CN112496740A - Tooth case assembling equipment - Google Patents

Abstract

The invention discloses a tooth box assembling device which comprises a rack, a pull shaft clamping mechanism, a spring mounting mechanism, a steel ball mounting mechanism and a gear mounting mechanism. The pull shaft clamping mechanism comprises a pull shaft feeding unit, a pull shaft guide rail and a clamping unit, and the feeding end of the pull shaft guide rail is connected with the discharging end of the pull shaft feeding unit; the clamping unit is used for clamping a pull shaft, a spring through hole is formed in the side end of a pull shaft guide rail and communicated with a mounting hole of the pull shaft, steel ball through holes are formed in two sides of the discharging end of the pull shaft guide rail and communicated with the mounting hole of the pull shaft, the spring mounting mechanism is used for assembling a spring onto the pull shaft along the spring through hole, the steel ball mounting mechanism is used for assembling a steel ball onto the pull shaft along the steel ball through hole, and the gear mounting mechanism is used for assembling a gear onto the pull shaft. According to the tooth box assembling equipment, automatic assembly can be realized, and the production efficiency is improved.

Description

Tooth case assembling equipment

Technical Field

The invention relates to the field of mechanical equipment, in particular to tooth box assembling equipment.

Background

In the existing fan production industry, the gear box accessory plays an important structural movement work in the fan, and can enable the fan to swing left and right and fix a certain horizontal angle. However, in the traditional industry, the gearbox structure is complex and complicated to assemble, so that the production efficiency is far lower than the order demand.

The tooth box assembling equipment generally comprises a rack, a transmission mechanism, a feeding mechanism and a material taking mechanism. Wherein, traditional fan tooth case part adopts manual work or many pieces of equipment to assemble each part of tooth case together respectively, has degree of automation and packaging efficiency low, product quality unstability, and the product percent of pass is low.

Disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art. Therefore, the tooth box assembling equipment provided by the invention realizes automatic assembly and improves the production efficiency.

According to the tooth case assembling equipment provided by the embodiment of the invention, the tooth case assembling equipment comprises a rack; the clamping mechanism comprises a pulling shaft feeding unit, a pulling shaft guide rail and a clamping unit, the pulling shaft guide rail is arranged on the rack, and the feeding end of the pulling shaft guide rail is connected with the discharging end of the pulling shaft feeding unit; the clamping unit is movably arranged above the pull shaft guide rail and used for clamping the pull shaft; a spring through hole is formed in the side end of the pull shaft guide rail and communicated with the mounting hole of the pull shaft; steel ball through holes are formed in two sides of the discharging end of the pull shaft guide rail and are communicated with mounting holes of the pull shaft; a spring mounting mechanism for mounting a spring onto the pull shaft along the spring through hole; the steel ball mounting mechanism is mounted on the rack, arranged on two sides of the discharge end of the pull shaft guide rail and used for mounting steel balls on the pull shaft along the steel ball through holes; and the gear mounting mechanism is mounted on the rack, and part of the gear mounting mechanism is arranged below the discharge end of the pull shaft guide rail and is used for assembling a gear onto the pull shaft.

According to the tooth box assembling equipment provided by the embodiment of the invention, at least the following technical effects are achieved: after the pull shaft feeding unit feeds the pull shaft to the pull shaft guide rail, the clamping unit clamps the pull shaft to the spring through hole, the spring mounting mechanism assembles the spring to the pull shaft, the clamping unit clamps the pull shaft to move to the steel ball through hole, the steel ball mounting mechanism mounts the steel ball to the pull shaft, and the gear mounting mechanism assembles the gear to the pull shaft, so that the automatic assembly of the gearbox is realized, and the production efficiency is improved.

According to some embodiments of the invention, the spring mounting mechanism comprises a spring feeding unit, a feeding unit and a propelling unit; the feeding unit is movably arranged on the side surface of the pull shaft guide rail and is provided with a feeding through hole for placing a spring; the pushing unit is telescopically arranged on the frame and is used for assembling the spring on the pull shaft along the spring through hole; the feeding unit comprises a first state and a second state; when the feeding unit is in a first state, the feeding end of the feeding through hole is connected with the discharging end of the spring feeding unit; when the feeding unit is in the second state, the feeding through hole is communicated with the spring through hole, and the propelling unit is abutted to the spring.

According to some embodiments of the invention, the feeding unit comprises a first clamp, a second clamp and a torsion spring; the first clamp comprises a rotating shaft and is provided with a first semicircular through groove; the second clamp is provided with a rotating through hole and a second semicircular through groove; the first clamp and the second clamp are rotatably connected through the rotating shaft and the rotating through hole; the torsion spring is sleeved on the rotating shaft and comprises a first extending end and a second extending end, the first extending end is fixedly connected with the rotating shaft, and the second extending end is abutted against the hole wall of the rotating through hole; the first semicircular through groove and the second semicircular through groove form the feeding through hole.

According to some embodiments of the invention, the gripping unit comprises a pull shaft drive, a connecting plate and two gripping jaws; the clamping jaw is movably arranged above the pull shaft guide rail and used for clamping the pull shaft; the connecting plate is fixedly connected with the two clamping jaws; the pull shaft drive is used for driving the connecting plate to move.

According to some embodiments of the invention, the clamping jaw comprises a finger cylinder and two clamping blocks; the two clamping blocks are symmetrically and respectively arranged at two output ends of the finger cylinder; and one opposite sides of the two clamping blocks are respectively provided with a pull shaft semicircular through groove for clamping the pull shaft.

According to some embodiments of the invention, the steel ball mounting mechanism comprises a steel ball feeding unit, two pressing rods and linkage units which are symmetrically arranged; one ends of the two pressing rods are respectively connected with the feeding end of the steel ball feeding unit, the other ends of the two pressing rods are symmetrically connected with the linkage unit, and the pressing rods are used for assembling the steel balls on the pull shaft along the steel ball through holes; the linkage unit is used for driving the pressing rod to move.

According to some embodiments of the invention, the linkage unit comprises two linkage plates, a Y-shaped plate and a tightening drive; the two linkage plates are movably arranged on the rack, and one end of each linkage plate is connected with the pressing rod; the inner sides of the two symmetrical ends of the Y-shaped plate are respectively abutted against the two linkage plates; and the tightening drive is connected with the third end of the Y-shaped plate and is used for driving the Y-shaped plate to move.

According to some embodiments of the present invention, the gear mounting mechanism comprises a conveying unit and a pressing-down unit, wherein the conveying unit is partially arranged below the discharging end of the pull shaft guide rail and is used for conveying the gear; the pressing unit is arranged above the discharge end of the pull shaft guide rail and used for assembling the gear onto the pull shaft.

According to some embodiments of the invention, the conveying unit comprises a material separating turntable; the material distribution turntable is rotatably arranged on the rack; the material distribution rotary disc comprises a plurality of mounting parts, and the mounting parts are used for mounting the gears; one the installation part is arranged below the discharge end of the pull shaft guide rail.

According to some embodiments of the invention, the pressing unit comprises a pressing member, and the pressing member is provided with a pull shaft insertion slot for inserting the pull shaft.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

FIG. 1 is a first schematic view of a dental box assembly apparatus according to an embodiment of the present invention;

FIG. 2 is a second schematic view of a dental box assembly apparatus according to an embodiment of the present invention;

FIG. 3 is a partial schematic view of the pull shaft clamping mechanism and the spring mounting mechanism of the dental box assembly apparatus shown in FIG. 1;

FIG. 4 is a partial schematic view of a feed unit of the dental box assembly apparatus shown in FIG. 1;

FIG. 5 is a partial schematic view of a pull shaft gripper mechanism of the dental box assembly apparatus shown in FIG. 1;

FIG. 6 is a partial schematic view of a steel ball mounting mechanism of the dental box assembly apparatus shown in FIG. 1;

FIG. 7 is a partial cross-sectional view of the steel ball mounting mechanism of the dental box assembly apparatus shown in FIG. 6;

fig. 8 is a partial schematic view of a gear mounting mechanism of the dental box assembly apparatus shown in fig. 1.

Reference numerals:

a tooth box assembling device 100,

A machine frame 200,

A pull shaft clamping mechanism 300, a pull shaft feeding unit 310, a pull shaft guide rail 320, a spring through hole 321, a steel ball through hole 322, a clamping unit 330, a connecting plate 331, a clamping jaw 332, a clamping block 333, a finger cylinder 334, a pull shaft semicircular through groove 335,

The spring mounting mechanism 400, the spring loading unit 410, the feeding unit 420, the feeding through hole 421, the first clamp 422, the rotating shaft 424, the first semicircular through groove 425, the second clamp 423, the rotating through hole 426, the second semicircular through groove 427, the propelling unit 430, the propelling unit,

The steel ball mounting mechanism 500, the pressing rod 510, the linkage unit 520, the linkage plate 521, the Y-shaped plate 522, the tightening drive 523, the steel ball feeding unit 530, the steel ball feeding groove 531,

Gear mounting mechanism 600, conveying unit 610, material distribution rotary table 611, pressing unit 620, pressing piece 621, pulling shaft slot 622, gear feeding unit 630,

The gearbox 700, the pull shaft 710, the mounting hole 711, the steel ball 720 and the gear 730.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the accompanying drawings are illustrative only for the purpose of explaining the present invention, and are not to be construed as limiting the present invention.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to in the description of the orientation, such as the upper, lower, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, the meaning of a plurality of means is one or more, the meaning of a plurality of means is two or more, and larger, smaller, larger, etc. are understood as excluding the number, and larger, smaller, inner, etc. are understood as including the number. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless otherwise explicitly limited, terms such as arrangement, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the specific contents of the technical solutions.

A dental box assembling apparatus 100 according to an embodiment of the present invention is described below with reference to fig. 1 to 8.

The workpiece assembling gearbox 700 in the embodiment of the invention consists of a pull shaft 710, a spring, two steel balls 720 and a gear 730. The pull shaft 710 is provided with a mounting hole 711, a spring is mounted in the mounting hole 711, and two steel balls 720 are symmetrically mounted in the mounting hole 711 and are disposed at both ends of the spring. The pulling shaft 710, with the spring and the steel ball 720 assembled, is pressed into the gear 730, thereby completing the assembly of the gear box 700.

As shown in fig. 1 to 8, the gear box assembling apparatus 100 according to the embodiment of the present invention includes a frame 200, a pull shaft gripping mechanism 300, a spring mounting mechanism 400, a steel ball mounting mechanism 500, and a gear mounting mechanism 600.

As shown in fig. 1 and 2, the pull shaft clamping mechanism 300 comprises a pull shaft feeding unit 310, a pull shaft guide rail 320 and a clamping unit 330, wherein the pull shaft guide rail 320 is installed on the frame 200, the feeding end of the pull shaft guide rail 320 is connected with the discharging end of the pull shaft feeding unit 310, the clamping unit 330 is movably installed above the pull shaft guide rail 320 and is used for clamping the pull shaft 710, the side end of the pull shaft guide rail 320 is provided with a spring through hole 321, the spring through hole 321 is communicated with the installation hole 711 of the pull shaft 710, the two sides of the discharging end of the pull shaft guide rail 320 are provided with steel ball through holes 322, the steel ball through holes 322 are communicated with the installation hole 711 of the pull shaft 710, the spring installation mechanism 400 is used for assembling a spring onto the pull shaft 710 along the spring through hole 321, the steel ball installation mechanism 500 is installed on the frame 200 and is arranged on the two sides of the discharging end of the pull shaft guide rail 320 and is used for assembling the steel ball, partially disposed below the discharge end of the pull shaft guide 320 for fitting the gear 730 to the pull shaft 710.

As shown in fig. 3, the pulling shaft clamping mechanism 300 includes a pulling shaft feeding unit 310, a pulling shaft guide rail 320 and a clamping unit 330, the pulling shaft guide rail 320 is installed on the frame 200, a feeding end of the pulling shaft guide rail 320 is connected to a discharging end of the pulling shaft feeding unit 310, the clamping unit 330 is movably installed above the pulling shaft guide rail 320 for clamping the pulling shaft 710, a spring through hole 321 is formed at a side end of the pulling shaft guide rail 320, and the spring through hole 321 is communicated with a mounting hole 711 of the pulling shaft 710. Two sides of the blanking end of the pull shaft guide rail 320 are provided with steel ball through holes 322, and the steel ball through holes 322 are communicated with the mounting hole 711 of the pull shaft 710.

As shown in fig. 1 and 2, the spring mounting mechanism 400 is used to mount the spring to the pull shaft 710 along the spring through-hole 321. The steel ball mounting mechanism 500 is mounted on the frame 200, disposed on both sides of the discharge end of the pull shaft guide rail 320, and is used for mounting steel balls 720 on the pull shaft 710 along the steel ball through holes 322. The gear mounting mechanism 600 is mounted to the frame 200, partially disposed below the discharge end of the pull shaft guide 320, for mounting the gear 730 to the pull shaft 710.

The pulling shaft feeding unit 310 conveys the pulling shaft 710 to the feeding end of the pulling shaft guide rail 320, the clamping unit 330 clamps the pulling shaft 710 and moves the pulling shaft 710 to the spring through hole 321, the spring mounting mechanism 400 mounts the spring to the mounting hole 711 of the pulling shaft 710 through the spring through hole 321, then the clamping unit 330 moves the pulling shaft 710 to the steel ball through hole 322, the steel ball mounting mechanism 500 mounts the steel ball 720 to the mounting hole 711 of the pulling shaft 710 through the steel ball through hole 322, and then the gear mounting mechanism 600 mounts the gear 730 arranged below the pulling shaft 710 to the pulling shaft 710. Conceivably, the pull shaft feeding unit 310 and the spring feeding unit 410 can adopt a mode of combining a vibration feeding tray and a transmission rail, the vibration feeding tray can distinguish the positive aspect of materials and discharge the incorrectly placed materials and then feed the materials again, so that the error caused by manual feeding is avoided, and the production efficiency is effectively improved. In addition, the feeding speed can be controlled by the vibration feeding plate, so that the application range is wider. It is understood that the automatic feeding can also be realized by a mechanical arm, and the above embodiment is only one of the preferred embodiments of the present invention.

The conventional fan gearbox 700 parts are assembled by adopting manual work or multiple devices to assemble the parts of the gearbox 700 together, and the automation degree and the assembly efficiency are low. In the above-described embodiment of the invention of the gear box assembly apparatus 700, after the pulling shaft feeding unit 310 feeds the pulling shaft 710 to the pulling shaft guide rail 320, the clamping unit 330 clamps the pulling shaft 710 to the spring through hole 321, the spring mounting mechanism 400 mounts the spring to the pulling shaft 710, the clamping unit 330 clamps the pulling shaft 710 and moves to the steel ball through hole 322, the steel ball mounting mechanism 500 mounts the steel ball 720 to the pulling shaft 710, and the gear mounting mechanism 600 mounts the gear 730 to the pulling shaft 710, thereby realizing the automatic assembly of the gear box 700 and improving the production efficiency.

In some embodiments of the present invention, as shown in fig. 3, the spring mounting mechanism 400 includes a spring loading unit 410, a feeding unit 420, and a pushing unit 430, wherein the feeding unit 420 is movably mounted at a side of the pull shaft guide 320, the feeding unit 420 is provided with a feeding through hole 421 for placing the spring, and the pushing unit 430 is telescopically mounted on the frame 200 for assembling the spring to the pull shaft 710 along the spring through hole 321. The feeding unit 420 comprises a first state and a second state, when the feeding unit 420 is in the first state, the feeding end of the feeding through hole 421 is connected with the discharging end of the spring feeding unit 410, when the feeding unit 420 is in the second state, the feeding through hole 421 is communicated with the spring through hole 321, and the pushing unit 430 is abutted to the spring. When the feeding end of the feeding through hole 421 is connected to the discharging end of the spring feeding unit 410, the spring feeding unit 410 conveys the spring into the feeding through hole 421, the feeding unit 420 drives the spring to move along the pull shaft guide rail 320 until the feeding through hole 421 is communicated with the spring through hole 321, the pushing unit 430 extends forward to push the spring, so that the spring reaches the spring through hole 321 from the feeding through hole 421 and reaches the mounting hole 711 of the pull shaft 710 through the spring through hole 321, and thus, the automatic assembly of the spring is completed. It is contemplated that propulsion unit 420 may include a telescoping cylinder with a telescoping shaft that propels the spring.

In some embodiments of the present invention, as shown in fig. 4, the feeding unit 420 includes a first clamp 422, a second clamp 423 and a torsion spring, the first clamp 422 includes a rotating shaft 424 and is provided with a first semicircular through groove 425, the second clamp 423 is provided with a rotating through hole 426 and a second semicircular through groove 427, the first clamp 422 and the second clamp 423 are rotatably connected through the rotating shaft 424 and the rotating through hole 426, the torsion spring is sleeved on the rotating shaft 424, the torsion spring includes a first protruding end and a second protruding end, the first protruding end is fixedly connected with the rotating shaft 424, the second protruding end abuts against a hole wall of the rotating through hole 426, and the first semicircular through groove 425 and the second semicircular through groove 427 constitute the feeding through hole 421. When the feeding unit 420 is withdrawn from the spring pass-through hole 321 to the spring feeding unit 410, if the pushing unit 430 is not completely withdrawn from the feeding pass-through hole 421, the pushing unit 430 blocks the first clamp 422 from being withdrawn, and at this time, the first clamp 422 rotates around the second clamp 423, so that the first semicircular through groove 425 and the second semicircular through groove 427 are separated, and thus the pushing unit 430 can be smoothly withdrawn from the feeding pass-through hole 421. When the feeding unit 420 completely exits the feeding through hole 421, the torsion spring acts to rebound the first clamp 422, so that the first clamp 422 and the second clamp 423 are recombined into the feeding through hole 421. Through the torsion spring setting, make first semicircle logical groove 425 and second semicircle logical groove 427 openable and closeable, be favorable to avoiding feed unit 420 card to die in feed-through 421, thereby make feed unit 420 arrive spring-through 321 after, can return to the discharge end of spring material loading unit 410 at once, and need not wait to confirm to return again after propulsion unit 430 withdraws from feed-through 421 completely, thereby assembly time has been reduced, the design about relation between feed unit and the propulsion unit in tooth case equipment 100 has been saved simultaneously, the design of tooth case equipment 100 has been simplified, and the production cost is reduced, thereby the production efficiency is improved.

In some embodiments of the present invention, as shown in fig. 5, the gripping unit 330 includes a pulling shaft driver, a connecting plate 331 and two clamping jaws 332, the clamping jaws 332 are movably installed above the pulling shaft guide 320 for gripping the pulling shaft 710, the connecting plate 331 is fixedly connected with the two clamping jaws 332, and the pulling shaft driver is used for driving the connecting plate 331 to move. The two clamping jaws 332 are connected together through a connecting plate 331, and when the pulling shaft drives the connecting plate 331 to move, the connecting plate 331 drives the two clamping jaws 332 to simultaneously move along the pulling shaft guide rail 320, so that the two pulling shafts 710 can simultaneously move. The gripping unit 330 in the above embodiment includes two gripping claws 332, and when one gripping claw 332 grips the pulling shaft 710 at the feed end of the pulling shaft guide 320, the other gripping claw 332 grips the pulling shaft 710 at the spring through hole 321. When the pull shafts 710 located in the spring through holes 321 complete the spring assembly, the connecting plate 331 drives the two pull shafts 710 to move. Wherein the pulling shaft 710 at the feed end of the pulling shaft guide 320 reaches the spring passing hole 321, and at the same time, the pulling shaft 710 having been assembled with the spring reaches the steel ball passing hole 322. The pulling shaft 710 is clamped and moved by the two clamping jaws 332 at the same time, the pulling shaft 710 to be assembled and the assembled pulling shaft 710 are conveyed to a station needing to be assembled at one time, the reciprocating conveying times and time of the clamping jaw 332 unit are reduced, meanwhile, the conveying between different stations of the two pulling shafts 710 is realized by one pulling shaft drive, the number of the pulling shaft drives is reduced, and the production cost can be reduced. Therefore, the gripping unit 330 of the above embodiment can effectively improve the production efficiency by being arranged in this way.

In some embodiments of the present invention, as shown in fig. 5, the clamping jaw 332 includes a finger cylinder 334 and two clamping blocks 333, the two clamping blocks 333 are symmetrically installed at two output ends of the finger cylinder 334, and opposite sides of the two clamping blocks 333 are respectively provided with a pull shaft semi-circular through groove 335 for clamping the pull shaft 710. The pull shaft 710 is arranged between the two pull shaft semi-circular through grooves 335, the two clamping blocks 333 are driven to move oppositely through the finger air cylinder 334, and therefore the pull shaft 710 can be clamped, and the structure is simple.

In some embodiments of the present invention, the steel ball mounting mechanism 500 comprises a steel ball feeding unit 530, two pressing rods 510 and linkage units 520 symmetrically arranged, wherein one ends of the two pressing rods 510 are respectively connected to the feeding end of the steel ball feeding unit 530, the other ends of the two pressing rods 510 are symmetrically connected to the linkage units 520, the pressing rods 510 are used for assembling the steel balls 720 on the pull shaft 710 along the steel ball through holes 322, and the linkage units 520 are used for driving the pressing rods 510 to move. As shown in fig. 6 and 7, the steel ball feeding unit 530 is provided with a steel ball feeding groove 531, one end of each pressing rod 510 is arranged at an outlet of the steel ball feeding groove 531, and after the steel ball 720 is conveyed to the outlet of the steel ball feeding groove 531 by the steel ball feeding unit 530, the linkage unit 520 drives the two pressing rods 510 to press the steel ball 720 into the pull shaft 710 at the same time, so that the two sides of the pull shaft 710 are uniformly stressed, the pull shaft 710 is ensured not to deviate, the failure rate caused by the deviation of the pull shaft 710 is effectively reduced, and the production efficiency is improved.

In some embodiments of the present invention, as shown in fig. 6, the linkage unit 520 includes two linkage plates 521, a Y-shaped plate 522 and a tightening driver 523, the two linkage plates 521 are movably installed on the frame 200, one end of the linkage plate 521 is connected to the pressing rod 510, inner sides of two symmetrical ends of the Y-shaped plate 522 are respectively abutted to the two linkage plates 521, and the tightening driver 523 is connected to a third end of the Y-shaped plate 522 for driving the Y-shaped plate 522 to move. When the tightening driver 523 presses the Y-shaped plate 522 downward, the two linkage plates 521 move in opposite directions along the oblique lines at the two ends of the Y-shaped plate 522, so as to simultaneously drive the two pressing rods 510 to move in opposite directions, and press the two steel balls 720 into the pull shaft 710 at the same time. Two linkage plates 521 are uniformly stressed through the Y-shaped plates 522, the structure is simple, and the two ends of the pull shaft 710 are uniformly stressed, so that the failure rate is reduced, and the production efficiency is improved.

In some embodiments of the present invention, the gear mounting mechanism 600 includes a transfer unit 610 and a pressing unit 620, the transfer unit 610 is partially disposed below the discharging end of the pull shaft guide 320 for transferring the gear 730, and the pressing unit 620 is disposed above the discharging end of the pull shaft guide 320 for assembling the gear 730 to the pull shaft 710. After the spring-assembled pull shaft 710 is assembled with the steel balls 720, the gear 730 feeding unit 630 conveys the gear 730 to the conveying unit 610, the conveying unit 610 conveys the gear 730 to the position below the discharging end of the pull shaft guide rail 320, the downward pressing unit 620 presses the pull shaft 710 downwards, and the pull shaft 710 is assembled on the gear 730, so that the automatic assembly of the gear 730 is completed.

In some embodiments of the present invention, the conveying unit 610 includes a material separating turntable 611, the material separating turntable 611 is rotatably installed on the frame 200, the material separating turntable 611 includes a plurality of installation parts for installing the gears 730, and one installation part is disposed below the discharging end of the pull shaft guide 320. After the gear 730 is loaded into the mounting portion by the gear 730 loading unit 630, the distributing rotary table 611 drives the gear 730 to rotate to the position below the discharge end of the pull shaft guide rail 320, and after the gear 730 is assembled by the gear mounting mechanism 600, the distributing rotary table 611 rotates to rotate the assembled gear 730, and simultaneously, the next gear 730 to be assembled is conveyed to the position below the discharge end of the pull shaft guide rail 320. Effectively distinguish the gear 730 that waits to assemble and the gear 730 that has assembled through a plurality of installation departments, be favorable to going on smoothly of production processes, improve the production efficiency. Conceivably, the mounting portions are uniformly arranged on the distributing rotary table 611, which is more beneficial to orderly process. Furthermore, the number of the mounting parts is eight, so that the compact assembly process is facilitated, excessive pressure cannot be applied to the steel ball feeding unit 530, and the production efficiency is better.

In some embodiments of the present invention, the pressing unit 620 includes a pressing member 621, and the pressing member 621 is provided with a pulling shaft insertion groove 622, and the pulling shaft insertion groove 622 is used for inserting the pulling shaft 710. The pull shaft 710 is inserted into the pull shaft slot 622, which is beneficial to fixing the pull shaft 710, so that when the pressing unit 620 is pressed downwards, the stress of the pull shaft 710 is uniform, the pull shaft 710 is prevented from deviating when being inserted, thereby being beneficial to ensuring that the assembly process is smoothly carried out and improving the production efficiency.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. A dental box assembly apparatus, comprising:

a frame;

the clamping mechanism comprises a pulling shaft feeding unit, a pulling shaft guide rail and a clamping unit, the pulling shaft guide rail is arranged on the rack, and the feeding end of the pulling shaft guide rail is connected with the discharging end of the pulling shaft feeding unit; the clamping unit is movably arranged above the pull shaft guide rail and used for clamping the pull shaft; a spring through hole is formed in the side end of the pull shaft guide rail and communicated with the mounting hole of the pull shaft; steel ball through holes are formed in two sides of the discharging end of the pull shaft guide rail and are communicated with mounting holes of the pull shaft;

a spring mounting mechanism for mounting a spring onto the pull shaft along the spring through hole;

the steel ball mounting mechanism is mounted on the rack, arranged on two sides of the discharge end of the pull shaft guide rail and used for mounting steel balls on the pull shaft along the steel ball through holes;

and the gear mounting mechanism is mounted on the rack, and part of the gear mounting mechanism is arranged below the discharge end of the pull shaft guide rail and is used for assembling a gear onto the pull shaft.

2. The dental box assembling apparatus according to claim 1, wherein the spring mounting mechanism comprises a spring feeding unit, a pushing unit; the feeding unit is movably arranged on the side surface of the pull shaft guide rail and is provided with a feeding through hole for placing a spring; the pushing unit is telescopically arranged on the frame and is used for assembling the spring on the pull shaft along the spring through hole;

the feeding unit comprises a first state and a second state; when the feeding unit is in a first state, the feeding end of the feeding through hole is connected with the discharging end of the spring feeding unit; when the feeding unit is in the second state, the feeding through hole is communicated with the spring through hole, and the propelling unit is abutted to the spring.

3. The dental box assembling apparatus according to claim 2, wherein the feeding unit includes a first clamp, a second clamp, and a torsion spring; the first clamp comprises a rotating shaft and is provided with a first semicircular through groove; the second clamp is provided with a rotating through hole and a second semicircular through groove; the first clamp and the second clamp are rotatably connected through the rotating shaft and the rotating through hole; the torsion spring is sleeved on the rotating shaft and comprises a first extending end and a second extending end, the first extending end is fixedly connected with the rotating shaft, and the second extending end is abutted against the hole wall of the rotating through hole; the first semicircular through groove and the second semicircular through groove form the feeding through hole.

4. The dental box assembling apparatus according to claim 1, wherein the gripping unit includes a pulling shaft drive, a connecting plate, and two gripping jaws; the clamping jaw is movably arranged above the pull shaft guide rail and used for clamping the pull shaft; the connecting plate is fixedly connected with the two clamping jaws; the pull shaft drive is used for driving the connecting plate to move.

5. The dental box assembly apparatus of claim 4, wherein the jaw comprises a finger cylinder and two clamp blocks; the two clamping blocks are symmetrically and respectively arranged at two output ends of the finger cylinder; and one opposite sides of the two clamping blocks are respectively provided with a pull shaft semicircular through groove for clamping the pull shaft.

6. The tooth box assembling device of claim 1, wherein the steel ball mounting mechanism comprises a steel ball feeding unit, two pressing rods and linkage units which are symmetrically arranged; one ends of the two pressing rods are respectively connected with the feeding end of the steel ball feeding unit, the other ends of the two pressing rods are symmetrically connected with the linkage unit, and the pressing rods are used for assembling the steel balls on the pull shaft along the steel ball through holes; the linkage unit is used for driving the pressing rod to move.

7. The tooth box assembly apparatus of claim 6, wherein said linkage unit comprises two linkage plates, a Y-shaped plate and a tightening drive; the two linkage plates are movably arranged on the rack, and one end of each linkage plate is connected with the pressing rod; the inner sides of the two symmetrical ends of the Y-shaped plate are respectively abutted against the two linkage plates; and the tightening drive is connected with the third end of the Y-shaped plate and is used for driving the Y-shaped plate to move.

8. The apparatus according to claim 1, wherein the gear mounting mechanism comprises a conveying unit and a pressing-down unit, the conveying unit being partially disposed below the discharge end of the pull shaft guide rail for conveying the gear; the pressing unit is arranged above the discharge end of the pull shaft guide rail and used for assembling the gear onto the pull shaft.

9. The dental box assembly apparatus of claim 8, wherein the conveying unit includes a material separating turntable; the material distribution turntable is rotatably arranged on the rack; the material distribution rotary disc comprises a plurality of mounting parts, and the mounting parts are used for mounting the gears; one the installation part is arranged below the discharge end of the pull shaft guide rail.

10. The dental box assembling apparatus according to claim 8, wherein the pressing unit includes a pressing member provided with a pull shaft insertion groove for inserting the pull shaft.

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