A barrel disc shock material mixing device

Abstract

The utility model relates to the field of flower-cannon production, especially a cannon barrel disc material mixing device. The utility model provides a cannon barrel disc material mixing device which can avoid dust flying during material mixing, reduce the risk of explosion, and improve the cleanliness of material mixing and production safety. The cannon barrel disc material mixing device comprises a support frame, a box body, a box door, a vibrator, a connecting plate, a slide rod, a spring, a vibrating plate and a guide rod. The upper part of the support frame is connected with the box body. The left side of the box body is rotatably connected with the box door. The top of the box body is connected with the vibrator. The bottom of the vibrator is connected with the connecting plate. A plurality of slide rods are connected to the connecting plate. The slide rods pass through the top of the box body. A plurality of guide rods are slidably connected to the connecting plate. The vibrating plate is connected between the lower parts of the guide rods. The utility model generates negative pressure through the air guide plate. The materials scattered during vibration in the cannon barrel group are removed through the exhaust holes. Dust flying during material mixing can be avoided. The risk of explosion is reduced. The cleanliness of material mixing and production safety are improved.

Description

Technical Field

[0001] This utility model relates to the field of fireworks production, and in particular to a device for mixing materials using a firework disc. Background Technology

[0002] Fireworks and firecrackers production process involves placing a firework tube containing raw materials on a vibrating device and using vibration to mix the materials inside the tube.

[0003] The working principle of the existing device is as follows: First, the required raw materials are accurately weighed according to the formula and loaded into the barrel. Then, the barrel containing the raw materials is placed on the vibrating platform. After that, the vibrating platform is turned on to start mixing the raw materials in the barrel. The vibration of the platform causes the materials in the barrel to collide and move with each other, thereby achieving mixing. When the mixing reaches the expected effect, the vibrating platform is turned off. However, when the barrel assembly is vibrating, the internal raw materials will be affected by the vibration and will be scattered. The scattered materials are easily affected by sparks or heat sources and will explode. Moreover, the unmanned environment will affect the health of the operators.

[0004] Therefore, a barrel disc vibratory material mixing device has been developed that can prevent dust from flying during vibratory material mixing, reduce the risk of explosion, and improve the cleanliness of vibratory material mixing and production safety. Utility Model Content

[0005] In order to overcome the shortcomings of the above-mentioned background technology, the present invention provides a barrel disc vibratory material mixing device that can avoid dust flying during vibratory material mixing, reduce the risk of explosion, and improve the cleanliness of vibratory material mixing and production safety.

[0006] The technical implementation scheme of this utility model is as follows: a barrel disc vibrating material mixing device includes a support frame, a box body, a box door, a vibrator, a connecting plate, a sliding rod, a spring, a vibrating plate, and a guide rod. The box body is connected to the upper part of the support frame, the box door is rotatably connected to the left side of the box body, the vibrator is connected to the top of the box body, the connecting plate is connected to the bottom of the vibrator, multiple sliding rods are connected to the connecting plate, the sliding rods pass through the top of the box body, multiple guide rods are slidably connected to the connecting plate, the lower part of the guide rods is connected to the vibrating plate, and multiple springs are provided between the vibrating plate and the connecting plate.

[0007] Furthermore, it also includes an air guide plate, which is connected to the bottom of the vibrating plate, and the bottom of the air guide plate has an exhaust hole.

[0008] Furthermore, the distribution structure of the exhaust ports is consistent with the shape of the barrel after assembly.

[0009] Furthermore, it also includes an upper buckle, a support plate, and a lower buckle. The lower sides of both the left and right sides of the air guide plate are connected to the upper buckles, and a support plate is provided between the upper buckles. The lower buckles are connected to both sides of the support plate, and the upper and lower buckles are engaged and matched.

[0010] Furthermore, it also includes an air guide tube and an air pump. The air guide tube is connected to the rear side of the air guide plate, and the air pump is connected to the upper part of the support frame. The air pump is connected to the air guide tube.

[0011] Furthermore, it also includes a locking pin, which is connected to the door and engages with the vibration plate.

[0012] The beneficial effects are: 1. This utility model generates negative pressure through the air guide plate, which removes the materials scattered in the barrel assembly through the exhaust port, thus avoiding dust flying during the mixing of the vibrating materials, reducing the risk of explosion, and improving the cleanliness of the vibrating material mixing and production safety.

[0013] 2. This utility model supports the barrel assembly with a support plate. The upper and lower buckles cooperate to fix the support plate below the air guide plate. The mouth of the barrel assembly contacts the bottom of the air guide plate, so that the air guide plate can accurately remove the floating material.

[0014] 3. In this utility model, when the box door is rotated to close, the locking pin disengages from the vibrating plate, allowing the vibrating plate to vibrate normally. When the box door is rotated to open, the locking pin inserts into the vibrating plate to lock it, preventing vibration from continuing even when the box door is open and improving operational safety. Attached Figure Description

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

[0016] Figure 2 This is a three-dimensional structural diagram of the support frame, box body, and locking pin of this utility model.

[0017] Figure 3 This is a schematic diagram of the planar structure of the spring, vibrator, and housing components of this utility model.

[0018] Figure 4 This is a three-dimensional structural diagram of the buckle, support plate, and air guide plate of this utility model.

[0019] Figure 5 This is a three-dimensional structural diagram of the components of this utility model, including the air guide plate, air guide pipe, and air pump.

[0020] Figure 6 This is a three-dimensional structural diagram of the components of this utility model, such as the housing, locking pin, and vibration plate.

[0021] Figure 7 This is a three-dimensional structural cross-sectional view of the components of this utility model, such as the box door, locking pin, and vibration plate.

[0022] In the attached diagrams: 1: support frame, 2: housing, 201: door, 3: vibrator, 4: connecting plate, 401: slide rod, 5: spring, 6: vibration plate, 601: guide rod, 7: air guide plate, 701: exhaust port, 8: upper buckle, 9: support plate, 901: lower buckle, 10: air guide pipe, 11: air pump, 12: locking pin. Detailed Implementation

[0023] 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.

[0024] A barrel disc vibrating material mixing device, such as Figures 1-7 As shown, the device includes a support frame 1, a cabinet 2, a door 201, a vibrator 3, a connecting plate 4, sliding rods 401, a spring 5, a vibrating plate 6, and guide rods 601. The cabinet 2 is connected to the upper part of the support frame 1. The door 201 is rotatably connected to the left side of the cabinet 2. The vibrator 3 is connected to the top of the cabinet 2. The bottom of the vibrator 3 is connected to the connecting plate 4. Multiple sliding rods 401 are connected to the connecting plate 4, passing through the top of the cabinet 2. Multiple guide rods 601 are slidably connected to the connecting plate 4. The lower part of the guide rods 601... A vibrating plate 6 is connected between the vibrating plate 6 and the connecting plate 4. Multiple springs 5 ​​are provided between the vibrating plate 6 and the connecting plate 4. The vibrator 3 controls the vibration of the connecting plate 4. The connecting plate 4 transmits the vibration force to the vibrating plate 6. The vibrating plate 6 generates vibration, which drives the barrel assembly set at the bottom to vibrate, and vibrates and mixes the material inside the barrel assembly. During vibration, the slide rod 401 is used to stabilize the connecting plate 4 and ensure the vibration pattern of the connecting plate 4. The springs 5 ​​and the guide rod 601 are used in the same way as the slide rod 401 to stabilize the vibrating plate 6 and ensure the vibration pattern of the vibrating plate 6.

[0025] It also includes an air guide plate 7, which is connected to the bottom of the vibrating plate 6. The air guide plate 7 has an exhaust hole 701 at the bottom. The air guide plate 7 generates negative pressure to remove the material scattered in the barrel assembly through the exhaust hole 701, thereby avoiding the risk of dust flying and explosion, and improving the cleanliness of the vibrating material mixing.

[0026] The distribution structure of the exhaust port 701 is consistent with the shape of the gun barrel after assembly, and can be aligned with the gun barrel mouth in sequence to seal the gun barrel;

[0027] It also includes an upper buckle 8, a support plate 9, and a lower buckle 901. The lower sides of the left and right sides of the air guide plate 7 are connected to the upper buckle 8, and the support plate 9 is provided between the upper buckles 8. The lower buckles 901 are connected to the left and right sides of the support plate 9. The upper buckle 8 and the lower buckle 901 are engaged and cooperated. The support plate 9 supports the barrel assembly. The upper buckle 8 and the lower buckle 901 cooperate with each other to fix the support plate 9 below the air guide plate 7. The mouth of the barrel assembly contacts the bottom of the air guide plate 7, so that the air guide plate 7 can accurately remove the floating material.

[0028] It also includes an air pipe 10 and an air pump 11. The air pipe 10 is connected to the rear side of the air guide plate 7, and the air pump 11 is connected to the upper part of the support frame 1. The air pump 11 is connected to the air pipe 10. When the vibrating material is mixed, the air pump 11 generates negative pressure when passing through the air pipe 10, so that the air guide plate 7 can remove the dust material that is vibrating and flying.

[0029] It also includes a locking pin 12, which is connected to the door 201. The locking pin 12 is engaged with the vibrating plate 6. When the door 201 is rotated to close, the locking pin 12 is disengaged from the vibrating plate 6, and the vibrating plate 6 can vibrate normally. When the door 201 is rotated to open, the locking pin 12 is inserted into the vibrating plate 6 to lock the vibrating plate 6, so as to prevent the vibration from continuing when the door 201 is open and improve the safety of operation.

[0030] In use, this invention first rotates to open the box door 201, supporting the barrel assembly via the support plate 9. The upper latch 8 and lower latch 901 cooperate to fix the support plate 9 below the air guide plate 7. The inlet of the barrel assembly contacts the bottom of the air guide plate 7, allowing the air guide plate 7 to accurately remove floating materials. After the barrel assembly is set up, close the box door 201. When the box door 201 is rotated to close, the locking pin 12 disengages from the vibrating plate 6, allowing the vibrating plate 6 to vibrate normally. When the box door 201 is rotated to open, the locking pin 12 inserts into the vibrating plate 6, locking it and preventing vibration from continuing even when the box door 201 is open, thus improving operational safety. After the box door 201 is closed, start the vibrator 3. The vibrator 3 controls the connecting plate 4 to vibrate, and the connecting plate 4 transmits the vibration force to the vibrating plate 6. The vibrating plate 6 vibrates, causing the bottom air guide plate 7 to vibrate, which in turn causes the barrel assembly at the bottom of the air guide plate 7 to vibrate and mix the material inside the barrel assembly. During vibration, the slide rod 401 is used to stabilize the connecting plate 4 and ensure the vibration pattern of the connecting plate 4. The spring 5 and the guide rod 601 are used in the same way as the slide rod 401 to stabilize the vibrating plate 6 and ensure the vibration pattern of the vibrating plate 6. When the material is mixed, the air pump 11 generates negative pressure through the air guide pipe 10, which allows the air guide plate 7 to remove the dust material that is blown away by the vibration. During the material mixing process, the air guide plate 7 generates negative pressure, which removes the material that is blown away in the barrel assembly through the exhaust port 701, avoiding the risk of explosion due to dust flying and improving the cleanliness of the material mixing. After the material mixing is completed, the vibrator 3 is turned off and the box door 201 is turned and opened to remove the support plate 9.

[0031] It should be understood that this embodiment is for illustrative purposes only and is not intended to limit the scope of the present invention. Furthermore, it should be understood that after reading the teachings of this invention, those skilled in the art can make various alterations or modifications to the invention, and these equivalent forms also fall within the scope defined by the appended claims.

Claims

1. A vibratory mixing device for a gun barrel disc, characterized in that it includes: It has a support frame (1), a box body (2), a box door (201), a vibrator (3), a connecting plate (4), a sliding rod (401), a spring (5), a vibrating plate (6) and a guide rod (601). The upper part of the support frame (1) is connected to the box body (2). The left side of the box body (2) is rotatably connected to the box door (201). The top of the box body (2) is connected to the vibrator (3). The bottom of the vibrator (3) is connected to the connecting plate (4). Multiple sliding rods (401) are connected on the connecting plate (4). The sliding rods (401) pass through the top of the box body (2). Multiple guide rods (601) are slidably connected on the connecting plate (4). The lower part of the guide rods (601) is connected to the vibrating plate (6). Multiple springs (5) are provided between the vibrating plate (6) and the connecting plate (4).

2. The barrel disc vibratory material mixing device according to claim 1, characterized in that, It also includes an air guide plate (7), the bottom of the vibrating plate (6) is connected to the air guide plate (7), and the bottom of the air guide plate (7) has an exhaust hole (701).

3. The barrel disc vibratory material mixing device according to claim 2, characterized in that, The distribution structure of the exhaust port (701) is consistent with the shape of the barrel after assembly.

4. A barrel disc vibratory material mixing device according to claim 3, characterized in that, It also includes an upper buckle (8), a support plate (9) and a lower buckle (901). The lower sides of the left and right sides of the air guide plate (7) are connected to the upper buckle (8). The support plate (9) is provided between the upper buckles (8). The lower buckles (901) are connected to the left and right sides of the support plate (9). The upper buckle (8) and the lower buckle (901) are engaged.

5. A barrel disc vibratory material mixing device according to claim 4, characterized in that, It also includes an air duct (10) and an air pump (11). The air duct (10) is connected to the rear side of the air guide plate (7), and the air pump (11) is connected to the upper part of the support frame (1). The air pump (11) is connected to the air duct (10).

6. A barrel disc vibratory material mixing device according to claim 5, characterized in that, It also includes a locking pin (12), which is connected to the door (201) and is engaged with the vibration plate (6).

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