A barrel tumbler
By designing a shot blasting machine that includes a frame, control components, shot blasting components, fixing components, and discharge components, the problem of the inability to flexibly adjust the workpiece angle in the existing technology has been solved. This achieves optimal workpiece position adjustment during the shot blasting process, reduces the labor intensity of operators, and improves processing efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- CHONGQING BOYEE TECH CO LTD
- Filing Date
- 2025-07-01
- Publication Date
- 2026-07-14
AI Technical Summary
Existing shot blasting machines cannot flexibly adjust the angle according to the shape and requirements of the workpiece, which makes it impossible to ensure the optimal position of the workpiece during the shot blasting process.
A shot blasting machine comprising a frame, control components, shot blasting components, fixing components, and discharge components was designed. Through the cooperation of control shaft, rolling bearings, and connecting shaft, the synchronous rotation of the roller box is achieved, allowing for flexible adjustment of the workpiece position and angle.
This method achieves optimal workpiece positioning during shot blasting, reducing the labor intensity of operators and improving workpiece processing efficiency.
Smart Images

Figure CN224488710U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of rolling shot blasting machine technology, and in particular to a rolling shot blasting machine. Background Technology
[0002] Current processes only use tumbler polishing machines and centrifugal polishing machines to remove burrs and cracks and restore the original mechanical properties of valve plates. Tumbler polishing involves placing abrasives of various sizes in a barrel-shaped container and subjecting the valve plates to friction and collision. This eliminates burrs, micro-cracks, and unevenness defects caused by shearing and tearing on the cut surface of the valve plates after punching. Simultaneously, the heat generated by the continuous collision and friction between the abrasives and the valve plates during polishing helps eliminate stress concentrations caused during punching. However, eliminating these defects is time-consuming, and previously, loading the abrasives and valve plates into the tumbler was done manually. The abrasives are heavy, resulting in high labor intensity for operators and low efficiency.
[0003] The existing publication number CN208557097U discloses a tumbling polishing machine, including a tumbling drum with a discharge port and a drum cover. The tumbling drum also has a feed port and a vacuum interface. The feed port is connected to a material trough for holding valve plates and abrasives via a suction hose. The vacuum interface is connected to a vacuum device via a vacuum connecting pipe. This utility model's tumbling polishing machine features a vacuum interface on the tumbling drum, which is connected to a vacuum device via a vacuum connecting pipe. By evacuating the tumbling drum into a vacuum state, the suction force of the vacuum can draw the valve plates and abrasives from the material trough into the tumbling drum, achieving automatic vacuum material suction and reducing the labor intensity of operators.
[0004] However, the aforementioned shot blasting machine cannot flexibly adjust the angle according to the shape and requirements of the workpiece, which makes it impossible to ensure the optimal position of the workpiece during the shot blasting process. Utility Model Content
[0005] The purpose of this invention is to provide a shot blasting machine that solves the problem that the shot blasting machine cannot flexibly adjust the angle according to the shape and requirements of the workpiece, which makes it impossible to ensure the optimal position of the workpiece during the shot blasting process.
[0006] To achieve the above objectives, this utility model provides a shot blasting machine, including a frame, a control assembly, a shot blasting assembly, a fixing assembly, and a discharge assembly. The control assembly includes a control shaft, a mounting base, mounting bolts, a rolling bearing, and a connecting shaft. The control shaft is rotatably connected to the frame and located in the middle of the frame. The mounting base is detachably connected to the frame and located at the top of the frame. There are two mounting bolts, each threadedly connected to the frame and passing through the frame and the mounting base respectively. The rolling bearing is detachably connected to the mounting base and located between the mounting base and the frame. The connecting shaft is rotatably connected to the rolling bearing and passes through the rolling bearing. The shot blasting assembly is connected to the control shaft. The fixing assembly is connected to the shot blasting assembly. The discharge assembly is connected to the frame.
[0007] The shot blasting assembly includes a roller box, a sealing plate, and a handle. The roller box is fixedly connected to the control shaft and located between the control shaft and the connecting shaft. The sealing plate is rotatably connected to the roller box and located outside the roller box. The handle is fixedly connected to the sealing plate and located outside the sealing plate.
[0008] The fixing assembly includes inserts, fixing seats, and insert rods. There are two inserts, which are fixedly connected to the sealing plate and located on the outside of the sealing plate. There are two fixing seats, which are fixedly connected to the roller box and located on the outside of the inserts. There are multiple insert rods, which are detachably connected to the fixing seats and pass through the fixing seats and the inserts.
[0009] The discharge assembly includes a discharge seat and a diversion seat. The discharge seat is fixedly connected to the frame and located below the roller box. The diversion seat is fixedly connected to the discharge seat and located outside the discharge seat.
[0010] The discharge assembly further includes a main baffle and side baffles. The main baffle is fixedly connected to the flow guide seat and is located on the outside of the flow guide seat. There are two side baffles, which are fixedly connected to the flow guide seat and are located on both sides of the flow guide seat.
[0011] This utility model discloses a shot blasting machine. The frame provides support for the device, the control shaft is connected to the power unit inside the frame, and the mounting base provides support for the rolling bearing. The mounting bolts facilitate the fixing of the mounting base. The rolling bearing provides fixation for the connecting shaft, and the connecting shaft provides support and fixation for the shot blasting box. In use, the power unit inside the frame drives the control shaft to rotate, simultaneously causing the shot blasting box and the connecting shaft to rotate synchronously and uniformly along the rolling bearing. This facilitates the adjustment of the position of the part to be shot blasted inside the shot blasting box, and allows for adjustment of the shot blasting angle and position of the part. This solves the problem that shot blasting machines cannot flexibly adjust the angle according to the shape and requirements of the workpiece, thus failing to ensure the optimal position of the workpiece during the shot blasting process. Attached Figure Description
[0012] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the accompanying drawings used in the description of the embodiments or the prior art will be briefly introduced below.
[0013] Figure 1 This is a schematic diagram of the overall structure of the tumbling polisher according to the first embodiment of this utility model.
[0014] Figure 2 This is a structural schematic diagram of the frame and control components of the first embodiment of this utility model.
[0015] Figure 3 This is a schematic diagram of the material discharge component according to the first embodiment of this utility model.
[0016] Figure 4 This is a structural schematic diagram of the fixing component of the first embodiment of this utility model.
[0017] In the diagram: 101-Frame, 102-Control shaft, 103-Mounting seat, 104-Mounting bolt, 105-Rolling bearing, 106-Connecting shaft, 107-Roll box, 108-Sealing plate, 109-Handle, 110-Insertion strip, 111-Fixed seat, 112-Insertion rod, 113-Discharge seat, 114-Drainage seat, 115-Main baffle, 116-Side baffle. Detailed Implementation
[0018] The embodiments of the present invention are described in detail below. Examples of the embodiments are shown in the accompanying drawings. The embodiments described below with reference to the accompanying drawings are exemplary and intended to explain the present invention, but should not be construed as limiting the present invention.
[0019] The first embodiment of this application is as follows:
[0020] Please see Figures 1 to 4 ,in, Figure 1 This is a schematic diagram of the overall structure of the tumbling and polishing machine according to the first embodiment of this utility model. Figure 2 This is a schematic diagram of the frame and control components according to the first embodiment of this utility model. Figure 3 This is a schematic diagram of the material discharge assembly according to the first embodiment of this utility model. Figure 4 This is a schematic diagram of the fixing component of the first embodiment of the present invention. The present invention provides a shot blasting machine, including a frame 101, a control component, a shot blasting component, a fixing component, and a discharge component. The control component includes a control shaft 102, a mounting base 103, mounting bolts 104, a rolling bearing 105, and a connecting shaft 106. The shot blasting component includes a roller box 107, a sealing plate 108, and a handle 109. The fixing component includes an insert 110, a fixing base 111, and an insert rod 112. The discharge component includes a discharge seat 113, a guide seat 114, a main baffle 115, and a side baffle 116. The aforementioned solution solves the problem that the shot blasting machine cannot flexibly adjust the angle according to the shape and requirements of the workpiece during use, which leads to the inability to ensure the optimal position of the workpiece during the shot blasting process.
[0021] In this specific embodiment, the control shaft 102 is rotatably connected to the frame 101 and located in the middle of the frame 101; the mounting base 103 is detachably connected to the frame 101 and located at the top of the frame 101; there are two mounting bolts 104, each threadedly connected to the frame 101 and passing through the frame 101 and the mounting base 103 respectively; the rolling bearing 105 is detachably connected to the mounting base 103 and located between the mounting base 103 and the frame 101; the connecting shaft 106 is rotatably connected to the rolling bearing 105 and passes through the rolling bearing 105; the shot blasting assembly is connected to the control shaft 102; the fixing assembly is connected to the shot blasting assembly; and the discharge assembly is connected to the frame. The device is connected by a frame 101, which provides support for the device. The control shaft 102 is connected to the power unit inside the frame 101. The mounting base 103 provides support for the rolling bearing 105. The mounting bolts 104 facilitate the fixing of the mounting base 103. The rolling bearing 105 provides a fixing function for the connecting shaft 106. The connecting shaft 106 provides support and fixing function for the roller box 107. In use, the power unit inside the frame 101 drives the control shaft 102 to rotate, which simultaneously drives the roller box 107 and the connecting shaft 106 to rotate synchronously along the rolling bearing 105 at a uniform speed. This facilitates the adjustment of the position of the part to be shot blasted inside the roller box 107, and makes it easy to adjust the shot blasting angle and position of the part.
[0022] The roller box 107 is fixedly connected to the control shaft 102 and located between the control shaft 102 and the connecting shaft 106. The sealing plate 108 is rotatably connected to the roller box 107 and located outside the roller box 107. The handle 109 is fixedly connected to the sealing plate 108 and located outside the sealing plate 108. The roller box 107 is used to store parts and grinding shot. The sealing plate 108 is used to seal the roller box 107. The handle 109 facilitates the control of the sealing plate 108.
[0023] Secondly, there are two inserts 110, each fixedly connected to the sealing plate 108 and located on the outer side of the sealing plate 108. There are also two fixing seats 111, each fixedly connected to the roller box 107 and located on the outer side of the inserts 110. Furthermore, there are multiple insert rods 112, each detachably connected to the fixing seat 111 and passing through both the fixing seat 111 and the insert 110. The inserts 110 and the fixing seat 111 cooperate with each other. The insertion rod 112 facilitates the fixing of the insertion strip 110 inside the fixed base 111, and also facilitates the fixing of the sealing plate 108. When it is necessary to discharge the material in the roller box 107, the roller box 107 is rotated so that the sealing plate 108 faces downwards from the frame 101. Then, the insertion rod 112 is pulled out from the insertion strip 110 and the fixed base 111. At this time, the sealing plate 108 rotates and opens along the roller box 107, and the sealing plate 108 acts as a discharge plate, facilitating the discharge of the material inside the roller box 107.
[0024] Furthermore, the discharge seat 113 is fixedly connected to the frame 101 and located below the roller box 107. The flow guide seat 114 is fixedly connected to the discharge seat 113 and located outside the discharge seat 113. The discharge seat 113 provides support for the sealing plate 108, and the flow guide seat 114 is used to guide the material in the roller box 107.
[0025] Finally, the main baffle 115 is fixedly connected to the flow guide seat 114 and is located on the outside of the flow guide seat 114. There are two side baffles 116, which are fixedly connected to the flow guide seat 114 respectively and are located on both sides of the flow guide seat 114. The main baffle 115 is used to prevent material from splashing out when it is discharged, and the side baffles 116 are used to protect the two sides of the flow guide seat 114 to prevent material from falling off the two sides of the flow guide seat 114.
[0026] In the tumbling shot blasting machine of this embodiment, the frame 101 provides support for the device, the control shaft 102 is connected to the power unit inside the frame 101, the mounting base 103 provides support for the rolling bearing 105, and the mounting bolts 104 facilitate the fixing of the mounting base 103. The rolling bearing 105 provides a fixing function for the connecting shaft 106, and the connecting shaft 106 provides support and fixing for the tumbling box 107. In use, the power unit inside the frame 101 drives the control shaft 102 to rotate, and simultaneously drives the tumbling box 107 and the connecting shaft 106 to rotate synchronously along the rolling bearing 105 at a uniform speed. This facilitates the adjustment of the position of the part to be shot blasted in the tumbling box 107, and makes it easy to adjust the shot blasting angle and position of the part. This solves the problem that the tumbling shot blasting machine cannot flexibly adjust the angle according to the shape and requirements of the workpiece, which leads to the inability to ensure the optimal position of the workpiece during the shot blasting process.
[0027] The above-disclosed embodiments are merely one or more preferred embodiments of this application and should not be construed as limiting the scope of this application. Those skilled in the art can understand that all or part of the processes for implementing the above embodiments and equivalent changes made in accordance with the claims of this application still fall within the scope of this application.
Claims
1. A tumbler polishing machine, comprising a frame, characterized in that, It also includes control components, shot blasting components, fixing components, and discharge components; The control assembly includes a control shaft, a mounting base, mounting bolts, a rolling bearing, and a connecting shaft. The control shaft is rotatably connected to the frame and located in the middle of the frame. The mounting base is detachably connected to the frame and located at the top of the frame. There are two mounting bolts, each threadedly connected to the frame and passing through both the frame and the mounting base. The rolling bearing is detachably connected to the mounting base and located between the mounting base and the frame. The connecting shaft is rotatably connected to the rolling bearing and passes through the rolling bearing. The shot blasting assembly is connected to the control shaft. The fixing assembly is connected to the shot blasting assembly. The discharge assembly is connected to the frame.
2. The tumbling machine as described in claim 1, characterized in that, The shot blasting assembly includes a roller box, a sealing plate, and a handle. The roller box is fixedly connected to the control shaft and located between the control shaft and the connecting shaft. The sealing plate is rotatably connected to the roller box and located outside the roller box. The handle is fixedly connected to the sealing plate and located outside the sealing plate.
3. The tumbling machine as described in claim 2, characterized in that, The fixing assembly includes inserts, fixing seats, and insert rods. There are two inserts, which are fixedly connected to the sealing plate and located on the outside of the sealing plate. There are two fixing seats, which are fixedly connected to the roller box and located on the outside of the inserts. There are multiple insert rods, which are detachably connected to the fixing seats and pass through the fixing seats and the inserts.
4. The tumbling machine as described in claim 2, characterized in that, The discharge assembly includes a discharge seat and a diversion seat. The discharge seat is fixedly connected to the frame and located below the roller box. The diversion seat is fixedly connected to the discharge seat and located outside the discharge seat.
5. The tumbling machine as described in claim 4, characterized in that, The discharge assembly also includes a main baffle and side baffles. The main baffle is fixedly connected to the flow guide seat and is located on the outside of the flow guide seat. There are two side baffles, which are fixedly connected to the flow guide seat and are located on both sides of the flow guide seat.