CN210333233U - Automatic unloading mechanism of getting of magnetic core point gum machine - Google Patents

Abstract

The utility model discloses an automatic material taking and discharging mechanism of a magnetic core dispenser, which comprises a shell feeding pipe and a feeding pipe rotating shaft, wherein one end of the shell feeding pipe is a feeding operation end, a shell feeding cylinder is arranged in the other end of the shell feeding pipe, a cylinder barrel of the shell feeding cylinder is fixedly arranged, a piston rod of the shell feeding cylinder faces the feeding operation end, the tail end of the piston rod is provided with a shell pushing block, and the side wall of the shell feeding pipe is provided with a shell feeding port; the shell feeding pipe is arranged on the feeding pipe rotating shaft, and one end of the shell feeding cylinder is fixedly arranged on the feeding pipe rotating shaft. The utility model provides a pair of magnetic core point gum machine automatic fetching and discharging mechanism can transport the magnetic core after the encapsulation operation to the point gum operation department directly carries out the point gum operation automatically to can unload to the mutual-inductor magnetic core after the point gum operation automatically.

Description

Automatic unloading mechanism of getting of magnetic core point gum machine

Technical Field

The utility model relates to a mutual-inductor processing equipment technical field, especially a magnetic core point gum machine automatic material taking and discharging mechanism.

Background

With the continuous improvement of income level of people, the human cost faced in the enterprise production is also higher and higher, in order to reduce the manufacturing cost of enterprise, more and more automation equipment has replaced manual work or semi-automation operation equipment. After the transformer magnetic core is wrapped with a coil and a lead is connected, an insulating shell is required to be sleeved outside the magnetic core, and then packaging glue such as epoxy resin is injected into the insulating shell, so that the magnetic core is packaged in the insulating shell. In the prior art, the sleeving operation and the dispensing operation of the magnetic core of the mutual inductor are completed in two working procedures, generally, the sleeving operation is performed manually, and then the magnetic core is manually conveyed to a dispensing device for dispensing operation, the operation mode has low automation degree, the magnetic core needs to be orderly stacked during manual transportation, otherwise, lead wires of the magnetic core are wound mutually, and therefore, the production efficiency is low; and the insulating shell is easy to crack by manual sheathing operation.

Disclosure of Invention

In order to overcome prior art not enough, the utility model provides a magnetic core point gum machine automatic fetching and unloading mechanism can transport the magnetic core after the encapsulation operation to the operation department of gluing directly carries out the point and glues the operation automatically to can unload to the mutual-inductor magnetic core after the operation of gluing automatically.

The utility model provides a technical scheme that its technical problem adopted is:

an automatic material taking and discharging mechanism of a magnetic core dispenser comprises a shell feeding pipe and a feeding pipe rotating shaft, wherein one end of the shell feeding pipe is a feeding operation end, a shell feeding cylinder is arranged in the other end of the shell feeding pipe, a cylinder barrel of the shell feeding cylinder is fixedly arranged, a piston rod of the shell feeding cylinder faces the feeding operation end, the tail end of the piston rod is provided with a shell pushing block, and a shell feeding port is formed in the side wall of the shell feeding pipe; the shell feeding pipe is arranged on the feeding pipe rotating shaft, and one end of the shell feeding cylinder is fixedly arranged on the feeding pipe rotating shaft.

As a further improvement of the technical scheme, the device further comprises a dispensing turntable, wherein a dispensing dropper is arranged on the dispensing turntable, and the dispensing dropper is parallel to the axis of the dispensing turntable; the axis of the dispensing turntable is vertically intersected with the axis of the feeding pipe rotating shaft.

As a further improvement of the above technical scheme, the axis of the feeding pipe rotating shaft is horizontally arranged, the axis of the dispensing turntable is vertically arranged, and the dispensing turntable is positioned right above the feeding pipe rotating shaft; the shell feeding pipe is characterized by further comprising a shell material storage pipe which is horizontally arranged and used for being matched with a shell material feeding port, an arc-shaped blocking baffle plate used for blocking the shell material storage pipe is arranged on the side face of the shell material feeding port of the shell material feeding pipe, and the arc-shaped blocking baffle plate is coaxial with a material feeding pipe rotating shaft.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model provides an automatic shedding mechanism of getting of magnetic core point gum machine adopts revolution mechanic's shell conveying pipe, sets up shell feeding cylinder in the shell conveying pipe, sets up the shell dog-house on shell conveying pipe lateral wall, can transport the magnetic core after the suit operation to the point gum operation department directly carries out the point gum operation automatically to can unload to the mutual-inductor magnetic core after the point gum operation automatically.

Drawings

The present invention will be further explained with reference to the drawings and examples.

Fig. 1 is a schematic structural diagram of a transformer magnetic core sleeving and dispensing processing device in sleeving according to the present invention;

fig. 2 is a schematic structural diagram of a transformer core sleeving and dispensing processing device in dispensing of the present invention;

fig. 3 is a schematic structural view of the magnetic core pushing shaft and the shell feeding pipe according to the present invention;

fig. 4 is a schematic structural view of the dispensing turntable and the shell feeding pipe of the present invention.

Detailed Description

Referring to fig. 1 to 4, fig. 1 to 4 are schematic structural views of an embodiment of the present invention.

As shown in fig. 1 to 4, the present embodiment provides a mutual inductor magnetic core sleeving and dispensing processing apparatus, including a magnetic core pushing shaft 11, a dispensing turntable 21, and a shell feeding pipe 31, wherein an annular pushing plate 12 is sleeved on the magnetic core pushing shaft 11, the annular pushing plate 12 is coaxially disposed with the magnetic core pushing shaft 11, the dispensing turntable 21 is provided with a dispensing dropper 22, and the dispensing dropper 22 is parallel to an axis of the dispensing turntable 21; one end of the shell feeding pipe 31 is a feeding operation end, a shell feeding cylinder 32 is arranged in the other end of the shell feeding pipe 31, a cylinder barrel of the shell feeding cylinder 32 is fixedly arranged, a piston rod of the shell feeding cylinder 32 faces the feeding operation end, a shell pushing block 37 is arranged at the tail end of the piston rod, and a shell feeding port 33 is formed in the side wall of the shell feeding pipe 31; the shell feeding pipe 31 can move to enable the feeding operation end to coaxially face the magnetic core pushing shaft 11 and the dispensing turntable 21.

Preferably, one end of the housing feeding pipe 31, which is provided with the housing feeding cylinder 32, is fixedly arranged on a feeding pipe rotating shaft 34, and both the axes of the magnetic core pushing shaft 11 and the dispensing turntable 21 are perpendicular to and intersect with the axis of the feeding pipe rotating shaft 34. Further preferably, the axis of the feeding pipe rotating shaft 34 is horizontally arranged, the axis of the dispensing turntable 21 is vertically arranged, the dispensing turntable 21 is located right above the feeding pipe rotating shaft 34, and the axis of the magnetic core pushing shaft 11 is also horizontally arranged; a shell material storage pipe 35 matched with the shell material feeding port 33 is horizontally arranged between the magnetic core pushing shaft 11 and the material feeding pipe rotating shaft 34, an arc-shaped blocking baffle 36 used for blocking the shell material storage pipe 35 is arranged on the side face of the shell material feeding port 33 of the shell material feeding pipe 31, and the arc-shaped blocking baffle 36 is coaxial with the material feeding pipe rotating shaft 34.

Specifically, the magnetic core pushing shaft 11 is further provided with a magnetic core pushing cylinder 13 for pushing the annular pushing plate 12 to move towards the direction of the feeding pipe rotating shaft 34, and a pushing plate return spring 14 for pulling the annular pushing plate 12 to move away from the direction of the feeding pipe rotating shaft 34.

Specifically, a turntable friction wheel 41 is coaxially arranged on one side of the dispensing turntable 21, which is opposite to the feeding pipe rotating shaft 34, a friction wheel rotating shaft 42 is coaxially and fixedly connected to one side of the turntable friction wheel 41, which is opposite to the dispensing turntable 21, a driving gear 43 which synchronously rotates is movably sleeved on the friction wheel rotating shaft 42, and the driving gear 43 is in transmission connection with a turntable driving motor 44; the coaxial carousel collar 23 that is provided with in the outside of some adhesive rotary table 21, the inboard of carousel collar 23 is provided with the torsional spring mounting groove, be provided with carousel reset torsion spring 24 in the torsional spring mounting groove, just carousel reset torsion spring 24's both ends respectively fixed connection carousel collar 23 with some adhesive rotary table 21. One end of the friction wheel rotating shaft 42, which faces away from the rotary disc friction wheel 41, is provided with an axial pushing cylinder 45 for driving the rotary disc friction wheel 41 to be tightly attached to the dispensing rotary disc 21 and an axial return spring 46 for enabling the rotary disc friction wheel 41 to be separated from the dispensing rotary disc 21. A dropper sliding conduit 25 is sleeved outside the dispensing dropper 22, the dropper sliding conduit 25 is fixedly arranged on the dispensing turntable 21, a glue solution delivery joint 26 is arranged on the side wall of the dropper sliding conduit 25, a glue solution delivery port 221 is arranged on the side wall of the dispensing dropper 22, a dropper reset spring 27 for enabling the glue solution delivery joint 26 and the glue solution delivery port 221 to be staggered is arranged between the dispensing dropper 22 and the dropper sliding conduit 25, and the rotary table friction wheel 41 pushes the dispensing dropper 22 to overcome the elasticity of the dropper reset spring 27 to enable the glue solution delivery joint 26 to be communicated with the glue solution delivery port 221 when clinging to the dispensing turntable 21.

When the magnetic core sleeving device works, firstly, a magnetic core which is wrapped and connected with a lead is sleeved on the magnetic core pushing shaft 11, the shell feeding pipe 31 coaxially faces the magnetic core pushing shaft 11, the magnetic core pushing cylinder 13 drives the annular pushing plate 12, the magnetic core is pushed into an insulating shell in the shell feeding pipe 31, sleeving operation is carried out, and the pushing plate reset spring 14 elastically pulls the annular pushing plate 12 to reset; then the shell feeding pipe 31 rotates around the feeding pipe rotating shaft 34 to coaxially face the dispensing turntable 21, the axial pushing cylinder 45 pushes the turntable friction wheel 41 to be tightly attached to the dispensing turntable 21, meanwhile, the glue solution conveying joint 26 is communicated with the glue solution conveying port 221, the dispensing dropper 22 starts to perform rotary dispensing operation, after dispensing is completed, the turntable friction wheel 41 is separated from the dispensing turntable 21, meanwhile, the glue solution conveying joint 26 is dislocated with the glue solution conveying port 221, and the dispensing turntable 21 reversely rotates and resets under the elastic action of the turntable resetting torsion spring 24, so that a pipeline connected with the glue solution conveying joint 26 is prevented from being wound.

After the dispensing operation is finished, the shell feeding pipe 31 rotates around the feeding pipe rotating shaft 34 to coaxially face the magnetic core pushing shaft 11, the shell feeding cylinder 32 pushes the magnetic core subjected to the dispensing operation out of the shell feeding pipe 31 in the moving process, meanwhile, the subsequent shell which is not sleeved with the magnetic core is pushed to be positioned, when the feeding pipe rotating shaft 34 coaxially faces the magnetic core pushing shaft 11, the shell feeding cylinder 32 resets, the shell in the shell material storage pipe 35 enters the shell feeding pipe 31 from the shell material feeding port 33 under the pushing of the subsequent shell, and when the shell material feeding port 33 is not overlapped with the shell material storage pipe 35, the arc-shaped blocking plate 36 blocks the shell material storage pipe 35.

The above description specifically describes the preferred embodiments of the present invention, but of course, the present invention can also adopt different forms from the above embodiments, and equivalent changes or corresponding modifications made by those skilled in the art without departing from the spirit of the present invention should fall within the protection scope of the present invention.

Claims (6)

1. The utility model provides a magnetic core point gum machine automatic material fetching and discharging mechanism which characterized in that: the shell feeding device comprises a shell feeding pipe (31) and a feeding pipe rotating shaft (34), wherein one end of the shell feeding pipe (31) is a feeding operation end, a shell feeding cylinder (32) is arranged in the other end of the shell feeding pipe (31), a cylinder barrel of the shell feeding cylinder (32) is fixedly arranged, a piston rod of the shell feeding cylinder (32) faces the feeding operation end, a shell pushing block (37) is arranged at the tail end of the piston rod, and a shell feeding port (33) is formed in the side wall of the shell feeding pipe (31); one end of the shell feeding pipe (31) provided with the shell feeding cylinder (32) is fixedly arranged on the feeding pipe rotating shaft (34).

2. The automatic unloading mechanism of the magnetic core dispenser according to claim 1, characterized in that: the glue dispensing device is characterized by further comprising a glue dispensing turntable (21), wherein a glue dispensing dropper (22) is arranged on the glue dispensing turntable (21), and the axis of the glue dispensing dropper (22) is parallel to the axis of the glue dispensing turntable (21); the axis of the dispensing turntable (21) is vertically intersected with the axis of the feeding pipe rotating shaft (34).

3. The automatic unloading mechanism of the magnetic core dispenser according to claim 2, characterized in that: the axis of the feeding pipe rotating shaft (34) is horizontally arranged, the axis of the dispensing rotary disc (21) is vertically arranged, and the dispensing rotary disc (21) is positioned right above the feeding pipe rotating shaft (34); the shell material storage pipe is characterized by further comprising a shell material storage pipe (35) which is horizontally arranged and used for being matched with the shell material feeding port (33), an arc-shaped blocking baffle (36) used for blocking the shell material storage pipe (35) is arranged on the side face of the shell material feeding port (33) of the shell material feeding pipe (31), and the arc-shaped blocking baffle (36) is coaxial with the material feeding pipe rotating shaft (34).

4. The automatic unloading mechanism of the magnetic core dispenser according to claim 2, characterized in that: a turntable friction wheel (41) is coaxially arranged on one side of the dispensing turntable (21) back to the feeding pipe rotating shaft (34), a friction wheel rotating shaft (42) is coaxially and fixedly connected to one side of the turntable friction wheel (41) back to the dispensing turntable (21), a driving gear (43) capable of synchronously rotating is movably sleeved on the friction wheel rotating shaft (42), and the driving gear (43) is in transmission connection with a turntable driving motor (44); the outside of some glue carousel (21) is coaxial to be provided with carousel collar (23), the inboard of carousel collar (23) is provided with the torsional spring mounting groove, be provided with carousel reset torsion spring (24) in the torsional spring mounting groove, just the both ends of carousel reset torsion spring (24) are fixed connection respectively carousel collar (23) with some glue carousel (21).

5. The automatic unloading mechanism of magnetic core point gum machine of claim 4 characterized in that: friction wheel pivot (42) dorsad the one end of carousel friction wheel (41) is provided with the drive carousel friction wheel (41) is hugged closely the axial of some glue carousel (21) promotes cylinder (45) and makes carousel friction wheel (41) with axial reset spring (46) of some glue carousel (21) separation.

6. The automatic unloading mechanism of magnetic core point gum machine of claim 5, characterized in that: the outer side cover of some glue burette (22) is equipped with burette sliding conduit (25), burette sliding conduit (25) fixed set up in on some glue carousel (21) and be provided with glue solution delivery connection (26) on burette sliding conduit (25) lateral wall, be provided with glue solution delivery port (221) on some glue burette (22)'s the lateral wall, some glue burette (22) with be provided with between burette sliding conduit (25) and make glue solution delivery connection (26) with burette reset spring (27) of glue solution delivery port (221) dislocation, carousel friction pulley (41) are hugged closely promote when some glue carousel (21) some glue burette (22) overcome the elasticity of burette reset spring (27) makes glue solution delivery connection (26) with glue solution delivery port (221) intercommunication.

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