CN214867312U - Lathe tool self-detection mechanism for ceramic mold production - Google Patents

Abstract

The utility model discloses a lathe cutter self test mechanism for ceramic mold production, including the lathe bed and sliding connection in the device body of lathe bed, device body upside is provided with the center pillar, the inside first detector that is used for detecting the cutter damage that is provided with of center pillar, the outer ring-type cutter frame that is provided with of center pillar, be provided with the second detector that is used for detecting the cutter temperature on the cutter frame, the device body is provided with the cooling device who is used for cooling the cutter, and through the setting of first detector, the real-time detection cutter condition, through cooling device's setting, help cooling when detecting out the cutter high temperature prevents that the cutter temperature is too high to prevent the damage of cutter or ceramic mold, through the setting of second detector, the real-time detection cutter wearing and tearing condition, the people of being convenient for in time discover and change the cutter.

Description

Lathe tool self-detection mechanism for ceramic mold production

Technical Field

The utility model relates to a technical field of lathe equipment especially relates to a lathe cutter self-checking mechanism for ceramic mold production.

Background

With the economic development and the improvement of market demand, the demand of various machine tools in China is increasing day by day, wherein the machine tools comprise lathe machines, the lathe machines mainly use cutters to carry out turning processing on rotating workpieces, the cutters are necessary parts for the lathe processing, and when in work, each cutter tooth is used for cutting off the allowance of the workpieces intermittently in sequence, and the machine tools are mainly used for processing planes, steps, grooves, forming surfaces, cutting off the workpieces and the like on the lathe machines.

The cutter can raise the temperature of the cutter under high-speed rotating friction, particularly when a ceramic mold is machined, the hardness of the ceramic mold is high, the ceramic mold runs at a high speed for a long time, a device for detecting the cutter is not arranged on an existing lathe, the cutter temperature is easily too high, the cutter or the ceramic mold is damaged, the ceramic mold is machined, the cutter with high hardness of the ceramic mold is used for a long time, cutter abrasion can be caused, the cutter abrasion is difficult to find by people and cannot be treated for the first time, the rejection rate of the cutter is improved, and the product quality is difficult to control.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a lathe cutter self test mechanism for ceramic mold production to reach the real-time detection cutter, prevent that the cutter temperature is too high, in time detect out the purpose of cutter wearing and tearing.

The technical proposal of the utility model is as follows: the utility model provides a lathe cutter self test mechanism for ceramic mold production, is including lathe bed and sliding connection in the device body of lathe bed, device body upside is provided with the center pillar, the inside first detector that is used for detecting the cutter damage that is provided with of center pillar, the outer ring of center pillar is provided with the toolframe, be provided with the second detector that is used for detecting the cutter temperature on the toolframe, the device body is provided with the cooling device who is used for cooling off the cutter.

Preferably, the first detector is a shock sensor.

Preferably, the first detector comprises a detection plate, one side of the detection plate is arranged outside the central column through a spring, and the other side of the detection plate is arranged outside the cutter.

Preferably, the second detector is a temperature sensor.

Preferably, the second detector comprises a temperature detection head, the temperature detection head is arranged at the outer side of the center pillar, and the temperature detection head is arranged at one end of the cutter close to the cutting head.

Preferably, the cooling device is arranged at one end far away from the cutter cutting head, the cooling device comprises a fan and a spray header, the spray header is arranged at the rear end of the fan according to the air outlet direction, and the cutter is arranged at the front end of the fan according to the air outlet direction.

Preferably, the lathe bed is provided with a guide rail, the lower side of the device body is provided with a sliding block connected to the guide rail in a sliding manner, and the sliding block is connected with a power device used for driving the sliding block to move.

Compared with the prior art, the following is the utility model relates to a lathe cutter self-checking mechanism's beneficial effect for ceramic mold production: through the setting of first detector, the real-time detection cutter condition, through cooling device's setting, help when detecting out the cutter high temperature is cooled down, prevents the cutter high temperature to prevent the damage of cutter or ceramic mould, through the setting of second detector, the real-time detection cutter wearing and tearing condition, the people of being convenient for in time discover and change the cutter.

Drawings

Fig. 1 is a cross-sectional view of the device body of the present invention.

Fig. 2 is a cross-sectional view of the device body in the overlooking direction of the present invention.

Fig. 3 is the distribution schematic diagram of the bed body and the device body of the utility model.

In the figure: the machine tool comprises a machine tool body 1, a device body 2, a first detector 3, a second detector 4, a cooling device 5, a tool rest 6, a center column 22, a detection plate 31, a spring 32, a temperature detection head 44, a fan 51, a spray head 52, a power device 100, a guide rail 101 and a slide block 200.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings:

in the description of the present invention, it is to be understood that the terms "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "inner," and the like are used in the orientation or positional relationship indicated in the drawings, merely for the purpose of describing the invention and simplifying the description, and are not intended to indicate or imply that the device or element so referred to must have a particular orientation, be constructed and operated in a particular orientation, and are therefore not to be considered limiting of the invention.

The utility model relates to a lathe cutter self-checking mechanism for ceramic mold production, including lathe bed 1 and sliding connection in the device body 2 of lathe bed 1, 2 upsides of device body are provided with center pillar 22, the inside first detector 3 that is used for detecting the cutter damage that is provided with of center pillar 22, the outer ring shape of center pillar 22 is provided with toolframe 6, be provided with the second detector 4 that is used for detecting the cutter temperature on toolframe 6, device body 2 is provided with cooling device 5 that is used for cooling off the cutter, cooling device 5 sets up inside device body 2.

The utility model relates to a lathe cutter self test mechanism for ceramic mold production mainly is through the setting of first detector 3, and the real-time detection cutter condition through the setting of cooling device 5, helps the cooling when detecting out the cutter high temperature, prevents that the cutter high temperature to prevent the damage of cutter or ceramic mold, through the setting of second detector 4, the real-time detection cutter wearing and tearing condition, the people of being convenient for in time discover and change the cutter.

In this embodiment, the first detector 3 is a vibration sensor.

In this embodiment, the first detector 3 includes a detection plate 31, one side of the detection plate 31 is disposed outside the center pillar 22 through a spring 32, the other side is disposed outside the cutter, the detection plate 31 is connected to the detector, wherein the detection plate 31 is fixedly connected to the center pillar 22 through the spring 32, when the cutter is mounted on the device body 2, the detection plate 31 is in a state of abutting against the cutter, when the cutter vibrates during the machining process, the vibration is directly transmitted to the detection plate 31, and the detection plate 31 transmits the vibration signal back to the detector.

In this embodiment, the second detector 4 is a temperature sensor.

In this embodiment, the second detector 4 includes a temperature detection head 44, the temperature detection head 44 is disposed outside the center pillar 22, the temperature detection head 44 is disposed at an end of the tool close to the cutting head, the temperature detection head 44 detects a temperature change of the tool in real time and transmits the temperature change to the second detector 4, and the temperature detection head 44 is disposed at an end close to the cutting head of the tool, so as to detect a temperature of a processing portion of the tool more accurately.

In this embodiment, the cooling device 5 is disposed at one end far away from the cutting head of the tool, the cooling device 5 includes a fan 51 and a spray header 52, the spray header 52 is disposed at the rear end of the fan 51 according to the air-out direction, the tool is disposed at the front end of the fan 51 according to the air-out direction, the cooling device 5 is disposed at one end far away from the cutting head of the tool, the distance from the temperature detection head 44 is mainly pulled, the temperature detection head 44 is prevented from detecting the temperature of the tool by mistake, and the cooling liquid cannot be directly sprayed onto the cutting head of the tool, and the spray header 52 is connected with a cooling liquid storage device.

In this embodiment, the bed 1 is provided with a guide rail 101, the lower side of the device body 2 is provided with a slide block 200 slidably connected to the guide rail 101, the slide block 200 is connected to a power device 100 for driving the slide block 200 to move, and the power device 100 may adopt a device such as a hydraulic pump.

The device body 2 is connected with a controller, the controller is respectively and electrically connected with the first detector 3, the second detector 4, the cooling device 5 and the power device 100, the device body 2 is rotatably connected with the sliding block 200 and can adopt a bearing connection mode and the like, the cutter frame 6 is annularly arranged on the device body 2 and can be arranged into 2 or 4 cutters, and 2 or 4 cutters can be arranged on the corresponding device body 2 at one time so as to be convenient for standby, and when one cutter is damaged, the device body 2 can be rotated to replace the other cutter.

The working principle of the lathe cutter self-detection mechanism for ceramic mold production is as follows, the cutter is arranged on the cutter frame 6, the cutter is pressed against the detection plate 31 on the center post 22, when the cutter begins to process, vibration is generated, the detection plate 31 can sense the vibration, during the processing, the temperature of the cutter is continuously increased, when the temperature detecting head 44 detects that the temperature of the cutter is higher than the preset value, the second detector 4 is activated to operate the cooling device 5, the spray head sprays the cooling liquid, and the cooling liquid is blown out to the surface of the tool by the fan 51, when the cutter is cooled, the vibration frequency of the cutter is greatly changed due to damage during processing, when the detection plate 31 detects that the tool is shocked irregularly, the power device 100 is controlled by the second detector 4, and the power device 100 drives the sliding block 200 to move backwards on the guide rail 101, so that the tool is far away from the workpiece.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a lathe cutter self-checking mechanism for production of ceramic mould, includes lathe bed (1) and sliding connection in device body (2) of lathe bed (1), its characterized in that: device body (2) upside is provided with center pillar (22), inside first detector (3) that are used for detecting the cutter damage that are provided with of center pillar (22), the outer ring of center pillar (22) is provided with tool rest (6), be provided with second detector (4) that are used for detecting the cutter temperature on tool rest (6), device body (2) are provided with cooling device (5) that are used for cooling off the cutter.

2. The self-detection mechanism of lathe tool for ceramic mold production according to claim 1, characterized in that: the first detector (3) is a vibration sensor.

3. The self-detection mechanism of lathe tool for ceramic mold production according to claim 1, characterized in that: the first detector (3) comprises a detection plate (31), one side of the detection plate (31) is arranged on the outer side of the center pillar (22) through a spring (32), and the other side of the detection plate is arranged on the outer side of the cutter.

4. The self-detection mechanism of lathe tool for ceramic mold production according to claim 1, characterized in that: the second detector (4) is a temperature sensor.

5. The self-detection mechanism of lathe tool for ceramic mold production according to claim 1, characterized in that: the second detector (4) comprises a temperature detection head (44), the temperature detection head (44) is arranged outside the center pillar (22), and the temperature detection head (44) is arranged at one end of the cutter close to the cutting head.

6. The self-detection mechanism of lathe tool for ceramic mold production according to claim 1, characterized in that: the cooling device (5) is arranged at one end far away from the cutter cutting head, the cooling device (5) comprises a fan (51) and a spray head (52), the spray head (52) is arranged at the rear end of the fan (51) according to the air outlet direction, and the cutter is arranged at the front end of the fan (51) according to the air outlet direction.

7. The self-detection mechanism of lathe tool for ceramic mold production according to claim 1, characterized in that: the lathe bed (1) is provided with a guide rail (101), a sliding block (200) connected with the guide rail (101) in a sliding mode is arranged on the lower side of the device body (2), and the sliding block (200) is connected with a power device (100) used for driving the sliding block (200) to move.

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