die-bonding apparatus, which is used for solving the technical problem that a product is not completely labeled and cannot be effectively labeled due to a fixed fixture space, and when the fixture space is large, the space occupied by the label feeding component is large, and when the fixture space is small, the label feeding mechanism of the die-bonding apparatus is improved on the basis of the first and second embodiments, and compared with the label feeding mechanism of the die-bonding apparatus provided in the first and second embodiments, the specific improvement is as follows:

referring back to fig. 2 and 4, the first sliding component 4 is made of an aluminum material and comprises a first sliding rail 401 and a first sliding block 402, the first sliding rail 401 is in threaded connection with the mounting section along the first direction, and the first sliding block 402 is in threaded connection with the first variable-pitch plate 2 and the second variable-pitch plate 3.

The second sliding component 7 is made of an aluminum material and comprises a second sliding rail and a second sliding block, the second sliding rail is in threaded connection with the first variable-pitch plate 2 along a second direction, and the second sliding block is in threaded connection with the jig connecting block A701, the jig connecting block B702, the jig connecting block C703, the jig connecting block D704, the jig connecting block E705 and the jig connecting block F706 which are sequentially arranged along the second direction.

The third sliding component 8 is made of an aluminum material and comprises a third sliding rail and a third sliding block, the third sliding rail is in threaded connection with the second variable-pitch plate 2 along the second direction, and the third sliding block is in threaded connection with the jig connecting block G801, the jig connecting block H802, the jig connecting block I803, the jig connecting block J804, the jig connecting block K805 and the jig connecting block L806 which are sequentially arranged along the second direction.

With the above design, the present embodiment is more convenient to install and detach than the first and second embodiments.

The above is merely an embodiment of the present utility model, and is not intended to limit the present utility model. Various modifications and variations of the present utility model will be apparent to those skilled in the art. Any modification, equivalent replacement, improvement, or the like, which is within the spirit and principles of the present utility model, should be included in the scope of the claims of the present utility model.

Claims (10)

1. The utility model provides a mark mechanism is sent to mould subsides equipment which characterized in that includes:

the large bottom plate (1) comprises a web plate (101) and four mutually staggered mounting sections, wherein the mounting sections are divided into a first mounting section (102), a second mounting section (103), a third mounting section (104) and a fourth mounting section (105);

the variable-pitch plate comprises a first variable-pitch plate (2) and a second variable-pitch plate (3), the first variable-pitch plate (2) is arranged on the first installation section (102) and the second installation section (103), the second variable-pitch plate (3) is arranged on the third installation section (104) and the fourth installation section (105), the first variable-pitch plate (2) and the second variable-pitch plate (3) are respectively connected with the large bottom plate (1) in a sliding manner through a first sliding component (4), the first variable-pitch plate (2) and the large bottom plate (1) are also connected with a second driving piece (6), the second variable-pitch plate (3) and the large bottom plate (1) are also connected with a first driving piece (5), and the first sliding component (4), the first driving piece (5) and the second driving piece (6) are all arranged along a first direction;

the second sliding component (7) is fixedly connected to the first variable-pitch plate (2) along a second direction, the third sliding component (8) is fixedly connected to the second variable-pitch plate (3) along the second direction, the second sliding component (7) and the third sliding component (8) are both in sliding connection with jig connecting blocks, fixed adjusting seats are arranged on the same side of each jig connecting block, the fixed adjusting seats are fixedly connected to the variable-pitch plate, and the jig connecting blocks in sliding connection with the second sliding component (7) are respectively arranged in a staggered mode with the jig connecting blocks in sliding connection with the third sliding component (8) along the second direction, and each pair of jig connecting blocks are fixedly connected with jigs;

fixed regulating block A (18) is located on four installation sections that misplace each other, locates one end that driving piece fixed block was kept away from to first slip subassembly (4), fixed regulating block A (18) go up through fixed regulating block base A (1801) with installation section fixed connection, fixed regulating block A (18) can be through screw position on fixed regulating block base A (1801) is adjusted, follows the third direction first displacement board (2) with second displacement board (3) are located fixed regulating block A (18) below.

2. The label feeding mechanism of the die bonding equipment according to claim 1, wherein the first driving piece (5) is fixedly connected with the web plate (101) through the driving piece fixing block, and the first driving piece (5) is fixedly connected with the second variable-pitch plate (3) through a driving piece connecting seat; the second driving piece (6) is fixedly connected with the web plate (101) through the driving piece fixing block, and the second driving piece (6) is fixedly connected with the first variable-pitch plate (2) through the driving piece connecting seat.

3. The label feeding mechanism of the die bonding apparatus according to claim 1, wherein 3 pairs of jig connecting blocks are arranged in sequence along a second direction, wherein the jig connecting blocks are a jig connecting block A (701), a jig connecting block B (702), a jig connecting block C (703), a jig connecting block D (704), a jig connecting block E (705) and a jig connecting block F (706), the jig connecting block A (701) is connected with the jig connecting block B (702) through a tension spring (9), the jig connecting block A (701) is connected with the jig connecting block C (703) through a variable-distance connecting rod (10), the jig connecting block E (705) is connected with the jig connecting block F (706) through a tension spring (9), the jig connecting block D (704) is connected with the jig connecting block F (706) through the variable-distance connecting rod (10), a jig A (707) is fixedly connected with the jig connecting block A (701), the jig connecting block B (702) is fixedly connected with the jig connecting block B (703), the jig connecting block E (709) is fixedly connected with the jig connecting block E (710), the jig connecting block F (706) is fixedly connected with a jig F (712);

the third sliding component (8) is provided with 3 pairs of tool connecting blocks which are sequentially arranged along the second direction, namely a tool connecting block G (801), a tool connecting block H (802), a tool connecting block I (803), a tool connecting block J (804), a tool connecting block K (805) and a tool connecting block L (806), wherein the tool connecting block G (801) is connected with the tool connecting block H (802) through the tension spring (9), the tool connecting block G (801) is connected with the tool connecting block I (803) through the variable-pitch connecting rod (10), the tool connecting block K (805) is connected with the tool connecting block L (806) through the tension spring (9), the tool connecting block J (804) is connected with the tool connecting block L (806) through the variable-pitch connecting rod (10), the tool connecting block G (807) is fixedly connected with the tool connecting block G (802), the tool connecting block H (808) is fixedly connected with the tool connecting block I (803), the tool connecting block K (803) is fixedly connected with the tool connecting block J (803), the jig connecting block L (806) is fixedly connected with a jig L (812);

the fixed adjusting seat comprises a first fixed adjusting seat (11), a second fixed adjusting seat (12), a third fixed adjusting seat (13), a fourth fixed adjusting seat (14), a fifth fixed adjusting seat (15) and a sixth fixed adjusting seat (16), wherein the first fixed adjusting seat (11) is positioned on one side, far away from the jig connecting block B (702), of the jig connecting block A (701), the second fixed adjusting seat (12) is positioned between the jig connecting block B (702) and the jig connecting block C (703), the third fixed adjusting seat (13) is positioned between the jig connecting block D (704) and the jig connecting block E (705), the fourth fixed adjusting seat (14) is positioned between the jig connecting block H (802) and the jig connecting block I (803), the fifth fixed adjusting seat (15) is positioned between the jig connecting block J (804) and the jig K (805), and the sixth fixed adjusting seat (16) is positioned on one side, far away from the jig connecting block K (805);

the first fixed adjusting seat (11) is matched with the jig connecting block G (801) and the jig connecting block H (802), the second fixed adjusting seat (12) is matched with the jig connecting block I (803) and the jig connecting block J (804), the third fixed adjusting seat (13) is matched with the jig connecting block K (805) and the jig connecting block L (806), the fourth fixed adjusting seat (14) is matched with the jig connecting block A (701) and the jig connecting block B (702), the fifth fixed adjusting seat (15) is matched with the jig connecting block C (703) and the jig connecting block D (704), and the sixth fixed adjusting seat (16) is matched with the jig connecting block E (705) and the jig connecting block F (706);

the fixed adjusting blocks A (18) are respectively located between the jig connecting block A (701) and the jig connecting block B (702), between the jig connecting block E (705) and the jig connecting block F (706), between the jig connecting block G (801) and the jig connecting block H (802), and between the jig connecting block K (805) and the jig connecting block L (806) along the second direction.

4. The label feeding mechanism of a die bonding device according to claim 1, wherein a first buffer (19) is arranged on the four mutually staggered mounting sections, the first buffer (19) is located at one end of the first sliding component (4) far away from the driving piece fixing block and is close to the fixing adjusting block A (18), one end of the first buffer (19) is fixedly connected with the mounting section through a first buffer mounting seat (1901), the other end of the first buffer (19) far away from the first buffer mounting seat (1901) is mutually matched with a first buffer limiting block (1902), and the first buffer limiting block (1902) is located at the back of the first distance changing plate (2) and the back of the second distance changing plate (3) respectively.

5. The label feeding mechanism of the die bonding equipment according to claim 3, wherein the second fixed adjusting seat (12) and the fifth fixed adjusting seat (15) are respectively provided with a second buffer (20), a second buffer limiting block (2001) is respectively arranged between the jig connecting block C (703) and the jig connecting block D (704) and between the jig connecting block I (803) and the jig connecting block J (804), and the second buffer (20) is matched with the second buffer limiting block (2001).

6. The label feeding mechanism of the die bonding apparatus according to claim 3, wherein the jig connecting block a (701), the jig connecting block B (702), the jig connecting block C (703), the jig connecting block D (704), the jig connecting block E (705), the jig connecting block F (706), the jig connecting block G (801), the jig connecting block H (802), the jig connecting block I (803), the jig connecting block J (804), the jig connecting block K (805), and the jig connecting block L (806) are provided with inclined planes on one side close to a central axis of the large base plate (1).

7. The label feeding mechanism of a die bonding device according to claim 6, wherein the first fixed adjusting seat (11), the second fixed adjusting seat (12), the third fixed adjusting seat (13), the fourth fixed adjusting seat (14), the fifth fixed adjusting seat (15) and the sixth fixed adjusting seat (16) are fixedly connected with two axisymmetric fixed adjusting blocks B (17), and the fixed adjusting blocks B (17) are provided with inclined surfaces matched with inclined surfaces of the jig connecting block A (701), the jig connecting block B (702), the jig connecting block C (703), the jig connecting block D (704), the jig connecting block E (705), the jig connecting block F (706), the jig connecting block G (801), the jig connecting block H (802), the jig connecting block I (803), the jig connecting block J (804), the jig connecting block K (805) and the jig connecting block L (806).

8. A label feeding mechanism of a die bonding apparatus according to claim 3, wherein the first sliding assembly (4) comprises a first sliding rail (401) and a first sliding block (402), the first sliding rail (401) is in threaded connection with the mounting section along the first direction, and the first sliding block (402) is in threaded connection with the first and second distance changing plates (2, 3);

the second sliding component (7) comprises a second sliding rail and a second sliding block, the second sliding rail is in threaded connection with the first variable-pitch plate (2) along the second direction, and the second sliding block is in threaded connection with the jig connecting block A (701), the jig connecting block B (702), the jig connecting block C (703), the jig connecting block D (704), the jig connecting block E (705) and the jig connecting block F (706) which are sequentially arranged along the second direction;

the third sliding assembly (8) comprises a third sliding rail and a third sliding block, the third sliding rail is connected with the second distance changing plate (3) in a threaded mode along the second direction, and the third sliding block is connected with the jig connecting block G (801), the jig connecting block H (802) and the jig connecting block I (803) which are sequentially arranged along the second direction in a threaded mode, and the jig connecting block J (804) and the jig connecting block K (805) are connected with the jig connecting block L (806) in a threaded mode.

9. The label feeding mechanism of the die bonding apparatus according to claim 3, wherein the jig a (707), the jig B (708), the jig C (709), the jig D (710), the jig E (711), the jig F (712), the jig G (807), the jig H (808), the jig I (809), the jig J (810), the jig K (811), and the jig L (812) are each provided with an air slot.

10. The label feeding mechanism of the die bonding equipment according to claim 3, wherein the jig connecting block A (701), the jig connecting block B (702), the jig connecting block E (705), the jig connecting block F (706), the jig connecting block G (801), the jig connecting block H (802), the jig connecting block K (805) and the jig connecting block L (806) are fixedly connected with extension spring struts, through holes are formed in the extension spring struts, and the extension springs (9) are connected with the extension spring struts through the through holes.