CN220596062U - Voice coil motor transfer device - Google Patents

Abstract

The utility model discloses a voice coil motor transfer device, which comprises a transfer body, wherein one side of a material carrying rail is provided with the transfer body, the transfer body is connected to a box body through a first driving source, the opposite side of a discharge hole of the transfer body is provided with a material conveying mechanism, and the other end of the material conveying mechanism is provided with a PV furnace; the first driving source is used for driving the transfer body to move and enabling the material receiving port of the transfer body to be opposite to the material outlet of the material carrying rail or enabling the material outlet of the transfer body to be opposite to the material conveying mechanism; the utility model solves the problem that the shell and the magnet are required to be manually transferred to the PV furnace in the prior art.

Description

Voice coil motor transfer device

Technical Field

The utility model relates to the technical field of voice coil motor production equipment, in particular to a voice coil motor transfer device.

Background

Fig. 1 is a schematic diagram of a mounting structure of a housing and a magnet of a voice coil motor in the prior art, wherein the housing and the magnet are fixed together by dispensing, and the subsequent process is to send the housing and the magnet after dispensing into a PV furnace for glue solidification.

At present, the batch of dispensed shells and magnets are distributed on two tracks, and workers are required to collect the batch of dispensed shells and magnets in a basket, and then the shells and magnets in the basket are manually transferred to the PV furnace in sequence.

The above-mentioned prior art transfer method has disadvantages in that: the shell and the magnet are manually transferred to the PV furnace, so that the physical strength of workers is seriously consumed, and the working efficiency is reduced.

Disclosure of Invention

Accordingly, the present utility model is directed to a voice coil motor transferring apparatus, which solves the problem of manually transferring a housing and a magnet to a PV furnace in the prior art.

The utility model discloses a voice coil motor shell and a magnet feeding assembly, which comprises a transfer body, wherein one side of a material carrying rail is provided with the transfer body, the transfer body is connected to a box body through a first driving source, the opposite side of a discharge hole of the transfer body is provided with a material conveying mechanism, and the other end of the material conveying mechanism is provided with a PV furnace; the first driving source is used for driving the transfer body to move, and enabling the material receiving port of the transfer body to be opposite to the material outlet of the material carrying rail or enabling the material outlet of the transfer body to be opposite to the material conveying mechanism.

As a first embodiment of the first driving source: the first driving source is a push rod, the push rod is arranged on the box body, and a telescopic shaft of the push rod is connected with the transferring body.

A second embodiment as a first drive source: the first driving source comprises a belt, a plurality of teeth are arranged on the outer surface of the belt, and a first stirring part and a second stirring part are respectively arranged on the material carrying rail and the transfer body; the tooth is in linkage with the first toggle part and the second toggle part respectively, and when the belt moves along one side, the tooth is in linkage with the first starting part to move; when the belt moves along the other side, the tooth is linked with the second poking part to move.

As a further limitation to the first toggle part or the second toggle part, the first toggle part or the second toggle part comprises a blocking arm, the blocking arm of the first toggle part is connected to the material carrying rail through a pin shaft, and the blocking arm of the second toggle part is connected to the transfer body through a pin shaft; a first elastic component is connected between the blocking arm and the pin shaft; the back of the blocking arm of the first poking part and the second poking part is provided with a limiting arm, and the limiting arm is used for limiting the moving position of the blocking arm.

The material conveying mechanism used as the material conveying mechanism is further limited and comprises a plurality of rollers, wherein the rollers are arranged side by side longitudinally, and gaps are formed between the adjacent rollers; the two ends of the roller are respectively connected to the beam bodies at the two sides; one side of the material conveying mechanism is provided with a second driving source for driving the roller to rotate.

The utility model has the beneficial effects that:

this application is through combining the transfer body, a driving source, conveying mechanism to the mode of machinery replaces current artificial material loading mode, makes casing, magnetite remove to the PV stove in quick, in batches, saves staff's physical power, improves work efficiency.

Drawings

Fig. 1 is a schematic diagram of a mounting structure of a housing and a magnet of a voice coil motor in the prior art.

Fig. 2 is a schematic diagram of the overall structure of the voice coil motor transfer apparatus.

Fig. 3 is a schematic diagram of an assembled structure of a first embodiment of the first driving source.

Fig. 4 is a schematic diagram of an assembled structure of a second embodiment of the first drive source.

Fig. 5 is a schematic diagram of an assembly structure of the first toggle member and the second toggle member.

In the figure, a casing 1, a magnet 2, a transfer body 3, a carrier rail 4, a box 5, a first driving source 6, a push rod 601, a belt 602, teeth 603, a blocking arm 604, a spring body 605, a limiting arm 606, a PV furnace 7, rollers 8, and a beam body 9.

Detailed Description

In order to clearly understand the technical scheme of the application, the voice coil motor shell, the magnet feeding assembly and the magnetic clamping and placing device provided by the application are described in detail below with reference to specific embodiments and drawings.

The terminology used in the following embodiments is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in the specification of this application and the appended claims, the singular forms "a," "an," "the," and "the" are intended to include, for example, "one or more" such forms of expression, unless the context clearly indicates to the contrary. It should also be understood that in the various embodiments herein below, "at least one", "one or more" means one, two or more than two.

Reference in the specification to "one embodiment" or "some embodiments" or the like means that a particular feature, structure, or characteristic described in connection with the embodiment is included in one or more embodiments of the application. Thus, appearances of the phrases "in one embodiment," "in some embodiments," "in other embodiments," and the like in various places throughout this specification are not necessarily all referring to the same embodiment, but mean "one or more, but not all, embodiments" unless expressly specified otherwise. The terms "comprising," "including," "having," and variations thereof mean "including but not limited to," unless expressly specified otherwise.

Example 1

The present embodiment provides a voice coil motor transferring device, referring to fig. 2, showing an overall structure schematic diagram of the voice coil motor transferring device, and as can be seen from the figure, the voice coil motor transferring device includes a transferring body 3, the transferring body 3 is located at one side of two material carrying rails 4 (in the prior art, the two material carrying rails 4 are used for transporting the dispensed shell 1 and the magnet 2, and the material carrying rails 4 are not protection objects of the present application, and are not described herein any more), and the two material carrying rails 4 are placed side by side; the transfer body 3 is arranged on the box body 5, and a first driving source 6 is arranged on the box body 5; the first driving source 6 is connected with the transfer body 3, and under the driving action of the first driving source 6, the material receiving ports of the transfer body 3 can be respectively corresponding to the material discharging ports of the two material carrying rails 4 according to requirements; the opposite sides of the discharge hole of the transfer body 3 are in butt joint with a material conveying mechanism, a PV furnace 7 (for example, a drying box with the model of DGF-4 can be selected) is arranged at the other end of the material conveying mechanism, under the cooperation of a first driving source 6, the transfer body 3 moves the glued shell 1 and the magnet 2 to different positions of the material conveying mechanism, and the material conveying mechanism moves the shells 1 and the magnet 2 at different positions to corresponding positions in the PV furnace 7.

Specifically, the first drive source 6 has the following two embodiments, and the specific configuration is as follows.

Referring to fig. 3, there is shown a schematic diagram of an assembly structure of the first embodiment of the first driving source 6, and it can be seen from the figure that the first driving source 6 directly selects the push rod 601, the telescopic shaft of the push rod 601 is connected with the transfer body 3, and the push rod 601 is fixed on the case 5. When the first embodiment of the first driving source 6 is specifically used, when the transfer body 3 needs to receive the shells 1 and the magnets 2 on the two material carrying rails 4, the push rod 601 is used for driving the material receiving port of the transfer body 3 to be in butt joint with the material discharging port of the material carrying rail 4, and the corresponding material carrying rail 4 is started, so that the shells 1 and the magnets 2 on the material carrying rail 4 are transported to the transfer body 3; when the shell 1 and the magnet 2 of the transfer body 3 need to be moved into the PV furnace 7, the discharge hole of the transfer body 3 is moved to the corresponding position of the material conveying mechanism.

Referring to fig. 4, there is shown an assembly structure schematic diagram of a second embodiment of the first driving source 6, and as can be seen from the figure, the first driving source 6 includes a belt 602, a plurality of teeth 603 are equidistantly connected to an outer surface of the belt 602, a first toggle member is disposed on the two material carrying rails 4, and a second toggle member is disposed on the transfer body 3; the tooth 603 and the first toggle part and the second toggle part form linkage respectively, and when the belt 602 and the tooth 603 move in the forward direction, the tooth 603 moves in a linkage manner with the first starting part; when the belt 602 and the tooth 603 move in the reverse direction, the tooth 603 moves in linkage with the second toggle member.

More specifically, referring to fig. 5, an assembly structure schematic diagram of the first toggle member and the second toggle member is shown, and as can be seen from the figure, the structures of the first toggle member and the second toggle member are the same; the first stirring part and the second stirring part comprise a blocking arm 604, the blocking arm 604 of the first stirring part is connected to the material carrying rail 4 through a pin shaft in a switching manner, and the blocking arm 604 of the second stirring part is connected to the transferring body 3 through a pin shaft in a switching manner; a first elastic component (in the embodiment, a spring body 605 is directly selected or other elastic components which can replace the spring body 605) is connected between the blocking arm 604 and the pin shaft; the back of the blocking arm 604 of the first toggle part and the second toggle part is provided with a limiting arm 606, and the limiting arm 606 is used for limiting the moving position of the blocking arm 604.

The first drive source 6 operates according to the second embodiment: with continued reference to fig. 5, first, the belt 602 moves in the forward direction (a 1 direction), and the blocking arm 604 on the first toggle member is limited by the limiting arm 606, so that the tooth 603 pulls the blocking arm 604 to move, and the two material carrying rails 4 are indirectly driven to move in the forward direction until the two material carrying rails 4 move to the designated position; the teeth 603 of the belt 602 press the blocking arm 604 of the second toggle part to turn over, and the transfer body 3 cannot be moved. Then, the belt 602 moves along the reverse direction (a 2 direction), similar to the principle in the a1 direction, when the belt 602 moves along the reverse direction, the tooth 603 drives the indirect driving transfer body 3 to move along the reverse direction, and the tooth 603 only passes through the blocking arm 604 of the first toggle part, so that the two material carrying rails 4 cannot move; the receiving port of the transfer body 3 is moved to be opposite to the discharging port of the loading rail 4, and the movement of the belt 602 is stopped. Finally, the material carrying rail 4 is started, and the shell 1 and the magnet 2 on the corresponding material carrying rail 4 are moved to the transfer body 3.

Specifically, with continued reference to fig. 2, the feeding mechanism includes a plurality of rollers 8, the plurality of rollers 8 are arranged side by side in the longitudinal direction, and gaps are formed between adjacent rollers 8; two ends of the plurality of rollers 8 are respectively and rotatably connected to two beam bodies 9, and the two beam bodies 9 and the plurality of rollers 8 form a material conveying mechanism in the first embodiment together; one side of the material conveying mechanism is provided with a single or a plurality of second driving sources for driving the plurality of rollers 8 to rotate, and when the number of the second driving sources is multiple (for example, the second driving sources are motors), the output shaft of each second driving source is respectively connected with the corresponding roller 8; when the number two driving source is single, it is necessary to provide a belt or a chain belt separately, the belt or the chain belt and the plurality of rollers 8 form a linkage, and one end of the belt or the chain belt is connected to the output shaft of the single number two driving source. When the first embodiment of the material conveying mechanism is used, firstly, a batch of shells 1 and magnets 2 are placed at the head end of the first embodiment of the material conveying mechanism, and in order to avoid the slipping phenomenon of the shells 1 and the magnets 2 depending on the self weight, the shells 1 and the magnets 2 are required to be placed in gaps between two adjacent rollers 8; when the batch of the housings 1 and the magnets 2 are required to be simultaneously charged, the plurality of rollers 8 are simultaneously linked by the second driving source, so that the batch of the housings 1 and the magnets 2 are simultaneously charged.

This application is through combining transfer body 3, drive source 6, conveying mechanism to the mode of machinery replaces current artificial material loading mode, makes casing 1, magnetite can be quick, in the batch removal to PV stove 7, saves staff's physical power, improves work efficiency.

Claims (5)

1. A voice coil motor transfer apparatus, characterized in that: the automatic feeding device comprises a transfer body (3), wherein one side of a material carrying rail (4) is provided with the transfer body (3), the transfer body (3) is connected to a box body (5) through a first driving source (6), the opposite side of a discharge hole of the transfer body (3) is provided with a material conveying mechanism, and the other end of the material conveying mechanism is provided with a PV furnace (7); the first driving source (6) is used for driving the transfer body (3) to move, and enables a material receiving port of the transfer body (3) to be opposite to a material outlet of the material carrying rail (4) or a material outlet of the transfer body (3) to be opposite to the material conveying mechanism.

2. The voice coil motor transfer apparatus of claim 1, wherein: the first driving source (6) is a push rod (601), the push rod (601) is arranged on the box body (5), and a telescopic shaft of the push rod (601) is connected with the transferring body (3).

3. The voice coil motor transfer apparatus of claim 1, wherein: the first driving source (6) comprises a belt (602), a plurality of teeth (603) are arranged on the outer surface of the belt (602), and a first poking part and a second poking part are respectively arranged on the material carrying rail (4) and the transfer body (3); the tooth (603) and the first toggle part and the second toggle part form linkage respectively, and when the belt (602) moves along one side, the tooth (603) is linked with the first starting part to move; when the belt (602) moves along the other side, the tooth (603) is linked with the second toggle part to move.

4. A voice coil motor transfer apparatus as claimed in claim 3, wherein: the first toggle part or the second toggle part comprises a blocking arm (604), the blocking arm (604) of the first toggle part is connected to the material carrying rail (4) through a pin shaft, and the blocking arm (604) of the second toggle part is connected to the transferring body (3) through a pin shaft;

a first elastic component is connected between the baffle arm (604) and the pin shaft; and the back of the blocking arm (604) of the first toggle part and the second toggle part is provided with a limiting arm (606), and the limiting arm (606) is used for limiting the moving position of the blocking arm (604).

5. The voice coil motor transfer apparatus of claim 1, wherein: the material conveying mechanism comprises a plurality of rollers (8), wherein the rollers (8) are arranged side by side along the longitudinal direction, and gaps are formed between adjacent rollers (8); two ends of the roller (8) are respectively connected to the beam bodies (9) at two sides; one side of the material conveying mechanism is provided with a second driving source for driving the roller (8) to rotate.