Processing device for stainless steel plate production with positioning structure

Abstract

The utility model discloses a processingequipment with positioning structure for stainless steel plate production, including operation panel, the drilling equipment is installed on operation panel, is equipped with the mounting panel on operation panel, is equipped with first fixed block and second fixed block in the mounting panel top, is fixed with two groups of connecting rods between first fixed block and second fixed block, is equipped with positioning assembly in the sliding of connecting rod, is equipped with the adjusting assembly of drive first fixed block and second fixed block upper and lower movement on the mounting panel. The utility model has realized the multidimensional fine adjustment of stainless steel plate in longitudinal and transverse, can more accurate positioning stainless steel plate, ensure the accuracy of drilling position, compared with the single adjustment mode of traditional device, positioning accuracy is higher, first sliding block and second sliding block and connecting rod contact one side are equipped with antiskid line and friction line respectively, increase the friction, prevent the sliding block from sliding in the processing process, and the setting of elastic connecting assembly further strengthens the stability of positioning.

Description

Technical Field

[0001] This utility model relates to the field of stainless steel plate processing technology, specifically to a processing device for stainless steel plate production with a positioning structure. Background Technology

[0002] In the utility model patent application CN221158683U, published on June 18, 2024, entitled "A Positioning Drill for Stainless Steel Plates," this utility model discloses a positioning drill for stainless steel plates, belonging to the field of positioning drilling technology. The key technical feature is a positioning drill for stainless steel plates, including a base with two symmetrically arranged stops at its upper end. A driving mechanism is installed inside the base and connected to the two stops to move them simultaneously. A mounting plate is provided above the base. A hydraulic cylinder is fixedly mounted at one end. A drive plate is provided on the lower side of the mounting plate. The output shaft of the hydraulic cylinder passes through the mounting plate and is fixedly connected to the upper end of the drive plate. A drilling machine is mounted on the lower end of the drive plate. A drill bit is connected to the output shaft of the drilling machine. A fixed sleeve is also fixedly mounted on the lower end of the drive plate. A dustproof sleeve is provided on the lower side of the fixed sleeve. A groove is provided on the lower side of the fixed sleeve. Several shock-absorbing mechanisms are provided in the groove. The upper end of the dustproof sleeve is slidably located in the groove and is connected to the shock-absorbing mechanism. This utility model has a reasonable structure and has the advantages of preventing debris from splashing, having a fixed limiting function, and high safety.

[0003] In the prior art including the aforementioned patents, existing small factories typically use manual measurement and positioning before drilling stainless steel plates, which is time-consuming. Furthermore, small factories using sensors and other technologies for positioning incur significant costs for equipment damage and repair. Utility Model Content

[0004] The purpose of this invention is to provide a processing device for producing stainless steel plates with a positioning structure, so as to solve the problems mentioned in the background art.

[0005] To achieve the above objectives, this utility model provides the following technical solution: a processing device for producing stainless steel plates with a positioning structure, comprising an operating table, on which a drilling device for processing stainless steel plates is mounted, an installation plate is provided on the operating table and is located below the drilling device, a first fixing block and a second fixing block are provided above the installation plate, two sets of connecting rods are fixedly provided between the first fixing block and the second fixing block, a positioning component is slidably provided on the connecting rods, the positioning component includes a first fixing ring and a second fixing ring located between the two sets of connecting rods, and the first fixing ring and the second fixing ring are installed by a limiting component, a first slider and a second slider are respectively provided on both sides of the first fixing ring and the second fixing ring, and the first slider and the second slider are slidably connected to the connecting rods, the ends of the first slider and the second slider are connected to the first installation block and the second installation block, an elastic connecting component is provided between the first installation block and the second installation block, and an adjusting component for driving the first fixing block and the second fixing block to move up and down is mounted on the installation plate.

[0006] Furthermore, the limiting component includes two sets of limiting rods symmetrically installed at the bottom end of the first fixing ring, and a limiting groove that cooperates with the limiting rods is installed at the top end of the second fixing ring.

[0007] Furthermore, the elastic connection assembly includes a movable rod installed at the bottom of the first mounting block, a groove that mates with the movable rod at the top of the second mounting block, a second spring at the end of the movable rod, and the end of the second spring away from the movable rod is fixed in the groove.

[0008] Furthermore, the adjustment assembly includes a mounting rod mounted on a mounting plate, the mounting rod having a sliding groove, the mounting rod having a sliding block that slides in cooperation with the sliding groove, two sets of horizontal plates symmetrically arranged on the mounting plate, a sliding rod fixed between the two sets of horizontal plates, and the two sets of horizontal plates being arranged on opposite sides of the mounting rod, and a locking assembly cooperating with the mounting rod being provided in the sliding block.

[0009] Furthermore, the locking assembly includes a rack disposed on the side of the mounting rod away from the slide groove, a second pressing rod slidably disposed within the sliding block, a connecting rod disposed at the end of the second pressing rod, a connecting plate mounted at the end of the connecting rod, and a movable groove formed on the connecting plate, a first spring sleeved on the outer surface of the connecting rod, one end of the first spring being connected to the second pressing rod, and the other end being connected to the inner wall of the opening accommodating the connecting rod, and a driving assembly cooperating with the movable groove being mounted on the sliding block.

[0010] Furthermore, the driving assembly includes a first pressing rod slidably disposed within the sliding block, the end of the first pressing rod being symmetrically provided with two sets of fixing plates, a fixing rod being provided between the two sets of fixing plates, and the fixing rod being located within the movable groove.

[0011] Furthermore, the first slider and the second fixing block are respectively provided with anti-slip texture and friction texture on the side that contacts the connecting rod.

[0012] Compared with the prior art, the beneficial effects of this utility model are: the processing device for producing stainless steel plates with a positioning structure is reasonable and has the following advantages:

[0013] (1) This design achieves multi-dimensional fine adjustment of stainless steel plates in the longitudinal and transverse directions through the cooperation of the first fixed block, the second fixed block, the connecting rod, the first fixed ring, the limiting rod, the first slider, the first mounting block, the moving rod, the second spring, the second fixed ring, the limiting groove, the second slider, the second mounting block, the groove, and the adjustment components. Small factories usually use manual measurement and positioning before drilling stainless steel plates, which is time-consuming. This design can position stainless steel plates more accurately and ensure the accuracy of the drilling position. At the same time, compared with positioning by sensor and other technologies, this design has lower maintenance costs after wear and tear. Moreover, compared with the single adjustment method of traditional devices, this method has higher positioning accuracy. The first slider and the second slider are respectively provided with anti-slip texture and friction texture on the side that contacts the connecting rod, which increases the friction and prevents the slider from sliding on its own during processing. At the same time, the setting of the elastic connection component further enhances the stability of positioning, thereby improving the processing quality.

[0014] (2) The design of the locking component makes the locking and unlocking operation of the sliding block very simple. By pressing the first pressing rod, the sliding block can be easily moved. After the adjustment is completed, the first pressing rod is released, and the sliding block automatically resets and locks under the action of the first spring. This design greatly simplifies the operation process, reduces the time and labor intensity of manual adjustment, and is more convenient than the operation method of traditional devices. The setting of the second spring enables the first and second fixing rings to reset quickly, thereby achieving quick fixing and release. The staff can quickly adjust the position of the positioning component as needed, thereby speeding up the processing of stainless steel plates and improving production efficiency. Attached Figure Description

[0015] Figure 1 This is a three-dimensional structural diagram of the present invention;

[0016] Figure 2 This is a schematic diagram of the positioning component of this utility model;

[0017] Figure 3 This is a schematic diagram of the structure of the sliding block of this utility model;

[0018] Figure 4 This is a schematic diagram of the cross-section of the sliding block of this utility model;

[0019] Figure 5 This is a schematic diagram of the disassembled adjustment component of this utility model;

[0020] Figure 6 This is a schematic diagram of the positioning component of this utility model;

[0021] Figure 7 A schematic diagram of the disassembled positioning component of this utility model. Figure 1 ;

[0022] Figure 8 A schematic diagram of the disassembled positioning component of this utility model. Figure 2 .

[0023] In the diagram: 100, operating table; 101, drilling equipment; 200, mounting plate; 201, mounting rod; 202, rack; 203, slide groove; 204, horizontal plate; 205, slide rod; 300, sliding block; 301, first pressing rod; 302, fixing plate; 303, fixing rod; 304, second pressing rod; 305, connecting rod; 306, first spring; 307, connecting plate; 308, movable groove; 400, first fixing block; 401, second fixing block; 402, connecting rod; 403, first fixing ring; 404, limiting rod; 405, first slider; 406, first mounting block; 407, moving rod; 408, second spring; 409, second fixing ring; 410, limiting groove; 411, second slider; 412, second mounting block; 413, groove. Detailed Implementation

[0024] 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.

[0025] Please see Figure 1-8 The present invention provides a technical solution as follows:

[0026] Example 1:

[0027] A processing device for producing stainless steel plates with a positioning structure includes an operating table 100. A drilling device 101 for processing the stainless steel plate is mounted on the operating table 100. An mounting plate 200 is provided on the operating table 100, located below the drilling device 101. A first fixing block 400 and a second fixing block 401 are provided above the mounting plate 200. Two sets of connecting rods 402 are fixedly arranged between the first fixing block 400 and the second fixing block 401. A positioning component is slidably mounted on each connecting rod 402. The positioning component includes a first fixing ring 403 and a second fixing ring 403 located between the two sets of connecting rods 402. A fixed ring 409 is provided, and the first fixed ring 403 and the second fixed ring 409 are installed by a limiting component. The first fixed ring 403 and the second fixed ring 409 are respectively provided with a first slider 405 and a second slider 411 on both sides. The first slider 405 and the second slider 411 are slidably connected to the connecting rod 402. The ends of the first slider 405 and the second slider 411 are connected to a first mounting block 406 and a second mounting block 412. An elastic connecting component is provided between the first mounting block 406 and the second mounting block 412. An adjusting component that drives the first fixed block 400 and the second fixed block 401 to move up and down is installed on the mounting plate 200.

[0028] The limiting assembly includes two sets of limiting rods 404 symmetrically installed at the bottom of the first fixing ring 403, and a limiting groove 410 that cooperates with the limiting rods 404 is installed at the top of the second fixing ring 409.

[0029] The elastic connection assembly includes a movable rod 407 installed at the bottom of the first mounting block 406, and a groove 413 that cooperates with the movable rod 407 is provided at the top of the second mounting block 412. A second spring 408 is provided at the end of the movable rod 407, and the end of the second spring 408 away from the movable rod 407 is fixed in the groove 413.

[0030] The adjustment assembly includes a mounting rod 201 mounted on a mounting plate 200. The mounting rod 201 has a sliding groove 203 and a sliding block 300 that slides with the sliding groove 203. The mounting plate 200 has two sets of horizontal plates 204 symmetrically arranged. A sliding rod 205 is fixed between the two sets of horizontal plates 204, and the two sets of horizontal plates 204 are located on opposite sides of the mounting rod 201. The sliding block 300 has a component that cooperates with the mounting rod 201.

[0031] The locking assembly includes a rack 202 disposed on the side of the mounting rod 201 away from the slide groove 203. A second pressing rod 304 is slidably disposed within the sliding block 300. A connecting rod 305 is disposed at the end of the second pressing rod 304. A connecting plate 307 is mounted at the end of the connecting rod 305, and a movable groove 308 is formed on the connecting plate 307. A first spring 306 is sleeved on the outer surface of the connecting rod 305. One end of the first spring 306 is connected to the second pressing rod 304, and the other end is connected to the inner wall of the opening that accommodates the connecting rod 305. A driving assembly that cooperates with the movable groove 308 is mounted on the sliding block 300.

[0032] The driving component includes a first pressing rod 301 slidably disposed within the sliding block 300. Two sets of fixing plates 302 are symmetrically provided at the end of the first pressing rod 301. A fixing rod 303 is provided between the two sets of fixing plates 302, and the fixing rod 303 is located within the movable groove 308.

[0033] The first slider 405 and the second fixing block 401 are respectively provided with anti-slip texture and friction texture on the side that contacts the connecting rod 402.

[0034] Working principle: In use, place the stainless steel plate on the mounting plate 200 and press the first pressing rod 301. The first pressing rod 301 pushes the fixed plate 302 forward, causing the fixed rod 303 to slide in the movable groove 308. Since the first pressing rod 301 and the connecting rod 305 are installed in the opening in the sliding block 300, the opening will limit their movement. Therefore, when the fixed rod 303 moves forward in the movable groove 308, the connecting plate 307 moves backward under the action of the fixed rod 303, thereby driving the connecting rod 305 to move backward, causing the second pressing rod 304 to move backward and separate from the rack 202. After separation, the sliding block 300 can be moved to adjust its position. After adjustment, release the first pressing rod 301. Under the action of the first spring 306, the second pressing rod 304 will return to its original position and abut against the sliding groove 203 to prevent displacement when not in use. After longitudinal adjustment, lateral adjustment can be performed. When the first mounting block 406 is pulled upward, the moving rod 407 moves within the limiting groove 410, causing the first slider 405 to move upward and separate from the connecting rod 402. This causes the first fixing ring 403 to move upward. At this time, the operator can move the second fixing ring 409 to adjust it to a suitable position, release the first mounting block 406, and under the action of the second spring 408, the first fixing ring 403 will be reset, thus completing the fixation. The side of the second slider 411 that contacts the connecting rod 402 has anti-slip textures, which increase friction and prevent the second slider 411 from sliding on its own. The side of the first slider 405 that contacts the connecting rod 402 has friction textures. The downward force of the first fixing ring 403 pulled by the second spring 408 cooperates with the friction textures, so that the first fixing ring 403 and the second fixing ring 409 stop at the selected position. At this time, the drilling equipment 101 can be started to drill holes in the stainless steel plate.

[0035] It will be apparent to those skilled in the art that this invention is not limited to the details of the exemplary embodiments described above, and that it can be implemented in other specific forms without departing from the spirit or essential characteristics of this invention. Therefore, the embodiments should be considered illustrative and non-limiting in all respects, and the scope of this invention is defined by the appended claims rather than the foregoing description. Thus, it is intended that all variations falling within the meaning and scope of equivalents of the claims be included within this invention. No reference numerals in the claims should be construed as limiting the scope of the claims.

Claims

1. A processing device for producing stainless steel plates with a positioning structure, comprising an operating table (100), characterized in that: The operating table (100) is equipped with a drilling device (101) for processing stainless steel plates. The operating table (100) is provided with a mounting plate (200), which is located below the drilling device (101). A first fixing block (400) and a second fixing block (401) are provided above the mounting plate (200). Two sets of connecting rods (402) are fixedly provided between the first fixing block (400) and the second fixing block (401). A positioning component is slidably provided on the connecting rods (402). The positioning component includes a first fixing ring (403) and a second fixing ring (409) located between the two sets of connecting rods (402). The first fixing ring (403) The first fixed ring (403) and the second fixed ring (409) are installed by a limiting component. The first fixed ring (403) and the second fixed ring (409) are respectively provided with a first slider (405) and a second slider (411) on both sides. The first slider (405) and the second slider (411) are slidably connected to the connecting rod (402). The ends of the first slider (405) and the second slider (411) are connected to the first mounting block (406) and the second mounting block (412). An elastic connecting component is provided between the first mounting block (406) and the second mounting block (412). An adjusting component for driving the first fixed block (400) and the second fixed block (401) to move up and down is installed on the mounting plate (200).

2. The processing device for producing stainless steel plates with a positioning structure according to claim 1, characterized in that: The limiting assembly includes two sets of limiting rods (404) symmetrically installed at the bottom of the first fixing ring (403), and the top of the second fixing ring (409) is provided with a limiting groove (410) that cooperates with the limiting rods (404).

3. The processing device for producing stainless steel plates with a positioning structure according to claim 1, characterized in that: The elastic connection assembly includes a movable rod (407) installed at the bottom of the first mounting block (406), and a groove (413) that cooperates with the movable rod (407) is provided at the top of the second mounting block (412). A second spring (408) is provided at the end of the movable rod (407), and the end of the second spring (408) away from the movable rod (407) is fixed in the groove (413).

4. The processing device for producing stainless steel plates with a positioning structure according to claim 1, characterized in that: The adjustment assembly includes a mounting rod (201) mounted on a mounting plate (200), a sliding groove (203) on the mounting rod (201), a sliding block (300) on the mounting rod (201) that slides in cooperation with the sliding groove (203), two sets of horizontal plates (204) symmetrically arranged on the mounting plate (200), a sliding rod (205) fixed between the two sets of horizontal plates (204), and the two sets of horizontal plates (204) are arranged on opposite sides of the mounting rod (201), and a locking assembly that cooperates with the mounting rod (201) is provided in the sliding block (300).

5. The processing device for producing stainless steel plates with a positioning structure according to claim 4, characterized in that: The locking assembly includes a rack (202) disposed on the side of the mounting rod (201) away from the slide groove (203), a second pressing rod (304) is slidably disposed in the sliding block (300), a connecting rod (305) is provided at the end of the second pressing rod (304), a connecting plate (307) is installed at the end of the connecting rod (305), and a movable groove (308) is opened on the connecting plate (307), a first spring (306) is sleeved on the outer surface of the connecting rod (305), and one end of the first spring (306) is connected to the second pressing rod (304), and the other end is connected to the inner wall of the opening that accommodates the connecting rod (305), and a driving assembly that cooperates with the movable groove (308) is installed on the sliding block (300).

6. The processing device for producing stainless steel plates with a positioning structure according to claim 5, characterized in that: The drive assembly includes a first pressing rod (301) slidably disposed in a sliding block (300). Two sets of fixing plates (302) are symmetrically provided at the end of the first pressing rod (301). A fixing rod (303) is provided between the two sets of fixing plates (302), and the fixing rod (303) is located in the movable groove (308).

7. The processing apparatus for producing stainless steel plates with a positioning structure according to claim 6, characterized in that: The first slider (405) and the second fixing block (401) are respectively provided with anti-slip texture and friction texture on the side that contacts the connecting rod (402).

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