JP2020203470A - Dust control terminal of cement mixer - Google Patents

Abstract

To provide a dust control terminal of a cement mixer.SOLUTION: A dust control terminal of a cement mixer mainly comprises a base. A driving mechanism of controlling the working of the device is installed in the upper edge of the base, a stirring drum is installed in the right side of the driving mechanism, a stirring chamber is installed in the stirring drum, a stirring shaft having un upper edge located at the external space is installed in the stirring chamber, two cutting apparatuses symmetrically arranged and automatically applying cement are installed in the upper edge wall of the stirring chamber, a transfer mechanism capable of transferring power generated by the stirring shaft is installed in the upper edge wall of the stirring chamber, the phenomenon that dust is generated upon spill of cement or yellow sand to contaminate the environment is reduced, and further, dust caused upon stirring contaminates the environment is reduced by the system of watering to ensure the working environment of workers.SELECTED DRAWING: Figure 1

Description

The present invention relates to the field of environmental protection, and specifically is a dust control terminal for a cement mixer.

Currently, the hopper that adds the raw material of a commercially available cement mixer has a raw material inlet, and the raw material such as lime and stone is added into the hopper, and the hopper rolls, and the raw material is put into a drum and stirred.
In the process of adding and stirring the raw materials, a large amount of dust is generated, which pollutes the air and the environment, is not good for the environment, and pollutes the air around the worker, affecting the breathing and health of the worker. Moreover, the stirring of the concrete at the present stage is generally performed by the rotation of the stirring shaft or the drum, and the stirring efficiency is low.

Publication No. 10851238 of Chinese Patent Application

The technical problem to be solved by the present invention is to design a dust control terminal for a cement mixer, which overcomes problems such as low stirring efficiency and pollution of the environment by generated dust, and improves stirring efficiency to reduce dust generation. To do.

The present invention is realized by the following technical plan.

The mechanical structure diagram of the dust control terminal of the cement mixer of the present invention mainly includes a base, a drive mechanism for controlling the operation of the device is installed at the upper end of the base, and a stirring drum is installed on the right side of the drive mechanism. A stirring chamber was installed in the stirring drum, and a stirring shaft whose upper end was located in the external space was also installed in the stirring chamber.

In the upper end wall of the stirring chamber, there are also two symmetrically arranged cutting devices that automatically add cement, and the cutting device on the right side is open upward and said. A raw material storage chamber communicating with the stirring chamber is included, and a support plate is fixed between the front and rear end walls of the raw material storage chamber, and the support plate is open upward and one end is provided. A spring chamber in which the wall communicates with the raw material storage chamber is installed, a spring plate and two support springs for supporting the spring plate are installed in the spring chamber, and cement or yellow sand or yellow sand or yellow sand is installed on the upper side of the spring plate. A packaging bag of another additive is placed so that a packaging bag can be deposited, a slide shaft is fixed between the left and right end walls of the raw material storage chamber, the slide shaft is penetrated by the slide shaft, and the upper end is A cutting cutter located between the two support plates is slidably connected, and a return spring connected to the cutting cutter is fixed to the right end wall of the raw material storage chamber, and inside the left and right end walls of the spring chamber. A slide chamber opened upward is installed in each of the slide chambers, and a slide rod whose upper end is located in the raw material storage chamber and a slide spring capable of returning the slide rod are installed in the slide chamber. A triangular block capable of supporting the packaging bag is fixed to the upper end of the slide rod, and a rope having one end connected to the spring plate is fixed to the lower end of the slide rod to cover the lower end wall of the slide chamber. An elevating chamber opened upward is also installed inside, and an elevating block whose upper end limits the movement of the spring rod and an elevating spring capable of returning the elevating block are installed in the elevating chamber. A thin string is fixed to the lower end of the block, and an extrusion chamber is installed in the front end wall of the raw material storage chamber in which the rear end wall penetrates the raw material storage chamber and communicates with the external space. An electromagnet is fixed to the front end wall of the extrusion chamber, an extrusion rod and a connecting spring connecting the extrusion rod and the electromagnet are installed in the extrusion chamber, and in the lower end wall of the extrusion chamber. An extrusion groove opened upward is formed, and a trapezoidal block whose upper end is located in the extrusion chamber and a telescopic spring capable of returning the trapezoidal block are installed in the extrusion groove. After the lower end of the string penetrates the end wall of the extrusion groove and is connected to the trapezoidal block and the packaging bag is placed in the raw material storage chamber, the cutting cutter automatically performs the packaging bag. Is opened and cement is added to the stirring chamber to prevent dust from standing when the cement is added.

A transmission mechanism capable of transmitting the power generated by the stirring shaft is also installed in the upper end wall of the stirring chamber, and water is automatically added to the upper side of the transmission mechanism and water is automatically sprinkled to the outside. A possible watering mechanism is installed, which automatically adds water to the stirring chamber and at the same time sprinkles water to the outside, thereby providing convenience in controlling dust.

Further, the drive mechanism includes two support columns, a drive chamber is installed in the support column on the left side, a motor is fixed to the upper end wall of the drive chamber, and a drive shaft is attached to the lower end of the motor. Are connected so that power can be transmitted, a drive gear and a first belt pulley are fixed to the drive shaft, a driven chamber is also installed in the lower end wall of the drive chamber, and the upper end wall of the drive chamber is installed. The driven shaft whose lower end is located in the driven chamber is connected so as to be rotatable, and the driven gear meshing with the drive gear is fixed to the upper end of the driven shaft, and the lower end of the driven shaft is fixed. A turning gear is fixed to the two, and a support arc-shaped groove communicating with the external space is formed in each of the two support columns, and a ring gear is fixed to the outer end of the stirring drum. The left and right ends of the ring gear are located in the support arc groove, the left end of the ring gear meshes with the turning gear, a fixing plate is fixed to the upper end of the support shaft on the left side, and the stirring shaft The upper end and the lower end surface of the fixing plate are connected so as to be rotatable, and the first belt pulley and the second belt pulley connected by the belt are fixed to the upper end of the stirring shaft, and the lower end wall of the stirring chamber is fixed. A discharge hole connected to an external space was installed inside, a first electromagnetic switch was also installed in the discharge hole, and six stirring blades were fixed to the lower end of the stirring shaft.

Further, the cutting mechanism on the left side also includes a rotary groove that communicates the external space and the raw material storage chamber, and is connected between the front and rear end walls of the rotary groove so that the rotary shaft can rotate, and is connected to the rotary shaft. Is fixed with a rotating plate that closes the raw material storage chamber, and a rotating groove that communicates the external space and the extrusion chamber is formed in the rear end wall of the raw material storage chamber, and the front and rear ends of the rotating groove. A rotating shaft was rotatably connected between the walls, and a rotating plate capable of closing the extrusion chamber was fixed to the rotating shaft.

Further, the transmission mechanism includes a transmission chamber, the upper end of the stirring shaft penetrates the transmission chamber, and a rotation gear is fixed to the stirring shaft located in the transmission chamber, and the rotation gear is fixed. A slanted conical base is fixed to the upper end surface of the transmission chamber, and two transmission shafts are rotatably connected between the upper and lower end walls of the transmission chamber, and between the upper end of the transmission shaft and the upper end wall of the transmission chamber. Is connected by a torsion spring, a transmission gear that meshes with the rotation gear is connected to the transmission shaft by a spline, two support blocks are installed under the transmission gear, and two support blocks are installed at the upper end of the support block. A chain whose upper end was connected to the lower end of the spring plate was fixed, and a drawstring whose one end was connected to the cutting cutter was fixed to the lower end of the transmission shaft.

Further, the watering mechanism includes two upwardly open water storage chambers, two sprinklers are fixed to the upper end surface of the stirring drum, and the water storage chamber and the stirring chamber are contained in the lower end wall of the water storage chamber. A communication pipe is installed, a second electromagnetic switch is installed in the communication pipe, a connecting plate is installed in the water storage chamber, and the lower end is the transmission chamber at the lower end of the connecting plate. A connecting rod that is located inside and is in contact with the upper end surface of the slanted cone is fixed, and a spring groove is formed in one end wall of the water storage chamber. A spring block whose one end is located in the water storage chamber and a compression spring capable of returning the spring block are installed inside, and one end of the spring block and the upper end of the connecting plate are connected by a steel wire. The upper end wall of the spring groove and the sprinkler are connected by a water discharge pipe, and the lower end wall of the spring groove and one end wall of the water storage chamber are connected by a water flow pipe to discharge the water. Check valves were installed in both the pipe and the water flow pipe.

Further, the extrusion rod can attract or repel each other with the electromagnet, and the magnetic force between the extrusion rod and the electromagnet is much larger than the elasticity of the connecting spring.

Further, the elasticity of the two support springs is much larger than the sum of the gravity of the transmission gear and the gravity of the support block.

Further, the elasticity of the return spring is much larger than the elasticity of the torsion spring.

The beneficial effect of the present invention is: the device is simple in structure and convenient to operate, the device can automatically cut the packaging bag containing cement or yellow sand etc. in a closed environment when stirring concrete. It avoids polluting the environment by dusting when cement or yellow sand spills, and the watering method reduces the pollution of the environment by dust generated during stirring and protects the environment.

In order to explain the present invention in detail with reference to FIGS. 1 to 4 below and to explain the present invention in a convenient manner, the following directions are defined as follows: FIG. 1 is a front view of the apparatus of the present invention, and is described above and below. The left-right front-rear direction and the up-down, left-right front-back direction of the self-projection relationship in FIG.

FIG. 1 is a schematic structural diagram of an embodiment of the present invention. FIG. 2 is a schematic view of a left side enlarged structure of a partial cross section of the cutting mechanism according to the embodiment of the present invention. FIG. 3 is a schematic front enlarged structure of a partial cross section of the cutting mechanism according to the embodiment of the present invention. FIG. 4 is a schematic front enlarged structure of a partial cross section of the transmission mechanism according to the embodiment of the present invention.

In addition to the mechanical structure diagram of the dust control terminal of the cement mixer described in FIGS. 1 to 4, the dust control terminal of the cement mixer mainly includes the base 1, and the upper end of the base 1 is a drive mechanism for controlling the operation of the device. 9 is installed, a stirring drum 3 is installed on the right side of the drive mechanism 9, a stirring chamber 26 is installed in the stirring drum 3, and the upper end is located in the external space in the stirring chamber 26. A stirring shaft 22 is installed, and two symmetrically arranged cutting devices 29 are installed in the upper end wall of the stirring chamber 26, and a cutting device 29 for automatically adding cement is installed. The cutting device 29 includes a raw material storage chamber 19 that is open upward and communicates with the stirring chamber 26, and a support plate 37 is fixed between the front and rear end walls of the raw material storage chamber 19. A spring chamber 36 is installed in the support plate 37, which is open upward and one end wall communicates with the raw material storage chamber 19, and the spring plate 35 and the spring plate are contained in the spring chamber 36. Two support springs 38 for supporting the 35 are installed, and a packaging bag 46 of cement or yellow sand or another additive is placed on the upper side of the spring plate 38 so that a packaging bag 46 of cement or yellow sand or another additive can be deposited, and is left and right of the raw material storage chamber 19. A slide shaft 73 is fixed between the end walls so that the cutting cutter 74, which is penetrated by the slide shaft 73 and whose upper end is located between the two support plates 37, can slide on the slide shaft 73. A return spring 75 connected to the cutting cutter 74 is fixed to the right end wall of the raw material storage chamber 19, and a slide chamber 52 opened upward is located in the left and right end walls of the spring chamber 36. A slide rod 49 whose upper end is located in the raw material storage chamber 19 and a slide spring 50 capable of returning the slide rod 49 are installed in the slide chamber 52, and the slide rod 49 is installed. A triangular block 48 capable of supporting the packaging bag 46 is fixed to the upper end of the slide rod 49, and a rope 51 having one end connected to the spring plate 35 is fixed to the lower end of the slide rod 49, and the lower end wall of the slide chamber 52. An elevating chamber 55 opened upward is also installed in the elevating chamber 55, and an elevating block 53 whose upper end limits the movement of the spring rod 49 and an elevating spring capable of returning the elevating block 53 can be returned. 54 is installed, in front A thin string 41 is fixed to the lower end of the elevating block 53, and a rear end wall penetrates the raw material storage chamber 19 in the front end wall of the raw material storage chamber 19 and communicates with an external space. An extrusion chamber 47 is installed, an electromagnet 43 is fixed to the front end wall of the extrusion chamber 47, and an extrusion rod 45 and a connecting spring 44 connecting the extrusion rod 45 and the electromagnet 43 are also contained in the extrusion chamber 47. Is installed, an extrusion groove 39 opened upward is formed in the lower end wall of the extrusion chamber 45, and a trapezoidal shape in which the upper end is located in the extrusion chamber 45 in the extrusion groove 39. A telescopic spring 40 capable of returning the block 42 and the trapezoidal block 42 is installed, the lower end of the fine string 41 penetrates the end wall of the extrusion groove 39, and is connected to the trapezoidal block 42. After the packaging bag 46 is placed in the raw material storage chamber 19, the cutting cutter 74 automatically opens the packaging bag 46 and adds cement to the stirring chamber 26 to prevent dust from standing when the cement is added. A transmission mechanism 30 capable of transmitting the power generated by the stirring shaft 22 is also installed in the upper end wall of the stirring chamber 26, and water is automatically added to the upper side of the transmission mechanism 30. A sprinkling mechanism 31 capable of automatically sprinkling water to the outside is installed, and the sprinkling mechanism 31 automatically adds water to the stirring chamber 26 and at the same time sprinkles water to the outside, thereby providing convenience in controlling dust.

As a benefit, the drive mechanism 9 includes two support columns 2, a drive chamber 15 is installed in the support column 2 on the left side, and a motor 14 is fixed to the upper end wall of the drive chamber 15. A drive shaft 10 is connected to the lower end of the motor 14 so that power can be transmitted, and a drive gear 12 and a first belt pulley 11 are fixed to the drive shaft 10 in the lower end wall of the drive chamber 15. A driven chamber 6 is also installed in the drive chamber 6, and a driven shaft 4 whose lower end is located in the driven chamber 6 is connected to the upper end wall of the drive chamber 15 so as to be rotatable, and the upper end of the driven shaft 4 is connected. A driven gear 13 that meshes with the drive gear 12 is fixed to the vehicle, a turning gear 5 is fixed to the lower end of the driven shaft 4, and both of the two support columns 2 communicate with the external space. A support arc-shaped groove 8 is formed, a ring gear 7 is fixed to the outer end of the stirring drum 3, and both left and right ends of the ring gear 7 are located in the support arc-shaped groove 8. The left end of the shaft meshes with the turning gear 5, a fixing plate 16 is fixed to the upper end of the support shaft 2 on the left side, and the upper end of the stirring shaft 22 and the lower end surface of the fixing plate 16 can rotate. The first belt pulley 11 and the second belt pulley 21 connected by the belt 17 are fixed to the upper end of the stirring shaft 22, and are connected to an external space in the lower end wall of the stirring chamber 26. The discharge hole 28 is installed, the first electromagnetic switch 27 is also installed in the discharge hole 28, and six stirring blades 25 are fixed to the lower end of the stirring shaft 22.

Beneficially, the cutting mechanism 29 on the left side also includes a rotary groove 24 that communicates the external space with the raw material storage chamber 19 so that the rotary shaft 18 can rotate between the front and rear end walls of the rotary groove 24. A rotating plate 23 that closes the raw material storage chamber 19 is fixed to the rotating shaft 18, and a rotation that communicates the external space and the extrusion chamber 47 in the rear end wall of the raw material storage chamber 19. A groove 34 is formed, and a rotating shaft 32 is connected between the front and rear end walls of the rotating groove 34 so as to be rotatable, and a rotating plate 33 capable of closing the extrusion chamber 47 is fixed to the rotating shaft 32. It was.

Beneficially, the transmission mechanism 30 includes a transmission chamber 67, the upper end of the stirring shaft 22 penetrates the transmission chamber 67, and the stirring shaft 22 located in the transmission chamber 67. The rotating gear 69 is fixed, a slanted conical base 68 is fixed to the upper end surface of the rotating gear 69, and two transmission shafts 70 are connected so as to be rotatable between the upper and lower end walls of the transmission chamber 67. The upper end of the transmission shaft 70 and the upper end wall of the transmission chamber 67 are connected by a torsion spring 76, and a transmission gear 79 meshing with the rotation gear 69 is connected to the transmission shaft 70 by a spline. Two support blocks 71 are installed on the lower side of the 79, a chain 56 whose upper end is connected to the lower end of the spring plate 35 is fixed to the upper end of the support block 71, and one end to the lower end of the transmission shaft 70. The pull string 72 connected to the cutting cutter 74 was fixed.

Beneficially, the watering mechanism 31 includes two upwardly open water storage chambers 59, two sprinklers 20 fixed to the upper end surface of the stirring drum 3, and in the lower end wall of the water storage chamber 59. A communication pipe 66 for communicating the water storage chamber 59 and the stirring chamber 26 is installed, a second electromagnetic switch 64 is installed in the communication pipe 66, and a connecting plate 62 is installed in the water storage chamber 59. A connecting rod 65 is installed, the lower end of which is located in the transmission chamber 67 at the lower end of the connecting plate 62, and is in contact with the upper end surface of the inclined conical base 68, and the water storage chamber 59 is fixed. A spring groove 58 is formed in one end wall of the steel groove 58, and the spring block 60 and the spring block 60 whose one end is located in the water storage chamber 59 are restored in the spring groove 58. A compression spring 77 is installed, one end of the spring block 60 and the upper end of the connecting plate 62 are connected by a steel wire 61, and a water discharge pipe 57 is between the upper end wall of the spring groove 58 and the sprinkler 20. The lower end wall of the spring groove 58 and one end wall of the water storage chamber 59 are connected by a water flow pipe 63, and both of the water discharge pipe 57 and the water flow pipe 63 are reversed. A check valve 78 was installed.

The order of mechanical operation of the entire device is:

1: When stirring concrete, the rotating plate 23 is turned by hand, the packaging bags 46 are stacked in the raw material storage chamber 19, and the bottom packaging bag 46 is placed on the two spring plates 35, thereby springing. The plate 35 descends, thereby pulling the rope 51, which brings the two slide rods 49 closer to each other, whereby one end of the two triangular blocks 48 is located underneath the second packaging bag 46 from the chatter. It supports the packaging bag 46 and fills the water storage chamber 59 with water.

2: The motor 24 operates, thereby rotating and interlocking the drive shaft 10, thereby rotating and interlocking the drive gear 12 and the first belt pulley 11, and the drive gear 12 rotationally interlocks the driven gear 13, thereby driving. The shaft 4, the turning gear 5, and the ring gear 7 are rotated, thereby rotating the stirring drum 3, and the first belt pulley 11 rotates and interlocks the second belt pulley 21 with the belt 17, thereby causing the stirring shaft 22 to rotate. Rotationally interlocked, thereby rotating and interlocking the stirring blade 25 to start stirring, turning off the first electromagnetic switch 27, turning on the second electromagnetic switch 64, adding a certain amount of water into the stirring chamber 26, and then the second electromagnetic. Switch off 64.

3: The rotation of the stirring shaft 22 interlocks the rotation gear 69 with the rotation, thereby rotating the inclined conical base 68, thereby controlling and raising and lowering the two left and right connecting rods 65, thereby moving the two left and right connecting plates 62. Controlled up and down, the connecting plate 62 rises, thereby loosening the steel wire 61, which causes the spring block 60 to return under the action of the compression spring 77, thereby providing the water flow pipe 63 and the water discharge pipe 57. The connection plate 62 is lowered, the spring block 60 is moved by the transmission of the steel wire 61, and the compression spring 77 is pulled, whereby the water flow pipe 63 and the water discharge pipe 57 are communicated with each other and the connection plate is connected. 62 descends and water is ejected by the sprinkler 20 through the water flow pipe 63 and the water discharge pipe 57.

4: The rotating gear 79 rotationally interlocks the transmission gear 79, thereby rotating the transmission shaft 70, thereby tightly winding the drawstring 72, thereby moving and interlocking the cutting cutter 74, thereby moving the packaging bag 46. When the object in the packaging bag 46 is automatically entered into the stirring chamber 26, the return spring 75 is pulled, and the toothless portion of the rotating gear 79 faces the transmission gear, the transmission shaft 70 is moved. It returns under the action of the torsion spring 70, thereby loosening the drawstring 72, whereby the cutting cutter 74 returns under the action of the return spring 75.

5: After all the items in the packaging bag 46 have fallen, the spring plate 35 rises, thereby pulling the chain 56 firmly, thereby raising and interlocking the support block 71, thereby raising and interlocking the transmission gear 79. When the spring plate 35 rises, the rope 51 is loosened, and when the spring plate 35 rises to the uppermost position, the electromagnet 43 operates and moves backward with the extrusion rod 45 to disengage from the meshing with the turning gear 69. As a result, the empty packaging bag 46 is pushed out from the raw material storage chamber 19, and then the electric magnet 43 operates to attract the empty packaging bag 46 to the pushing rod 45, whereby the pushing rod 45 is moved forward and the trapezoidal block 42 is lowered. As a result, the fine cord 41 is interlocked and operated, and the elevating block 53 is interlocked downward, whereby the slide rod 49 is returned, whereby the packaging bag 46 on the upper side of the triangular block 48 falls downward, and the spring plate 37 is renewed. The chain 56 is loosened, pulling the rope 51 tightly, and the chain 56 is loosened to lower the support block 71, which causes the transmission gear 79 to re-engage with the rotating gear 69, at this time the electromagnet 43. Does not operate, the connecting spring 44 returns and the extrusion rod 45 returns and interlocks, the trapezoidal block 42 returns, thereby the elevating block 53 returns, and the device operates again to add raw materials and stir. Cut the packaging bag 46 until it is complete.

6: After the stirring is completed, the first electromagnetic switch 27 is turned on and the concrete is taken out.

The above-mentioned examples merely explain the technical concept and features of the present invention, the purpose of which is to make a person skilled in the art understand the contents of the present invention and further implement the invention, and the scope of protection of the present invention cannot be limited. .. All equivalent changes or modifications made on the basis of the spiritual substance of the invention should be included within the scope of protection of the invention.

Claims (8)

When viewed from the front, a drive mechanism that mainly includes the base and controls the operation of the device is installed at the upper end of the base, a stirring drum is installed on the right side of the drive mechanism, and a stirring chamber is installed in the stirring drum. Is installed, and a stirring shaft whose upper end is located in the external space is also installed in the stirring chamber.
In the upper end wall of the stirring chamber, there are also two symmetrically arranged cutting devices that automatically add cement, and the cutting device on the right side is open upward and said. A raw material storage chamber communicating with the stirring chamber is included, and a support plate is fixed between the front and rear end walls of the raw material storage chamber, and the support plate is open upward and one end is provided. A spring chamber in which the wall communicates with the raw material storage chamber is installed, a spring plate and two support springs for supporting the spring plate are installed in the spring chamber, and cement or yellow sand or yellow sand or yellow sand is installed on the upper side of the spring plate. A packaging bag of another additive is placed so that a packaging bag can be deposited, a slide shaft is fixed between the left and right end walls of the raw material storage chamber, the slide shaft is penetrated by the slide shaft, and the upper end is A cutting cutter located between the two support plates is slidably connected, and a return spring connected to the cutting cutter is fixed to the right end wall of the raw material storage chamber, and inside the left and right end walls of the spring chamber. A slide chamber opened upward is installed in each of the slide chambers, and a slide rod whose upper end is located in the raw material storage chamber and a slide spring capable of returning the slide rod are installed in the slide chamber. A triangular block capable of supporting the packaging bag is fixed to the upper end of the slide rod, and a rope having one end connected to the spring plate is fixed to the lower end of the slide rod to cover the lower end wall of the slide chamber. An elevating chamber opened upward is also installed inside, and an elevating block whose upper end limits the movement of the spring rod and an elevating spring capable of returning the elevating block are installed in the elevating chamber. A thin string is fixed to the lower end of the block, and an extrusion chamber is installed in the front end wall of the raw material storage chamber in which the rear end wall penetrates the raw material storage chamber and communicates with the external space. An electromagnet is fixed to the front end wall of the extrusion chamber, an extrusion rod and a connecting spring connecting the extrusion rod and the electromagnet are installed in the extrusion chamber, and in the lower end wall of the extrusion chamber. An extrusion groove opened upward is formed, and a trapezoidal block whose upper end is located in the extrusion chamber and a telescopic spring capable of returning the trapezoidal block are installed in the extrusion groove. After the lower end of the string penetrates the end wall of the extrusion groove and is connected to the trapezoidal block and the packaging bag is placed in the raw material storage chamber, the cutting cutter automatically performs the packaging bag. And add cement to the stirring chamber to prevent dust from standing when adding cement.
A transmission mechanism capable of transmitting the power generated by the stirring shaft is also installed in the upper end wall of the stirring chamber, and water is automatically added to the upper side of the transmission mechanism and water is automatically sprinkled to the outside. A dust control terminal for a cement mixer, characterized in that a watering mechanism is installed, which automatically adds water to the stirring chamber and at the same time sprinkles water to the outside, thereby providing convenience in controlling dust. .. The drive mechanism includes two support columns, a drive chamber is installed in the support column on the left side, a motor is fixed to the upper end wall of the drive chamber, and a drive shaft is powered by the lower end of the motor. A drive gear and a first belt pulley are fixed to the drive shaft, a driven chamber is also installed in the lower end wall of the drive chamber, and a driven chamber is installed in the upper end wall of the drive chamber. Further, a driven shaft whose lower end is located in the driven chamber is connected so as to be rotatable, a driven gear meshing with the drive gear is fixed to the upper end of the driven shaft, and a driven gear meshing with the drive gear is fixed to the lower end of the driven shaft. The turning gear is fixed, a support arc-shaped groove communicating with the external space is formed in each of the two support columns, a ring gear is fixed to the outer end of the stirring drum, and the ring gear of the ring gear is fixed. Both left and right ends are located in the support arc groove, the left end of the ring gear meshes with the turning gear, a fixing plate is fixed to the upper end of the support shaft on the left side, and the upper end of the stirring shaft The lower end surface of the fixing plate is rotatably connected, and the first belt pulley and the second belt pulley connected by the belt are fixed to the upper end of the stirring shaft, and are inside the lower end wall of the stirring chamber. Is characterized in that a discharge hole connected to an external space is installed, a first electromagnetic switch is installed in the discharge hole, and six stirring blades are fixed at the lower end of the stirring shaft. The dust control terminal of the cement mixer according to claim 1. The cutting mechanism on the left side also includes a rotary groove that communicates the external space with the raw material storage chamber, and is connected between the front and rear end walls of the rotary groove so that the rotary shaft can rotate, and the rotary shaft is connected to the rotary shaft. A rotating plate that closes the raw material storage chamber is fixed, and a rotating groove that communicates the external space and the extrusion chamber is formed in the rear end wall of the raw material storage chamber, and the front and rear end walls of the rotating groove are formed. The dust control terminal for a cement mixer according to claim 1, wherein a rotating shaft is rotatably connected between the rotating shafts, and a rotating plate capable of closing the extrusion chamber is fixed to the rotating shaft. The transmission mechanism includes a transmission chamber, the upper end of the stirring shaft penetrates the transmission chamber, and a rotation gear is fixed to the stirring shaft located in the transmission chamber, and the rotation gear is above the rotation gear. A slanted conical base is fixed to the end face, two transmission shafts are rotatably connected between the upper and lower end walls of the transmission chamber, and a torsion is formed between the upper end of the transmission shaft and the upper end wall of the transmission chamber. A transmission gear that is connected by a spring and meshes with the rotation gear is connected to the transmission shaft by a spline, two support blocks are installed under the transmission gear, and an upper end is at the upper end of the support block. The cement mixer according to claim 1, wherein a chain connected to the lower end of the spring plate is fixed, and a drawstring having one end connected to the cutting cutter is fixed to the lower end of the transmission shaft. Dust control terminal. The sprinkler mechanism includes two upwardly open water storage chambers, two sprinklers are fixed to the upper end surface of the stirring drum, and the water storage chamber and the stirring chamber are communicated with each other in the lower end wall of the water storage chamber. A communication pipe is installed, a second electromagnetic switch is installed in the communication pipe, a connecting plate is installed in the water storage chamber, and the lower end of the connecting plate is in the transmission chamber. A connecting rod located in the water storage chamber and in contact with the upper end surface of the inclined conical base is fixed, and a spring groove is formed in one end wall of the water storage chamber, and the spring groove is formed in the spring groove. A spring block whose one end is located in the water storage chamber and a compression spring capable of returning the spring block are installed, and one end of the spring block and the upper end of the connecting plate are connected by a steel wire. The upper end wall of the spring groove and the sprinkler are connected by a water discharge pipe, and the lower end wall of the spring groove and one end wall of the water storage chamber are connected by a water flow pipe, and the water discharge pipe and The dust control terminal for a cement mixer according to claim 1 or 4, wherein a check valve is installed in each of the water passage pipes. The dust control of the cement mixer according to claim 1, wherein the extrusion rod can attract or repel each other with the electromagnet, and the magnetic force between the extrusion rod and the electromagnet is much larger than the elasticity of the connecting spring. Terminal. The dust control terminal of a cement mixer according to claim 1 or 4, wherein the elasticity of the two support springs is much larger than the sum of the gravity of the transmission gear and the gravity of the support block. The dust control terminal for a cement mixer according to claim 1 or 4, wherein the elasticity of the return spring is much larger than the elasticity of the torsion spring.

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