CN216781203U - Be applied to cutter disc assembly and processing equipment of processing equipment - Google Patents

Be applied to cutter disc assembly and processing equipment of processing equipment Download PDF

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Publication number
CN216781203U
CN216781203U CN202220405498.XU CN202220405498U CN216781203U CN 216781203 U CN216781203 U CN 216781203U CN 202220405498 U CN202220405498 U CN 202220405498U CN 216781203 U CN216781203 U CN 216781203U
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China
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cutter head
fixing member
fixing
groove
cutter
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CN202220405498.XU
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Chinese (zh)
Inventor
季峰
徐庆东
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Suzhou Vega Technology Co Ltd
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Suzhou Vega Technology Co Ltd
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Priority to CN202220405498.XU priority Critical patent/CN216781203U/en
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Abstract

The utility model discloses a cutter head assembly applied to processing equipment and the processing equipment, wherein the processing equipment is provided with a controller, and the cutter head assembly applied to the processing equipment comprises: a fixed seat; the cutter head is detachably arranged on the fixed seat; the induction device is in communication connection with the controller, and outputs a first signal to the controller when the cutter head is installed on the fixing seat, and outputs a second signal to the controller when the cutter head is disassembled from the fixing seat, so that the controller determines whether the cutter head is replaced according to the first signal and the second signal. From this, through set up induction system on the blade disc subassembly, processing equipment can detect whether the blade disc is changed through induction system, compares with prior art, can prevent that operating personnel from forgetting and changing the blade disc to can avoid processing equipment to use the cutter processing part after wearing and tearing, and then can improve the processingquality of processing equipment processing part.

Description

Be applied to cutter head assembly and processing equipment of processing equipment
Technical Field
The utility model relates to the field of machining, in particular to a cutter head assembly applied to machining equipment and the machining equipment with the cutter head assembly applied to the machining equipment.
Background
When the machining equipment is used for machining parts, a cutter of the machining equipment is easy to wear, the cutter needs to be replaced frequently in order to improve the machining quality of the parts, the cutter head assembly is used for storing the cutter, the used cutter can be stored in the cutter head by the machining equipment, and the unused cutter can be taken out of the cutter head by the machining equipment.
In the related art, in the existing cutter head assembly, after the machining equipment has used up all the cutters on the cutter head, an operator needs to remove the cutter head from the fixed seat, and the operator needs to replace the used cutters on the cutter head. Because the number of the cutter heads matched with the machining equipment is large, the condition that the cutter head on the cutter head assembly is not replaced due to misoperation of an operator exists, so that the machining equipment uses worn cutters to machine parts, and the machining quality of the parts is reduced.
SUMMERY OF THE UTILITY MODEL
The present invention is directed to solving at least one of the problems of the prior art. Therefore, an object of the present invention is to provide a cutter head assembly applied to a machining apparatus, which can prevent an operator from forgetting to replace a cutter head, so as to avoid using worn tools to machine parts by the machining apparatus, and further improve the machining quality of the machined parts by the machining apparatus.
The utility model further provides a processing device.
According to the cutter head assembly applied to the processing equipment, the processing equipment is provided with a controller, and the cutter head assembly applied to the processing equipment comprises: a fixed seat; the cutter head is detachably arranged on the fixed seat; the induction system, induction system with the controller communication is connected the blade disc install in during the fixing base induction system is triggered to the controller output first signal the blade disc is followed when the fixing base is dismantled induction system is triggered to the controller output second signal, so that the controller basis first signal with the second signal is confirmed whether the blade disc is changed.
According to the cutter head assembly applied to the processing equipment, the sensing device is arranged on the cutter head assembly, so that the processing equipment can detect whether the cutter head is replaced or not through the sensing device.
In some examples of the present invention, the fixing seat is provided with a mounting groove for mounting the cutter head, the mounting groove is open towards an end of the cutter head, and the sensing device is arranged on a bottom wall of the mounting groove.
In some examples of the utility model, the bottom wall of the mounting groove is provided with an avoiding groove recessed towards the inside of the fixing seat, and the sensing device is arranged in the avoiding groove.
In some examples of the utility model, the bottom wall of the avoidance groove is provided with a mounting portion to which the sensing device is mounted.
In some examples of the utility model, the sensing device is further configured to detect whether the cutterhead is mounted in place.
In some examples of the utility model, the cutter head is provided with a first fixing piece, the fixing seat is provided with a second fixing piece, and the first fixing piece and the second fixing piece are in fit connection to limit the movement of the cutter head relative to the fixing seat.
In some examples of the utility model, one side of the cutter disc facing the fixed seat is provided with the first fixing piece, and the bottom wall of the installation groove is provided with the second fixing piece.
In some examples of the utility model, the cutter head is provided with a first groove, the first fixing piece is mounted in the first groove, the fixing seat is provided with a second groove, and the second fixing piece is mounted in the second groove.
In some examples of the utility model, the first groove is open to an end of the fixing seat, the second groove is open to an end of the cutter head, an end of the first fixing member facing the fixing seat is located in the first groove, and an end of the second fixing member facing the cutter head is located in the second groove.
In some examples of the utility model, the first fixing member and the second fixing member are suction-fitted.
The processing equipment comprises the cutter head assembly applied to the processing equipment.
Additional aspects and advantages of the utility model will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the utility model.
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 schematic view of a cutterhead assembly in accordance with an embodiment of the present invention;
FIG. 2 is a cross-sectional view of a cutterhead assembly in accordance with an embodiment of the present invention;
FIG. 3 is a schematic view of another angle of the cutterhead assembly in accordance with the embodiment of the present invention;
FIG. 4 is a schematic view of a cutter head according to an embodiment of the present invention with cutters installed;
FIG. 5 is a schematic view of another angle of the cutter head according to the embodiment of the present invention;
FIG. 6 is a schematic view of a mounting base according to an embodiment of the utility model;
FIG. 7 is an enlarged schematic view at A in FIG. 6;
FIG. 8 is a schematic view of a first fixing element coupled to a fixing base according to an embodiment of the utility model;
fig. 9 is a schematic view illustrating the first fixing element and the second fixing element being in suction fit according to an embodiment of the present invention.
Reference numerals:
a cutter head assembly 100; a cutter 200;
a fixed seat 10; a mounting groove 101; an avoidance slot 102; a mounting portion 103;
a cutter head 20; a first Y-directional fixing member 201; a first X-directional fixing member 202; a first Z-direction fixing member 203;
a sensing device 30;
a second Y-directional fixing member 401; a second X-directional fixing member 402; a second Z-direction fixing member 403;
a first fixing member 50; a first recess 501; a second fixing member 60; a second recess 601.
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.
Referring to fig. 1 to 9, a cutter head assembly 100 applied to a machining apparatus according to an embodiment of the present invention will be described, the cutter head assembly 100 storing a tool 200, the machining apparatus having a jig that can store the tool 200 to the cutter head assembly 100 and can take out the tool 200 from the cutter head assembly 100. Further, the processing apparatus may be a drilling machine or an edge milling machine, and when the processing apparatus is a drilling machine, the tool 200 corresponding to the drilling machine may be a drill, and the drilling machine may drill a hole in the processed part. When the machining device is an edge milling machine, the tool 200 corresponding to the edge milling machine may be a milling tool, and the edge milling machine may mill the surface of the part.
Further, the processed parts may be printed wiring boards, metal plates, or the like, and the present invention will be described below by taking an example of processing a printed wiring board with a drilling machine. In order to facilitate connection between circuit layers and installation of electronic components in a later period, in the process of processing a printed circuit board, a drilling machine needs to drill holes on the printed circuit board, a drill bit can generate large abrasion after drilling for multiple times, and after the drill bit on the drilling machine is used for a period of time, the drilling machine can replace the drill bit from the cutter head assembly 100.
As shown in fig. 1 to 9, according to the cutter head assembly 100 applied to a machining apparatus according to an embodiment of the present invention, the machining apparatus has a controller, and the controller can be connected to an alarm device of the machining apparatus, and when the cutters 200 disposed on the cutter head assembly 100 are all used or the cutters 200 are worn or have their lives expired, the controller can prompt an operator to replace the cutters 200 (typically, to replace the cutter head 20 with the cutters 200 to improve the cutter changing efficiency) on the cutter head assembly 100 through the alarm device. The cutterhead assembly 100 includes: the fixed seat 10, the cutter head 20 and the induction device 30. The cutter head 20 is detachably mounted on the fixed seat 10, wherein a plurality of rows of storage slots are formed in the cutter head 20, each row of storage slots can be provided with a plurality of storage positions, each storage position can store one cutter 200, and the fixture of the machining equipment can store the cutters 200 in the storage positions or take the cutters 200 out of the storage positions according to a preset storing and taking sequence. By detachably mounting the cutter head 20 to the fixing base 10, it is convenient for an operator to directly replace the entire cutter head 20 when replacing the cutter 200 without replacing a single cutter 200, so that the convenience of use of the cutter head assembly 100 can be improved.
The sensing device 30 is in communication connection with the controller, the sensing device 30 is triggered to output a first signal to the controller when the cutter head 20 is mounted on the fixing seat 10, and the sensing device 30 is triggered to output a second signal to the controller when the cutter head 20 is dismounted from the fixing seat 10, so that the controller determines whether the cutter head 20 is replaced according to the first signal and the second signal. The sensing device 30 can be fixed on the fixed seat 10 and is in communication connection with the controller in a wired connection mode; the sensing device 30 can also be fixed at the bottom of the cutter head 20 and is in communication connection with the controller in a wireless connection mode. When the machining equipment needs to replace the cutter disc 20 (for example, the cutter 200 is completely used, or the cutter 200 reaches the service life, or the cutter 200 is worn and the like), the controller can prompt an operator to replace the cutter 200 on the cutter disc assembly 100 through the alarm device, the operator can detach the cutter disc 20 from the fixed seat 10, the operator can replace the cutter 200 on the detached cutter disc 20, the sensing device 30 is triggered when the cutter disc 20 is detached from the fixed seat 10, the sensing device 30 can output a second signal to the controller, and the controller can determine that the operator detaches the cutter disc 20 from the fixed seat 10 after receiving the second signal.
After the operator replaces the cutter 200 on the cutter disc 20, the operator can install the cutter disc 20 on the fixing seat 10, the sensing device 30 is triggered when the cutter disc 20 is installed on the fixing seat 10, the sensing device 30 can output a first signal to the controller, the controller can determine that the operator installs the cutter disc 20 on the fixing seat 10 after receiving the first signal, and after the controller receives a second signal and the first signal in sequence, the controller can determine that the cutter disc 20 on the fixing seat 10 has been replaced.
Therefore, the sensing device 30 is arranged on the cutter head assembly 100, the machining equipment can detect whether the cutter head 20 is replaced or not through the sensing device 30, compared with the prior art, an operator can be prevented from forgetting to replace the cutter head 20, the situation that the machining equipment uses the worn cutter 200 to machine parts can be avoided, and the machining quality of the machining equipment to machine parts can be improved. Further, when the controller determines that the cutter head 20 on the fixing seat 10 has been replaced, the controller may control the alarm device to be turned off to prompt the operator to operate the processing equipment for the next process.
In some embodiments of the present invention, as shown in fig. 1 to 3 and 6, the fixing base 10 may be provided with a mounting groove 101 for mounting the cutter head 20, the mounting groove 101 may be open toward an end of the cutter head 20, and the sensing device 30 may be provided at a bottom wall of the mounting groove 101. Wherein, as shown in fig. 1, the open end of the mounting groove 101 can be arranged at the upper end of the fixing seat 10, the cutter head 20 can extend into the mounting groove 101 from the upper end of the fixing seat 10, and the bottom end of the cutter head 20 can be stopped against the groove bottom of the mounting groove 101, in the height direction of the cutter head assembly 100, the fixing seat 10 can support the cutter head 20 through the groove bottom of the mounting groove 101, and the height direction of the cutter head assembly 100 can refer to the up-down direction in fig. 1.
When the operator moves the cutter head 20 out of the mounting groove 101 in the height direction of the cutter head assembly 100, the sensing device 30 may sense that the cutter head 20 is detached from the fixing base 10, the sensing device 30 may be triggered, the sensing device 30 may generate a second signal, and the sensing device 30 may output the second signal to the controller. Correspondingly, when the operator moves the cutter head 20 into the mounting groove 101 along the height direction of the cutter head assembly 100, the sensing device 30 may sense that the cutter head 20 is mounted to the fixing base 10, the sensing device 30 may be triggered, the sensing device 30 may generate a first signal, and the sensing device 30 may output the first signal to the controller. By arranging the sensing device 30 on the bottom wall of the mounting groove 101, the sensing device 30 can detect whether the cutter head 20 is replaced, so that the operator can be prevented from forgetting to replace the cutter head 20, and parts of the machining equipment can be effectively prevented from being machined by using the worn cutter 200.
Further, after the cutter head 20 extends into the mounting groove 101, the cutter head 20 can be fixed in the mounting groove 101. Specifically, the bottom wall of the cutter head 20 may be provided with a first Y-direction fixing member 201, and a second Y-direction fixing member 401 may be correspondingly provided in the mounting groove 101. In some specific embodiments of the present invention, one of the first Y-directional fixing member 201 and the second Y-directional fixing member 401 may be configured as a stopper groove, and the other of the first Y-directional fixing member 201 and the second Y-directional fixing member 401 may be configured as a stopper protrusion. Preferably, as shown in fig. 5 to 7, the first Y-direction fixing member 201 may be configured as a limiting groove, the second Y-direction fixing member 401 may be configured as a limiting protrusion, the limiting protrusion may extend into the limiting groove, the first Y-direction fixing member 201 and the second Y-direction fixing member 401 may extend in a height direction of the cutter head assembly 100, the limiting protrusion and the limiting groove are in limiting fit to limit the cutter head 20 to move in a Y-direction of the cutter head assembly 100 relative to the fixing base 10, and the Y-direction of the cutter head assembly 100 may refer to a length direction of the cutter head assembly 100, that is, a front-back direction in fig. 1.
Further, a first X-direction fixing member 202 may be disposed on a side wall of the cutter head 20, and a second X-direction fixing member 402 may be correspondingly disposed in the mounting groove 101. In some specific embodiments of the present invention, as shown in fig. 2, the first X-direction fixing element 202 may be configured as a limiting hole, and the second X-direction fixing element 402 may be configured as a limiting plunger, the limiting plunger may penetrate through a side wall of the fixing base 10 and extend into the limiting hole, and the second X-direction fixing element 402 may extend in a width direction of the cutter head assembly 100, and the limiting plunger may push the cutter head 20 to move in the X-direction of the cutter head assembly 100 relative to the fixing base 10 after being matched with the limiting hole, and a side wall of the cutter head 20 away from the second X-direction fixing element 402 may be pressed against a groove wall of the mounting groove 101, so as to limit the cutter head 20 to move in the X-direction of the cutter head assembly 100 relative to the fixing base 10, and the X-direction of the cutter head assembly 100 may refer to the width direction of the cutter head assembly 100, that is, i.e., the left-right direction in fig. 1.
Further, a first Z-direction fixing member 203 may be disposed on a side wall of the cutter head 20 away from the first X-direction fixing member 202, and a second Z-direction fixing member 403 may be correspondingly disposed in the mounting groove 101. In some specific embodiments of the present invention, one of the first Z-directional fixing member 203 and the second Z-directional fixing member 403 may be configured as a limiting groove, and the other of the first Z-directional fixing member 203 and the second Z-directional fixing member 403 may be configured as a limiting protrusion. Preferably, as shown in fig. 2, the first Z-direction fixing member 203 may be configured as a limiting protrusion, the second Z-direction fixing member 403 may be configured as a limiting groove, the limiting protrusion may extend into the limiting groove, and both the first Z-direction fixing member 203 and the second Z-direction fixing member 403 may extend in the width direction of the cutterhead assembly 100, the limiting protrusion and the limiting groove are in limiting fit to limit the movement of the cutterhead 20 in the Z-direction of the cutterhead assembly 100 relative to the fixing base 10, and the Z-direction of the cutterhead assembly 100 may refer to the height direction of the cutterhead assembly 100, that is, the up-down direction in fig. 1.
In some embodiments of the present invention, the bottom wall of the mounting groove 101 may be provided with an avoiding groove 102 recessed toward the inside of the fixing base 10, and the sensing device 30 may be provided in the avoiding groove 102. In the height direction of the cutter head assembly 100, the open end of the avoiding groove 102 may be disposed at the upper end of the avoiding groove 102, the avoiding groove 102 may be communicated with the mounting groove 101, and the sensing device 30 may penetrate through the mounting groove 101 and then extend into the avoiding groove 102. The induction device 30 is arranged in the avoidance groove 102, so that the induction device 30 can avoid the cutter head 20, and the interference between the cutter head 20 and the induction device 30 in the installation process of the cutter head 20 in the installation groove 101 can be avoided, thereby ensuring that the cutter head 20 is installed in place in the installation groove 101, and further reducing the failure rate of the processing equipment. In addition, the installation of the sensing device 30 in the avoiding groove 102 enables the sensing device 30 to be spaced apart from the bottom wall of the cutter head 20, which further improves the detection accuracy of the sensing device 30.
Further, as shown in fig. 1, a plurality of cutter discs 20 may be simultaneously installed on the fixing base 10, the cutter discs 20 may be sequentially arranged in the length direction of the fixing base 10, the length direction of the fixing base 10 may refer to the front-back direction in fig. 1, a plurality of sensing devices 30 may be provided in the cutter disc assembly 100, the plurality of sensing devices 30 may be provided in one-to-one correspondence with the plurality of cutter discs 20, and each sensing device 30 may detect whether a corresponding cutter disc 20 is replaced, so as to ensure that the used cutter 200 on each cutter disc 20 is replaced, thereby effectively improving the processing quality of the processing equipment for processing parts.
Moreover, a plurality of sensing devices 30 can be installed on the same side of the fixing base 10, so that the sensing devices 30 can be installed in the fixing base 10 conveniently. Preferably, considering that the side of the cutter head 20 with the first X-direction fixing member 202 is abutted against the second X-direction fixing member 402 in the taking and placing process, and then the first Z-direction fixing member 203 and the second Z-direction fixing member 403 are matched to place the cutter head 20 into the fixing base 10, therefore, the plurality of sensing devices 30 can be all installed on the side of the fixing base 10 away from the first Z-direction fixing member 203, that is, as shown in fig. 1, when the first Z-direction fixing member 203 is installed on the right side of the fixing base 10, the plurality of sensing devices 30 can be all installed on the left side of the fixing base 10, so that the sensing devices 30 can send out the second signal when the cutter head 20 is completely taken out of the fixing base 10, and the detection accuracy of the sensing devices 30 is improved.
In some embodiments of the present invention, as shown in fig. 1-3 and 6, the bottom wall of the avoiding groove 102 may be provided with a mounting portion 103, and the sensing device 30 is mounted on the mounting portion 103. The mounting portion 103 may be configured as a mounting rail, the extending direction of the mounting portion 103 may be the same as the extending direction of the fixing base 10, that is, the mounting portion 103 may extend in the front-back direction in fig. 1, and the mounting portion 103 may enable the plurality of sensing devices 30 to be mounted on the same side of the fixing base 10.
At least a portion of the sensing device 30 may extend into a mounting rail, an inner wall of which may abut the sensing device 30, and which may limit the movement of the sensing device 30 in the width direction of the cutterhead assembly 100. In addition, the inner wall of the mounting rail may further be provided with mounting holes, the sensing device 30 may be correspondingly provided with mounting holes, and the bolts sequentially pass through the mounting holes of the sensing device 30 and the mounting holes of the mounting rail to fix the sensing device 30 to the mounting rail, so that the sensing device 30 can be reliably mounted in the avoidance groove 102.
In some embodiments of the present invention, the sensing device 30 may be configured as a diffuse reflection type sensor, a proximity switch type sensor, a magnetic switch, etc., wherein a transmitting end and a receiving end of the diffuse reflection type sensor, a transmitting end and a receiving end of the proximity switch type sensor, or a transmitting end and a receiving end of the magnetic switch may face the cutter head 20, the diffuse reflection type sensor, the proximity switch type sensor, or the magnetic switch is triggered to output a first signal to the controller when the cutter head 20 is mounted to the holder 10, the diffuse reflection type sensor, the proximity switch type sensor, or the magnetic switch is triggered to output a second signal to the controller when the cutter head 20 is dismounted from the holder 10, and the controller may determine whether the cutter head 20 is replaced based on the first signal and the second signal.
The sensing device 30 is further configured to detect whether the cutter disc 20 is mounted in place, and specifically, when the sensing device 30 is assembled by a plurality of distance sensors and/or rasters at different angles, the plurality of distance sensors and/or rasters of the sensing device 30 may detect whether the cutter disc 20 is mounted in place in the X direction, the Y direction, and the Z direction, respectively, of the cutter disc 20, so that the sensing device 30 may detect whether the cutter disc 20 is mounted in place. By detecting whether the cutter head 20 is mounted in place or not by using the sensing device 30, the mounting accuracy of the cutter head 20 in the fixing seat 10 can be improved, so that the collision probability of a clamp of the machining equipment and the cutter 200 in the cutter head 20 can be reduced, and the clamp of the machining equipment and/or the cutter 200 in the cutter head 20 can be prevented from being damaged.
In some embodiments of the present invention, as shown in fig. 2, the cutter head 20 may be provided with a first fixing member 50, and the fixing base 10 may be provided with a second fixing member 60, so that the first fixing member 50 and the second fixing member 60 are cooperatively connected to limit the movement of the cutter head 20 relative to the fixing base 10. After the first Z-directional fixing element 203 is matched with the second Z-directional fixing element 403, the first fixing element 50 and the second fixing element 60 can be matched and connected. Through set up first mounting 50 and second mounting 60 between blade disc 20 and fixing base 10, drive the in-process that blade disc 20 moved at a high speed when fixing base 10, first mounting 50 and second mounting 60 can restrict blade disc 20 and rock in fixing base 10, thereby can effectively reduce the wearing and tearing of blade disc 20, also can improve the positioning accuracy of blade disc 20 in fixing base 10, can also reduce the fretting wear of the contact position of cutter 200 and blade disc 20, and then can improve the sword precision of grabbing of anchor clamps in the processing equipment, the product quality of processing equipment has further been improved.
In some embodiments of the present invention, as shown in fig. 2, a side of the cutter deck 20 facing the holder 10 may be provided with a first fixing member 50, that is, a lower side of the cutter deck 20 may be provided with the first fixing member 50, and a bottom wall of the installation groove 101 may be provided with a second fixing member 60. By providing the first and second fixtures 50 and 60 at the lower side of the cutter deck 20 and the bottom wall of the installation groove 101, respectively, the interval distance between the first and second fixtures 50 and 60 can be reduced, and the connection reliability between the first and second fixtures 50 and 60 can be improved, so that the cutter deck 20 can be further prevented from wobbling in the holder 10.
In some embodiments of the present invention, as shown in fig. 5, the cutter head 20 may be provided with a first groove 501, the first fixing member 50 may be mounted in the first groove 501, the fixing base 10 may be provided with a second groove 601, and the second fixing member 60 may be mounted in the second groove 601. Wherein, the end of opening of first recess 501 can set up in the bottom of blade disc 20, and first recess 501 can be opened towards the tip of fixing base 10, and first mounting 50 can set up in the end of opening of the bottom of blade disc 20 through first recess 501 and stretch into first recess 501, and first mounting 50 can be installed in first recess 501 through connection methods such as gluing, interference fit, threaded connection.
The end of the first fixing element 50 facing the fixing seat 10 may be located in the first groove 501, that is, as shown in fig. 2, the lower end of the first fixing element 50 may be located in the first groove 501, that is, the first groove 501 may accommodate the first fixing element 50, and the first groove 501 may prevent the first fixing element 50 from protruding from the bottom end of the cutter disc 20, so as to prevent the first fixing element 50 from interfering with the fixing seat 10, and further reduce the influence of the first fixing element 50 on the positioning accuracy between the cutter disc 20 and the fixing seat 10.
And, as shown in fig. 6 to 8, an open end of the second groove 601 may be disposed at a bottom of the mounting groove 101, the second groove 601 may be open toward an end of the cutter head 20, the second fixing member 60 may be disposed at the open end of the bottom of the mounting groove 101 and extend into the second groove 601 through the second groove 601, and the second fixing member 60 may be mounted in the second groove 601 through connection manners such as gluing, interference fit, and threaded connection.
The end of the second fixing member 60 facing the cutter disc 20 may be located in the second groove 601, that is, as shown in fig. 2, the upper end of the second fixing member 60 may be located in the second groove 601, that is, the second groove 601 may receive the second fixing member 60, and the second groove 601 may prevent the second fixing member 60 from protruding out of the groove bottom of the mounting groove 101, so that the second fixing member 60 may be prevented from interfering with the cutter disc 20, and further, the influence of the second fixing member 60 on the positioning accuracy between the cutter disc 20 and the fixing base 10 may be reduced. In addition, by using the first recess 501 and the second recess 601 to receive the first fixing member 50 and the second fixing member 60, respectively, interference between the first fixing member 50 and the second fixing member 60 can be prevented, and thus the cutter head 20 can be smoothly installed into the fixing base 10.
Further, each cutter head 20 may be provided with a plurality of first fixing elements 50, the fixing base 10 may be provided with a plurality of second fixing elements 60, and the positioning effect between the cutter head 20 and the fixing base 10 may be further improved by the cooperation of the plurality of first fixing elements 50 and the plurality of second fixing elements 60, so that the product quality of the cutter head assembly 100 may be further improved. A plurality of first fixing pieces 50 may be provided at intervals in the front-rear direction in fig. 1, and preferably, as shown in fig. 5, two first fixing pieces 50 may be provided on each cutter deck 20, and in the front-rear direction in fig. 1, two first fixing pieces 50 may be provided on both sides of the first Y-direction fixing piece 201, respectively.
Moreover, the two first fixing members 50 may be disposed on the same side of the cutter 20, specifically, both the two first fixing members 50 may be disposed on a side of the cutter 20 close to the first Z-direction fixing member 203, that is, on the right side of the cutter 20 in fig. 1, and by disposing the first fixing member 50 close to the first Z-direction fixing member 203 of the cutter 20, the effect of fixing the cutter 20 after the first fixing member 50 is engaged with the second fixing member 60 may be better, so that the cutter 20 may be further prevented from shaking relative to the fixing base 10.
In some embodiments of the present invention, as shown in fig. 8 and 9, the first fixing member 50 and the second fixing member 60 are in suction fit, and preferably, the first fixing member 50 and the second fixing member 60 may be in suction fit by magnetic force. In some embodiments of the present invention, one of the first fixing member 50 and the second fixing member 60 may be a magnet, and the other of the first fixing member 50 and the second fixing member 60 may be an iron block. For example, the first fixing member 50 may be a magnet and the second fixing member 60 may be an iron block, or the first fixing member 50 may be an iron block and the second fixing member 60 may be a magnet, and the magnet and the iron block may be in attractive fit with each other through magnetic force, so that the first fixing member 50 and the second fixing member 60 may be in fit connection to limit the movement of the cutter head 20 relative to the fixing base 10.
In other specific embodiments of the present invention, both the first fixing element 50 and the second fixing element 60 may be configured as magnets, and the magnets may be in attraction-fit, so that the first fixing element 50 and the second fixing element 60 can be in fit-fit connection to limit the movement of the cutter head 20 relative to the fixing base 10. It should be noted that the positive electrode of the first fixing element 50 may be disposed opposite to the negative electrode of the second fixing element 60 so that the first fixing element 50 and the second fixing element 60 are connected by suction, or the negative electrode of the first fixing element 50 may be disposed opposite to the positive electrode of the second fixing element 60 so that the first fixing element 50 and the second fixing element 60 are connected by suction.
In other specific embodiments of the present invention, one of the first fixing member 50 and the second fixing member 60 may be configured as an electromagnet, and the other of the first fixing member 50 and the second fixing member 60 may be an iron block, for example, the first fixing member 50 may be configured as an electromagnet and the second fixing member 60 may be an iron block, or the first fixing member 50 may be configured as an iron block and the second fixing member 60 may be an electromagnet. Preferably, the first fixing member 50 may be configured as an iron block, and the second fixing member 60 may be an electromagnet, so that the difficulty in assembling the first fixing member 50 and the second fixing member 60 may be reduced. Of course, in some embodiments of the present invention, the first fixing member 50 and the second fixing member 60 may be provided as a combination of a magnet and an electromagnet.
When the first fixing member 50 and the second fixing member 60 are engaged by magnetic force, the first fixing member 50 and the second fixing member 60 are disposed on a side away from the sensing device 30, so that the influence of the magnetic force of the first fixing member 50 and the second fixing member 60 on the sensing device 30 can be prevented, and the detection accuracy of the sensing device 30 can be ensured.
According to the processing equipment provided by the embodiment of the utility model, the cutter head assembly 100 comprises the cutter head assembly 100 provided by the embodiment, the cutter head assembly 100 is applied to the processing equipment, the sensing device 30 is arranged on the cutter head assembly 100, and the processing equipment can detect whether the cutter head 20 is replaced or not through the sensing device 30.
In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "length," "width," "thickness," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," "clockwise," "counterclockwise," "axial," "radial," "circumferential," and the like are used in the orientations and positional relationships indicated in the drawings for convenience in describing the utility model and to simplify the description, and are not intended to indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and are not to be considered limiting of the utility model.
In the description of the present invention, "a plurality" means two or more.
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 utility model. 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 utility model 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 utility model, the scope of which is defined by the claims and their equivalents.

Claims (11)

1. A cutter head assembly for use with a machining apparatus having a controller, comprising:
a fixed seat;
the cutter head is detachably arranged on the fixed seat;
the induction system, induction system with the controller communication is connected the blade disc install in during the fixing base induction system is triggered to the controller output first signal the blade disc is followed when the fixing base is dismantled induction system is triggered to the controller output second signal, so that the controller basis first signal with the second signal is confirmed whether the blade disc is changed.
2. The cutterhead assembly for use in a machining apparatus according to claim 1, wherein the mounting base is provided with a mounting slot for mounting the cutterhead, the mounting slot being open towards the end of the cutterhead, the sensing means being provided at the bottom wall of the mounting slot.
3. The cutter head assembly applied to the machining equipment as claimed in claim 2, wherein the bottom wall of the mounting groove is provided with an avoidance groove recessed towards the inside of the fixing seat, and the induction device is arranged in the avoidance groove.
4. The cutterhead assembly for use in a processing machine according to claim 3, wherein the bottom wall of the evacuation slot is provided with a mounting portion, said sensing means being mounted to said mounting portion.
5. The cutterhead assembly for use in a processing machine as claimed in claim 1, wherein said sensing means is also used to detect whether said cutterhead is in place.
6. The cutter head assembly applied to the processing equipment as claimed in claim 2, wherein the cutter head is provided with a first fixing member, the fixing seat is provided with a second fixing member, and the first fixing member and the second fixing member are connected in a matching manner to limit the movement of the cutter head relative to the fixing seat.
7. The cutter head assembly applied to the processing equipment as claimed in claim 6, wherein one side of the cutter head facing the fixed seat is provided with the first fixing piece, and the bottom wall of the installation groove is provided with the second fixing piece.
8. The cutterhead assembly for use in a machining device of claim 7, wherein the cutterhead is provided with a first recess, the first fixing member is mounted in the first recess, the stationary base is provided with a second recess, and the second fixing member is mounted in the second recess.
9. The cutter head assembly applied to machining equipment of claim 8, wherein the first groove is open toward the end of the fixing seat, the second groove is open toward the end of the cutter head, the first fixing member is located in the first groove toward the end of the fixing seat, and the second fixing member is located in the second groove toward the end of the cutter head.
10. The cutter head assembly applied to the processing equipment according to any one of claims 6 to 9, wherein the first fixing member and the second fixing member are suction-fitted.
11. A machining apparatus comprising a cutter head assembly according to any one of claims 1 to 10 for use in a machining apparatus.
CN202220405498.XU 2022-02-25 2022-02-25 Be applied to cutter disc assembly and processing equipment of processing equipment Active CN216781203U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202220405498.XU CN216781203U (en) 2022-02-25 2022-02-25 Be applied to cutter disc assembly and processing equipment of processing equipment

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202220405498.XU CN216781203U (en) 2022-02-25 2022-02-25 Be applied to cutter disc assembly and processing equipment of processing equipment

Publications (1)

Publication Number Publication Date
CN216781203U true CN216781203U (en) 2022-06-21

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Family Applications (1)

Application Number Title Priority Date Filing Date
CN202220405498.XU Active CN216781203U (en) 2022-02-25 2022-02-25 Be applied to cutter disc assembly and processing equipment of processing equipment

Country Status (1)

Country Link
CN (1) CN216781203U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN115256042A (en) * 2022-09-28 2022-11-01 山东豪迈机械科技股份有限公司 Cutter placing device

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN115256042A (en) * 2022-09-28 2022-11-01 山东豪迈机械科技股份有限公司 Cutter placing device

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