CN219234814U - Manganese zinc ferrite hole unhairing limit device - Google Patents

Abstract

The utility model discloses a manganese zinc ferrite inner hole deburring device, which comprises a rotating mechanism and a deburring mechanism, wherein the deburring mechanism is fixedly arranged on one side of the rotating mechanism and comprises a fixing frame, an upper moving assembly, a lower moving assembly, an upper grinding assembly and a lower grinding assembly; according to the utility model, a plurality of manganese-zinc ferrites are placed through the rotating disc of the rotating mechanism, the rotating disc rotates the manganese-zinc ferrites without the deburring to the station of the deburring mechanism, and the upper moving assembly moves the upper grinding assembly to grind and deburr the middle holes of the manganese-zinc ferrites and then lift the manganese-zinc ferrites back; the lower moving component lifts the lower grinding component, grinds and removes burrs on the middle hole of the manganese zinc ferrite, and then descends back; the manganese zinc ferrite mesopores are completely cleared of burrs, the occurrence of phenomena that the burrs can cause wire scraping and electrical property failure is caused is avoided.

Description

Manganese zinc ferrite hole unhairing limit device

Technical Field

The utility model relates to the technical field, in particular to a manganese zinc ferrite inner hole deburring device.

Background

The utility model provides a manganese zinc ferrite hole unhairing limit device is to the manganese zinc ferrite of a special face type, as shown in figure 1, and this face type is the mesopore design, and the height is higher, and the mesopore can wire winding, and is more strict to the requirement of deckle edge, and the existence of deckle edge can lead to scraping the line, carries out to initiate electrical characteristics failure.

The existing equipment does not have a device capable of deburring special surface type manganese-zinc ferrite, and the burrs around the holes in the manganese-zinc ferrite can be manually polished and removed or the burrs around the holes in the manganese-zinc ferrite can be removed by adopting a device for rotating hole and grinding from top to bottom, however, in the two modes, a great deal of labor cost is wasted, and time and effort are wasted due to manual burr removal; the method of rotating hole grinding from top to bottom is adopted, so that burrs on the periphery of the middle hole cannot be completely removed, and the quality of the produced finished product is poor.

Disclosure of Invention

In view of the above, the utility model aims to provide a manganese zinc ferrite inner hole deburring device capable of conducting hole turning grinding from top to bottom and from bottom to top.

In order to solve the technical problems, the technical scheme of the utility model is as follows: the utility model provides a manganese zinc ferrite hole unhairing limit device, includes rotary mechanism and unhairing limit mechanism, unhairing limit mechanism fixed mounting is in one side of rotary mechanism, unhairing limit mechanism includes the mount, installs the last movable assembly at mount top install the lower movable assembly of mount bottom, last movable assembly fixed mounting has the last grinding element who unhairing limit for the manganese zinc ferrite hole, lower movable assembly fixed mounting has the lower grinding element who unhairing limit for the manganese zinc ferrite hole.

Preferably, the upper moving assembly comprises an upper moving motor arranged on one side of the fixed frame and an upper screw rod arranged on the other side of the fixed frame, the upper moving motor drives the upper screw rod to rotate through a synchronous belt assembly, an upper moving seat is arranged on the upper screw rod, upper moving seat limiting strips are arranged on two sides of the upper moving seat, and the upper grinding assembly is fixedly arranged on the upper moving seat.

Preferably, the synchronous belt assembly comprises a first driving wheel arranged at the output end of the upper moving motor, a first driven wheel arranged at one end of the upper screw rod, and a first transmission belt arranged between the first driving wheel and the first driven wheel.

Preferably, the lower moving assembly comprises a lower moving motor, a lower screw rod arranged at the output end of the lower moving motor through a coupler, a lower moving seat is arranged on the lower screw rod, lower moving seat limiting strips are arranged on two sides of the lower moving seat, and the lower grinding assembly is fixedly arranged on the lower moving seat.

Preferably, the upper grinding assembly and the lower grinding assembly are both composed of a grinding motor and a grinding drill bit, and the grinding drill bit is fixedly installed at the output end of the grinding motor.

Preferably, one side of the fixing frame is further provided with an adjusting installation frame, the adjusting installation frame is provided with an installation hole, and the bolt fixing assembly is arranged on the periphery of the installation hole.

Preferably, the rotating mechanism comprises a rotating disc assembly, a driving motor arranged on one side of the rotating disc assembly, and a synchronous driving assembly arranged below the rotating disc assembly and the driving motor, wherein a rotating baffle frame is further arranged on one side of the rotating disc assembly, and the rotating baffle frame is fixedly provided with a dust hood and a blowing nozzle.

Preferably, the rotating disc assembly is provided with a plurality of installation positions for fixing the manganese zinc ferrite, and the rotating disc is provided with a supporting seat.

Preferably, the synchronous driving assembly comprises a second driving wheel arranged at the output end of the driving motor, a second driven wheel arranged at the bottom of the supporting seat, and a second transmission belt arranged at the peripheries of the second driving wheel and the second driven wheel.

Preferably, the rotating baffle frame comprises a supporting frame, and an arc baffle which is fixedly arranged above the supporting frame and is used for wrapping the periphery of the rotating disc.

The utility model has the technical effects that: according to the utility model, a plurality of manganese-zinc ferrites are placed through the rotating disc of the rotating mechanism, the rotating disc rotates the manganese-zinc ferrites without the deburring to the station of the deburring mechanism, and the upper moving assembly moves the upper grinding assembly to grind and deburr the middle holes of the manganese-zinc ferrites and then lift the manganese-zinc ferrites back; the lower moving component lifts the lower grinding component, grinds and removes burrs on the middle hole of the manganese zinc ferrite, and then descends back; the manganese zinc ferrite mesopores are completely cleared of burrs, the occurrence of phenomena that the burrs can cause wire scraping and electrical property failure is caused is avoided.

Drawings

FIG. 1 is a three-dimensional perspective view of a manganese zinc ferrite product;

FIG. 2 is a block diagram of a Mn-Zn ferrite inner hole deburring device according to the present utility model;

FIG. 3 is a perspective view of the deburring mechanism of FIG. 2;

FIG. 4 is a side view of the internal structure of the deburring mechanism of FIG. 2;

FIG. 5 is a front view of the internal structure of the deburring mechanism of FIG. 2;

FIG. 6 is a perspective view showing the internal structure of the deburring mechanism of FIG. 2;

FIG. 7 is a perspective view of the rotary mechanism of FIG. 2;

fig. 8 is an internal structural view of the rotary mechanism of fig. 2.

Description of the embodiments

The following detailed description of the utility model is provided in connection with the accompanying drawings to facilitate understanding and grasping of the technical scheme of the utility model.

In this embodiment, it should be understood that the directions or positional relationships indicated by the terms "middle", "upper", "lower", "top", "right", "left", "upper", "back", "middle", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of description of the present utility model, and do not indicate or imply that the apparatus or elements referred to must have a specific direction, be configured and operated in a specific direction, and thus should not be construed as limiting the present utility model.

In this embodiment, if not specifically described, the members may be connected or fixed by bolts, pins, or the like, which are commonly used in the prior art, and therefore, the details thereof will not be described in this embodiment.

The manganese zinc ferrite inner hole deburring device comprises a rotating mechanism 1 and a deburring mechanism 2, wherein the deburring mechanism 2 is fixedly arranged on one side of the rotating mechanism 1,

as shown in fig. 3, the deburring mechanism 2 comprises a fixing frame 21, an upper moving assembly 22 installed at the top of the fixing frame 21, a lower moving assembly 23 installed at the bottom of the fixing frame 21, an upper grinding assembly 24 for deburring the inner hole of the manganese-zinc ferrite is fixedly installed on the upper moving assembly 22, and a lower grinding assembly 25 for deburring the inner hole of the manganese-zinc ferrite is fixedly installed on the lower moving assembly 23.

As shown in fig. 4, the upper moving assembly 22 includes an upper moving motor 221 installed at one side of the fixed frame 21, an upper screw 222 installed at the other side of the fixed frame 21, the upper moving motor 221 drives the upper screw 222 to rotate through a synchronous belt assembly 223, the upper screw 222 is installed with an upper moving seat 224, two sides of the upper moving seat 224 are provided with upper moving seat limiting bars 225, and the upper grinding assembly 24 is fixedly installed on the upper moving seat 224. Specifically, the upper moving seat 224 is in threaded connection with the upper screw rod 222, and the upper moving seat limiting bar 225 is used for limiting the lateral rotation degree of freedom of the upper moving seat 224, and when the upper moving motor 221 drives the upper screw rod 222 to rotate positively and negatively through the synchronous belt assembly 223, the upper moving seat 224 realizes up-and-down reciprocating motion on the upper screw rod 222.

As shown in fig. 5, the timing belt assembly 223 includes a first driving wheel 2231 installed at an output end of the upper moving motor 221, a first driven wheel 2232 installed at one end of the upper screw rod 222, and a first driving belt 2233 provided between the first driving wheel 2231 and the first driven wheel 2232. Specifically, the upper moving motor 221 rotates the first driving wheel 2231, and the first driving wheel 2231 drives the first driving belt 2233 to rotate through the first driving belt 2233, so as to drive the upper screw 222 to rotate. The lower moving assembly 23 comprises a lower moving motor 231, a lower screw rod 232 arranged at the output end of the lower moving motor 231 through a coupler, a lower moving seat 233 is arranged on the lower screw rod 232, lower moving seat limiting strips 234 are arranged on two sides of the lower moving seat 233, and the lower grinding assembly 25 is fixedly arranged on the lower moving seat 233. Specifically, the lower movable seat 233 is in threaded connection with the lower screw rod 232, the lower movable seat limiting bar 234 is used for limiting the lateral rotation degree of freedom of the lower movable seat 233, and the lower movable motor 231 rotates the lower screw rod 232 forward and backward, so that the lower movable seat 233 can reciprocate up and down on the lower screw rod 232. The upper grinding assembly 24 and the lower grinding assembly 25 are both composed of a grinding motor 101 and a grinding bit 102, and the grinding bit 102 is fixedly installed at the output end of the grinding motor 101. Specifically, the grinding motor 101 rotates the grinding bit 102 to perform deburring on the inner hole of the manganese-zinc ferrite, the upper grinding assembly 24 firstly performs the deburring on the inner hole of the manganese-zinc ferrite from top to bottom, and after the reset, the lower grinding assembly 25 performs the deburring on the inner hole of the manganese-zinc ferrite from bottom to top. One side of the fixing frame 21 is further provided with an adjusting installation frame 211, the adjusting installation frame 211 is provided with an installation hole 212, and a bolt fixing assembly 213 is arranged on the periphery of the installation hole 212. Specifically, the mounting hole 212 in the adjusting mounting frame 211 is aligned with the cylinder of the mounting frame, and then the bolt fixing assembly 213 at the periphery of the mounting hole 212 is screwed into the cylinder, so that the fixing frame 21 is fixed on the cylinder, and the deburring mechanism 2 can be fixed on the cylinder.

As shown in fig. 7, the rotating mechanism 1 includes a rotating disc assembly 11, a driving motor 12 disposed at one side of the rotating disc assembly 11, a synchronous driving assembly 13 mounted below the rotating disc assembly 11 and the driving motor 12, and a rotating baffle frame 14 disposed at one side of the rotating disc assembly 11, wherein the rotating baffle frame 14 is fixedly provided with a dust hood 15 and a blowing nozzle 16. Specifically, the driving motor 1 rotates the rotating disc assembly 11 through the first timing belt assembly, so that the manganese zinc ferrite placed on the rotating disc assembly 11 can be fed into the deburring mechanism 2 to be ground by the upper grinding assembly 24 and the lower grinding assembly 25 to remove burrs. The dust hood 15 is externally connected with an air extraction device to suck away ground powder, the air blowing nozzle 16 is externally connected with an air pump to clean the surface of the rotary disk assembly 11 in an air-jet manner. The rotating disc 11 assembly is provided with a plurality of installation positions 111 for fixing the manganese zinc ferrite, and the bottom of the rotating disc 11 is provided with a supporting seat 112.

As shown in fig. 8, the synchronous driving assembly 13 includes a second driving wheel 131 mounted at an output end of the driving motor 12, a second driven wheel 132 mounted at a bottom of the supporting seat 112, and a second driving belt 133 disposed at peripheries of the second driving wheel 131 and the second driven wheel 132. Specifically, the driving motor drives the second driving wheel 131 to rotate, the second driving wheel 131 drives the second driven wheel 132 to rotate through the second driving belt 133, and the second driven wheel 132 rotates the supporting seat 112 to enable the rotating disc 11 to rotate along with the rotation. The rotating baffle frame 14 comprises a supporting frame 141, and an arc baffle 142 fixedly installed above the supporting frame 141 and used for wrapping the periphery of the rotating disc 11. Specifically, after the installation site 111 clamped with the fixed manganese zinc ferrite is turned into the position wrapped by the arc-shaped baffle plate 142, when the upper grinding assembly 24 and the lower grinding assembly 25 grind the fixed manganese zinc ferrite, the installation site 111 and the arc-shaped baffle plate 142 can enable the manganese zinc ferrite to be better clamped in the installation site 111, and the manganese zinc ferrite cannot be separated from the installation site 111 due to vibration during grinding.

Working principle: the clamping device is used for placing manganese-zinc ferrite on the mounting position 111 of the rotating disc 11, the driving motor 12 rotates the rotating disc 11 through the synchronous driving assembly 13, and the rotating disc 11 rotates the mounting position 111 clamped with manganese-zinc ferrite into the deburring mechanism 2; the grinding motor 101 in the deburring mechanism 2 rotates the grinding bit 102 to perform deburring on the inner hole of the manganese zinc ferrite, the upper grinding component 24 firstly performs grinding deburring on the inner hole of the manganese zinc ferrite from top to bottom, and after resetting, the lower grinding component 25 performs grinding deburring on the inner hole of the manganese zinc ferrite from bottom to top. In the grinding process, the dust hood 15 is externally connected with an air extractor, so that ground powder can be sucked away; the air blowing nozzle 16 is externally connected with an air pump, and can be used for cleaning the surface of the rotating disc assembly 11 in an air-jet manner.

Finally, the manganese zinc ferrite with the grinding and deburring is clamped out by clamping equipment.

The utility model has the technical effects that: according to the utility model, a plurality of manganese-zinc ferrites are placed through the rotating disc of the rotating mechanism, the rotating disc rotates the manganese-zinc ferrites without the deburring to the station of the deburring mechanism, and the upper moving assembly moves the upper grinding assembly to grind and deburr the middle holes of the manganese-zinc ferrites and then lift the manganese-zinc ferrites back; the lower moving component lifts the lower grinding component, grinds and removes burrs on the middle hole of the manganese zinc ferrite, and then descends back; the manganese zinc ferrite mesopores are completely cleared of burrs, the occurrence of phenomena that the burrs can cause wire scraping and electrical property failure is caused is avoided.

Of course, the above is only a typical example of the utility model, and other embodiments of the utility model are also possible, and all technical solutions formed by equivalent substitution or equivalent transformation fall within the scope of the utility model claimed.

Claims (10)

1. The utility model provides a manganese zinc ferrite hole unhairing limit device, includes rotary mechanism and unhairing limit mechanism, unhairing limit mechanism fixed mounting is in one side of rotary mechanism, its characterized in that: the deburring mechanism comprises a fixing frame, an upper moving assembly arranged at the top of the fixing frame, a lower moving assembly arranged at the bottom of the fixing frame, an upper grinding assembly for deburring an inner hole of the manganese zinc ferrite is fixedly arranged on the upper moving assembly, and a lower grinding assembly for deburring the inner hole of the manganese zinc ferrite is fixedly arranged on the lower moving assembly.

2. The manganese zinc ferrite inner hole deburring device as set forth in claim 1, wherein: the upper moving assembly comprises an upper moving motor arranged on one side of the fixed frame and an upper screw rod arranged on the other side of the fixed frame, the upper moving motor drives the upper screw rod to rotate through a synchronous belt assembly, an upper moving seat is arranged on the upper screw rod, upper moving seat limiting strips are arranged on two sides of the upper moving seat, and the upper grinding assembly is fixedly arranged on the upper moving seat.

3. The manganese zinc ferrite inner hole deburring device as set forth in claim 2, wherein: the synchronous belt assembly comprises a first driving wheel arranged at the output end of the upper moving motor, a first driven wheel arranged at one end of the upper screw rod, and a first transmission belt arranged between the first driving wheel and the first driven wheel.

4. The manganese zinc ferrite inner hole deburring device as set forth in claim 1, wherein: the lower moving assembly comprises a lower moving motor, a lower spiral rod arranged at the output end of the lower moving motor through a coupler, a lower moving seat is arranged on the lower spiral rod, lower moving seat limiting strips are arranged on two sides of the lower moving seat, and the lower grinding assembly is fixedly arranged on the lower moving seat.

5. A manganese-zinc-ferrite inner-hole deburring device as claimed in any of claims 2 to 4, wherein: the upper grinding assembly and the lower grinding assembly are both composed of a grinding motor and a grinding drill bit, and the grinding drill bit is fixedly arranged at the output end of the grinding motor.

6. The manganese zinc ferrite inner hole deburring device as defined in claim 5, wherein: one side of mount still is provided with the regulation mounting bracket, the regulation mounting bracket is provided with the mounting hole, sets up the peripheral bolt fastening assembly of mounting hole.

7. The manganese zinc ferrite inner hole deburring device as set forth in claim 1, wherein: the rotary mechanism comprises a rotary disc assembly, a driving motor arranged on one side of the rotary disc assembly, a synchronous driving assembly arranged below the rotary disc assembly and the driving motor, and a rotary baffle frame arranged on one side of the rotary disc assembly, wherein a dust hood and a blowing nozzle are fixedly arranged on the rotary baffle frame.

8. The manganese zinc ferrite inner hole deburring device as defined in claim 7, wherein: the rotating disk assembly is provided with a plurality of installation positions for fixing the Mn-Zn ferrite, and the rotating disk is provided with a supporting seat.

9. The manganese zinc ferrite inner hole deburring device as defined in claim 8, wherein: the synchronous driving assembly comprises a second driving wheel arranged at the output end of the driving motor, a second driven wheel arranged at the bottom of the supporting seat, and a second transmission belt arranged at the peripheries of the second driving wheel and the second driven wheel.

10. The manganese zinc ferrite inner hole deburring device as defined in claim 7, wherein: the rotating baffle plate frame comprises a supporting frame, and an arc baffle plate which is fixedly arranged above the supporting frame and is used for wrapping the periphery of the rotating disc.

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