CN220740095U - Fixed knife assembly mounting device - Google Patents

Abstract

The utility model discloses a fixed cutter assembly mounting device which comprises a mounting table, a fixed cutter feeding mechanism and a screw mounting mechanism, wherein the mounting table is arranged on the fixed cutter assembly mounting device; the mounting table is provided with a shell provided with a first elastic piece and a movable cutter assembly; the fixed knife feeding mechanism comprises a feeding assembly and a conveying assembly, wherein the conveying assembly clamps a fixed knife blade from the feeding assembly, and then the fixed knife blade is placed on the shell; the screw mounting mechanism mounts screws on the stationary blade and the housing such that the stationary blade is fixed to the housing. The automatic fixed blade mounting can be realized, and the labor cost and the defective rate are effectively reduced.

Description

Fixed knife assembly mounting device

Technical Field

The utility model relates to the field of fixed cutter assembly installation, in particular to a fixed cutter assembly installation device.

Background

When the haircut tool bit is assembled, after the spring and the movable tool assembly are installed on the shell, the fixed blade is required to be installed, the fixed blade is covered on the spring and the movable tool assembly, the fixed blade is matched with the shell to form a space for accommodating the spring and the movable tool assembly, and the fixed blade is required to be fixedly installed on the shell through screws. The existing installation mode of the fixed blade is manual installation, the manual installation efficiency is low, a large amount of labor force is needed, and the defective rate is high, so that an automatic installation mode is urgently needed, and the labor cost and the defective rate can be reduced.

Disclosure of Invention

The utility model aims to provide a fixed blade assembly mounting device which can realize automatic fixed blade mounting and effectively reduce labor cost and defective rate.

In order to achieve the above purpose, the utility model is realized by the following technical scheme:

the fixed cutter assembly mounting device comprises a mounting table, a fixed cutter feeding mechanism and a screw mounting mechanism;

the mounting table is provided with a shell provided with a first elastic piece and a movable cutter assembly;

the fixed knife feeding mechanism comprises a feeding assembly and a conveying assembly, wherein the conveying assembly clamps a fixed knife blade from the feeding assembly, and then the fixed knife blade is placed on the shell;

the screw mounting mechanism mounts screws on the stationary blade and the housing such that the stationary blade is fixed to the housing.

The conveying assembly comprises a first driving piece, a second driving piece, a third driving piece and a first clamping jaw in transmission connection with the third driving piece, wherein the first driving piece is in transmission connection with the second driving piece, the first driving piece drives the second driving piece to move, the second driving piece is in transmission connection with the third driving piece, the second driving piece drives the third driving piece to move, and the third driving piece drives the first clamping jaw to clamp the fixed blade on the feeding assembly.

The feeding assembly comprises a first rotary table; a plurality of stacking feeding mechanisms are arranged on the first turntable;

the stacking and feeding mechanism comprises a carrier, wherein the carrier is used for accommodating the stacked fixed blades;

the stacking and feeding mechanism further comprises a pushing mechanism, and the pushing mechanism is used for pushing out the fixed blades stacked in the carrier.

The pushing mechanism comprises a pushing piece and a fourth driving piece, and the fourth driving piece drives the pushing piece to push the fixed blades stacked in the carrier.

The carrier is provided with an induction mechanism, and the induction mechanism is used for detecting whether the first fixed blade is pushed to a correct position by the pushing mechanism, so that the conveying mechanism takes away the first fixed blade at the correct position.

The stacking and feeding mechanism further comprises an anti-sticking component, the anti-sticking component is used for fixing a second fixed blade, the anti-sticking component comprises a fifth driving piece and a sixth driving piece which are oppositely arranged, the anti-sticking component is in transmission connection with the fifth driving piece, the anti-sticking component is in transmission connection with a second clamping piece which is in transmission connection with the sixth driving piece, the first clamping piece is oppositely arranged with the second clamping piece, and the first clamping piece is driven by the fifth driving piece and the second clamping piece is driven by the sixth driving piece to fix a second fixed blade.

The mounting device further comprises a detection assembly for detecting whether a gap exists between the fixed blade and the shell.

The screw mounting mechanism comprises a screw feeding mechanism and a mounting assembly;

the screw feeding mechanism is used for providing screws for the mounting assembly;

the mounting assembly is used for mounting screws on the fixed blade and the shell, so that the fixed blade is fixed on the shell.

The installation component includes seventh driving piece, with the eighth driving piece that the transmission of seventh driving piece is connected, with the ninth driving piece that the transmission of eighth driving piece is connected, with the tenth driving piece that the transmission of ninth driving piece is connected and with the batch head that the transmission of tenth driving piece is connected, the seventh driving piece drive eighth driving piece removes, the eighth driving piece drive ninth driving piece removes, the ninth driving piece drive tenth driving piece removes, the tenth driving piece drive batch head rotates.

The mounting assembly further comprises a fixing mechanism for fixing the stationary blade to the housing prior to the mounting assembly mounting the screw; the fixing mechanism comprises an eleventh driving piece and a fixing piece in transmission connection with the eleventh driving piece, and the eleventh driving piece drives the fixing piece to prop against the fixed blade.

The utility model has the beneficial effects that: the fixed blades are continuously provided for the mounting table on the second turntable through the feeding assembly, a plurality of fixed blades can be accommodated in the carrier, when feeding is needed, the fixed blades in the carrier are pushed into the first bracket by the pushing mechanism, the second positioning piece is further fixed through the anti-sticking assembly arranged on the first bracket, and when the first fixed blade is taken away by the transportation assembly, the second fixed blade is adhered to the first piece, so that interference is caused to subsequent installation; before the fixed blade and the shell are locked by the screw, the fixed blade is fixed by the fixing mechanism, so that the fixed blade is effectively prevented from shifting in the locking process, a fixing piece abutted with the fixed blade is in a rod shape, and the fixing piece is abutted with the middle part of the fixed blade, so that the screw locking on two sides of the fixed blade is not interfered; when the screw locking is carried out, the installation component firstly moves to the screw feeding mechanism to absorb screws, and when the screw locking is not carried out, the installation component is positioned at the outer side of the second turntable, so that interference can not be generated on each station on the second turntable; the mounting device provided by the utility model has a simple structure, can effectively mount the fixed blade, and effectively reduces labor cost and reject ratio.

Drawings

FIG. 1 is a schematic view of a mounting device;

FIG. 2 is a schematic structural view of a stationary knife feeding mechanism and a fixing mechanism;

FIG. 3 is a schematic structural view of a release material assembly;

FIG. 4 is a schematic structural view of a stacking feed mechanism and a pushing mechanism;

FIG. 5 is a schematic structural view of the securing mechanism;

FIG. 6 is a schematic view of a screw mounting mechanism;

reference numerals of the above drawings:

1. a mounting table;

2. a transport assembly; 21. a first driving member; 22. a second driving member; 23. a third driving member; 24. a first jaw;

3. a feeding assembly; 31. a first turntable; 311. a first through hole; 32. stacking and feeding mechanisms; 33. a carrier; 331. a holding member; 34. a pushing mechanism; 341. a pushing piece; 342. a fourth driving member; 35. an induction mechanism; 36. an anti-sticking component; 361. a fifth driving member; 362. a first clamping member; 363. a sixth driving member; 364. a second clamping member; 365. a first bracket; 366. a second through hole;

4. a detection assembly;

5. a screw mounting mechanism; 51. screw feeding mechanism; 52. a mounting assembly; 53. a seventh driving member; 54. an eighth driving member; 55. a ninth driving member; 56. a tenth driving member; 57. a head is batched;

6. a fixing mechanism; 61. an eleventh driving member; 62. a fixing member; 63. second support

7. A fixed blade;

8. a housing;

9. a second turntable;

10. and (5) detecting a station.

Detailed Description

The present utility model will be described in detail below with reference to specific embodiments shown in the drawings. These embodiments are not intended to limit the utility model and structural, methodological, or functional modifications of these embodiments that may be made by one of ordinary skill in the art are included within the scope of the utility model.

If the utility model is expressed in terms of orientation (e.g., up, down, left, right, front, back, outer, inner, etc.), then the orientation in question should be defined, e.g., "to clearly express the position and orientation described in this utility model, with reference to the operator of the instrument, the end near the operator is the proximal end, and the end remote from the operator is the distal end. Or by using the paper surface as a reference, by using the depth direction of the bedroom refrigerator as a reference, and the like. Of course, if the positional relationship between the two is defined by cross-referencing at the time of the subsequent description, it may not be defined here.

In the present utility model, unless explicitly specified and limited otherwise, the terms "connected," "connected," and the like are to be construed broadly, and may be fixedly connected, detachably connected, movably connected, or integrated, for example; can be directly connected or indirectly connected through an intermediate medium, and can be communication between the two elements or interaction relationship between the two elements such as abutting. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances. It should be noted that, when the terms "connected" and "connected" are used in the meanings defined by the corresponding terms, only the cases where the terms are clearly required are excluded, and other possible cases are not excluded, such as "detachably connected" means detachably connected, not including being integrated, but movable connection and the like are not excluded.

Referring to fig. 1, the stationary knife assembly mounting device includes a mounting table 1, a stationary knife feeding mechanism and a screw mounting mechanism 5;

a shell 8 provided with a first elastic piece and a movable cutter assembly is arranged on the mounting table 1;

the fixed cutter feeding mechanism comprises a feeding assembly 3 and a conveying assembly 2, wherein the conveying assembly 2 clamps a fixed cutter 7 from the feeding assembly 3, and then the fixed cutter 7 is placed on the shell 8;

the screw mounting mechanism 5 mounts screws on the fixed blade 7 and the housing 8 so that the fixed blade 7 is fixed to the housing 8.

Further, referring to fig. 1 to 3, the transporting assembly 2 includes a first driving member 21, a second driving member 22, a third driving member 23, and a first clamping jaw 24 in driving connection with the third driving member 23, where the first driving member 21 is in driving connection with the second driving member 22, the first driving member 21 drives the second driving member 22 to move, the second driving member 22 is in driving connection with the third driving member 23, the second driving member 22 drives the third driving member 23 to move, and the third driving member 23 drives the first clamping jaw 24 to clamp the fixed blade 7 on the feeding assembly 3.

Further, referring to fig. 2, the feeding assembly 3 includes a first turntable 31; a plurality of stacking and feeding mechanisms 32 are arranged on the first rotary table 31;

the stacking and feeding mechanism 32 comprises a carrier 33, wherein the carrier 33 is used for accommodating the stacked fixed blades 7;

the stacking and feeding mechanism 32 further comprises a pushing mechanism 34, and the pushing mechanism 34 is used for pushing out the fixed blades 7 stacked in the carrier 33.

Referring to fig. 2 and 3, a plurality of carriers 33 are disposed on the first turntable 31, and the plurality of carriers 33 are uniformly distributed along the circumference of the first turntable 31. The carrier 33 includes four supporting members 331, the four supporting members 331 are perpendicular to the first rotating disc 31, and a first accommodating space is formed between the four supporting members 331, and the first accommodating space is used for accommodating the moving blade.

Further, referring to fig. 4, the pushing mechanism 34 includes a pushing member 341 and a fourth driving member 342, and the fourth driving member 342 drives the pushing member 341 to push the fixed blades 7 stacked in the carrier 33.

In this embodiment, referring to fig. 4, a plurality of first through holes 311 are provided on the first turntable 31, two first through holes 311 are provided on the first turntable 31 at the bottom of each first accommodating space, and the pushing mechanism 34 includes two pushing members 341, and the two pushing members 341 can respectively enter the two first through holes 311 under the driving of the fourth driving member 342, so as to push out the fixed blade 7 placed in the first accommodating space.

Further, referring to fig. 3, the stacking and feeding mechanism 32 further includes an anti-adhesion component 36, where the anti-adhesion component 36 is used for fixing a second fixed blade 7, the anti-adhesion component 36 includes a fifth driving member 361 and a sixth driving member 363 that are disposed opposite to each other, and a second clamping member 364 that is in driving connection with the fifth driving member 361 and is in driving connection with the sixth driving member 363, the first clamping member 362 is disposed opposite to the second clamping member 364, and the first clamping member 362 is driven by the fifth driving member 361 and the second clamping member 364 is driven by the sixth driving member 363 to fix a second fixed blade 7.

In this embodiment, referring to fig. 3, the anti-sticking component 36 further includes a first bracket 365, the upper end of the first bracket 365 extends above the supporting member 331, a second accommodating space is formed at the upper end of the first bracket 365, the second accommodating space can be connected to the first accommodating space, and the pushing member 341 can push the fixed blade 7 in the first accommodating space into the second accommodating space; the fifth driving piece 361 and the sixth driving piece 363 are fixed at the upper end of the first bracket 365, are respectively arranged at two sides of the second accommodating space, the fifth driving piece 361 and the sixth driving piece 363 are oppositely arranged, the first clamping piece 362 and the second clamping piece 364 are also oppositely arranged, the first clamping piece 362 and the second clamping piece 364 are arranged in the second accommodating space, a second through hole 366 is further formed in the upper end of the first bracket 365, the fifth driving piece 361 is connected with the first clamping piece 362 through the second through hole 366, the first clamping piece 362 is driven to move, the sixth driving piece 363 is connected with the second clamping piece 364 through the second through hole 366, the second clamping piece 364 is driven to move, the fifth driving piece 361 can drive the first clamping piece 362 to move, the sixth driving piece 363 drives the second clamping piece 364 to move, and then the first clamping piece 362 and the second clamping piece 364 are matched to fix the second fixed blade 7 at the upper end in the second accommodating space, and the second fixed blade 7 is prevented from being taken away by the conveying mechanism when the first fixed blade 7 is taken away.

Further, referring to fig. 3, the carrier 33 is provided with a sensing mechanism 35, the sensing mechanism 35 is disposed on the first bracket 365, and the sensing mechanism 35 is configured to detect whether the first fixed blade 7 is pushed to the correct position by the pushing mechanism 34, so that the transporting mechanism takes away the first fixed blade 7 in the correct position.

Further, referring to fig. 5, the mounting device further includes a detecting component 4, where the detecting component 4 is configured to detect whether a gap exists between the fixed blade 7 and the housing 8.

In this embodiment, please refer to fig. 1 and 2, a plurality of mounting tables 1 are disposed on the second turntable 9, the plurality of mounting tables 1 are uniformly distributed along the circumference of the second turntable 9, the second turntable 9 rotates to drive the mounting tables to different stations, the detecting assembly 4 is disposed on one of the stations, and the detecting assembly 4 can detect the housing 8 on which the fixed blade 7 is disposed on the mounting table 1, thereby ensuring that the movable blade is disposed at the correct position on the housing 8.

In this embodiment, referring to fig. 5, the mounting assembly 52 further includes a fixing mechanism 6, and the fixing mechanism 6 is used to fix the fixing blade 7 on the housing 8 before the mounting assembly 52 mounts the screw; the fixing mechanism 6 comprises an eleventh driving piece 61 and a fixing piece 62 in transmission connection with the eleventh driving piece 61, and the eleventh driving piece 61 drives the fixing piece 62 to abut against the movable blade. The fixing mechanism 6 is arranged on the station, a second support 63 is arranged on the station, the fixing mechanism 6 is fixed on the second support 63, the eleventh driving piece 61 is fixedly arranged on the second support 63, the fixing piece 62 is a rod piece, the length direction of the rod piece is parallel to the plane where the second turntable 9 is located, and the rod piece is arranged above the second turntable 9.

Referring to fig. 1 and 6, the screw mounting mechanism 5 includes a screw feeding mechanism 51 and a mounting assembly 52;

the screw feeding mechanism 51 is used for providing screws to the mounting assembly 52;

the mounting assembly 52 is used to mount screws onto the stator blade 7 and the housing 8, thereby securing the stator blade 7 to the housing 8.

Further, referring to fig. 6, the mounting assembly 52 includes a seventh driving member 53, an eighth driving member 54 in transmission connection with the seventh driving member 53, a ninth driving member 55 in transmission connection with the eighth driving member 54, a tenth driving member 56 in transmission connection with the ninth driving member 55, and a batch head 57 in transmission connection with the tenth driving member 56, wherein the seventh driving member 53 drives the eighth driving member 54 to move, the eighth driving member 54 drives the ninth driving member 55 to move, the ninth driving member 55 drives the tenth driving member 56 to move, and the tenth driving member 56 drives the batch head 57 to rotate.

It will be appreciated that the second turntable 9 rotates to further drive the mounting table 1 with the fixed blade 7 to move below the station, the detecting assembly 4 detects the fixed blade 7, and detects whether the fixed blade 7 is placed at the correct position of the housing 8, the edge of the housing 8 is provided with a step, the fixed blade 7 is to be placed on the step, after the detecting assembly 4 detects that the fixed blade 7 is accurately positioned, the eleventh driving member 61 of the fixing mechanism 6 drives the fixing member 62 to move downwards and abut against the middle part of the fixed blade 7, further, the seventh driving member 53 drives the eighth driving member 54 to move left and right, the eighth driving member 54 drives the ninth driving member 55 to move forwards and backwards, so that the batch head 57 is positioned above the screw feeding mechanism 51, further, the ninth driving piece 55 drives the screwdriver head 57 to move downwards to enter a discharge hole of the screw feeding mechanism 51, after the screwdriver head 57 absorbs screws, the ninth driving piece 55 drives the screwdriver head 57 to move upwards, the seventh driving piece 53 drives the eighth driving piece 54 to move leftwards, the eighth driving piece 54 drives the ninth driving piece 55 to move forwards, then the ninth driving piece 55, the tenth driving piece 56 and the screwdriver head 57 are located above the fixed cutter piece of the mounting table 1, the ninth driving piece 55 drives the tenth driving piece 56 and the screwdriver head 57 to move downwards, so that the screwdriver head 57 places screws into screw holes in the fixed cutter piece 7, further, the tenth driving piece 56 drives the screwdriver head 57 to rotate, and then the screws are connected to the fixed cutter piece 7 and the shell 8 in a screwed mode, and then the fixed cutter piece 7 is fixedly connected with the shell 8. The above steps are continuously repeated until the screw installation on the fixed blade 7 is completed.

In this embodiment, referring to fig. 1, the mounting assembly 52 further includes a detecting station 10, the detecting station 10 is disposed downstream of the detecting station 10, the detecting station 10 is configured to detect a product with a screw, detect whether the screw is mounted in place, and remove a defective product if the screw is not mounted in place.

It can be understood that in the present utility model, the loading assembly 3 continuously provides the fixed blades 7 to the mounting table 1 on the second turntable 9, the carrier 33 can accommodate a plurality of fixed blades 7, when feeding is required, the pushing mechanism 34 pushes the fixed blades 7 in the carrier 33 into the first bracket 365, and further fixes the second positioning piece through the anti-sticking assembly 36 mounted on the first bracket 365, so as to effectively prevent the second fixed blades 7 from adhering to the first piece when the transportation assembly 2 takes away the first fixed blades 7, and interfere with subsequent mounting; before the fixed blade 7 and the shell 8 are locked by the screw, the fixed blade 7 is fixed by the fixing mechanism 6, so that the fixed blade 7 is effectively prevented from shifting in the locking process, the fixing piece 62 abutted with the fixed blade 7 is in a rod shape, and the fixing piece 62 abutted with the middle part of the fixed blade 7 does not interfere with the screw locking at two sides of the fixed blade 7; when the screw is locked, the mounting component 52 moves to the screw feeding mechanism 51 to absorb the screw, and when the screw is locked on the station, the mounting component 52 is positioned outside the second turntable 9 and does not interfere with each station on the second turntable 9; the mounting device provided by the utility model has a simple structure, and can effectively mount the fixed blade 7, thereby effectively reducing labor cost and reject ratio.

It should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is for clarity only, and that the skilled artisan should recognize that the embodiments may be combined as appropriate to form other embodiments that will be understood by those skilled in the art.

The above list of detailed descriptions is only specific to practical embodiments of the present utility model, and they are not intended to limit the scope of the present utility model, and all equivalent embodiments or modifications that do not depart from the spirit of the present utility model should be included in the scope of the present utility model.

Claims (10)

1. The fixed cutter assembly mounting device is characterized by comprising a mounting table, a fixed cutter feeding mechanism and a screw mounting mechanism;

the mounting table is provided with a shell provided with a first elastic piece and a movable cutter assembly;

the fixed knife feeding mechanism comprises a feeding assembly and a conveying assembly, wherein the conveying assembly clamps a fixed knife blade from the feeding assembly, and then the fixed knife blade is placed on the shell;

the screw mounting mechanism mounts screws on the stationary blade and the housing such that the stationary blade is fixed to the housing.

2. The stationary knife assembly mounting apparatus of claim 1, wherein the transport assembly comprises a first drive member, a second drive member, a third drive member, and a first jaw drivingly connected to the third drive member, the first drive member drivingly connected to the second drive member, the first drive member driving the second drive member to move, the second drive member drivingly connected to the third drive member, the second drive member driving the third drive member to move, the third drive member driving the first jaw to grip the stationary knife blade on the feed assembly.

3. The stationary knife assembly mounting apparatus of claim 1, wherein the loading assembly comprises a first turntable; a plurality of stacking feeding mechanisms are arranged on the first turntable;

the stacking and feeding mechanism comprises a carrier, wherein the carrier is used for accommodating the stacked fixed blades;

the stacking and feeding mechanism further comprises a pushing mechanism, and the pushing mechanism is used for pushing out the fixed blades stacked in the carrier.

4. A stationary knife assembly mounting apparatus as claimed in claim 3, wherein the pushing mechanism includes a pushing member and a fourth driving member, the fourth driving member driving the pushing member to push the stationary knife blades stacked within the carrier.

5. A stationary knife assembly mounting apparatus as claimed in claim 3, wherein the carrier is provided with a sensing mechanism for detecting whether a first of the stationary knife blades is pushed into the correct position by the pushing mechanism, thereby enabling the transport mechanism to take away the first of the stationary knife blades in the correct position.

6. The stationary knife assembly mounting apparatus of claim 3, wherein the stacked feed mechanism further comprises an anti-sticking assembly for securing a second stationary knife blade, the anti-sticking assembly comprising a fifth drive member and a sixth drive member disposed opposite each other, and a second clamp member in driving engagement with the fifth drive member and in driving engagement with the sixth drive member, the first clamp member disposed opposite the second clamp member, the first clamp member being driven by the fifth drive member and the second clamp member being driven by the sixth drive member to secure a second stationary knife blade.

7. The stationary knife assembly mounting apparatus of claim 1, further comprising a detection assembly for detecting whether a gap exists between the stationary knife and the housing.

8. The stationary knife assembly mounting apparatus of claim 1, wherein the screw mounting mechanism comprises a screw feed mechanism and a mounting assembly;

the screw feeding mechanism is used for providing screws for the mounting assembly;

the mounting assembly is used for mounting screws on the fixed blade and the shell, so that the fixed blade is fixed on the shell.

9. The stationary knife assembly mounting apparatus of claim 8, wherein the mounting assembly comprises a seventh driver, an eighth driver drivingly connected to the seventh driver, a ninth driver drivingly connected to the eighth driver, a tenth driver drivingly connected to the ninth driver, and a screwdriver bit drivingly connected to the tenth driver, the seventh driver driving the eighth driver for movement, the eighth driver driving the ninth driver for movement, the ninth driver driving the tenth driver for movement, the tenth driver driving the screwdriver bit for rotation.

10. The stationary knife assembly mounting apparatus of claim 8, wherein the mounting assembly further comprises a securing mechanism for securing the stationary knife blade to the housing prior to the mounting assembly mounting the screw; the fixing mechanism comprises an eleventh driving piece and a fixing piece in transmission connection with the eleventh driving piece, and the eleventh driving piece drives the fixing piece to prop against the fixed blade.