A shock box positioning tool

Abstract

The application discloses a kind of shock box positioning tool, which belongs to the field of positioning.It includes: positioning base, positioning pressure piece and positioning pin;The positioning pressure piece and the positioning pin are arranged on the positioning base;The lower part of the shock box forms a convex part;The upper part of the shock box forms an abutting surface;The middle part of the shock box forms a through hole;The positioning pressure piece forms a pressing surface abutting against the abutting surface;The positioning base forms a supporting surface matched with the bottom surface of the shock box and a groove matched with the convex part;The positioning pin penetrates the through hole and is connected with the positioning base.The beneficial effects of the present application are that the shock box is positioned using a positioning clamp, which facilitates multiple processing of the shock box, improves processing speed and processing quality.

Description

Technical Field

[0001] This application relates to the field of positioning, and more specifically, to a positioning fixture for a vibration box. Background Technology

[0002] When drilling holes in a vibratory box, it needs to be positioned. The positioning of the vibratory box is usually done by workers marking the positions on the box where holes need to be drilled, and then aligning the drill with the marked positions to perform the drilling operation. However, this method leads to slow drilling speed, low overall efficiency, and large errors when drilling multiple holes. Utility Model Content

[0003] The summary section of this application is intended to provide a brief overview of the concepts, which will be described in detail in the detailed description section below. This summary section is not intended to identify key or essential features of the claimed technical solutions, nor is it intended to limit the scope of the claimed technical solutions.

[0004] To address the technical problems mentioned in the background section, some embodiments of this application provide a vibration chamber positioning fixture, comprising: a positioning base, a positioning clamp, and a positioning pin; both the positioning clamp and the positioning pin are disposed on the positioning base; a protrusion is formed on the lower part of the vibration chamber; an abutment surface is formed on the upper part of the vibration chamber; a through hole is formed in the middle of the vibration chamber; the positioning clamp forms a pressing surface that abuts against the abutment surface; a support surface that fits against the bottom surface of the vibration chamber and a groove that matches the protrusion are formed on the positioning base; the positioning pin passes through the through hole and is connected to the positioning base.

[0005] Furthermore, there is a gap between the bottom surface of the protrusion and the bottom surface of the groove.

[0006] Furthermore, the positioning base is a rotating base.

[0007] Furthermore, the pressing surface is parallel to the supporting surface; the axis of the positioning pin is perpendicular to the supporting surface.

[0008] Furthermore, the positioning pressure component includes a pressure plate and a support plate, the pressure plate is connected to the support plate, and the support plate is slidably connected to the positioning base; a through groove is provided on the pressure plate, a bolt is provided in the through groove, the bolt passes through the through groove, the nut of the bolt abuts against the pressure plate, and the bolt shank is threadedly connected to the positioning base.

[0009] Furthermore, the groove extends through the positioning base along its width direction.

[0010] Furthermore, a clearance groove is formed on the positioning base, and the vibration box part is located in the clearance groove.

[0011] The beneficial effects of this application are: using a positioning fixture to position the vibration box facilitates multiple processing of the vibration box, thereby improving processing speed and processing quality. Attached Figure Description

[0012] The accompanying drawings, which form part of this application, are used to provide a further understanding of the application and to make other features, objects, and advantages of the application more apparent. The illustrative embodiments and descriptions of this application are used to explain the application and do not constitute an undue limitation of the application.

[0013] Furthermore, throughout the accompanying drawings, the same or similar reference numerals denote the same or similar elements. It should be understood that the drawings are schematic, and the elements are not necessarily drawn to scale.

[0014] In the attached diagram:

[0015] Figure 1 This is an overall schematic diagram based on an embodiment of this application;

[0016] Figure 2 This is a structural diagram of a part of the embodiment, mainly showing the structure of the positioning base and some surrounding parts;

[0017] Figure 3 This is a structural diagram of a part of the embodiment, mainly showing the structure of the insertion rod and the positioning pin;

[0018] Figure 4 This is a structural schematic diagram of a part of an embodiment, mainly showing the locating pin structure;

[0019] Figure 5 This is a structural schematic diagram of a part of the embodiment, mainly showing the structure of the vibration box;

[0020] Figure 6 This is a structural schematic diagram as part of an embodiment, mainly showing an observation from another perspective. Figure 5 The structure.

[0021] Figure label:

[0022] 1. Positioning base; 11. Alternating groove; 2. Positioning pressure piece; 21. Pressure plate; 22. Support plate; 23. Through groove; 24. Bolt; 3. Positioning pin; 31. Stepped surface; 32. Slot; 4. Vibration box; 41. Protrusion; 5. Insert rod; 51. Abutting protrusion. Detailed Implementation

[0023] Embodiments of this disclosure will now be described in more detail with reference to the accompanying drawings. While some embodiments of this disclosure are shown in the drawings, it should be understood that this disclosure can be implemented in various forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided to provide a more thorough and complete understanding of this disclosure. It should be understood that the accompanying drawings and embodiments of this disclosure are for illustrative purposes only and are not intended to limit the scope of protection of this disclosure.

[0024] It should also be noted that, for ease of description, only the parts relevant to the invention are shown in the accompanying drawings. Unless otherwise specified, the embodiments and features described in this disclosure can be combined with each other.

[0025] It should be noted that the concepts of "first" and "second" mentioned in this disclosure are used only to distinguish different devices, modules or units, and are not used to limit the order of functions performed by these devices, modules or units or their interdependencies.

[0026] It should be noted that the terms "a" and "a plurality of" used in this disclosure are illustrative rather than restrictive, and those skilled in the art should understand that, unless otherwise expressly indicated in the context, they should be understood as "one or more".

[0027] This disclosure will now be described in detail with reference to the accompanying drawings and embodiments.

[0028] Reference Figure 1-6 ,

[0029] A positioning fixture for a vibration chamber includes: a positioning base 1, a positioning clamping element 2, and a positioning pin 3; both the positioning clamping element 2 and the positioning pin 3 are disposed on the positioning base 1; a protrusion 41 is formed on the lower part of the vibration chamber 4; an abutment surface is formed on the upper part of the vibration chamber 4; a through hole is formed in the middle of the vibration chamber 4; the positioning clamping element 2 forms a pressing surface that abuts against the abutment surface; a support surface that fits against the bottom surface of the vibration chamber 4 and a groove that matches the protrusion 41 are formed on the positioning base 1; the positioning pin 3 passes through the through hole and is connected to the positioning base 1.

[0030] By employing the above-described technical solution, the vibration chamber 4 is fully positioned. Specifically, the groove on the positioning base 1 is used to partially enclose and position the vibration chamber 4, and then the pressure plate 21 is pressed onto the vibration chamber 4. Next, the side of the vibration chamber 4 is made flush with the positioning base plate, and holes are drilled into the vibration chamber 4. After drilling, through holes are formed on the vibration chamber 4, allowing the positioning pin 3 to be inserted into these through holes for further positioning. Then, other holes on the positioning chamber are drilled. Compared to some positioning methods, this approach provides a better positioning effect.

[0031] Specifically, there is a gap between the bottom surface of the protrusion 41 and the bottom surface of the groove. When drilling the vibration box 4, the drilling debris can be contained in the gap, thereby preventing the debris from getting stuck on the lower surface of the vibration box 4 and coming into contact with it, which would scratch the lower surface of the vibration box 4 and better ensure the quality of the vibration box 4.

[0032] Specifically, the positioning base 1 is a rotating base. This makes it easier for employees to operate the vibrating chamber 4 when clamping it.

[0033] Specifically, the pressing surface is parallel to the supporting surface; the axis of the positioning pin 3 is perpendicular to the supporting surface.

[0034] Specifically, the positioning pressure component 2 includes a pressure plate 21 and a support plate 22. The pressure plate 21 is connected to the support plate 22, and the support plate 22 is slidably connected to the positioning base 1. A through groove 23 is provided on the pressure plate 21, and a bolt 24 is provided in the through groove 23. The bolt 24 passes through the through groove 23, the nut of the bolt 24 abuts against the pressure plate 21, and the thread of the bolt 24 is threadedly connected to the positioning base 1. The bolt 24 is used to make the pressure plate 21 press tightly against the vibration box 4.

[0035] Specifically, the groove extends through the positioning base 1 along its width. A clearance groove 11 is formed on the positioning base 1, and part of the vibration box 4 is located in the clearance groove 11.

[0036] More specifically, multiple stepped surfaces 31 are formed on the positioning pin 3. When the diameter of the through hole changes, the stepped surfaces 31 on the positioning pin 3 are in constant contact with the through hole to ensure that the positioning pin 3 positions the vibration box of different specifications.

[0037] The positioning pin 3 has a slot 32 in the middle, which makes the positioning pin 3 hollow. This helps to improve the bending resistance of the positioning pin 3, so that the positioning pin 3 can remain straight for a long time, thus helping to maintain positioning accuracy for a long time.

[0038] In addition, threads are provided in some positions in the slot 32, and a plug rod 5 is provided in the slot 32. The plug rod 5 is threadedly connected to the slot 32. The end of the plug rod 5 forms an abutment plate, and the edge of the abutment plate forms an abutment protrusion 51 that extends downward and abuts against the vibration box 4.

[0039] The above description is merely a selection of preferred embodiments of this disclosure and an explanation of the technical principles employed. Those skilled in the art should understand that the scope of the invention involved in the embodiments of this disclosure is not limited to technical solutions formed by specific combinations of the above-described technical features, but should also cover other technical solutions formed by arbitrary combinations of the above-described technical features or their equivalents without departing from the above-described inventive concept. For example, technical solutions formed by substituting the above-described features with (but not limited to) technical features with similar functions disclosed in the embodiments of this disclosure.

Claims

1. A positioning fixture for a vibration chamber, characterized in that, include: A positioning base, a positioning clamping element, and a positioning pin; the positioning clamping element and the positioning pin are both disposed on the positioning base. A protrusion is formed at the bottom of the vibration box; an abutment surface is formed at the top of the vibration box; and a through hole is formed in the middle of the vibration box. The positioning pressure member forms a pressure surface that abuts against the contact surface; the positioning base forms a support surface that fits against the bottom surface of the vibration box and a groove that matches the protrusion; The positioning pin passes through the through hole and is connected to the positioning base.

2. The vibration chamber positioning fixture according to claim 1, characterized in that: There is a gap between the bottom surface of the protrusion and the bottom surface of the groove.

3. The vibration chamber positioning fixture according to claim 1, characterized in that: The positioning base is a rotating base.

4. The vibration chamber positioning fixture according to claim 3, characterized in that: The pressing surface is parallel to the supporting surface; the axis of the positioning pin is perpendicular to the supporting surface.

5. The vibration chamber positioning fixture according to claim 1, characterized in that: The positioning pressure component includes a pressure plate and a support plate, the pressure plate is connected to the support plate, and the support plate is slidably connected to the positioning base; The pressure plate is provided with a through groove, and a bolt is provided in the through groove. The bolt passes through the through groove, the nut of the bolt abuts against the pressure plate, and the bolt shank is threadedly connected to the positioning base.

6. The vibration chamber positioning fixture according to claim 5, characterized in that: The groove extends through the positioning base along its width.

7. The vibration chamber positioning fixture according to claim 6, characterized in that: An avoidance groove is formed on the positioning base, and the vibration box is located in the avoidance groove.

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