A stirring and water adding device for air brick processing

Abstract

The utility model relates to a ventilation brick processing technical field, concretely relates to a kind of stirring water adding device for ventilation brick processing, including stirring cylinder and stirring assembly;Stirring assembly includes longitudinal mounting bracket, screw rod, connecting seat, transverse mounting bracket, pivot and stirring rod, longitudinal mounting bracket is fixedly connected with stirring cylinder, screw rod rotation is arranged inside the installation cavity, connecting seat is threadedly connected with screw rod, connecting seat is slidably connected with longitudinal mounting bracket, transverse mounting bracket is fixedly connected with connecting seat, pivot is rotatably connected with transverse mounting bracket, pivot is arranged on transverse mounting bracket, stirring rod is arranged on the outside of pivot;Stirring rod is stirred ventilation brick raw material under the rotation of pivot, while stirring rod can be moved up and down under the driving of screw rod, and then the position of stirring rod can be adjusted in stirring cylinder, to improve the stirring effect of ventilation brick raw material in stirring cylinder.

Description

Technical Field

[0001] This utility model relates to the field of breathable brick processing technology, and in particular to a stirring and water adding device for breathable brick processing. Background Technology

[0002] Permeable bricks have good thermal stability, erosion resistance, corrosion resistance, and impermeability, and are widely used in the steel smelting industry. In the production process of permeable bricks, raw materials need to be batched, and after batching, the raw materials need to be stirred evenly. Then, a certain proportion of water is added and mixed evenly to obtain a slurry. The mixing mechanism of the existing permeable brick mixing and water adding device is mostly fixed, which is inconvenient for maintenance.

[0003] The utility model patent with publication number CN212142290U provides a mixing and water adding device for processing breathable bricks. When a malfunction occurs in the mixing drum, the mixing drum can be lowered by a cylinder until the mixing rod leaks out of the mixing drum. Then, the threaded assembly on the connecting block and the flange is removed, and the telescopic rod is retracted to remove the mixing rod from the mixing drum for easy maintenance.

[0004] The above method uses a stirring rod to stir the inside of the mixing drum to stir the permeable brick raw materials. However, the position of the stirring rod cannot be adjusted during stirring, resulting in poor stirring effect on the permeable brick raw materials in the mixing drum. Utility Model Content

[0005] The purpose of this invention is to provide a mixing and water adding device for processing permeable bricks, which solves the problem that the position of the mixing rod cannot be adjusted when the mixing rod is in motion, resulting in poor mixing effect of the permeable brick raw materials in the mixing drum.

[0006] To achieve the above objectives, this utility model provides a mixing and water-adding device for processing breathable bricks, including a mixing drum and a mixing assembly; the mixing assembly includes a longitudinal mounting frame, a screw, a connecting seat, a transverse mounting frame, a rotating shaft, and a mixing rod. The longitudinal mounting frame is fixedly connected to the mixing drum and is located outside the mixing drum. The longitudinal mounting frame has a mounting cavity, and the screw is rotatably disposed inside the mounting cavity. The connecting seat is threadedly connected to the screw and is sleeved on the screw. The connecting seat is slidably connected to the longitudinal mounting frame. The transverse mounting frame is fixedly connected to the connecting seat. The rotating shaft is rotatably connected to the transverse mounting frame, and the mixing rod is disposed outside the rotating shaft.

[0007] The stirring assembly further includes a protective structure, which includes a first spring and a protective cylinder. The stirring cylinder has a receiving cavity. The two ends of the first spring are fixedly connected to the protective cylinder and the stirring cylinder, respectively. The first spring is located below the protective cylinder and inside the receiving cavity. The protective cylinder is slidably connected to the stirring cylinder, and the top of the protective cylinder is in contact with the bottom of the transverse mounting bracket.

[0008] The protective structure further includes a toggle block, which is fixedly connected to the protective cylinder and is located on the outside of the protective cylinder.

[0009] The stirring assembly further includes a locking structure, which includes a second spring and a locking frame. The stirring cylinder is provided with a receiving groove in the transverse direction. The outer side of the protective cylinder has a locking opening. The two ends of the second spring are fixedly connected to the locking frame and the stirring cylinder, respectively. The second spring is located inside the receiving groove. The locking frame is slidably connected to the stirring cylinder.

[0010] The engaging structure further includes a pull rod, which is fixedly connected to the engaging frame and slidably connected to the stirring cylinder.

[0011] This utility model discloses a mixing and water-adding device for processing permeable bricks. During the mixing process of the permeable brick raw materials in the mixing drum by the mixing rod, the screw can be driven to rotate, thereby causing the horizontal mounting frame to move up and down, which in turn causes the mixing rod to move up and down. Therefore, while the mixing rod is mixing the permeable brick raw materials under the rotation of the shaft, the mixing rod can also move up and down under the drive of the screw. This allows the position of the mixing rod to be adjusted within the mixing drum, thereby improving the mixing effect of the permeable brick raw materials in the mixing drum. This solves the problem that the mixing rod's position cannot be adjusted during mixing, resulting in poor mixing effect of the permeable brick raw materials in the mixing drum. 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 structure of a mixing and water adding device for processing breathable bricks according to this utility model.

[0014] Figure 2 This is a structural cross-sectional view of a mixing and water-adding device for processing breathable bricks according to this utility model.

[0015] Figure 3This utility model relates to a mixing and water-adding device for processing breathable bricks. Figure 2 A magnified view of a portion of point A in the middle.

[0016] 100-Stirring drum, 110-Receiving cavity, 120-Receiving groove, 210-Longitudinal mounting bracket, 211-Mounting cavity, 220-Screw, 230-Connecting seat, 240-Transverse mounting bracket, 250-Rotating shaft, 260-Stirring rod, 261-First spring, 262-Protective cylinder, 263-Actuating block, 264-Clamping port, 271-Second spring, 272-Clamping bracket, 273-Pull rod. Detailed Implementation

[0017] 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.

[0018] Please see Figures 1 to 3 , Figure 1 This is a schematic diagram of the structure of a mixing and water adding device for processing breathable bricks according to this utility model. Figure 2 This is a structural cross-sectional view of a mixing and water-adding device for processing breathable bricks according to this utility model. Figure 3 This utility model relates to a mixing and water-adding device for processing breathable bricks. Figure 2 A magnified view of a portion of point A in the middle.

[0019] This utility model provides a mixing and water adding device for processing breathable bricks, including a mixing drum 100 and a mixing assembly. The mixing assembly includes a longitudinal mounting frame 210, a screw 220, a connecting seat 230, a transverse mounting frame 240, a rotating shaft 250, a mixing rod 260, a protective structure, and a locking structure. The protective structure includes a first spring 261, a protective cylinder 262, and a toggle block 263. The locking structure includes a second spring 271, a locking frame 272, and a pull rod 273.

[0020] In this specific embodiment, the longitudinal mounting bracket 210 is fixedly connected to the stirring cylinder 100, the longitudinal mounting bracket 210 is located outside the stirring cylinder 100, the longitudinal mounting bracket 210 has a mounting cavity 211, the screw 220 is rotatably disposed inside the mounting cavity 211, the connecting seat 230 is threadedly connected to the screw 220, the connecting seat 230 is sleeved on the screw 220, the connecting seat 230 is slidably connected to the longitudinal mounting bracket 210, the transverse mounting bracket 240 is fixedly connected to the connecting seat 230, the rotating shaft 250 is rotatably connected to the transverse mounting bracket 240, and the stirring rod 260 is disposed outside the rotating shaft 250. The longitudinal mounting bracket 210 is used to mount the screw 220. The screw 220 can rotate inside the mounting cavity 211. The screw 220 can be driven by a motor or other driving device. When the screw 220 rotates, the connecting seat 230 moves up and down relative to the screw 220, thereby driving the transverse mounting bracket 240 to move up and down. The rotating shaft 250 can be driven by a motor or other driving device. When the rotating shaft 250 rotates, it can drive the stirring rod 260 to rotate, thereby stirring the permeable brick raw material in the mixing drum 100. During the stirring process of the permeable brick raw material in the mixing drum 100 by the stirring rod 260... The screw 220 can be driven to rotate, thereby causing the horizontal mounting frame 240 to move up and down, which in turn causes the stirring rod 260 to move up and down. Therefore, while the stirring rod 260 is stirring the permeable brick raw material under the rotation of the rotating shaft 250, the stirring rod 260 can also move up and down under the drive of the screw 220. This allows the position of the stirring rod 260 to be adjusted within the mixing drum 100, thereby improving the stirring effect of the permeable brick raw material in the mixing drum 100. This solves the problem that the position of the stirring rod 260 could not be adjusted when stirring, resulting in poor stirring effect of the permeable brick raw material in the mixing drum 100.

[0021] Furthermore, the stirring cylinder 100 has a receiving cavity 110, and the two ends of the first spring 261 are fixedly connected to the protective cylinder 262 and the stirring cylinder 100 respectively. The first spring 261 is located below the protective cylinder 262 and inside the receiving cavity 110. The protective cylinder 262 is slidably connected to the stirring cylinder 100, and the top of the protective cylinder 262 is in contact with the bottom of the transverse mounting bracket 240. The protective structure is used to protect the position between the horizontal mounting frame 240 and the mixing drum 100. The first spring 261 holds the protective cylinder 262 upward, so that the top of the protective cylinder 262 contacts the bottom of the horizontal mounting frame 240, thereby blocking the position between the mixing drum 100 and the horizontal mounting frame 240 to prevent the raw materials in the mixing drum 100 from being stirred out when the stirring rod 260 is stirring. Since the first spring 261 holds the protective cylinder 262 upward, when the horizontal mounting frame 240 moves upward under the action of the screw 220, the protective cylinder 262 will still be in contact with the bottom of the horizontal mounting frame 240 under the action of the first spring 261 to prevent the raw materials from being spilled out.

[0022] Specifically, the actuating block 263 is fixedly connected to the protective cylinder 262, and the actuating block 263 is located on the outside of the protective cylinder 262. The actuating block 263 is provided on the outside of the protective cylinder 262, allowing the protective cylinder 262 to slide downwards via the actuating block 263, thereby exposing the position between the transverse mounting bracket 240 and the stirring cylinder 100, facilitating the removal and handling of the stirring rod 260.

[0023] The stirring drum 100 has a transversely arranged receiving groove 120, and the outer side of the protective cylinder 262 has a locking opening 264. The two ends of the second spring 271 are fixedly connected to the locking frame 272 and the stirring drum 100, respectively. The second spring 271 is located inside the receiving groove 120, and the locking frame 272 is slidably connected to the stirring drum 100. The locking structure is used to fix the protective cylinder 262 to the stirring drum 100. The second spring 271 abuts against the locking frame 272, allowing the end of the locking frame 272 away from the second spring 271 to abut into the locking opening 264, thereby fixing the protective cylinder 262 to the stirring drum 100. When the stirring rod 260 needs to be processed, the protective cylinder 262 is pulled down by the actuating block 263, so that the locking port 264 is at the locking frame 272. The locking frame 272 moves under the action of the second spring 271, so that the end of the locking frame 272 away from the second spring 271 enters the locking port 264, thereby fixing the protective cylinder 262, so that the part between the horizontal mounting bracket 240 and the stirring cylinder 100 is exposed, so that the stirring rod 260 can move upward and be exposed, thereby facilitating the processing of the stirring rod 260.

[0024] In addition, the pull rod 273 is fixedly connected to the locking frame 272, and the pull rod 273 is slidably connected to the mixing drum 100. The locking frame 272 can be pulled by the pull rod 273, causing the locking frame 272 to move out of the locking port 264, so that the protective cylinder 262 can again abut against the bottom of the horizontal mounting frame 240 under the action of the first spring 261, thus blocking the area between the horizontal mounting frame 240 and the mixing drum 100 to prevent raw materials from spilling out.

[0025] 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 mixing and water-adding device for processing permeable bricks, comprising a mixing drum, characterized in that, It also includes a stirring component; The stirring assembly includes a longitudinal mounting frame, a screw, a connecting seat, a transverse mounting frame, a rotating shaft, and a stirring rod. The longitudinal mounting frame is fixedly connected to the stirring cylinder and is located outside the stirring cylinder. The longitudinal mounting frame has a mounting cavity, and the screw is rotatably disposed inside the mounting cavity. The connecting seat is threadedly connected to the screw and is sleeved on the screw. The connecting seat is slidably connected to the longitudinal mounting frame. The transverse mounting frame is fixedly connected to the connecting seat. The rotating shaft is rotatably connected to the transverse mounting frame, and the stirring rod is disposed outside the rotating shaft.

2. The mixing and water-adding device for processing permeable bricks as described in claim 1, characterized in that, The stirring assembly further includes a protective structure, which includes a first spring and a protective cylinder. The stirring cylinder has a receiving cavity. The two ends of the first spring are fixedly connected to the protective cylinder and the stirring cylinder, respectively. The first spring is located below the protective cylinder and inside the receiving cavity. The protective cylinder is slidably connected to the stirring cylinder, and the top of the protective cylinder contacts the bottom of the transverse mounting bracket.

3. The mixing and water-adding device for processing permeable bricks as described in claim 2, characterized in that, The protective structure also includes a toggle block, which is fixedly connected to the protective cylinder and is located on the outside of the protective cylinder.

4. The mixing and water-adding device for processing breathable bricks as described in claim 2, characterized in that, The stirring assembly further includes a locking structure, which includes a second spring and a locking frame. The stirring cylinder is provided with a receiving groove in the transverse direction. The outer side of the protective cylinder has a locking opening. The two ends of the second spring are fixedly connected to the locking frame and the stirring cylinder, respectively. The second spring is located inside the receiving groove. The locking frame is slidably connected to the stirring cylinder.

5. The mixing and water-adding device for processing permeable bricks as described in claim 4, characterized in that, The engaging structure also includes a pull rod, which is fixedly connected to the engaging frame and slidably connected to the stirring cylinder.

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