Kitchen stainless steel sink production hole device

By adopting a dual-station synchronous operation mechanism in the kitchen sink hole-opening device, with the main station performing laser hole-opening processing and the auxiliary station performing positioning and fixing preparation, the problem of loading and unloading work affecting production efficiency is solved, and continuous production and processing are realized without stopping the machine is achieved.

CN224488026UActive Publication Date: 2026-07-14ZHONGSHAN SUPERTE KITCHENWARE CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
ZHONGSHAN SUPERTE KITCHENWARE CO LTD
Filing Date
2025-06-17
Publication Date
2026-07-14

AI Technical Summary

Technical Problem

Common kitchen sink opening devices need to be paused during loading and unloading, which affects overall production efficiency.

Method used

The system adopts a dual-station synchronous operation mechanism, with the main station and the auxiliary station set on electric slide rails respectively. By controlling and coordinating the working positions of the two stations, the main station performs laser drilling, while the auxiliary station prepares the stainless steel water tank to be processed for positioning and fixing, so that processing and clamping can be carried out in parallel.

Benefits of technology

It enables production without stopping, reduces equipment idle time, increases output per unit time, and ensures consistent processing quality.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224488026U_ABST
    Figure CN224488026U_ABST
Patent Text Reader

Abstract

The utility model relates to sink trepanning technical field especially kitchen stainless steel sink production's trepanning device, including bottom plate, still include setting two electric push rods on the bottom plate upper end surface, the output of electric push rod is connected with the mounting plate, the inboard of two mounting plates is equipped with trepanning laser, the upper end of bottom plate is provided with four slide bars, two slide bars and an mounting plate are slidingly connected, and electric push rod is used for driving trepanning laser height adjustment, and the stability when slide bar guarantees trepanning laser height adjustment, and moving assembly includes setting electric slide rail, connection module no.
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Description

Technical Field

[0001] This utility model relates to the field of sink opening technology, and in particular to an opening device for the production of stainless steel kitchen sinks. Background Technology

[0002] The sink drilling device is used to drill holes in a sink. It determines the specific location where a hole needs to be drilled in a stainless steel plate, fixes the stainless steel plate to be processed on the machine's worktable to prevent it from moving during processing, and uses a drill bit or other cutting tools to precisely cut the stainless steel plate, thereby achieving the drilling work.

[0003] Common kitchen sink drilling devices cannot perform drilling and loading / unloading operations simultaneously. This means that after drilling a sink, loading and unloading must be done, which forces the entire drilling device to stop operating for a period of time, thus affecting overall production efficiency.

[0004] Therefore, in response to the problem that the installation and removal of the aforementioned kitchen sink opening device forces the device to stop operating for a period of time, thus affecting the overall production efficiency, there is an urgent need to design a new type of opening device for the production of stainless steel kitchen sinks. Utility Model Content

[0005] To overcome the common problem of kitchen sink opening devices for loading and unloading operations, which force the operation to stop for a period of time and thus affect overall production efficiency.

[0006] The technical solution of this utility model is as follows: a hole-opening device for the production of stainless steel kitchen sinks, including a base plate; and two electric push rods disposed on the upper surface of the base plate, the output ends of which are connected to mounting plates. Hole-opening lasers are mounted on the inner sides of the two mounting plates. Four sliding rods are disposed on the upper end of the base plate, with two sliding rods slidably connected to one mounting plate. The electric push rods are used to drive the height adjustment of the hole-opening lasers, and the sliding rods ensure the stability of the hole-opening lasers during height adjustment. The moving component includes an electric slide rail disposed on the upper surface of the base plate, a connecting module one, and a connecting module two. The electric slide rail can drive the connecting module one and the connecting module two to move. Module 2 is used to connect other parts. The main workstation assembly includes a support rod 1 set on the upper end of the connecting module 1, a main installation module, a main material fixing module, and a main drive module. The main installation module provides installation points for other workstation parts, the main material fixing module is used to fix the stainless steel water tank, and the main drive module provides fixing suction for the main material fixing module. The auxiliary workstation assembly includes a support rod 2 set on the upper end of the connecting module 2, an auxiliary installation module, an auxiliary material fixing module, and an auxiliary drive module. The auxiliary installation module provides installation points for other workstation parts, the auxiliary material fixing module is used to fix the stainless steel water tank, and the auxiliary drive module provides fixing suction for the auxiliary material fixing module.

[0007] Preferably, an electric push rod drives the mounting plate to move up and down, adjusting the working height of the drilling laser. A sliding rod is slidably connected to the mounting plate to ensure smooth lifting and prevent deviation. The drilling laser precisely cuts holes in the stainless steel water tank according to a preset path. An electric slide rail drives connecting module one and connecting module two to move. Connecting module one connects to the main station component, and connecting module two connects to the auxiliary station component. Both move synchronously. When the main station completes the drilling task of the current water tank, the electric slide rail drives sliding block one and sliding block two to exchange positions. The original auxiliary station is ready for the new workpiece to enter the laser processing area, and the original main station enters the clamping preparation state. The entire switching process does not require machine downtime, ensuring continuous operation.

[0008] Preferably, the first connection module includes a first sliding block disposed on the surface of the electric slide rail, and the second connection module includes a second sliding block disposed on the surface of the electric slide rail. The first sliding block is used to drive the main station component to move back and forth, and the second sliding block is used to drive the auxiliary station component to move back and forth.

[0009] Preferably, the main mounting module includes a cavity block 1 disposed on the upper end of the two support rods 1. The cavity block 1 is a cavity setting and provides an air passage for air.

[0010] Preferably, the main material fixing module includes a fixing suction cup 1 installed on the upper end of the cavity block 1. The fixing suction cup 1 and the cavity block 1 are interconnected. The fixing suction cup 1 fixes the water tank by negative pressure.

[0011] Preferably, the main drive module includes a vacuum pump installed at the lower end of the cavity block, which creates a negative pressure inside the cavity block.

[0012] Preferably, the auxiliary mounting module includes a cavity block 2 disposed at the upper end of the two support rods 2. The cavity block 2 is a cavity setting and provides an air passage for air.

[0013] Preferably, the main material fixing module includes a fixing suction cup 2 installed on the upper end of the cavity block 2. The fixing suction cup 2 and the cavity block 2 are interconnected, and the fixing suction cup 2 fixes the water tank by negative pressure.

[0014] Preferably, the main drive module includes a vacuum pump II installed at the lower end of the cavity block II, which creates a negative pressure inside the cavity block II.

[0015] The beneficial effects of this utility model are:

[0016] 1. Through the dual-station synchronous operation mechanism, the main station and the auxiliary station are set on the electric slide rail. By controlling and coordinating the working positions of the two, the main station is currently performing laser drilling processing, while the auxiliary station is in a waiting state, used for positioning, adsorption and fixation of the next stainless steel sink plate to be processed. Processing and clamping are carried out in parallel, saving waiting time.

[0017] 2. After the main station finishes processing, sliding block one and sliding block two can quickly switch positions to allow the auxiliary station to enter the processing area. The equipment is always in working condition, avoiding idleness and achieving true non-stop production. Attached Figure Description

[0018] Figure 1 The diagram shown is a three-dimensional structural schematic of the opening device used in the production of stainless steel kitchen sinks according to this utility model.

[0019] Figure 2 The diagram shows a three-dimensional structure of the electric slide rail of the opening device used in the production of stainless steel kitchen sinks according to this utility model.

[0020] Figure 3 The diagram shows a three-dimensional structural schematic of the support rod for the opening device used in the production of stainless steel kitchen sinks according to this utility model.

[0021] Figure 4 The diagram shows a three-dimensional structural schematic of the vacuum pump used for the production of stainless steel kitchen sinks according to this utility model.

[0022] Figure 5 The diagram shows a three-dimensional structural representation of the location of the suction cup fixing device for the production of stainless steel kitchen sinks according to this utility model.

[0023] Explanation of reference numerals in the attached diagram: 1. Base plate; 2. Slide rod; 3. Mounting plate; 4. Aperture laser; 5. Electric push rod; 6. Electric slide rail; 7. Sliding block one; 8. Support rod one; 9. Cavity block one; 10. Fixed suction cup one; 11. Vacuum pump one; 12. Exhaust pipe one; 13. Sliding block two; 14. Support rod two; 15. Cavity block two; 16. Fixed suction cup two; 17. Vacuum pump two; 18. Exhaust pipe two. Detailed Implementation

[0024] The present invention will be further described below with reference to the accompanying drawings and embodiments.

[0025] Please see Figures 1-5This utility model provides an embodiment of a hole-opening device for the production of stainless steel kitchen sinks, including a base plate 1; it also includes two electric push rods 5 disposed on the upper surface of the base plate 1, the output ends of the electric push rods 5 are connected to mounting plates 3, and hole-opening lasers 4 are installed on the inner sides of the two mounting plates 3. Four sliding rods 2 are disposed on the upper end of the base plate 1, and the two sliding rods 2 are slidably connected to one mounting plate 3. The electric push rods 5 are used to drive the height adjustment of the hole-opening lasers 4, and the sliding rods 2 ensure the stability of the hole-opening lasers 4 during height adjustment. The moving component includes an electric slide rail 6 disposed on the upper surface of the base plate 1, a first connecting module, and a second connecting module. The electric slide rail 6 can drive the first connecting module and the second connecting module to move. The first connecting module and the second connecting module are used to connect other parts. The main workstation component includes a support rod 8 disposed on the upper end of the first connecting module, a main mounting module, a main material fixing module, and a main drive module. The main mounting module provides mounting points for other workstation parts, the main material fixing module is used to fix the stainless steel sink, and the main drive module provides the main material fixing module with the main material fixing module. The auxiliary station assembly provides a fixed suction force. It includes a support rod 14 on the upper end of the connecting module 2, an auxiliary mounting module, an auxiliary material fixing module, and an auxiliary drive module. The auxiliary mounting module provides mounting points for other station parts, the auxiliary material fixing module is used to fix the stainless steel water tank, and the auxiliary drive module provides a fixed suction force for the auxiliary material fixing module. The electric push rod 5 pushes the mounting plate 3 to move up and down, realizing the adjustment of the working height of the drilling laser 4. The slide rod 2 is slidably connected to the mounting plate 3 to ensure smooth lifting and prevent deviation. The drilling laser 4 precisely cuts holes in the stainless steel water tank according to the preset path. The electric slide rail 6 drives the connecting module 1 and the connecting module 2 to move. The connecting module 1 is connected to the main station assembly, and the connecting module 2 is connected to the auxiliary station assembly. The two move synchronously. When the main station completes the drilling task of the current water tank, the electric slide rail 6 drives the sliding block 7 and the sliding block 13 to exchange positions. The original auxiliary station is ready for the new workpiece and enters the laser processing area. The original main station enters the clamping preparation state. The entire switching process does not require machine downtime, ensuring continuous operation.

[0026] Please see Figures 2-5In this embodiment, connection module one includes a sliding block 7 disposed on the surface of the electric slide rail 6, and connection module two includes a sliding block 13 disposed on the surface of the electric slide rail 6. Sliding block 7 is used to drive the main station component to move back and forth, and sliding block 13 is used to drive the auxiliary station component to move back and forth. Sliding block 7 carries the main station component and slides back and forth on the electric slide rail 6, driving the main station component to switch between the processing area and the clamping area. Sliding block 13 works similarly. The main mounting module includes a cavity block 9 disposed on the upper end of the two support rods 8. The cavity block 9 is a cavity and provides an air passage. The cavity block 9 constructs an internal air passage. The main material fixing module package... The system includes a fixed suction cup 10 installed on the upper end of the cavity block 9. The fixed suction cup 10 and the cavity block 9 are interconnected. The fixed suction cup 10 fixes the water tank by creating negative pressure. When the cavity block 9 forms a negative pressure, the surface of the fixed suction cup 10 generates an adsorption force, adsorbing and fixing the stainless steel water tank in the designated position to prevent displacement or vibration during the opening process. The main drive module includes a vacuum pump 11 installed on the lower end of the cavity block 9. The vacuum pump 11 creates a negative pressure inside the cavity block 9. After the power is turned on, it starts to pump air to create a negative pressure environment inside the cavity block 9. When it is necessary to release the water tank, the vacuum pump 11 is turned off or the pressure relief valve is opened to release the adsorption. The exhaust port of the vacuum pump 11 is connected to the exhaust pipe 12.

[0027] Please see Figures 3-5 In this embodiment, the auxiliary installation module includes a cavity block 15 disposed on the upper end of the two support rods 14. The cavity block 15 is a cavity and provides an air passage. The cavity block 15 constructs an internal air channel and serves as the core component for negative pressure transmission. The main material fixing module includes a fixing suction cup 16 installed on the upper end of the cavity block 15. The fixing suction cup 16 and the cavity block 15 are interconnected. The fixing suction cup 16 fixes the water tank through negative pressure. When the cavity block 15 forms a negative pressure, the surface of the fixing suction cup 16 generates an adsorption force, adsorbing and fixing the stainless steel water tank in a designated position. The main drive module includes a vacuum pump 17 installed on the lower end of the cavity block 15. The vacuum pump 17 creates a negative pressure inside the cavity block 15. After the vacuum pump 17 is powered on, it starts to pump air, creating a negative pressure environment inside the cavity block 15. The exhaust port of the vacuum pump 17 is connected to an exhaust pipe 18.

[0028] Working principle: The base plate 1 bears the weight of the entire device and provides an installation reference. Four sliding rods 2 cooperate with the mounting plate 3, distributed on both sides of the upper surface of the base plate 1. Every two sliding rods 2 form a sliding connection with one mounting plate 3, serving as a guide to ensure the mounting plate 3 moves smoothly during lifting and lowering, preventing deviation. An electric push rod 5 drives the mounting plate 3 to move up and down. The mounting plate 3 is connected to the base plate 1 via the electric push rod 5. Depending on the thickness of the stainless steel water tank, the height of the mounting plate 3 is adjusted by controlling the electric push rod 5 to ensure the laser aperture 4 is at the optimal processing height. The drilling laser 4 starts working. Installed inside the two mounting plates 3, the drilling laser 4 reaches the designated height under the action of the electric push rod 5. The drilling laser 4 is then controlled to perform non-contact cutting. The main workstation assembly enters the working state. Support rod 8 supports the cavity block 9, providing a channel for air circulation. Vacuum pump 11 starts to establish negative pressure. After starting, negative pressure is generated inside the cavity block 9. This negative pressure is transmitted to the fixed suction cup 10 through the air path. The fixed suction cup 10 adsorbs the stainless steel water tank. The fixed suction cup 10 is installed on the upper end of the cavity block 9, using negative pressure to remove the stainless steel... The steel water tank is firmly attached to the main workstation to prevent the opening from shifting or scratching due to vibration or displacement during processing. The auxiliary workstation components prepare for the next workpiece simultaneously. The fixed suction cup 16 adsorbs the water tank to be processed, and the next stainless steel water tank is adsorbed and fixed on the auxiliary workstation. The device automatically calibrates or manually assists in positioning. At this time, the auxiliary workstation is ready to switch to the processing area. The main workstation completes the processing of the current water tank, and the opening laser 4 completes the opening task of the current stainless steel water tank. The electric slide rail 6 drives the sliding block to change position, the vacuum pump 11 is turned off, the adsorption force of the fixed suction cup 10 is released, the completed water tank is removed, and the auxiliary workstation is controlled to enter the processing area below the laser. The original main workstation moves to the non-processing area and enters the clamping preparation stage of the next workpiece. The switching process does not require machine stoppage and the entire switching process only takes a few seconds. The new workpiece immediately enters the laser cutting process, realizing continuous operation without stopping the machine. The cycle continues to the next cycle. The above process is repeated continuously to achieve continuous and batch production. The dual workstations work alternately to ensure that the equipment is always in an effective operating state, improve the output per unit time, and ensure the consistency of processing quality.

[0029] Through the above steps, by adopting a dual-station synchronous operation mechanism, the main station and the auxiliary station are respectively set on two sliding modules on the electric slide rail 6. When the main station is performing laser drilling, the auxiliary station is in the preparation stage, used for positioning, adsorption and fixing of the next piece of stainless steel sink material to be processed. This realizes that the processing process and clamping preparation can be carried out simultaneously, effectively reducing the idle time of the equipment. This solves the problem that common kitchen sink drilling devices are forced to stop operating for a period of time during loading and unloading, thus affecting the overall production efficiency.

Claims

1. A hole-opening device for manufacturing stainless steel kitchen sinks, comprising a base plate (1); characterized in that: It also includes two electric push rods (5) set on the upper surface of the base plate (1). The output end of the electric push rod (5) is connected to the mounting plate (3). The inner side of the two mounting plates (3) is equipped with the hole laser (4). The upper end of the base plate (1) is provided with four slide rods (2). The two slide rods (2) are slidably connected to one mounting plate (3). The electric push rods (5) are used to drive the hole laser (4) to adjust its height. The slide rods (2) ensure the stability of the hole laser (4) when adjusting its height. The moving component includes an electric slide rail (6) set on the upper surface of the base plate (1), a first connecting module and a second connecting module. The electric slide rail (6) can drive the first connecting module and the second connecting module to move. The first connecting module and the second connecting module are used to connect the main station component and the auxiliary station component, respectively. The main workstation assembly includes a support rod (8) set on the upper end of the connection module, a main installation module, a main material fixing module and a main drive module. The main installation module is used to install the main material fixing module and the main drive module. The main material fixing module is used to fix the stainless steel water tank. The main drive module provides fixing suction to the main material fixing module. The auxiliary workstation assembly includes a support rod 2 (14) set on the upper end of the connection module 2, an auxiliary installation module, an auxiliary material fixing module and an auxiliary drive module. The auxiliary installation module is used to install the auxiliary material fixing module and the auxiliary drive module. The auxiliary material fixing module is used to fix the stainless steel water tank. The auxiliary drive module provides fixing suction for the auxiliary material fixing module.

2. The opening device for producing stainless steel kitchen sinks according to claim 1, characterized in that: The first connection module includes a sliding block 1 (7) disposed on the surface of the electric slide rail (6), and the second connection module includes a sliding block 2 (13) disposed on the surface of the electric slide rail (6). The sliding block 1 (7) is used to drive the main station component to move back and forth, and the sliding block 2 (13) is used to drive the auxiliary station component to move back and forth.

3. The opening device for producing stainless steel kitchen sinks according to claim 1, characterized in that: The main installation module includes a cavity block (9) set on the upper end of two support rods (8). The cavity block (9) is a cavity setting and provides an air passage for air.

4. The opening device for producing stainless steel kitchen sinks according to claim 3, characterized in that: The main material fixing module includes a fixing suction cup (10) installed on the upper end of the cavity block (9). The fixing suction cup (10) and the cavity block (9) are interconnected. The fixing suction cup (10) fixes the water tank by negative pressure.

5. The opening device for producing stainless steel kitchen sinks according to claim 4, characterized in that: The main drive module includes a vacuum pump (11) installed at the lower end of the cavity block (9), which creates a negative pressure inside the cavity block (9).

6. The opening device for producing stainless steel kitchen sinks according to claim 1, characterized in that: The auxiliary installation module includes a cavity block 2 (15) set on the upper end of the two support rods 2 (14). The cavity block 2 (15) is a cavity setting and provides an air passage for air.

7. The opening device for producing stainless steel kitchen sinks according to claim 6, characterized in that: The main material fixing module includes a fixing suction cup 2 (16) installed on the upper end of the cavity block 2 (15). The fixing suction cup 2 (16) and the cavity block 2 (15) are interconnected. The fixing suction cup 2 (16) fixes the water tank by negative pressure.

8. The opening device for producing stainless steel kitchen sinks according to claim 7, characterized in that: The main drive module includes a vacuum pump 2 (17) installed at the lower end of the cavity block 2 (15), which creates a negative pressure inside the cavity block 2 (15).