Motor stirring pressure barrel structure
By introducing multi-layered mixing and stability measures into the motor-driven mixing pressure tank, the problems of insufficient mixing and stratification are solved, ensuring uniform mixing of materials and device stability, and preventing filter clogging.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- DONG GUAN SHI BO ZHI YU ZI DONG HUA KE JI YOU XIAN GONG SI
- Filing Date
- 2025-08-07
- Publication Date
- 2026-07-14
AI Technical Summary
Existing mixing devices use a single mixing method, which can easily lead to insufficient mixing and material stratification, causing filter clogging and reducing the stability of the device.
A motor-driven stirring pressure tank structure was designed, comprising a stirring section, a fixing section, and a discharge assembly. Through multi-level stirring, adjustment of pressure and speed, and discharge by a vacuum pump, the material is ensured to be uniformly stirred and the installation cover is prevented from loosening, thereby improving stability.
This achieves multi-level mixing of materials, avoids insufficient mixing and stratification, prevents filter clogging, and improves the stability and efficiency of the device.
Smart Images

Figure CN224485731U_ABST
Abstract
Description
Technical Field
[0001] This utility model belongs to the field of pressure vessel technology, and in particular relates to a motor-driven stirring pressure tank structure. Background Technology
[0002] The motor-driven stirring pressure tank is a pressure-resistant, sealable pressure tank product with stirring function. After the colloid or material is added into the pressure tank, the motor stirring device can be started to stir the material in the tank, which can prevent the material from settling. At the same time, if the material in the tank needs to be degassed, it can be used with a vacuum pump to stir and draw a vacuum at the same time to achieve the purpose of thorough vacuuming. The pressure tank is designed to withstand a certain pressure, so the material in the tank can also be squeezed out by injecting compressed air into the pressure tank.
[0003] However, existing mixing devices use a relatively simple mixing method, which can easily lead to insufficient mixing and material stratification. Insufficiently mixed materials can clog the filter screen and reduce the stability of the device during use. Utility Model Content
[0004] The purpose of this utility model is to provide a motor-driven stirring pressure tank structure. By setting up a stirring part, it solves the problems of existing stirring devices having a relatively simple stirring method, which easily leads to insufficient stirring and material stratification during stirring. Insufficiently stirred materials will cause the filter screen to become clogged, reducing the stability of the device during use.
[0005] To solve the above-mentioned technical problems, this utility model is achieved through the following technical solution:
[0006] This utility model relates to a motor-driven stirring pressure tank structure, comprising a stirring tank and a mounting cover disposed on the stirring tank. The top of the stirring tank contacts the mounting cover, which has two viewing windows and a detection element. The structure also includes: a stirring section disposed within the stirring tank; a fixing section mounted on the stirring tank; the stirring section comprising a stirring assembly disposed within the stirring tank; and a discharge assembly disposed on the mounting cover. The stirring assembly includes a stirring rod rotatably connected within the stirring tank, the top of which penetrates the mounting cover. The outer wall of the stirring rod is rotatably connected to the mounting cover, and two stirring blades are rotatably connected to the outer wall of the stirring rod. Two support blocks are fixedly connected to the top of the mounting cover, and a motor is disposed on the top of the mounting cover. The tops of both support blocks are fixedly connected to the motor. The output shaft of the motor is fixedly connected to the stirring rod via a coupling. A speed regulator is disposed on the motor, and a discharge element is disposed on the mounting cover. Both stirring blades are disposed inside the stirring tank.
[0007] Furthermore, the fixing part includes a connecting component disposed on the mounting cover; and a mounting component mounted on the connecting component; wherein the mounting component and the connecting component are fixedly connected.
[0008] Furthermore, the discharge assembly includes a fixed rod fixedly connected to the inner wall of the bottom of the mixing tank, a float penetrating the outer wall of the fixed rod, and the outer wall of the fixed rod slidably connected to the float. A discharge component is provided inside the mixing tank; wherein, the fixed rod provides necessary support for the movement of the float.
[0009] Furthermore, the connecting component includes several fixing slots formed on the mounting cover, and several mounting blocks are provided on the top of the mounting cover, with handles fixedly connected to the outer walls of the mounting blocks; wherein, four fixing slots are provided, which are circumferentially distributed on the mounting cover.
[0010] Furthermore, the installation assembly includes several fixing blocks fixedly connected to the outer wall of the mixing tank, connecting rods slidably connected to the inner walls of several fixing slots, the tops of several connecting rods being fixedly connected to several installation blocks respectively, locking blocks penetrating through several fixing blocks, the outer walls of several locking blocks being rotatably connected to several fixing blocks respectively, several connecting rods penetrating through the outer walls of several locking blocks respectively, and the outer walls of several locking blocks being fixedly connected to several connecting rods respectively.
[0011] Furthermore, the detection component includes a pressure regulating valve disposed on the top of the mounting cover, a pressure relief valve disposed on the top of the mounting cover, and a safety valve disposed on the top of the mounting cover; wherein, the pressure regulating valve and the pressure relief valve provide necessary support for adjusting the pressure inside the mixing tank.
[0012] Furthermore, the feeding component includes a feed pipe connected to the mounting cover, the bottom of the feed pipe being connected to the mixing tank, the mounting cover having a feed inlet, and the outer wall of the feed pipe being connected to the feed inlet.
[0013] Furthermore, the discharge component includes a discharge pipe disposed inside the mixing tank, a filter screen is connected to the bottom of the discharge pipe, a discharge port is passed through the top of the mounting cover, the outer wall of the discharge port is fixedly connected to the mounting cover, and the top of the discharge pipe is connected to the discharge port; wherein, the filter screen is disposed inside the mixing tank, and the discharge pipe is made of stainless steel.
[0014] This utility model has the following beneficial effects:
[0015] 1. By setting up a stirring section, when in use, first start the motor, which drives the stirring rod and two stirring blades to rotate inside the stirring tank, performing multi-layer stirring of the material entering through the feed inlet and feed pipe. During stirring, observe the position of the float through the viewing window, and adjust the pressure inside the tank to a suitable value with the help of the pressure regulating valve and the pressure relief valve. At the same time, adjust the motor speed through the speed controller to change the stirring rate to ensure uniform stirring of the material. After stirring is completed, start the vacuum pump at the discharge port to generate suction in the discharge pipe. The material is filtered through the filter screen and discharged from the discharge port, thus completing the entire stirring work. When stirring the material, multi-layer stirring is performed to avoid the problem of insufficient stirring and material stratification caused by a single stirring method. This also prevents insufficiently stirred material from clogging the filter screen and improves the stability of the device during use.
[0016] 2. By setting a fixing part, after the mixing is completed, pull the handle, and the fixing block will drive the connecting rod to rotate around the locking block inside the fixing block, so that the connecting rod is disengaged from the fixing groove, and the mounting block is then removed from the mounting cover, thus unlocking the mounting cover from the mixing tank. When the material is being mixed, the mounting cover is pressurized and fixed to prevent it from loosening or falling off due to factors such as motor vibration and pressure changes during the mixing process, thereby improving the stability of the device during use.
[0017] Of course, any product implementing this utility model does not necessarily need to achieve all of the advantages described above at the same time. Attached Figure Description
[0018] To more clearly illustrate the technical solutions of the embodiments of this utility model, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0019] Figure 1 This is a schematic diagram of the overall structure of this utility model;
[0020] Figure 2 This is a partial cross-sectional view of the stirring part of this utility model;
[0021] Figure 3 This is a partial structural diagram of the fixing part of this utility model;
[0022] Figure 4 This is an exploded structural diagram of the stirring assembly of this utility model;
[0023] Figure 5 This is a partial structural cross-sectional view of the mounting component of this utility model.
[0024] The attached diagram lists the components represented by each number as follows:
[0025] 111. Mixing tank; 112. Mounting cover; 113. Viewing window; 114. Pressure regulating valve; 115. Pressure relief valve; 116. Safety valve; 2. Mixing section; 21. Mixing assembly; 211. Mixing rod; 212. Mixing blade; 213. Support block; 214. Motor; 215. Speed controller; 216. Feed pipe; 217. Feed inlet; 22. Discharge assembly; 221. Fixing rod; 222. Float; 223. Discharge pipe; 224. Filter screen; 225. Discharge port; 3. Fixing section; 31. Connecting assembly; 311. Fixing groove; 312. Mounting block; 313. Handle; 32. Mounting assembly; 321. Fixing block; 322. Connecting rod; 323. Locking block. Detailed Implementation
[0026] 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.
[0027] Please see Figure 1-5 As shown, this utility model is a motor-driven stirring pressure tank structure, including a stirring tank 111 and a mounting cover 112 disposed on the stirring tank 111. The top of the stirring tank 111 is in contact with the mounting cover 112. The mounting cover 112 has two viewing windows 113 and a detection element. It also includes: a stirring part 2 disposed inside the stirring tank 111; a fixing part 3 mounted on the stirring tank 111; the detection element includes a pressure regulating valve 114 disposed on the top of the mounting cover 112; a pressure relief valve 115 disposed on the top of the mounting cover 112; and a safety valve 116 disposed on the top of the mounting cover 112.
[0028] Among them, the pressure regulating valve 114 and the pressure relief valve 115 provide necessary support for regulating the pressure inside the mixing tank 111.
[0029] The mixing unit 2 includes a mixing assembly 21 disposed inside the mixing tank 111; and a discharge assembly 22 disposed on the mounting cover 112. The mixing assembly 21 includes a mixing rod 211 rotatably connected inside the mixing tank 111, the top of the mixing rod 211 penetrating through the mounting cover 112, the outer wall of the mixing rod 211 rotatably connected to the mounting cover 112, two mixing blades 212 rotatably connected to the outer wall of the mixing rod 211, and two support blocks 213 fixedly connected to the top of the mounting cover 112. The mixing tank 111 is equipped with a motor 214. The tops of the two support blocks 213 are fixedly connected to the motor 214. The output shaft of the motor 214 is fixedly connected to the stirring rod 211 via a coupling. The motor 214 is equipped with a speed regulator 215. The mounting cover 112 is equipped with a discharge component. The two stirring blades 212 are both located inside the mixing tank 111. The discharge assembly 22 includes a fixing rod 221 fixedly connected to the inner wall of the bottom of the mixing tank 111. A float 222 passes through the outer wall of the fixing rod 221. The outer wall of the fixing rod 221 and the float 222 are connected. 2. Sliding connection; the mixing tank 111 is equipped with a discharge component; wherein, the fixing rod 221 provides necessary support for the movement of the float 222; the discharge component includes a feed pipe 216 connected to the mounting cover 112, the bottom of the feed pipe 216 being connected to the mixing tank 111; the mounting cover 112 is provided with a feed inlet 217, and the outer wall of the feed pipe 216 is connected to the feed inlet 217; the discharge component includes a discharge pipe 223 installed inside the mixing tank 111, the bottom of the discharge pipe 223 being connected to a filter screen 224; the mounting cover 112... The top of the device has a discharge port 225, the outer wall of which is fixedly connected to the mounting cover 112. The top of the discharge pipe 223 is connected to the discharge port 225. The filter screen 224 is installed inside the mixing tank 111. The discharge pipe 223 is made of stainless steel. By setting the mixing part 2, the material is mixed in multiple layers during the mixing process, avoiding the problem of insufficient mixing and material stratification caused by a single mixing method. This also prevents the insufficiently mixed material from clogging the filter screen 224 and improves the stability of the device during use.
[0030] The fixing part 3 includes a connecting component 31, which is disposed on the mounting cover 112; and a mounting component 32, which is mounted on the connecting component 31. The mounting component 32 is fixedly connected to the connecting component 31. The connecting component 31 includes several fixing grooves 311 formed on the mounting cover 112. Several mounting blocks 312 are provided on the top of the mounting cover 112, and handles 313 are fixedly connected to the outer walls of each mounting block 312. Four fixing grooves 311 are provided, arranged circumferentially on the mounting cover 112. The mounting component 32 includes several fixing blocks 321 fixedly connected to the outer wall of the mixing tank 111, and the inner walls of the fixing grooves 311... Each of the several connecting rods 322 is slidably connected to a number of mounting blocks 312. The tops of the several mounting rods 322 are fixedly connected to a number of mounting blocks 312. Each of the several mounting blocks 321 has a locking block 323 passing through it. The outer walls of the several locking blocks 323 are rotatably connected to the several mounting blocks 321. The outer walls of the several locking blocks 323 pass through the several connecting rods 322. The outer walls of the several locking blocks 323 are fixedly connected to the several connecting rods 322. By setting the fixing part 3, the mounting cover 112 is pressurized and fixed during material mixing, which prevents the mounting cover 112 from loosening or falling off due to factors such as vibration of the motor 214 and pressure changes during mixing, thus improving the stability of the device during use.
[0031] One specific application of this embodiment is as follows: During use, the motor 214 is started, driving the two stirring blades 212 to rotate within the mixing tank 111. This performs multi-layer stirring of the material entering the mixing tank 111 through the feed inlet 217 and feed pipe 216. During stirring, the position of the float 222 is observed through the viewing window 113. The pressure inside the mixing tank 111 is adjusted by the cooperation of the pressure regulating valve 114 and the pressure relief valve 115, ensuring the mixing tank 111 is always at a suitable stirring pressure. The rotation speed of the motor 214 is adjusted by the speed regulator 215, thereby adjusting the stirring speed of the stirring rod 211 and the stirring blades 212, thus better stirring the material inside the mixing tank 111. The material is stirred evenly. After stirring, the vacuum pump connected to the discharge port 225 is started to generate suction on the discharge pipe 223. The discharge pipe 223 absorbs and filters the material in the mixing tank 111 through the filter screen 224. After filtering, the material is discharged from the mixing tank 111 through the discharge port 225, thus completing the stirring of the material in the mixing tank 111. After stirring, the handle 313 is pulled. The handle 313 drives the connecting rod 322 to rotate around the locking block 323 through the fixing block 321, so that the connecting rod 322 moves away from the fixing groove 311, thereby causing the mounting block 312 to fall off the mounting cover 112, thus completing the unlocking of the mounting cover 112 and the mixing tank 111.
[0032] In the description of this specification, references to terms such as "an embodiment," "example," "specific example," etc., indicate that a specific feature, structure, material, or characteristic described in connection with that embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the illustrative expressions of the above terms do not necessarily refer to the same embodiment or example. Furthermore, the specific features, structures, materials, or characteristics described may be combined in any suitable manner in one or more embodiments or examples.
[0033] The preferred embodiments of this utility model disclosed above are merely illustrative of the present utility model. These preferred embodiments do not exhaustively describe all details, nor do they limit the utility model to the specific implementations described. Clearly, many modifications and variations can be made based on the content of this specification. This specification selects and specifically describes these embodiments to better explain the principles and practical applications of this utility model, thereby enabling those skilled in the art to better understand and utilize it. This utility model is limited only by the claims and their full scope and equivalents.
Claims
1. A motor-driven stirring pressure tank structure, comprising a stirring tank (111) and a mounting cover (112) disposed on the stirring tank (111), wherein the top of the stirring tank (111) contacts the mounting cover (112), the mounting cover (112) has two viewing windows (113), and the mounting cover (112) is provided with a detection element, characterized in that, Also includes: A stirring section (2) is provided inside a stirring tank (111); Fixing part (3), said fixing part (3) is installed on the mixing tank (111); The stirring section (2) includes a stirring assembly (21), which is disposed inside the stirring tank (111); as well as The discharge assembly (22) is disposed on the mounting cover (112); The stirring assembly (21) includes a stirring rod (211) rotatably connected inside the stirring tank (111). The top of the stirring rod (211) passes through the mounting cover (112). The outer wall of the stirring rod (211) is rotatably connected to the mounting cover (112). Two stirring blades (212) are rotatably connected to the outer wall of the stirring rod (211). Two support blocks (213) are fixedly connected to the top of the mounting cover (112). A motor (214) is provided on the top of the mounting cover (112). The tops of the two support blocks (213) are fixedly connected to the motor (214). The output shaft of the motor (214) is fixedly connected to the stirring rod (211) through a coupling. A speed regulator (215) is provided on the motor (214). A feeding component is provided on the mounting cover (112). Both stirring blades (212) are located inside the stirring tank (111).
2. The structure of the motor-driven stirring pressure tank according to claim 1, characterized in that, The fixing part (3) includes a connecting component (31) disposed on the mounting cover (112); and Mounting component (32), which is mounted on connecting component (31); The mounting component (32) is fixedly connected to the connecting component (31).
3. The structure of the motor-driven stirring pressure tank according to claim 2, characterized in that, The discharge assembly (22) includes a fixed rod (221) fixedly connected to the inner wall of the bottom of the mixing tank (111), a float (222) passing through the outer wall of the fixed rod (221), the outer wall of the fixed rod (221) and the float (222) being slidably connected, and a discharge component is provided inside the mixing tank (111); The fixed rod (221) provides necessary support for the movement of the float (222).
4. The structure of the motor-driven stirring pressure tank according to claim 3, characterized in that, The connecting component (31) includes a plurality of fixing slots (311) formed on the mounting cover (112), and a plurality of mounting blocks (312) are provided on the top of the mounting cover (112), and handles (313) are fixedly connected to the outer walls of the plurality of mounting blocks (312). Four fixing slots (311) are provided and are distributed in a circle on the mounting cover (112).
5. The structure of the motor-driven stirring pressure tank according to claim 4, characterized in that, The mounting assembly (32) includes several fixing blocks (321) fixedly connected to the outer wall of the mixing tank (111). The inner walls of several fixing grooves (311) are slidably connected with connecting rods (322). The tops of several connecting rods (322) are fixedly connected to several mounting blocks (312). Locking blocks (323) penetrate several fixing blocks (321). The outer walls of several locking blocks (323) are rotatably connected to several fixing blocks (321). The outer walls of several locking blocks (323) penetrate several connecting rods (322). The outer walls of several locking blocks (323) are fixedly connected to several connecting rods (322).
6. The structure of the motor-driven stirring pressure tank according to claim 5, characterized in that, The detection component includes a pressure regulating valve (114) disposed on the top of the mounting cover (112), a pressure relief valve (115) disposed on the top of the mounting cover (112), and a safety valve (116) disposed on the top of the mounting cover (112). Among them, the pressure regulating valve (114) and the pressure relief valve (115) provide necessary support for regulating the pressure inside the mixing tank (111).
7. The structure of the motor-driven stirring pressure tank according to claim 6, characterized in that, The feeding component includes a feed pipe (216) connected to the mounting cover (112), the bottom of the feed pipe (216) being connected to the mixing tank (111), the mounting cover (112) having a feed inlet (217), and the outer wall of the feed pipe (216) being connected to the feed inlet (217).
8. The structure of the motor-driven stirring pressure tank according to claim 7, characterized in that, The discharge component includes a discharge pipe (223) disposed in the mixing tank (111), a filter screen (224) connected to the bottom of the discharge pipe (223), a discharge port (225) penetrating the top of the mounting cover (112), the outer wall of the discharge port (225) being fixedly connected to the mounting cover (112), and the top of the discharge pipe (223) being connected to the discharge port (225). The filter screen (224) is installed inside the mixing tank (111), and the discharge pipe (223) is made of stainless steel.