An electronic dicer for hydrophone ceramic cutting

By designing an electronic scribing machine for cutting hydrophone ceramics, a water guide channel and nozzle system are used to recycle water resources, solving the problems of liquid splashing and waste, and improving cutting accuracy.

CN224408069UActive Publication Date: 2026-06-26LANGFANG KETAIDA TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
LANGFANG KETAIDA TECH CO LTD
Filing Date
2025-07-23
Publication Date
2026-06-26

AI Technical Summary

Technical Problem

Existing technologies for cutting ceramic hydrophones suffer from problems such as liquid splashing and water waste.

Method used

An electronic dicing machine was designed, which includes a cutting table, a cutting component, and a loading and unloading component. It utilizes a water guide channel and a nozzle system to achieve water recycling and reuse, and uses baffles to prevent liquid splashing. Combined with a workpiece pushing component, it ensures cutting accuracy.

Benefits of technology

It enables the recycling of water resources, avoids liquid splashing, and improves cutting accuracy.

✦ Generated by Eureka AI based on patent content.

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Abstract

The utility model discloses an electronic scriber for hydrophone ceramic cutting belongs to hydrophone ceramic cutting technical field, including the cutting table, cutting assembly and feeding and discharging subassembly of adjacent arrangement, the bottom surface below of cutting table is equipped with water tank, and the top surface of cutting table is equipped with cutting recess, and the groove bottom of cutting recess is equipped with the water guide groove of uniform distribution, and one end of cutting recess is equipped with the slide seat, and the bottom fixedly connected with the sliding block of water guide groove slidingly connected of slide seat is equipped, and the top surface of slide seat is equipped with cutting mould and baffle, and the top surface of cutting mould is equipped with workpiece groove, and the top fixedly connected with the nozzle of setting of workpiece groove of baffle is equipped, and the nozzle is connected with the water pump in water tank through water pipe, and one end of cutting recess away from slide seat is equipped with the water outlet hole, and the water outlet hole and the top surface opening of water tank are opposite and set up. The utility model discloses an electronic scriber for hydrophone ceramic cutting above -mentioned structure, effectively avoid water stain splashing, still can realize the recycling of water.
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Description

Technical Field

[0001] This utility model belongs to the field of hydrophone ceramic cutting technology, and in particular relates to an electronic scribing machine for hydrophone ceramic cutting. Background Technology

[0002] Hydrophone ceramics are used for sound wave collection in hydrophones. During processing, an electronic dicing machine is used to cut stripes or other shapes onto the surface of the hydrophone ceramic. During cutting, heat is generated when the dicing wheel comes into contact with the hydrophone ceramic. Current technology often uses spraying to cool the hydrophone ceramic and the grinding wheel, but this results in liquid splashing and water waste.

[0003] To solve the above problems, a new type of electronic dicing machine is needed. Utility Model Content

[0004] The purpose of this invention is to provide an electronic scribing machine for cutting ceramics in hydrophones, which enables the recycling of water resources while avoiding liquid splashing.

[0005] To achieve the above objectives, this utility model provides an electronic scribing machine for cutting ceramic hydrophones, comprising an adjacent cutting table, a cutting assembly, and a loading / unloading assembly. A water tank is located below the bottom surface of the cutting table, and a cutting groove is provided on the top surface of the cutting table. A uniformly distributed water guide groove is provided at the bottom of the cutting groove. A slide block is provided at one end of the cutting groove, and a slider that is slidably connected to the water guide groove is fixedly connected to the bottom of the slide block. A cutting mold and a baffle are provided on the top surface of the slide block. The cutting mold is detachably connected to the slide block, and a workpiece groove is provided on the top surface of the cutting mold. The baffle is fixedly connected to the slide block, and a nozzle facing the workpiece groove is fixedly connected to the top of the baffle. The nozzle is connected to a water pump in the water tank via a water pipe. A water outlet is provided at the end of the cutting groove away from the slide block, and the water outlet is opposite to the opening on the top surface of the water tank.

[0006] Preferably, the top two sides of the cutting mold are provided with vertical slits that communicate with the workpiece groove, and one end of the cutting mold is in contact with the baffle.

[0007] Preferably, a filter screen is attached to the top of the water outlet.

[0008] Preferably, the cutting groove is provided with a workpiece pushing assembly, which includes a first threaded rod and a second threaded rod. The first threaded rod and the second threaded rod are respectively located at both ends of the cutting groove and are arranged parallel to the water guide groove. A push plate and a reset plate are respectively threaded onto the first threaded rod and the second threaded rod. The push plate and the reset plate are both arranged perpendicular to the water guide groove. The push plate and the reset plate are respectively located on both sides of the slide. One end of the first threaded rod and the second threaded rod are respectively connected to a drive motor.

[0009] Preferably, the cutting assembly includes a lifting power box, which contains a lifting screw. The top end of the lifting screw is connected to a lifting motor fixed to the lifting power box. A vertical groove is provided on the side of the lifting power box facing the cutting table. A nut seat on the lifting screw is connected to a lifting seat extending out of the vertical groove. The lifting seat is located directly above the baffle. A horizontally arranged telescopic power device is fixedly connected to the lifting seat. The telescopic power device is connected to the cutting seat. A grinding wheel connected to the cutting motor is provided on the cutting seat. The projection of the telescopic rod of the telescopic power device on the cutting groove is perpendicular to the water guide channel.

[0010] Preferably, the loading and unloading assembly includes a rotary power box, which houses a rotary motor. The output shaft of the rotary motor is connected to a rotating frame located at the top of the rotary power box. The rotating frame has three branch rods arranged in a circular array in the horizontal direction with the end of the output shaft as the center. A lifting cylinder is fixedly connected to the top end of each branch rod, and the telescopic rod of the lifting cylinder passes through the branch rod and is connected to a pneumatic suction cup.

[0011] Therefore, the electronic scribing machine for cutting hydrophone ceramics using the above-described structure of this utility model has the following beneficial effects:

[0012] 1. It can use the water guide channel on the cutting table to dissipate heat from the water, and then use the water outlet, water tank, water pump, water pipe and nozzle to recycle water resources;

[0013] 2. It can use baffles and cut grooves to prevent water splashing;

[0014] 3. It can automatically pick up and put in hydrophone ceramics using the loading and unloading components, and can also use the workpiece pushing component to ensure the accuracy of the cutting stripe spacing.

[0015] The technical solution of this utility model will be further described in detail below with reference to the accompanying drawings and embodiments. Attached Figure Description

[0016] Figure 1This is a schematic diagram of an embodiment of the electronic scribing machine for cutting ceramics for hydrophones according to the present invention;

[0017] Figure 2 This is a schematic diagram of another embodiment of the electronic scribing machine for cutting ceramics for hydrophones according to this utility model.

[0018] In the diagram: 1. Cutting table; 2. Cutting assembly; 21. Lifting power box; 22. Lifting motor; 23. Lifting seat; 24. Telescopic power device; 25. Cutting seat; 26. Grinding wheel; 3. Loading and unloading assembly; 31. Rotating power box; 32. Rotating frame; 33. Lifting cylinder; 34. Pneumatic suction cup; 4. Water tank; 5. Cutting groove; 6. Water guide groove; 7. Slide seat; 8. Cutting mold; 9. Baffle; 10. Workpiece groove; 11. Nozzle; 12. Water pipe; 13. Water outlet; 14. Workpiece pushing assembly; 141. First threaded rod; 142. Second threaded rod; 143. Drive motor; 144. Push plate; 145. Reset plate. Detailed Implementation

[0019] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments. Based on the embodiments of the present utility model, all other embodiments obtained by those of ordinary skill in the art without creative effort are within the protection scope of the present utility model.

[0020] To make the above-mentioned objectives, features and advantages of this utility model more apparent and understandable, the utility model will be further described in detail below with reference to the accompanying drawings and specific embodiments.

[0021] Example

[0022] Reference Figure 1-2As shown, this embodiment provides an electronic scribing machine for cutting hydrophone ceramics, including a cutting table 1, a cutting assembly 2, and a loading / unloading assembly 3 arranged adjacent to each other. A water tank 4 is located below the bottom surface of the cutting table 1, and a cutting groove 5 is located on the top surface of the cutting table 1. The bottom of the cutting groove 5 has evenly distributed water guide channels 6, and a slide 7 is located at one end of the cutting groove 5. A slider that is slidably connected to the bottom of the slide 7 is fixedly connected to the water guide channels 6. A cutting mold 8 and a baffle 9 are located on the top surface of the slide 7, and the baffle 9 is fixedly connected to the slide 7. The cutting mold 8 and the slide 7 are detachably connected; the cutting mold 8 and the slide 7 can be connected by bolts or magnetic attraction. A workpiece groove 10 is located on the top surface of the cutting mold 8, and a nozzle 11 facing the workpiece groove 10 is fixedly connected to the top of the baffle 9. The nozzle 11 is connected to a water pump in the water tank 4 via a water pipe 12. A water outlet 13 is located at the end of the cutting groove 5 away from the slide 7, and the water outlet 13 is opposite to the opening on the top surface of the water tank 4.

[0023] In use, the water pump transports the water in the water tank 4 to the nozzle 11 through the water pipe 12. The nozzle 11 sprays water onto the cut hydrophone ceramic surface to cool it down. The sprayed water carries away the temperature of the hydrophone ceramic surface and flows back to the water tank 4 through the water guide channel 6 and the water outlet 13, realizing the recycling of water resources. The water can be cooled when it flows in the water guide channel 6. In addition, the design of the cutting groove 5 and the baffle 9 can prevent water from splashing.

[0024] In a further optimized design, the top two sides of the cutting mold 8 are provided with vertical slits that communicate with the workpiece groove 10, which facilitates the manual placement and removal of the hydrophone ceramic within the workpiece groove 10. One end of the cutting mold 8 is in contact with a baffle 9, which increases the stability of the cutting mold 8.

[0025] In a further optimized design, a filter screen is attached to the top of the water outlet 13. The filter screen can filter impurities in the water and prevent debris and other impurities generated during the ceramic cutting process of the hydrophone from clogging the nozzle 11 and the water pipe 12.

[0026] In a further preferred embodiment, a workpiece pushing assembly 14 is provided within the cutting groove 5. The workpiece pushing assembly 14 includes a first threaded rod 141 and a second threaded rod 142, one end of which is connected to a drive motor 143. The first threaded rod 141 and the second threaded rod 142 are located at opposite ends of the cutting groove 5 and are arranged parallel to the water guide channel 6. A push plate 144 and a reset plate 145 are threadedly connected to the first threaded rod 141 and the second threaded rod 142, respectively. Both the push plate 144 and the reset plate 145 are arranged perpendicularly to the water guide channel 6 and are located on opposite sides of the slide block 7.

[0027] In use, the hydrophone ceramic is placed into the workpiece slot 10. The first threaded rod 141 rotates under the drive of the motor, causing the push plate 144 to push the slide 7 a certain distance. When the position of the cutting grinding wheel 26 in the length direction of the first threaded rod 141 remains unchanged, precise control of the cutting stripe spacing can be achieved. After cutting, the second threaded rod 142 rotates under the drive of the motor, causing the reset plate 145 to push the slide 7 in the opposite direction to achieve reset.

[0028] In a further optimized design, the cutting assembly 2 includes a lifting power box 21, within which a lifting screw is installed. The top end of the lifting screw is connected to a lifting motor 22 fixed to the lifting power box 21. A vertical groove is provided on the side of the lifting power box 21 facing the cutting table 1. A nut seat on the lifting screw is connected to a lifting seat 23 extending out of the vertical groove, located directly above the baffle 9. A horizontally arranged telescopic power device 24 is fixedly connected to the lifting seat 23; the telescopic power device 24 can be a hydraulic cylinder or a pneumatic cylinder. The telescopic power device 24 is connected to the cutting seat 25; specifically, the telescopic rod of the hydraulic cylinder or pneumatic cylinder is fixedly connected to the cutting seat 25. A grinding wheel 26 connected to the cutting motor is provided on the cutting seat 25. The projection of the telescopic rod of the telescopic power device 24 onto the cutting groove 5 is perpendicular to the water guide groove 6.

[0029] In use, the cutting motor drives the grinding wheel 26 to rotate, the lifting motor 22 drives the grinding wheel 26 to rise and fall, and the telescopic power device 24 drives the grinding wheel 26 to reciprocate in the horizontal direction. Together with manual or the above-mentioned workpiece pushing assembly 14, the slide 7 is moved to achieve stripe cutting on the surface of the hydrophone ceramic.

[0030] In a further optimized scheme, the loading and unloading assembly 3 includes a rotary power box 31, which contains a rotary motor. The output shaft of the rotary motor is connected to a rotary frame 32 located on the top of the rotary power box 31. The rotary frame 32 has three branch rods arranged in a circular array in the horizontal direction with the end of the output shaft as the center. The top end of the branch rods is fixedly connected to a lifting cylinder 33. The extension rod of the lifting cylinder 33 passes through the branch rods and is connected to the air pressure suction cup 34.

[0031] In use, it can be used in conjunction with a conveyor belt. The rotating motor drives the rotating frame 32 to rotate, and the three pneumatic suction cups 34 can be raised and lowered under the drive of the lifting cylinder 33. When each pneumatic suction cup 34 moves to the end of the conveyor belt that carries the hydrophone ceramic raw material, it is lowered under the drive of the lifting cylinder 33 and then sucks up the hydrophone ceramic. Then it is raised under the drive of the lifting cylinder 33. When the pneumatic suction cup 34 moves to the workpiece groove 10, it is lowered under the drive of the lifting cylinder 33 and then releases the hydrophone ceramic. After the cutting process is completed, it sucks up the hydrophone ceramic and rises under the drive of the lifting cylinder 33. When the pneumatic suction cup 34 moves to the beginning of the conveyor belt that carries the finished hydrophone ceramic, it is lowered under the drive of the lifting cylinder 33 and then releases the hydrophone ceramic.

[0032] Therefore, this utility model provides an electronic scribing machine for cutting ceramic hydrophones using the above-mentioned structure, which realizes the recycling of water resources while avoiding liquid splashing.

[0033] In the description of this utility model, it should be understood that the terms "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc., indicate the orientation or positional relationship based on the orientation or positional relationship shown in the accompanying drawings. They are only for the convenience of describing this utility model and do not indicate or imply that the device or element referred to must have a specific orientation, or be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model.

[0034] The embodiments described above are merely preferred embodiments of the present utility model and are not intended to limit the scope of the present utility model. Various modifications and improvements made to the technical solutions of the present utility model by those skilled in the art without departing from the spirit of the present utility model should fall within the protection scope defined by the claims of the present utility model.

Claims

1. An electronic scribing machine for cutting hydrophone ceramics, comprising a cutting table (1), a cutting assembly (2), and a loading / unloading assembly (3) arranged adjacent to each other, characterized in that: A water tank (4) is provided below the bottom surface of the cutting table (1). A cutting groove (5) is provided on the top surface of the cutting table (1). A water guide groove (6) is provided at the bottom of the cutting groove (5). A slide (7) is provided at one end of the cutting groove (5). A slider that is slidably connected to the water guide groove (6) is fixedly connected to the bottom of the slide (7). A cutting mold (8) and a baffle (9) are provided on the top surface of the slide (7). The cutting mold (8) and the slide (7) are detachably connected. The top surface of the cutting mold (8) is provided with a workpiece groove (10). The baffle (9) is fixedly connected to the slide (7). The top of the baffle (9) is fixedly connected with a nozzle (11) facing the workpiece groove (10). The nozzle (11) is connected to the water pump in the water tank (4) through a water pipe (12). The end of the cutting groove (5) away from the slide (7) is provided with a water outlet (13). The water outlet (13) is set opposite to the opening on the top surface of the water tank (4).

2. The electronic scribing machine for cutting hydrophone ceramics according to claim 1, characterized in that: The top two sides of the cutting mold (8) are provided with vertical slits that communicate with the workpiece groove (10), and one end of the cutting mold (8) is in contact with the baffle (9).

3. The electronic scribing machine for cutting hydrophone ceramics according to claim 1, characterized in that: A filter screen is attached to the top of the water outlet (13).

4. The electronic scribing machine for cutting hydrophone ceramics according to claim 1, characterized in that: The cutting groove (5) is provided with a workpiece pushing assembly (14), which includes a first threaded rod (141) and a second threaded rod (142). The first threaded rod (141) and the second threaded rod (142) are located at both ends of the cutting groove (5) and are arranged parallel to the water guide groove (6). The first threaded rod (141) and the second threaded rod (142) are respectively threaded with a push plate (144) and a reset plate (145). The push plate (144) and the reset plate (145) are both arranged perpendicular to the water guide groove (6). The push plate (144) and the reset plate (145) are located on both sides of the slide (7). One end of the first threaded rod (141) and the second threaded rod (142) are respectively connected to a drive motor (143).

5. The electronic scribing machine for cutting hydrophone ceramics according to claim 1, characterized in that: The cutting assembly (2) includes a lifting power box (21), which is equipped with a lifting screw. The top end of the lifting screw is connected to a lifting motor (22) fixed on the lifting power box (21). The lifting power box (21) has a vertical groove on one side facing the cutting table (1). The nut seat on the lifting screw is connected to a lifting seat (23) extending out of the vertical groove. The lifting seat (23) is located directly above the baffle (9). A horizontally arranged telescopic power device (24) is fixedly connected to the lifting seat (23). The telescopic power device (24) is connected to the cutting seat (25). The cutting seat (25) is equipped with a grinding wheel (26) connected to the cutting motor. The projection of the telescopic rod of the telescopic power device (24) on the cutting groove (5) is perpendicular to the water guide groove (6).

6. The electronic scribing machine for cutting hydrophone ceramics according to claim 1, characterized in that: The loading and unloading assembly (3) includes a rotary power box (31), which is equipped with a rotary motor. The output shaft of the rotary motor is connected to a rotating frame (32) located on the top of the rotary power box (31). The rotating frame (32) is provided with three branch rods arranged in a circular array in the horizontal direction with the end of the output shaft as the center. The top end of the branch rod is fixedly connected to a lifting cylinder (33). The telescopic rod of the lifting cylinder (33) passes through the branch rod and is connected to a pneumatic suction cup (34).