CN214264624U - Rotating block and sliding block mounting mechanism of buffer assembly - Google Patents

Abstract

The utility model discloses a rotating block and sliding block mounting mechanism of a buffer component, which comprises a sliding block feeding component, a sliding block distributing component, two rotating block feeding components, a rotating block distributing component, a double-station grabbing component and a rotating block pushing component, wherein the rotating block distributing component is provided with two feeding ends, each feeding end is communicated with the discharging end of one rotating block feeding component, and the rotating block distributing component is used for outputting the rotating block which is in the working state and is used for outputting the number of the rotating block feeding components; compared with the prior art, the utility model discloses a buffer subassembly change piece and slider installation mechanism has two change piece pay-off subassemblies, changes the piece and divides the material subassembly to have two feed ends, every feed end all communicates with a change piece pay-off subassembly's discharge end, when assembling different buffer subassemblies, the work of the change piece pay-off subassembly that corresponds, changes the piece and divides the material subassembly to export this change piece pay-off subassembly number of pieces single output, can easily change money, and the commonality is strong, saves equipment cost.

Description

Rotating block and sliding block mounting mechanism of buffer assembly

Technical Field

The utility model relates to a buffer subassembly equipment technical field specifically, relates to a commentaries on classics piece and slider installation mechanism of buffer subassembly.

Background

The buffer subassembly includes the buffer base, change the piece, the slider, extension spring and hydro-cylinder, change the piece, slider and extension spring are installed in one side of buffer base, the hydro-cylinder is installed in the opposite side of buffer base, current N series buffer subassembly has two kinds, divide into N1 buffer subassembly and N2 buffer subassembly, other structures of N1 buffer subassembly and N2 buffer subassembly are the same completely, only change the piece structure different, if current buffer subassembly equipment, only change a pay-off subassembly and a slider branch material subassembly usually, it divides the material subassembly to be equipped with on inserting of the discharge end of material subassembly and changes the appearance silo of change commentaries on classics piece adaptation to change the piece, assemble different buffer subassemblies and can only accomplish with different equipment, not only extravagant equipment cost, extravagant place simultaneously.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a commentaries on classics piece and slider installation mechanism of buffer subassembly, it is used for solving above-mentioned technical problem.

A rotary block and slide mounting mechanism for a damper assembly, comprising:

the sliding block feeding assembly is used for conveying the sliding block;

the feed end of the sliding block material distribution assembly is communicated with the discharge end of the sliding block feeding assembly and is used for singly outputting the sliding blocks output by the sliding block feeding assembly;

each rotating block feeding assembly is used for conveying one rotating block, and only one rotating block feeding assembly is in a working state each time;

the rotary block distributing component is provided with two feeding ends, each feeding end is communicated with the discharging end of one rotary block feeding component, and the rotary block distributing component is used for outputting the rotary blocks in the working state in a single mode;

the double-station grabbing assembly is used for conveying the rotary blocks output by the rotary block distributing assembly to the discharge end of the slide block distributing assembly to be assembled with the slide blocks output by the slide block distributing assembly, and conveying the assembled slide blocks and rotary block assemblies to the buffer base;

and the pushing and rotating block assembly is used for pushing the double-station grabbing assembly to carry to the sliding block and the rotating block assembly on the buffer base and install the sliding block and the rotating block assembly in place.

According to the utility model discloses an embodiment, the commentaries on classics piece divides the material subassembly to divide material support, two commentaries on classics piece pay-off pieces, commentaries on classics piece branch material drive group and two commentaries on classics piece guide blocks including changeing the piece, and two commentaries on classics piece pay-off pieces are located and are divided the material support and communicate in the discharge end of a commentaries on classics piece pay-off subassembly respectively, change the piece and divide material drive group to locate to change the piece and divide the material support, and its drive end is connected with two commentaries on classics piece guide blocks for drive two commentaries on classics piece guide blocks and remove to the commentaries on classics piece pay-off piece that corresponds.

According to an embodiment of the utility model, the turning block divides the material drive group to divide the material deflector including the turning block, first turning block divides the material driving piece, the turning block divides the material slide, the turning block divides material guide block and second turning block divides the material driving piece, first turning block divides the material driving piece to locate the turning block and divides material support and drive end and turning block to divide the material deflector to be connected, the turning block divides the material deflector to locate the turning block, the turning block divides material guide block sliding connection in turning block and divides the material slide, second turning block divides the material driving piece to locate the turning block and divides the material deflector, its drive end divides the material guide block with the turning block to be connected, two turning block pay-off the material locate the turning block divide on the material slide and with the turning block and divide the material guide block to have the clearance, two turning block guides locate the turning block and divide the material guide block and can divide the material guide block to remove along with the turning block.

According to the utility model discloses an embodiment, the commentaries on classics piece divides the material subassembly still including the limit bit group of changing a money and the stopper of changing a money, and the limit bit group of changing a money and the stopper of changing a money branch are located commentaries on classics piece branch material support both sides, and the both sides that the commentaries on classics piece divides the material deflector are equipped with the gag lever post of changing a money, and the limit bit group of changing a money and the stopper of changing a money correspond the gag lever post of changing a money that inclines with the commentaries on classics piece branch material deflector respectively and correspond.

According to the utility model discloses an embodiment, the spacing group of money change is including the spacing seat of money change, the spacing strip of money change and the driving piece of money change, the spacing seat of money change is located the commentaries on classics piece and is divided the material support, the spacing sliding connection of money change is in the spacing seat of money change, the driving piece of money change is located the spacing seat of money change and the drive end is connected with the spacing strip of money change for drive the spacing strip of money change along the spacing seat rebound of money change, make the spacing of money change divide the shift distance of the spacing pole of money change that the material deflector corresponds the side to the piece to carry on spacingly.

According to the utility model discloses an embodiment, the commentaries on classics piece divides the material subassembly still includes two commentaries on classics pieces detection piece that targets in place, and two commentaries on classics pieces detection piece that targets in place locate the commentaries on classics piece and divide the material support and adjust well with commentaries on classics piece pay-off piece.

According to the utility model discloses an embodiment, the slider divides the material subassembly to include that the slider divides the material support, first slider divides the material driving piece, the slider divides the material slide, the equipment mold insert, second slider divides the material driving piece and the slider shifting block, first slider divides the material driving piece to locate the slider and divides the material support, the slider divides the material slide to be connected with the drive end that first slider divided the material driving piece, the slider is located to the equipment mold insert and divides the material slide, be equipped with on it with the installation cavity of commentaries on classics piece and slider adaptation and with the feed end of slider pay-off subassembly's discharge end intercommunication, the second slider divides the material driving piece to locate the slider and divides the material slide, it and the drive end is connected with the slider shifting block.

According to the utility model discloses an embodiment, the subassembly is snatched to the duplex position is including grabbing the material support, the translation driving piece, the lift driving piece, grab the material connecting plate, first clamping jaw group and second clamping jaw group, the translation driving piece is located and is grabbed the material support, the lift driving piece is connected with the drive end of translation driving piece, it is connected with the drive end of lift driving piece to grab the material connecting plate, first clamping jaw group and second clamping jaw component are located and are grabbed the both ends of material connecting plate, the second clamping jaw group is used for transporting the commentaries on classics piece that commentaries on classics piece divides material subassembly output to the discharge end that the slider divides the material subassembly to assemble with the slider that the slider divides the material subassembly output, first clamping jaw group is used for transporting slider and commentaries on classics piece subassembly that the equipment is in the same place to the buffer base.

According to the utility model discloses an embodiment, first clamping jaw group is including first clamp, spring holder and compression leg, and first clamp is got and is located the one end of grabbing the material connecting plate, and the spring holder is located first clamp and is got and go up and be located between two clamping jaws of first clamp, and its inside is equipped with the spring, and compression leg connection is on the spring holder, and with the spring butt in the spring holder.

According to the utility model discloses an embodiment, second clamping jaw group gets piece and commentaries on classics piece briquetting including pressing from both sides the clamp, gets the other end that the piece was located and is grabbed the material connecting plate to press from both sides, and the second presss from both sides gets the piece and presss from both sides the drive end of getting the piece of feeding and be connected, changes the piece briquetting and locates on the second presss from both sides and gets and just be located the second and press from both sides between two clamping jaws of getting the piece.

Compared with the prior art, the utility model discloses a buffer subassembly change piece and slider installation mechanism has following advantage:

the utility model discloses a buffer assembly's commentaries on classics piece and slider installation mechanism has two commentaries on classics piece pay-off subassemblies, commentaries on classics piece branch material subassembly has two feed ends, and every feed end all communicates with the discharge end of a commentaries on classics piece pay-off subassembly, and when assembling different buffer subassemblies, the work of the corresponding commentaries on classics piece pay-off subassembly, and another commentaries on classics piece pay-off subassembly stops the action, and commentaries on classics piece that commentaries on classics piece branch material subassembly will be in operating condition changes the piece number output of pay-off subassembly and singly outputs; the money can be easily changed, the universality is strong, and the equipment cost is saved.

Drawings

FIG. 1 is a schematic structural view of a rotating block and slider mounting mechanism of a damper assembly according to the present invention;

FIG. 2 is a schematic structural view of FIG. 1 with the slider feed vibratory disc pack and the rotor feed vibratory disc pack removed;

FIG. 3 is a schematic structural view of the slider dispensing assembly of FIG. 2;

FIG. 4 is a schematic structural view of the rotary block distributing assembly in FIG. 2;

FIG. 5 is a schematic view of the structure of FIG. 4 in another direction;

FIG. 6 is a schematic structural view of the double-station grasping assembly of FIG. 2;

FIG. 7 is a schematic view of the structure of FIG. 6 in another direction;

in the figure: 1. the rotary block feeding device comprises a sliding block feeding assembly, 11 sliding block feeding vibrating disc groups, 12 sliding block feeding direct vibrating groups, 2 sliding block distributing assemblies, 21 sliding block distributing supports, 22 first sliding block distributing driving pieces, 23 sliding block distributing sliding plates, 24 assembly inserts, 25 second sliding block distributing driving pieces, 26 sliding block shifting blocks, 3 rotating block feeding assemblies, 31 rotating block feeding vibrating disc groups, 32 rotating block feeding direct vibrating groups, 33 rotating block pressing groups, 331 rotating block pressing supports, 332 rotating block driving pieces, 333 rotating block pressing heads, 4 rotating block distributing assemblies, 41 rotating block distributing supports, 411 rotating block distributing sliding blocks, 42 rotating block feeding blocks, 43 rotating block distributing driving groups, 431 rotating block distributing guide plates, 4311 changing limiting rods, 4312 rotating block distributing sliding strips, 432 first rotating block distributing sliding blocks, 433 rotating block distributing driving pieces, 434 rotating block distributing guiding sliding blocks, 435. The automatic transferring device comprises a second transferring block distributing driving piece, 44 a transferring block guide block, 45 a money changing limiting group, 451 a money changing limiting seat, 452 a money changing limiting strip, 453 a money changing driving piece, 46 a money changing limiting block, 47 a transferring block in-place detection piece, 5 a double-station grabbing component, 51 a grabbing bracket, 52 a translation driving piece, 53 a lifting driving piece, 54 a grabbing connecting plate, 541 a clamping sliding strip, 55 a first clamping jaw group, 551 a first clamping piece, 552 a spring seat, 553 a pressing column, 56 a second clamping jaw group, 561 a clamping feeding piece, 562 a second clamping piece, 5621 a clamping sliding block, 563 a transferring block pressing block, 6 a transferring block component, 61 a transferring block driving piece and 62 a transferring block pushing block

The utility model discloses realization and the advantage of function will combine the embodiment, will make further explanation with the attached drawing.

Detailed Description

In the following description, for purposes of explanation, numerous implementation details are set forth in order to provide a thorough understanding of the present invention. It should be understood, however, that these implementation details should not be used to limit the invention. That is, in some embodiments of the invention, details of these implementations are not necessary. In addition, some conventional structures and components are shown in simplified schematic form in the drawings.

It should be noted that all the directional indicators (such as upper, lower, left and right, front and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are only for description purposes, not specifically referring to the order or sequence, and are not intended to limit the present invention, but only to distinguish the components or operations described in the same technical terms, and are not to be construed as indicating or implying any relative importance or implicit indication of the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

For further understanding of the contents, features and effects of the present invention, the following embodiments are exemplified in conjunction with the accompanying drawings as follows:

referring to fig. 1 and 2, fig. 1 is a schematic structural view of a rotating block and a sliding block mounting mechanism of a damper assembly according to the present embodiment; FIG. 2 is a schematic structural view of FIG. 1 with the slider feed vibratory disc pack and the rotor feed vibratory disc pack removed. As shown in the figure, the rotating block and sliding block mounting mechanism of the buffer component comprises a sliding block feeding component 1, a sliding block distributing component 2, two rotating block feeding components 3, a rotating block distributing component 4, a double-station grabbing component 5 and a pushing and rotating block component 6, wherein the sliding block feeding component 1 is used for conveying a sliding block; the feed end of the slide block material distribution assembly 2 is communicated with the discharge end of the slide block feeding assembly 1 and is used for singly outputting the slide blocks output by the slide block feeding assembly 1; each rotating block feeding component 3 is used for conveying a rotating block, and only one rotating block feeding component 3 is in a working state each time; the rotary block distributing component 4 is provided with two feeding ends, each feeding end is communicated with the discharging end of one rotary block feeding component 3, and the rotary block distributing component 4 is used for outputting rotary blocks output by the rotary block feeding components 3 in a working state; the double-station grabbing component 5 is used for conveying the rotary blocks output by the rotary block distributing component 4 to the discharge end of the slide block distributing component 2 to be assembled with the slide blocks output by the slide block distributing component 2, and conveying the assembled slide blocks and rotary block components to the buffer base; and the push rotating block assembly 6 is used for pushing the double-station grabbing assembly 5 to be carried to the sliding block and the rotating block assembly on the buffer base and installing the sliding block and the rotating block assembly in place.

Referring to fig. 1 again, as shown in the figure, the slide feeding assembly 1 includes a slide feeding vibrating disk set 11 and a slide feeding straight vibrating set 12, a discharging end of the slide feeding vibrating disk set 11 is communicated with a feeding end of the slide feeding straight vibrating set 12, and a discharging end of the slide feeding straight vibrating set 12 is communicated with a feeding end of the slide distributing assembly 2. The slider feeding vibration plate group 11 and the slider feeding straight vibration group 12 belong to the prior art, and for the sake of brevity, a description thereof is omitted.

Referring to fig. 3, fig. 3 is a schematic structural view of the slider distributing assembly in fig. 2. As shown in the figure, in this embodiment, the slider distributing assembly 2 includes a slider distributing bracket 21, a first slider distributing driving member 22, a slider distributing sliding plate 23, an assembling insert 24, a second slider distributing driving member 25 and a slider shifting block 26, the first slider distributing driving member 22 is disposed on the slider distributing bracket 21, the slider distributing sliding plate 23 is connected to the driving end of the first slider distributing driving member 22, the assembling insert 24 is disposed on the slider distributing sliding plate 23, an installation cavity adapted to the rotating block and the slider and a feeding end communicated with the discharging end of the slider feeding assembly 1 are disposed on the assembling insert 24, the second slider distributing driving member 25 is disposed on the slider distributing sliding plate 23, and the driving end of the second slider distributing driving member is connected to the slider shifting block 26. During specific application, the first slider divides the material driving piece 22 to drive the slider to divide the material sliding plate 23 to move to the discharge end of the slider feeding component 1, so that the feed end of the assembled insert 24 is aligned with the discharge end of the slider feeding component 1, and simultaneously the second slider divides the material driving piece 25 to start and drive the slider shifting block 26 to move to the discharge end of the slider feeding component 1, so as to shift the slider output by the slider feeding component 1 to the assembled insert 24, and then the first slider divides the material driving piece 22 to drive the slider to divide the material sliding plate 23 to move reversely, so that the assembled insert 24 leaves the discharge end of the slider feeding component 1.

Referring to fig. 1 and 2 again, in the present embodiment, each rotating block feeding assembly 3 includes a rotating block feeding vibrating plate set 31, a rotating block feeding direct vibrating set 32 and a rotating block pressing set 33, a discharging end of the rotating block feeding vibrating plate set 31 is communicated with a feeding end of the rotating block feeding direct vibrating set 32, a discharging end of each rotating block feeding direct vibrating set 32 is communicated with a feeding end of the rotating block distributing assembly 4, and the rotating block pressing set 33 is disposed at the discharging end of the rotating block feeding direct vibrating set 32 and configured to press the rotating block behind the rotating block at the feeding end of the rotating block distributing assembly 4 to move forward before the rotating block distributing assembly 4 outputs the rotating block entering the feeding end of the rotating block distributing assembly 4. When the rotating block distributing component 4 outputs and resets the rotating block at the feeding end of the rotating block distributing component 4, the rotating block driving component 332 drives the rotating block pressure head 333 to ascend, and the rotating block continues to move towards the feeding end of the rotating block distributing component 4. The rotary block feeding vibrating plate group 31 and the rotary block feeding straight vibrating group 32 belong to the prior art, and for the sake of brevity, a description thereof is omitted.

Referring to fig. 4 and 5, fig. 4 is a schematic structural view of the rotary block distributing assembly in fig. 2; fig. 5 is a schematic structural view in another direction of fig. 4. As shown in the figure, in this embodiment, the rotating block distributing assembly 4 includes a rotating block distributing support 41, two rotating block feeding blocks 42, a rotating block distributing driving set 43 and two rotating block guiding blocks 44, the two rotating block feeding blocks 42 are disposed on the distributing support 41 and are respectively communicated with the discharging end of one rotating block feeding assembly 3, each rotating block feeding block 42 is provided with a material accommodating groove adapted to the corresponding rotating block, the rotating block distributing driving set 43 is disposed on the rotating block distributing support 41, and the driving end thereof is connected with the two rotating block guiding blocks 44 for driving the two rotating block guiding blocks 44 to move towards the corresponding rotating block feeding blocks 42.

Referring to fig. 4 and 5, in the present embodiment, as shown in the figure, the rotary-block distributing driving set 43 includes a rotary-block distributing guiding plate 431, a first rotary-block distributing driving member 432, a rotary-block distributing sliding base 433, a rotary-block distributing guiding sliding base 434 and a second rotary-block distributing driving member 435, the first rotary-block distributing driving member 432 is disposed on the rotary-block distributing bracket 41 and has a driving end connected to the rotary-block distributing guiding plate 431, the rotary-block distributing sliding base 433 is disposed on the rotary-block distributing guiding plate 431, the rotary-block distributing guiding sliding base 434 is slidably connected to the rotary-block distributing sliding base 433, the second rotary-block distributing driving member 435 is disposed on the rotary-block distributing guiding plate 431, the driving end of the rotary block feeding device is connected with the rotary block distributing guide sliding block 434, the two rotary block feeding blocks 42 are arranged on the rotary block distributing sliding seat 433, a gap exists between the two rotary block feeding blocks 42 and the rotary block distributing guide sliding block 434, and the two rotary block guiding blocks 44 are arranged on the rotary block distributing guide sliding block 434 and can move along with the rotary block distributing guide sliding block 434.

Referring to fig. 5, in a specific application, a rotating block distributing slide 4312 is disposed at the bottom of the rotating block distributing guide 431, a rotating block distributing slide 411 is disposed on the rotating block distributing bracket 41, and the rotating block distributing slide 411 is slidably connected to the rotating block distributing slide 4312.

Referring to fig. 4 and 5, in the embodiment, as shown in the figure, the rotating block distributing assembly 4 further includes a money-changing limiting group 45 and a money-changing limiting block 46, the money-changing limiting group 45 and the money-changing limiting block 46 are respectively disposed on two sides of the rotating block distributing bracket 41, two sides of the rotating block distributing guide plate 431 are provided with money-changing limiting rods 4311, and the money-changing limiting group 45 and the money-changing limiting block 46 respectively correspond to the money-changing limiting rods 4311 on the corresponding side of the rotating block distributing guide plate 431.

Referring to fig. 4 again, in the present embodiment, the money-change limiting set 45 includes a money-change limiting seat 451, a money-change limiting strip 452, and a money-change driving member 453, the money-change limiting seat 451 is disposed on the money-change distributing bracket 41, the money-change limiting strip 452 is slidably connected to the money-change limiting seat 451, the money-change driving member 453 is disposed on the money-change limiting seat 451, and a driving end of the money-change limiting seat 452 is connected to the money-change limiting strip 452 for driving the money-change limiting strip 452 to move upward along the money-change limiting seat 451, so that the money-change limiting strip 452 limits a moving distance of the money-change limiting rod 4311 on a corresponding side of the money-change distributing guide plate 431.

Referring to fig. 4 and 5, in the present embodiment, as shown in the drawings, the rotary block distributing assembly 4 further includes two rotary block in-position detecting members 47, and the two rotary block in-position detecting members 47 are disposed on the rotary block distributing bracket 41 and aligned with the rotary block feeding block 42.

Referring to fig. 6 and 7, fig. 6 is a schematic structural diagram of the double-station grabbing assembly shown in fig. 2; fig. 7 is a schematic structural view in another direction of fig. 6. As shown in the figure, in the present embodiment, the double-station gripping assembly 5 includes a material gripping bracket 51, a translation driving member 52, a lifting driving member 53, a material gripping connection plate 54, a first clamping jaw set 55 and a second clamping jaw set 56, the translation driving member 52 is disposed on the material gripping bracket 51, the lifting driving member 53 is connected to a driving end of the translation driving member 52, the material gripping connection plate 54 is connected to the driving end of the lifting driving member 53, the first clamping jaw set 55 and the second clamping jaw set 56 are disposed at two ends of the material gripping connection plate 54, the second clamping jaw set 56 is configured to convey a rotating block output by the rotating block material dividing assembly 4 to a discharging end of the sliding block material dividing assembly 2 to be assembled with a sliding block output by the sliding block material dividing assembly 2, and the first clamping jaw set 55 is configured to convey the assembled sliding block and rotating block assembly to the buffer base.

Referring to fig. 7, in the present embodiment, as shown in the figure, the first clamping jaw set 55 includes a first clamping member 551, a spring seat 552 and a pressing column 553, the first clamping member 551 is disposed at one end of the material grabbing connecting plate 54, the spring seat 552 is disposed on the first clamping member 551 and located between two clamping jaws of the first clamping member 551, a spring is disposed inside the spring seat 551, and the pressing column 553 is connected to the spring seat 552 and abuts against the spring in the spring seat 552.

Referring to fig. 6 and 7, in the present embodiment, the second clamping jaw set 56 includes a clamping feed element 561, a second clamping element 562, and a rotating block pressing block 563, the clamping feed element 561 is disposed at the other end of the material grabbing connecting plate 54, the second clamping element 562 is connected to a driving end of the clamping feed element 561, and the rotating block pressing block 563 is disposed on the second clamping element 562 and located between two clamping jaws of the second clamping element 562. When the material grabbing device is used specifically, the bottom of the material grabbing connecting plate 54 is connected with a clamping slide bar 541, the bottom of the driving end of the second clamping piece 562 is connected with a clamping slide block 5621, and the clamping slide block 5621 is connected with the clamping slide bar 541 in a sliding mode.

Referring to fig. 2, in the present embodiment, as shown in the figure, the push rotating block assembly 6 includes a push rotating block driving member 61 and a rotating block pushing block 62, and the rotating block pushing block 62 is connected to a driving end of the push rotating block driving member 61, and is used for pushing the rotating block to assemble the rotating block in place after the first clamping jaw set 55 carries the assembled sliding block and rotating block assembly to the buffer base.

The above description is only exemplary of the present invention and should not be construed as limiting the present invention, and any modification, equivalent replacement or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. A rotary block and slide block mounting mechanism for a damper assembly, comprising:

the sliding block feeding assembly (1) is used for conveying the sliding block;

the feed end of the sliding block distributing component (2) is communicated with the discharge end of the sliding block feeding component (1) and is used for singly outputting the sliding blocks output by the sliding block feeding component (1);

the rotary block feeding device comprises two rotary block feeding assemblies (3), wherein each rotary block feeding assembly (3) is used for conveying a rotary block, and only one rotary block feeding assembly (3) is in a working state each time;

the rotary block distributing component (4) is provided with two feeding ends, each feeding end is communicated with the discharging end of one rotary block feeding component (3), and the rotary block distributing component is used for outputting rotary blocks output by the rotary block feeding components (3) in a working state;

the double-station grabbing assembly (5) is used for conveying the rotary blocks output by the rotary block distributing assembly (4) to the discharge end of the slide block distributing assembly (2) to be assembled with the slide blocks output by the slide block distributing assembly (2), and conveying the assembled slide blocks and rotary block assemblies to a buffer base;

the pushing and rotating block assembly (6) is used for pushing the double-station grabbing assembly (5) to be carried to the sliding block and rotating block assembly on the buffer base and be installed in place;

the sliding block feeding assembly (1) comprises a sliding block feeding vibration disc set (11) and a sliding block feeding direct vibration set (12), the discharge end of the sliding block feeding vibration disc set (11) is communicated with the feed end of the sliding block feeding direct vibration set (12), and the discharge end of the sliding block feeding direct vibration set (12) is communicated with the feed end of the sliding block distributing assembly (2);

two rotating block feeding assemblies (3) respectively comprise a rotating block feeding vibration disc set (31) and a rotating block feeding direct vibration set (32), the discharge end of the rotating block feeding vibration disc set (31) is communicated with the feed end of the rotating block feeding direct vibration set (32), and the discharge end of the rotating block feeding direct vibration set (32) is communicated with the feed end of the rotating block distributing assembly (4).

2. The rotating block and slide block mounting mechanism of the buffer assembly according to claim 1, wherein the rotating block distributing assembly (4) comprises a rotating block distributing support (41), two rotating block feeding blocks (42), a rotating block distributing driving set (43) and two rotating block guiding blocks (44), the two rotating block feeding blocks (42) are arranged on the distributing support (41) and are respectively communicated with the discharging end of one rotating block feeding assembly (3), the rotating block distributing driving set (43) is arranged on the rotating block distributing support (41), and the driving end of the rotating block distributing driving set is connected with the two rotating block guiding blocks (44) and is used for driving the two rotating block guiding blocks (44) to move to the corresponding rotating block feeding blocks (42).

3. The rotary block and slide block mounting mechanism of a buffer assembly according to claim 2, wherein the rotary block distribution driving set (43) comprises a rotary block distribution guide plate (431), a first rotary block distribution driving member (432), a rotary block distribution sliding seat (433), a rotary block distribution guide sliding block (434) and a second rotary block distribution driving member (435), the first rotary block distribution driving member (432) is disposed on the rotary block distribution bracket (41) and the driving end is connected with the rotary block distribution guide plate (431), the rotary block distribution sliding seat (433) is disposed on the rotary block distribution guide plate (431), the rotary block distribution guide sliding block (434) is slidably connected with the rotary block distribution sliding seat (433), the second rotary block distribution driving member (435) is disposed on the rotary block distribution guide plate (431), and the driving end is connected with the rotary block distribution guide sliding block (434), the two rotating block feeding blocks (42) are arranged on the rotating block distributing sliding seat (433) and have a gap with the rotating block distributing guide sliding block (434), and the two rotating block guide blocks (44) are arranged on the rotating block distributing guide sliding block (434) and can move along with the rotating block distributing guide sliding block (434);

the rotary block distribution guide plate is characterized in that a rotary block distribution sliding strip (4312) is arranged at the bottom of the rotary block distribution guide plate (431), a rotary block distribution sliding block (411) is arranged on the rotary block distribution support (41), and the rotary block distribution sliding block (411) is connected to the rotary block distribution sliding strip (4312) in a sliding mode.

4. The mounting mechanism for the turning block and the sliding block of the buffer assembly according to claim 3, wherein the turning block distributing assembly (4) further comprises a money changing limit group (45) and a money changing limit block (46), the money changing limit group (45) and the money changing limit block (46) are respectively arranged at two sides of the turning block distributing bracket (41), money changing limit rods (4311) are arranged at two sides of the turning block distributing guide plate (431), and the money changing limit group (45) and the money changing limit block (46) respectively correspond to the money changing limit rods (4311) at the corresponding side of the turning block distributing guide plate (431).

5. The rotating block and slide block mounting mechanism of the buffer assembly as claimed in claim 4 wherein the money change limiting group (45) comprises a money change limiting seat (451), a money change limiting strip (452) and a money change driving member (453), the money change limiting seat (451) is disposed on the rotating block distributing bracket (41), the money change limiting strip (452) is slidably connected to the money change limiting seat (451), the money change driving member (453) is disposed on the money change limiting seat (451) and has a driving end connected to the money change limiting strip (452) for driving the money change limiting strip (452) to move upwards along the money change limiting seat (451), so that the money change limiting strip (452) limits the moving distance of the money change limiting rod (4311) on the corresponding side of the rotating block distributing guide plate (431).

6. The rotating block and slide block mounting mechanism of a buffer assembly according to claim 2, wherein the rotating block distributing assembly (4) further comprises two rotating block in-position detecting members (47), and the two rotating block in-position detecting members (47) are arranged on the rotating block distributing bracket (41) and aligned with the rotating block feeding block (42).

7. The rotating block and slide block mounting mechanism of a buffer assembly according to claim 1, wherein the slide block distributing assembly (2) comprises a slide block distributing bracket (21), a first slide block distributing driving member (22), a slide block distributing sliding plate (23), an assembling insert (24), a second slide block distributing driving member (25) and a slide block shifting block (26), the first slide block distributing driving member (22) is arranged on the slide block distributing bracket (21), the slide block distributing sliding plate (23) is connected with the driving end of the first slide block distributing driving member (22), the assembling insert (24) is arranged on the slide block distributing sliding plate (23), a mounting cavity matched with the rotating block and the slide block and a feeding end communicated with the discharging end of the slide block feeding assembly (1) are arranged on the slide block distributing sliding plate (23), the second slide block distributing driving member (25) is arranged on the slide block distributing sliding plate (23), the driving end of the sliding block shifting block is connected with the sliding block shifting block (26);

the first slide block distributing driving piece (22) drives the slide block distributing sliding plate (23) to move towards the discharging end of the slide block feeding assembly (1), so that the feeding end of the assembling insert (24) is aligned with the discharging end of the slide block feeding assembly (1), meanwhile, the second slide block distributing driving piece (25) is started and drives the slide block shifting block (26) to move towards the discharging end of the slide block feeding assembly (1), a slide block output by the slide block feeding assembly (1) is shifted onto the assembling insert (24), and then the first slide block distributing driving piece (22) drives the slide block distributing sliding plate (23) to move reversely, so that the assembling insert (24) leaves the discharging end of the slide block feeding assembly (1).

8. The rotating block and slide block installation mechanism of the buffer assembly according to claim 1, wherein the double-station grabbing assembly (5) comprises a grabbing bracket (51), a translational driving member (52), a lifting driving member (53), a grabbing connecting plate (54), a first clamp jaw set (55) and a second clamp jaw set (56), the translational driving member (52) is arranged on the grabbing bracket (51), the lifting driving member (53) is connected with the driving end of the translational driving member (52), the grabbing connecting plate (54) is connected with the driving end of the lifting driving member (53), the first clamp jaw set (55) and the second clamp jaw set (56) are respectively arranged at two ends of the grabbing connecting plate (54), the second clamp jaw set (56) is used for transporting the rotating block output by the rotating block distributing assembly (4) to the discharging end of the slide block distributing assembly (2) and assembling the slide block output by the slide block distributing assembly (2), the first jaw set (55) is used for carrying the assembled slide block and rotating block assembly to the buffer base.

9. The rotary block and slide mounting mechanism of a damper assembly as claimed in claim 8 wherein said first jaw set (55) comprises a first gripper (551), a spring seat (552) and a compression leg (553), said first gripper (551) being disposed at one end of said material grasping connection plate (54), said spring seat (552) being disposed on said first gripper (551) between the two jaws of said first gripper (551), said spring seat having a spring disposed therein, said compression leg (553) being connected to said spring seat (552) and abutting said spring in said spring seat (552).

10. The rotating block and slide mounting mechanism of a damper assembly as claimed in claim 8, wherein said second clamping jaw set (56) comprises a clamping feed member (561), a second clamping member (562) and a rotating block pressing block (563), said clamping feed member (561) is disposed at the other end of said material gripping connecting plate (54), said second clamping member (562) is connected to the driving end of said clamping feed member (561), said rotating block pressing block (563) is disposed on said second clamping member (562) and between the two clamping jaws of said second clamping member (562);

the bottom of the material grabbing connecting plate (54) is connected with a clamping sliding strip (541), the bottom of the driving end of the second clamping piece (562) is connected with a clamping sliding block (5621), and the clamping sliding block (5621) is connected with the clamping sliding strip (541) in a sliding mode;

the push rotating block assembly (6) comprises a push rotating block driving piece (61) and a rotating block pushing block (62), wherein the rotating block pushing block (62) is connected with the driving end of the push rotating block driving piece (61) and used for pushing the rotating block after the sliding block and the rotating block assembly which are assembled together are carried to the buffer base by the first clamping jaw set (55) so as to be assembled in place.

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