CN220881297U - Tool for assembling music box - Google Patents

Abstract

The tool for assembling the music box drives the bottom plate to rotate through a first working round table which is intermittently and equidistantly rotated by a first cam divider, and a bottom plate feeding station, a sound tube pushing station, a screw pushing station and a first transplanting station are sequentially arranged along the circumferential interval of the edge of the first working round table and correspond to the positions of the bottom plate feeding mechanism, the sound tube pushing mechanism and the screw pushing mechanism one by one; the sound tube feeding station comprises a sound tube vibration disc, a first feeding chute, a first control assembly, a first pneumatic clamping jaw and a second control assembly; the central axis of the sound tube is perpendicular to the central axis of the first pneumatic clamping jaw, and the central axis of the first pneumatic clamping jaw is obliquely arranged relative to the upper end face of the first working round table. The tooling for assembling the music box is high in assembly accuracy and assembly efficiency, and can prevent the power motor from being seriously damaged in the process of installing the music box.

Description

Tool for assembling music box

Technical Field

The utility model relates to the technical field of music box accessories, in particular to a tool for assembling a music box.

Background

The sound box is based on the principle that the sound box is powered to drive the sound tube with small bulges on the surface to rotate at a constant speed, and when the bulges pass through the soundboard soundtrack, the reed is stirred (firstly, the soundboard soundtrack is lifted slowly and then put down suddenly) so that the reed vibrates according to the set vibration frequency to make a set sound. The soundboard portion of the music box is made of thin strips which are cut on a piece of elastic steel plate to be consistent in length but different in thickness and thickness (the thickness and thickness are different according to set vibration frequency). A bump on the sound tube is equivalent to a note on the music score. The sound tube rotates according to regularly set convex points, the convex points scratch the edge of the sound board, and the sound is different due to different convex points, and the sound tube rotates at a constant speed due to the action of the damper, so that a song is played.

The music box bottom plate is installed through the manual work with the sound section of thick bamboo on to make the gear engagement of sound section of thick bamboo and power motor's gear, because through artifical installation, the precision is lower, and efficiency is slower, when using the frock to install the sound section of thick bamboo on the bottom plate, because of the sound section of thick bamboo is clockwise rotation, so power motor gear is anticlockwise rotation, and power motor gear is unidirectional rotation, but install the sound section of thick bamboo on the bottom plate by vertical from top to bottom generally, and with power motor's gear engagement, but the problem is when sound section of thick bamboo from top to bottom installation in-process, because of the meshing of sound section of thick bamboo gear and power motor gear drives power motor's gear clockwise rotation, because of power motor is unidirectional rotation, and be anticlockwise rotation, so from top to bottom vertical installation sound section of thick bamboo can cause power motor inner structure's damage.

Disclosure of utility model

In view of this, the embodiment of the present specification provides a tool for assembly of a music box, which has high assembly accuracy and assembly efficiency, and prevents a power motor from being severely damaged during installation of a sound tube.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a frock for octave box assembly, which comprises a body and a base plate, the body includes the workstation, the bottom plate includes sound section of thick bamboo mounting groove, the screw mounting groove, and sound piece mounting groove, be equipped with the first cam divider that is used for driving the bottom plate rotation on the workstation, first cam divider is including being the rotatory first work round platform of intermittent type equidistance, the bottom plate material loading station has been arranged in proper order along the marginal circumference interval of first work round platform, sound section of thick bamboo material loading station, advance sound section of thick bamboo station, advance screw station and first transplanting station, install bottom plate material loading mechanism on the workstation, sound section of thick bamboo material loading mechanism, advance sound section of thick bamboo mechanism and advance screw mechanism, bottom plate material loading mechanism, sound section of thick bamboo material loading mechanism and advance screw mechanism correspond with bottom plate material loading station, sound section of thick bamboo material loading station, advance sound section of thick bamboo station and advance screw station position in proper order; the sound tube feeding station comprises a sound tube vibration disc for screening the sound tube, a first feeding chute for transmitting the sound tube, a first control component for controlling the sound tube to move up and down, a first pneumatic clamping jaw for clamping the sound tube, and a second control component for controlling the first pneumatic clamping jaw to move; the central shaft of the sound tube is perpendicular to the central shaft of the first pneumatic clamping jaw, and the central shaft of the first pneumatic clamping jaw is obliquely arranged relative to the upper end face of the first working round table.

Compared with the prior art, the utility model has the advantages that: the bottom plate feeding mechanism is used for placing the bottom plate on a bottom plate feeding station of the first working round table, enabling the bottom plate to sequentially pass through the bottom plate feeding station, the sound tube pushing station, the screw pushing station and the first transplanting station through the rotation of the first working round table, installing a sound tube on a sound tube installation groove of the bottom plate through the sound tube feeding mechanism, adjusting a compression sound tube on the sound tube installation groove through the sound tube pushing mechanism, installing a screw on the screw installation groove through the screw recommending station, and finally outputting from the first transplanting station, so that the assembly of the sound tube and the screw is completed, the degree of automation is high, the working efficiency is high, and the production efficiency of enterprises is improved; the whole process has stable production flow and improves the consistency of products; the device is suitable for mass production, reduces the production cost of enterprises, is obliquely arranged relative to the upper end face of the working circular table through the first pneumatic clamping jaw, and reduces damage to the power motor by less amplitude of gears of the sound tube and even no rotation of the gears of the power motor in the process of installation of the sound tube and installation of the sound tube in the groove.

In some embodiments, the inclination angle of the central shaft of the first pneumatic clamping jaw relative to the upper end face of the first working round table is 60 degrees, and by the improvement, due to the fact that the overall structure of the music box is smaller and the inclination of 60 degrees is arranged, collision friction is not caused between the music box and other parts of the music box in the process of installing the music box in the music box installation groove, and meanwhile, the gear of the power motor is enabled to rotate in a small amplitude or even not to rotate.

In some embodiments, the first control assembly is including being first sound section of thick bamboo control and being controlled the supporting shoe that moves in vertical direction by first sound section of thick bamboo control, the output of first material loading spout is located to the supporting shoe, is equipped with the supporting groove on the supporting shoe, and the supporting groove is sound section of thick bamboo face profile modeling setting, through the improvement, after sound section of thick bamboo vibration dish screening sound section of thick bamboo, with sound section of thick bamboo with same angle input to first material loading spout in, in the output of first material loading spout was transmitted sound section of thick bamboo to the supporting groove, because the supporting groove is sound section of thick bamboo face profile modeling setting, can just be spacing to sound section of thick bamboo, restrict its removal to through first sound section of thick bamboo control with sound section of thick bamboo vertical upward movement, promote the output of sound section of thick bamboo principle first material loading spout, prevent to cause collision or friction with first material loading spout when the in-process of first pneumatic clamping jaw sound section of thick bamboo.

In some embodiments, the second control assembly includes the material loading slider that is used for installing first pneumatic clamping jaw, be used for promoting the material loading slider along the second sound section of thick bamboo control piece that the center pin direction of first pneumatic clamping jaw removed, with material loading slider cooperation first slide rail, be used for installing the material loading slide of first slide rail, the third sound section of thick bamboo control piece that the control material loading slide removed, and with material loading slide complex second slide rail, second sound section of thick bamboo control piece control material loading slider is close to the sound section of thick bamboo, after the first pneumatic clamping jaw centre gripping sound section of thick bamboo, the pneumatic clamping jaw of second sound section of thick bamboo control piece control is kept away from the supporting groove, move first pneumatic clamping jaw to sound section of thick bamboo material loading station correspondence department through third sound section of thick bamboo control piece, pneumatic clamping jaw is the tilting state with sound section of thick bamboo installation on sound section of thick bamboo material loading station on sound section of thick bamboo installation groove, through the improvement, whole journey is installed sound section of thick bamboo through automatic operation on the sound section of thick bamboo installation groove, work efficiency is high, and second control assembly overall structure is simple, effective control cost.

In some embodiments, the screw pushing mechanism comprises a screw vibration disc for screening screws, a second feeding chute, a fixing seat, a screw moving block, a first screw control piece and a second screw control piece, wherein the input end of the second feeding chute is connected with the screw vibration disc, a guide groove and a moving groove are formed in the fixing seat and are arranged perpendicularly in a crossing mode, two ends of the guide groove are respectively connected with the first screw control piece and a screw mounting groove on a screw pushing station, the screw moving block is arranged in the moving groove, the second screw control piece controls the screw moving block to move in the moving groove, the screw moving block comprises a positioning groove, the positioning groove is arranged below the output end of the second feeding chute, screws are adjusted to be uniform angles through the improvement, and are conveyed into the positioning groove through the second feeding chute, the screw moving block is pushed to move in the moving groove through the second screw control piece, the guide groove and the moving groove are arranged perpendicularly in a crossing mode, and the guide groove and the moving groove are overlapped, and when the positioning groove is positioned in the guide groove, the first screw control piece pushes the screws in the positioning groove to the screw mounting groove, and the positioning groove is automatically arranged in the whole process, and the whole process is accurate, and high in efficiency.

In some embodiments, the pushing screw mechanism comprises a pushing cylinder, a pushing slide seat controlled by the pushing cylinder to vertically move up and down, a third slide rail matched with the pushing slide seat, and a fixing plate arranged on the lower end face of the pushing slide seat, wherein the lower end face of the fixing plate is provided with a fixing groove, the fixing groove corresponds to the screw mounting groove on the pushing screw station, through the improvement, the screw is positioned through the pushing cylinder through the matching of the fixing groove and the screw mounting groove, and when the first screw control piece rivets the screw on the sound cylinder, the screw is prevented from deviating from the position, and the accuracy is higher.

In some embodiments, the body includes a second cam divider for mounting the soundboard, the second cam divider includes a second working circular table rotating at intervals, a second transplanting station, a soundboard feeding station, a soundboard positioning station, a first screw mounting station, a second screw mounting station and a blanking station are sequentially arranged along the circumferential intervals of the edges of the second working circular table, a transplanting mechanism, a soundboard feeding mechanism, a soundboard positioning mechanism, a first screw mounting mechanism, a second screw mounting mechanism and a blanking mechanism are mounted on the working table, the second transplanting station, a soundboard feeding station, a soundboard positioning station, a first screw mounting station, a second screw mounting station and a blanking station are sequentially corresponding to the transplanting mechanism, the soundboard feeding mechanism, the soundboard positioning mechanism, the first screw mounting mechanism, the second screw mounting mechanism and the blanking mechanism, the substrate on the first station is moved to the second station through the transplanting mechanism, the substrate transplanting mechanism, the soundboard feeding mechanism, the soundboard positioning mechanism, the first screw mounting mechanism, the second screw mounting mechanism and the soundboard mounting mechanism are sequentially arranged through the second working circular table, the substrate mounting mechanism and the substrate mounting mechanism is aligned with the soundboard mounting mechanism, the soundboard mounting mechanism is finished through the substrate mounting cost is increased through the improvement, and the cost of the substrate mounting mechanism is increased through the cost of the substrate mounting mechanism, and the substrate mounting mechanism is increased through the installation of the soundboard mounting mechanism and the soundboard mounting mechanism.

In some embodiments, the first transplanting station and the second transplanting station are arranged adjacently, a transplanting mechanism for moving the music box on the first transplanting station to the second transplanting station is arranged on the workbench, the transplanting mechanism is arranged between the first transplanting station and the second transplanting station, the first transplanting station and the second transplanting station are arranged adjacently through the improvement, the transplanting mechanism is arranged between the first transplanting station and the second transplanting station, the reasonable optimization space is arranged, and the space occupied by the body is reduced.

In some embodiments, the transplanting mechanism comprises a second pneumatic clamping jaw for clamping the bottom plate of the first transplanting station, a transplanting sliding block for installing the second pneumatic clamping jaw, a first transplanting control piece for pushing the transplanting sliding block to vertically move up and down, a transplanting sliding seat matched with the transplanting sliding block, a second transplanting control piece for installing the fourth sliding rail, a transplanting sliding seat for controlling the transplanting sliding seat to move along the direction from the first transplanting station to the second transplanting station, and a fifth sliding rail matched with the transplanting sliding seat, wherein the first transplanting control piece controls the second pneumatic clamping jaw to vertically move down, so that the second pneumatic clamping jaw clamps the bottom plate, the first transplanting control piece returns to the position, the second transplanting control piece controls the transplanting sliding seat to move the second pneumatic clamping jaw to the second transplanting station, the bottom plate is placed on the second transplanting station through the first transplanting control piece, the bottom plate is moved from the first transplanting station to the second transplanting station through the improvement in the whole course, the working efficiency is high, the whole structure of the transplanting mechanism is simple, and cost is effectively controlled.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the structure of the present utility model;

Fig. 2 is a schematic structural diagram of a sound tube feeding mechanism of the present utility model;

FIG. 3 is an enlarged schematic view of the feed mechanism of the sound tube of the present utility model;

FIG. 4 is a schematic view of a first pneumatic clamping jaw grabbing sound tube according to the present utility model;

FIG. 5 is a schematic view of the first pneumatic clamping jaw moving to a sonic barrel loading station;

FIG. 6 is a schematic view of the push screw mechanism of the present utility model;

FIG. 7 is an enlarged schematic view of the push screw mechanism of the present utility model;

FIG. 8 is a schematic view of the positioning slot of the present utility model in a guiding slot;

FIG. 9 is a schematic view of the structure of the fixing slot and screw mounting slot of the present utility model;

FIG. 10 is a schematic view of the second pneumatic clamping jaw of the present utility model in a first transplanting station;

FIG. 11 is a schematic view of the second pneumatic clamping jaw of the present utility model in a second transplanting station;

Fig. 12 is a schematic structural view of the base plate of the present utility model.

In the figure: 1. a bottom plate; 1.1, a sound tube mounting groove; 1.2, a screw mounting groove; 1.3, a sound piece mounting groove; 2. a work table; 3. a first cam divider; 3.1, a first working round table; 4. a second cam divider; 4.1, a second working round table; 5. a bottom plate feeding mechanism; 6. a sound tube feeding mechanism; 6.1, a sound tube vibration disc; 6.2, a first feeding chute; 6.3, a first control component; 6.3.1, a first sound tube control; 6.3.2, supporting blocks; 6.3.2.1, supporting grooves; 6.4, a first pneumatic clamping jaw; 6.5, a second control component; 6.5.1, a feeding slide block; 6.5.2, a second sound tube control; 6.5.3, a first slide rail; 6.5.4, a feeding slide seat; 6.5.5, a third sound tube control; 6.5.6, a second slide rail; 7. a sound tube pushing mechanism; 8. a screw pushing mechanism; 8.1, a screw vibration disc; 8.2, a second feeding chute; 8.3, fixing base; 8.3.1, guide slots; 8.3.2, a moving tank; 8.4, a screw moving block; 8.4.1, positioning groove; 8.5, a first screw control member; 8.6, a second screw control part; 8.7, a thrust cylinder; 8.8, pushing the sliding seat; 8.9, a third sliding rail; 8.10, fixing plate; 8.10.1, fixing grooves; 9. a transplanting mechanism; 9.1, a second pneumatic clamping jaw; 9.2, transplanting the sliding block; 9.3, a first transplanting control piece; 9.4, a fourth sliding rail; 9.5, transplanting sliding seat; 9.6, a second transplanting control piece; 9.7, a fifth sliding rail; 10. a sound piece feeding mechanism; 11. a sound piece positioning mechanism; 12. a first screw mounting mechanism; 13. a second screw mounting mechanism; 14. and a blanking mechanism.

Detailed Description

The application will now be described in detail with reference to the drawings and to specific embodiments.

Other advantages and effects of the present application will become apparent to those skilled in the art from the following disclosure, which describes the embodiments of the present application with reference to specific examples. It will be apparent that the described embodiments are only some, but not all, embodiments of the application. The application may be practiced or carried out in other embodiments that depart from the specific details, and the details of the present description may be modified or varied from the spirit and scope of the present application. It should be noted that the following embodiments and features in the embodiments may be combined with each other without conflict. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

It is noted that various aspects of the embodiments are described below within the scope of the following claims. It should be apparent that the aspects described herein may be embodied in a wide variety of forms and that any specific structure and/or function described herein is merely illustrative. Based on the present disclosure, one skilled in the art will appreciate that one aspect described herein may be implemented independently of any other aspect, and that two or more of these aspects may be combined in various ways. For example, apparatus may be implemented and/or methods practiced using any number and aspects set forth herein. In addition, such apparatus may be implemented and/or such methods practiced using other structure and/or functionality in addition to one or more of the aspects set forth herein.

It should also be noted that the illustrations provided in the following embodiments merely illustrate the basic concept of the present application by way of illustration, and only the components related to the present application are shown in the drawings and are not drawn according to the number, shape and size of the components in actual implementation, and the form, number and proportion of the components in actual implementation may be arbitrarily changed, and the layout of the components may be more complicated.

In addition, in the following description, specific details are provided in order to provide a thorough understanding of the examples. However, it will be understood by those skilled in the art that the present invention may be practiced without these specific details.

The following describes the technical scheme provided by each embodiment of the present application with reference to the accompanying drawings.

Referring to fig. 1-5, in this embodiment: the utility model provides a frock for octave assembly, which comprises a body and a base plate 1, the body includes workstation 2, the bottom plate 1 includes sound section of thick bamboo mounting groove 1.1, screw mounting groove 1.2, and sound piece mounting groove 1.3, be equipped with on the workstation 2 and be used for driving the first cam divider 3 of bottom plate 1 pivoted, first cam divider 3 is including being intermittent equidistant rotatory first work round platform 3.1, bottom plate material loading station is arranged in proper order along the marginal circumference interval of first work round platform 3.1, sound section of thick bamboo material loading station, advance sound section of thick bamboo station, advance screw station and first transplantation station, install bottom plate material loading mechanism 5 on the workstation 2, sound section of thick bamboo material loading mechanism 6, advance sound section of thick bamboo mechanism 7 and advance screw mechanism 8, bottom plate material loading mechanism 5, sound section of thick bamboo material loading mechanism 6, advance sound section of thick bamboo mechanism 7 and advance screw mechanism 8 correspond with bottom plate material loading station, sound section of thick bamboo material loading station and advance screw station position in proper order; the sound tube feeding station comprises a sound tube vibration disc 6.1 for screening the sound tube, a first feeding chute 6.2 for transmitting the sound tube, a first control component 6.3 for controlling the sound tube to move up and down, a first pneumatic clamping jaw 6.4 for clamping the sound tube, and a second control component 6.5 for controlling the first pneumatic clamping jaw 6.4 to move; the central axis of the sound tube is perpendicular to the central axis of the first pneumatic clamping jaw 6.4, and the central axis of the first pneumatic clamping jaw 6.4 is inclined relative to the upper end face of the first working round table 3.1.

The bottom plate feeding mechanism 5 is used for placing the bottom plate 1 on a bottom plate feeding station of the first working round table 3.1, enabling the bottom plate 1 to sequentially pass through the bottom plate feeding station, the sound tube pushing station, the screw pushing station and the first transplanting station through the first working round table 3.1 rotation, installing a sound tube on a sound tube installation groove 1.1 of the bottom plate 1 through the sound tube feeding mechanism 6, adjusting a pressing sound tube on the sound tube installation groove 1.1 through the sound tube pushing mechanism 7, installing a screw on the screw installation groove 1.2 through the screw recommending station, and finally outputting from the first transplanting station, so that the assembly of the sound tube and the screw is completed, the degree of automation is high, the working efficiency is high, and the production efficiency of enterprises is improved; the whole process has stable production flow and improves the consistency of products; is suitable for mass production, reduces the production cost of enterprises, and is obliquely arranged relative to the upper end face of the working circular truncated cone through the first pneumatic clamping jaw 6.4, so that the gear of the sound tube does not rotate even due to small amplitude in the process of mounting the sound tube in the sound tube mounting groove 1.1, and the damage to the power motor is reduced.

In some embodiments, as shown in fig. 1 to 5, the inclination angle of the central axis of the first pneumatic clamping jaw 6.4 relative to the upper end face of the first working round table 3.1 is 60 degrees, and it should be noted that, due to the small overall structure of the music box and the inclination setting of 60 degrees, collision friction is not caused between the music box and other parts of the music box in the process of installing the music box in the music box installation groove 1.1, and meanwhile, the gears of the power motor rotate less in amplitude or even do not rotate.

In some embodiments, as shown in fig. 2-4, the first control component 6.3 includes a first sound tube control member 6.3.1 and a support block 6.3.2 controlled by the first sound tube control member 6.3.1 to move in a vertical direction, where the support block 6.3.2 is disposed at an output end of the first feeding chute 6.2, and a support groove 6.3.2.1 is disposed on the support block 6.3.2, and the support groove 6.3.2.1 is configured to form a profile shape of a sound tube wall, and it should be noted that, after the sound tube vibration disc 6.1 screens a sound tube, the sound tube is input into the first feeding chute 6.2 at the same angle, the output end of the first feeding chute 6.2 transmits the sound tube into the support groove 6.3.2.1, and because the support groove 6.3.2.1 is configured to form a profile shape of a sound tube, the sound tube can be limited, and the sound tube is moved vertically upward by the first sound tube control member 6.3.1, so as to push the output end of the first feeding chute 6.2, thereby preventing friction between the first feeding chute 6.4 and the first clamping jaw 6.2.

In some embodiments, as shown in fig. 2-4, the second control assembly 6.5 includes a loading slide 6.5.1 for mounting the first pneumatic clamping jaw 6.4, a second voice cylinder control 6.5.2 for pushing the loading slide 6.5.1 to move along the central axis of the first pneumatic clamping jaw 6.4, a first slide rail 6.5.3 cooperating with the loading slide 6.5.1, a loading slide 6.5.4 for mounting the first slide rail 6.5.3, a third voice cylinder control 6.5.5 for controlling the movement of the loading slide 6.5.4, and a second slide rail 6.5.6 cooperating with the loading slide 6.5.4, the second voice cylinder control 6.5.2 controlling the loading slide 6.5.1 to approach the voice cylinder, the second voice cylinder control 6.5.2 controlling the pneumatic clamping jaw to move away from the support slot 6.3.2.1 after the first pneumatic clamping jaw 6.4, the first pneumatic clamping jaw 6.4 to the voice cylinder by the third voice cylinder control 6.5.5 controlling the loading slide 6.5.4 to move the first pneumatic clamping jaw 6.4 to the voice cylinder in a position corresponding to the loading position, and the voice cylinder is mounted to the voice cylinder by tilting the voice cylinder control assembly to the voice cylinder 1.1, and the voice cylinder assembly is mounted to the full-length by the voice cylinder control assembly in a simple and efficient manner.

In some embodiments, as shown in fig. 6-9, the pushing screw mechanism 8 includes a screw vibration disc 8.1 for screening screws, a second feeding chute 8.2, a fixing seat 8.3, a screw moving block 8.4, a first screw control member 8.5, and a second screw control member 8.6, the input end of the second feeding chute 8.2 is connected with the screw vibration disc 8.1, a guide slot 8.3.1 and a moving slot 8.3.2 are disposed on the fixing seat 8.3, the guide slot 8.3.1 and the moving slot 8.3.2 are arranged in a crossing vertical manner, two ends of the guide slot 8.3.1 are respectively connected with the first screw control member 8.5 and the screw mounting slot 1.2 on a pushing screw station, the screw moving block 8.4 is disposed in the moving slot 8.3.2, the second screw control member 8.6 controls the screw moving block 8.4 to move in the moving slot 8.3.2, the screw moving block 8.4 includes a positioning slot 8.4.1, the positioning slot 8.4.1 is disposed on the fixing seat 8.3.1, the guide slot 8.1 is disposed at the lower end of the second feeding chute 8.2, the guide slot 8.1 is required to be coincident with the guide slot 8.1.3.1, and the full-distance between the screw control member 8.1 and the second screw control member 8.4 is disposed in the moving slot 1.3.2, and the full-distance between the first screw control member 8.4 and the second screw control member 8.4 is arranged in the 3 through the guide slot 1 and the guide slot 1.1.

In some embodiments, as shown in fig. 9, the pushing screw mechanism 8 includes a pushing cylinder 8.7, a pushing slide 8.8 controlled by the pushing cylinder 8.7 to move vertically up and down, a third sliding rail 8.9 matched with the pushing slide 8.8, and a fixing plate 8.10 provided on the lower end surface of the pushing slide 8.8, the lower end surface of the fixing plate 8.10 is provided on the fixing groove 8.10.1, the fixing groove 8.10.1 corresponds to the position of the screw mounting groove 1.2 on the pushing screw station, and it is noted that the screw is positioned by the pushing cylinder 8.7 through the matching of the fixing groove 8.10.1 and the screw mounting groove 1.2, when the first screw control member 8.5 rivets the screw on the sound tube, the screw is prevented from deviating from the position, and the accuracy is higher.

In some embodiments, as shown in fig. 1, the body comprises a second cam divider 4 for mounting a soundboard, the second cam divider 4 comprises a second working round table 4.1 which intermittently rotates at equal intervals, and a second transplanting station, a soundboard loading station, a soundboard positioning station, a first screw mounting station, a second screw mounting station and a blanking station are sequentially arranged along the circumferential intervals of the edge of the second working round table 4.1, a transplanting mechanism 9, a soundboard loading mechanism 10, a soundboard positioning mechanism 11, a first screw mounting mechanism 12, a second screw mounting mechanism 13 and a blanking mechanism 14 are mounted on the working table 2, the second transplanting station, the soundboard loading station, the soundboard positioning station, the first screw mounting station, the second screw mounting station and the blanking station are sequentially corresponding to the transplanting mechanism 9, the soundboard loading mechanism 10, the soundboard positioning mechanism 11, the first screw mounting mechanism 12, the second screw mounting mechanism 13 and the blanking mechanism 14, the transplanting mechanism 1 is moved to a base plate 1 on the first transplanting station through the transplanting mechanism 9, the soundboard loading mechanism 1 is assembled with the second screw mounting mechanism 1, the soundboard loading mechanism 1 is correspondingly arranged through the second screw mounting mechanism 13, the soundboard loading mechanism 1, the soundboard loading mechanism is assembled with the soundboard loading mechanism 1, the soundboard loading mechanism is sequentially, the soundboard loading mechanism is assembled with the soundboard loading mechanism 1, the soundboard loading mechanism is assembled with the soundboard through the second mounting mechanism 1, the soundboard mounting mechanism is positioned through the second screw mounting mechanism 1, the soundboard mounting mechanism is correspondingly to the soundboard mounting mechanism 1, the soundboard mounting mechanism is positioned through the second mounting mechanism 1 and the soundboard mounting mechanism 1, time cost and labor cost are saved, and the consistency of products is good.

In some embodiments, as shown in fig. 11-12, the first transplanting station and the second transplanting station are adjacently arranged, the worktable 2 is provided with a transplanting mechanism 9 for moving the music box on the first transplanting station to the second transplanting station, the transplanting mechanism 9 is arranged between the first transplanting station and the second transplanting station, the first transplanting station and the second transplanting station are adjacently arranged, the transplanting mechanism 9 is arranged between the first transplanting station and the second transplanting station, and the reasonable optimization space is arranged to reduce the space occupied by the body.

In some embodiments, as shown in fig. 11-12, the transplanting mechanism 9 comprises a second pneumatic clamping jaw 9.1 for clamping the bottom plate 1 of the first transplanting station, a transplanting sliding block 9.2 for installing the second pneumatic clamping jaw 9.1, a first transplanting control member 9.3 for pushing the transplanting sliding block 9.2 to vertically move up and down, a transplanting sliding seat 9.5 for installing the fourth sliding rail 9.4, a second transplanting control member 9.6 for controlling the transplanting sliding seat 9.5 to move along the direction from the first transplanting station to the second transplanting station, and a fifth sliding rail 9.7 matched with the transplanting sliding seat 9.5, wherein the first transplanting control member 9.3 controls the second pneumatic clamping jaw 9.1 to vertically move down, so that the second pneumatic clamping jaw 9.1 clamps the bottom plate 1, the first transplanting control member 9.3 is in a restoring position, the second transplanting control member 9.6 controls the transplanting sliding seat 9.5 to move the second pneumatic clamping jaw 9.1 to the second transplanting station, and controls the second clamping jaw 9.1 to move to the second transplanting station through the first transplanting control member 9.3 to automatically move the bottom plate 1 to the second transplanting station through the first transplanting control member 9.1.

Meanwhile, the specification uses specific words to describe the embodiments of the specification. Reference to "one embodiment," "an embodiment," and/or "some embodiments" means that a particular feature, structure, or characteristic is associated with at least one embodiment of the present description. Thus, it should be emphasized and should be appreciated that two or more references to "an embodiment" or "one embodiment" or "an alternative embodiment" in various positions in this specification are not necessarily referring to the same embodiment. Furthermore, certain features, structures, or characteristics of one or more embodiments of the present description may be combined as suitable.

Furthermore, the order in which the elements and sequences are processed, the use of numerical letters, or other designations in the description are not intended to limit the order in which the processes and methods of the description are performed unless explicitly recited in the claims. While certain presently useful inventive embodiments have been discussed in the foregoing disclosure, by way of various examples, it is to be understood that such details are merely illustrative and that the appended claims are not limited to the disclosed embodiments, but, on the contrary, are intended to cover all modifications and equivalent arrangements included within the spirit and scope of the embodiments of the present disclosure. For example, while the system components described above may be implemented by hardware devices, they may also be implemented solely by software solutions, such as installing the described system on an existing processing device or mobile device.

While the basic concepts have been described above, it will be apparent to those skilled in the art that the foregoing detailed disclosure is by way of example only and is not intended to be limiting. Although not explicitly described herein, various modifications, improvements, and adaptations to the present disclosure may occur to one skilled in the art. Such modifications, improvements, and modifications are intended to be suggested within this specification, and therefore, such modifications, improvements, and modifications are intended to be included within the spirit and scope of the exemplary embodiments of the present invention.

Claims (9)

1. A frock for music box assembly, includes body, bottom plate (1), the body includes workstation (2), bottom plate (1) include sound section of thick bamboo mounting groove (1.1), screw mounting groove (1.2) and sound piece mounting groove (1.3), its characterized in that: the automatic transplanting machine is characterized in that a first cam divider (3) used for driving the base plate (1) to rotate is arranged on the workbench (2), the first cam divider (3) comprises a first workbench circular table (3.1) which rotates intermittently and equidistantly, a base plate feeding station, a sound tube propelling station and a first transplanting station are sequentially arranged along the circumferential interval of the edge of the first workbench circular table (3.1), a base plate feeding mechanism (5), a sound tube feeding mechanism (6), a sound tube propelling mechanism (7) and a sound tube propelling mechanism (8) are arranged on the workbench (2), and the base plate feeding mechanism (5), the sound tube feeding mechanism (6), the sound tube propelling mechanism (7) and the sound tube propelling mechanism (8) correspond to the base plate feeding station, the sound tube propelling station and the sound tube propelling station in sequence;

The sound tube feeding station comprises a sound tube vibration disc (6.1) for screening the sound tube, a first feeding chute (6.2) for transmitting the sound tube, a first control component (6.3) for controlling the sound tube to move up and down, a first pneumatic clamping jaw (6.4) for clamping the sound tube, and a second control component (6.5) for controlling the first pneumatic clamping jaw (6.4) to move;

The central axis of the sound tube is perpendicular to the central axis of the first pneumatic clamping jaw (6.4), and the central axis of the first pneumatic clamping jaw (6.4) is inclined relative to the upper end face of the first working round table (3.1).

2. A tooling for assembly of a music box according to claim 1, characterized in that: the inclination angle of the central shaft of the first pneumatic clamping jaw (6.4) relative to the upper end face of the first working round table (3.1) is 60 degrees.

3. A tooling for assembly of a music box according to claim 1, characterized in that: the first control assembly (6.3) comprises a first sound tube control piece (6.3.1) and a support block (6.3.2) which is controlled by the first sound tube control piece (6.3.1) to move in the vertical direction, the support block (6.3.2) is arranged at the output end of the first feeding chute (6.2), a support groove (6.3.2.1) is formed in the support block (6.3.2), and the support groove (6.3.2.1) is in profile modeling arrangement on the wall surface of the sound tube.

4. A tooling for assembly of a music box according to claim 3, wherein: the second control assembly (6.5) comprises a feeding slide block (6.5.1) for mounting the first pneumatic clamping jaw (6.4), a second sound tube control member (6.5.2) for pushing the feeding slide block (6.5.1) to move along the central axis direction of the first pneumatic clamping jaw (6.4), a first sliding rail (6.5.3) matched with the feeding slide block (6.5.1), a feeding slide seat (6.5.4) for mounting the first sliding rail (6.5.3), a third sound tube control member (6.5.5) for controlling the feeding slide seat (6.5.4) to move, and a second sliding rail (6.5.6) matched with the feeding slide seat (6.5.4), wherein the second sound tube control member (6.5.2) controls the feeding slide block (6.5.1) to be close to a sound tube, after the first sound tube is clamped by the first pneumatic clamping jaw (6.4), the second sound tube control member (6.5.2) controls the feeding jaw (6.4) to be in a state of being inclined to be away from the first sound tube control member (6.5.5) to be in a position of the first sound tube (498.4) corresponding to the feeding position (1).

5. A tooling for assembly of a music box according to claim 1, characterized in that: the screw pushing mechanism (8) comprises a screw vibration disc (8.1), a second feeding chute (8.2), a fixed seat (8.3), a screw moving block (8.4), a first screw control piece (8.5) and a second screw control piece (8.6), wherein the input end of the second feeding chute (8.2) is connected with the screw vibration disc (8.1), a guide groove (8.3.1) and a moving groove (8.3.2) are arranged on the fixed seat (8.3), the guide groove (8.3.1) and the moving groove (8.3.2) are arranged vertically in a crossing mode, two ends of the guide groove (8.3.1) are respectively connected with the first screw control piece (8.5) and the screw mounting groove (1.2) on a screw pushing station, the screw moving block (8.4) is arranged in the moving groove (8.3.2), the second screw control piece (8.6) is controlled by the screw moving block (8.4) in the moving groove (8.3.1), and the second screw control piece (8.4) is arranged in the moving groove (8.3.2), and the second screw control piece (8.4) comprises a positioning groove (8.4).

6. A tooling for assembly of a music box according to claim 1, characterized in that: the screw pushing mechanism (8) comprises a pushing cylinder (8.7), a pushing sliding seat (8.8) which is controlled by the pushing cylinder (8.7) to vertically move up and down, a third sliding rail (8.9) which is matched with the pushing sliding seat (8.8), and a fixing plate (8.10) which is arranged on the lower end face of the pushing sliding seat (8.8), wherein the lower end face of the fixing plate (8.10) is arranged in a fixing groove (8.10.1), and the fixing groove (8.10.1) corresponds to a screw mounting groove (1.2) on a screw pushing station.

7. A tooling for assembly of a music box according to claim 1, characterized in that: the body is including second cam decollator (4) that are used for installing the soundboard, second cam decollator (4) is including being rotatory second work round platform (4.1) of intermittent type equidistance, follows second work round platform (4.1) edge circumference interval arranges second transplanting station, sound piece material loading station, sound piece positioning mechanism (10), first screw installation station, second screw installation station and unloading station in proper order, install transplanting mechanism (9), sound piece material loading mechanism (10), sound piece positioning mechanism (11), first screw installation mechanism (12), second screw installation mechanism (13) and unloading mechanism (14) on workstation (2), second transplanting station, sound piece material loading station, sound piece positioning station, first screw installation station, second screw installation station and unloading station in proper order with transplanting mechanism (9), sound piece material loading mechanism (10), sound piece positioning mechanism (11), first screw installation mechanism (12), second screw installation mechanism (13) and unloading mechanism (14) position.

8. The tooling for assembly of a music box of claim 7, wherein: the first transplanting station and the second transplanting station are adjacently arranged, a transplanting mechanism (9) for moving the music box on the first transplanting station to the second transplanting station is arranged on the workbench (2), and the transplanting mechanism (9) is arranged between the first transplanting station and the second transplanting station.

9. The tooling for assembly of a music box of claim 8, wherein: the transplanting mechanism (9) comprises a second pneumatic clamping jaw (9.1) used for clamping a bottom plate (1) of a first transplanting station, a transplanting sliding block (9.2) used for installing the second pneumatic clamping jaw (9.1), a first transplanting control piece (9.3) used for pushing the transplanting sliding block (9.2) to vertically move up and down, a transplanting sliding seat (9.5) matched with the transplanting sliding block (9.2) and used for installing the fourth sliding rail (9.4), a second transplanting control piece (9.6) used for controlling the transplanting sliding seat (9.5) to move along the direction from the first transplanting station to the second transplanting station, and a fifth sliding rail (9.7) matched with the transplanting sliding seat (9.5), wherein the first transplanting control piece (9.3) controls the second pneumatic clamping jaw (9.1) to vertically move down, so that the second pneumatic clamping jaw (9.1) clamps the bottom plate (1), the first transplanting control piece (9.3) is used for controlling the second pneumatic clamping jaw (9.5) to move along the direction from the first transplanting station to the second transplanting station, and the second transplanting control piece (9.5) is used for transplanting the second pneumatic clamping jaw (9.1).