CN117445177B - High-efficient mixing arrangement of cement mortar - Google Patents

Abstract

The invention discloses a cement mortar efficient mixing device, which belongs to the technical field of cement mortar mixing and comprises a barrel device placed on the ground, wherein the barrel device is used for containing cement mortar, a feeding device is arranged on the barrel device and used for feeding the cement mortar into the barrel device, and a stirring device is arranged on the barrel device and used for mixing the cement mortar. The stirring device provided by the invention adopts a plurality of stirring ends to stir simultaneously, one stirring end is the stirring of the main rotating shaft, and the stirring efficiency is greatly improved by combining the stirring modes of the rotation of the rotating shaft and the revolution of the rotating shaft along with the rotation of the main rotating shaft, wherein the stirring ends are the stirring of the main rotating shaft and the swinging stirring of the rotating blades on the main rotating shaft; the feeding device and the stirring device share a power source, and the feeding is conveyed by only arranging a bottom motor, and the combination of multiple stirring modes is realized, so that the degree of automation is high, and the control system is simple.

Description

High-efficient mixing arrangement of cement mortar

Technical Field

The invention relates to the technical field of cement mortar mixing, in particular to a cement mortar efficient mixing device.

Background

Cement mortar is mortar prepared by mixing cement, fine sand and water together according to different requirements, and cement, fine sand and water with different proportions are put into the mortar, and the mortar is used in the building construction process, so that the cement mortar is conveniently constructed, generally mixed by workers on site and manually stirred or stirred by a small-sized stirrer on site, the mixing ratio of the cement mortar refers to the volume ratio of three raw materials, the mortar used in the structural construction is mainly finished mortar, and the Chinese patent application with publication number of CN109834834A discloses a cement mortar mixing device.

Disclosure of Invention

Aiming at the technical problems, the invention adopts the following technical scheme: the utility model provides a high-efficient mixing arrangement of cement mortar, includes the barrel device of placing subaerial, barrel device include underframe frame and main barrel, the underframe frame is placed subaerial, fixed mounting has the end cover on the main barrel, barrel device be used for holding cement mortar, barrel device on be provided with feed arrangement, feed arrangement include the inlet pipe, inlet pipe fixed mounting is on main barrel, feed arrangement be arranged in sending cement mortar into barrel device, barrel device on be provided with agitating unit, agitating unit include main axis of rotation, main axis of rotation and end cover rotate the installation, agitating unit be used for mixing cement mortar.

And the cement mortar in the cylinder device is stirred and mixed by the stirring device.

Further, the barrel device include to rotate the lower buffer tube of installing on the underframe, slidable mounting has the buffer tube on the lower buffer tube, is provided with the spring between lower buffer tube and the last buffer tube, goes up buffer tube and main barrel and rotates the installation, fixed mounting has the inlet tube on the end cover, fixed mounting has the water spray shell on the inlet tube, water spray shell fixed mounting is in main barrel, is provided with drive mechanism on the main barrel, main barrel bottom is provided with discharge mechanism.

Further, the transmission mechanism comprises a gear cylinder fixedly installed on the main cylinder body, a connecting frame is fixedly installed on the gear cylinder, a connecting column is fixedly installed on the gear cylinder, an annular gear is fixedly installed on the connecting column, a convex disc is fixedly installed on the gear cylinder, a spring is fixedly installed on the connecting frame, a bottom motor is fixedly installed below the gear cylinder, a motor driving wheel is fixedly installed on a motor shaft of the bottom motor, and a transmission belt is wound outside the motor driving wheel.

Further, the discharging mechanism comprises a discharging frame fixedly arranged at the bottom of the main cylinder body, a bottom cover plate is rotatably arranged on the discharging frame, a bottom electric cylinder is rotatably arranged on the bottom frame, and the end part of the bottom electric cylinder is rotatably arranged with the bottom cover plate.

Cement mortar enters the main cylinder body through the feeding device, the cement mortar is stirred through the stirring device, the lower buffer cylinder and the upper buffer cylinder are damped, the motor at the bottom rotates to drive the motor driving wheel to rotate, and accordingly the feeding device and the stirring device are driven to act through the driving belt.

Water is introduced through the water inlet pipe and flows into the main cylinder through the water spraying shell.

After the cement mortar is stirred and mixed, the bottom electric cylinder contracts to drive the bottom cover plate to rotate relative to the discharge frame, and the stirred cement mortar flows out of the discharge frame.

Further, the feeding device comprises a rotating shaft which is rotatably arranged on the gear cylinder, an upper driving wheel is fixedly arranged on the rotating shaft, the rotating shaft is rotatably arranged with the feeding pipe, a spiral pipe is fixedly arranged on the rotating shaft, and a driving belt is wound outside the upper driving wheel.

Cement and mortar are respectively put into the two feeding pipes, and the upper driving wheel is driven to rotate through the driving belt, so that the rotating shaft is driven to rotate, the spiral pipe is driven to rotate, and the cement and the mortar are conveyed into the main cylinder.

Further, the stirring device comprises an inner sliding shaft which is slidably arranged in a main rotating shaft, a rotating wheel frame is fixedly arranged on the inner sliding shaft, a roller is rotatably arranged on the rotating wheel frame, the roller is in rolling contact with a convex disc, a middle driving wheel is fixedly arranged on the main rotating shaft, a driving belt is wound outside the middle driving wheel, a gear frame is fixedly arranged on the main rotating shaft, a connecting disc is fixedly arranged on the gear frame, an end connecting frame is fixedly arranged on the main rotating shaft, a rotating blade mechanism is arranged on the main rotating shaft, and a side stirring mechanism is arranged on the gear frame.

Further, the rotating vane mechanism comprises a rotating vane rotatably arranged on the main rotating shaft, a rotating vane gear is fixedly arranged on the rotating vane, an inner rack is fixedly arranged on the inner sliding shaft, and the inner rack is meshed with the rotating vane gear.

Further, the side stirring mechanism comprises a side rotating shaft which is rotatably arranged on the gear frame, a gear is fixedly arranged on the side rotating shaft, the gear is meshed with the inner gear ring, a side stirring rod and a middle stirring rod are fixedly arranged on the side rotating shaft, and the side rotating shaft is rotatably arranged with the end connecting frame.

Further, an inner octagonal sleeve is arranged in the main rotating shaft, an octagonal block is fixedly arranged on the inner sliding shaft, and the inner sliding shaft slides in the inner octagonal sleeve through the octagonal block.

The transmission belt rotates to drive the middle driving wheel to rotate, thereby drive the main axis of rotation and rotate, the main axis of rotation drives the interior sliding shaft simultaneously, interior sliding shaft rotates and drives the rotation wheel carrier to rotate, thereby drive the gyro wheel to roll on the cam, because the cam is not, thereby drive rotation wheel carrier and interior sliding shaft and make a round trip to slide for the main axis of rotation, the spring constantly extrudees, thereby drive interior rack constantly to slide, thereby drive the rotation leaf gear and rotate, thereby drive the rotation leaf constantly swing, stirring mixing efficiency is improved, the main axis of rotation can drive the gear carrier to rotate simultaneously, thereby drive limit axis of rotation and gear rotation, because the gear meshes with the ring gear, still rotate when following main axis of rotation together, drive limit stirring rod and well stirring rod stir mixing cement mortar, further improve mixing efficiency.

Compared with the prior art, the invention has the beneficial effects that: (1) The stirring device provided by the invention adopts a plurality of stirring ends to stir simultaneously, one stirring end is the stirring of the main rotating shaft, and the stirring efficiency is greatly improved by combining the stirring modes of the rotation of the rotating shaft and the revolution of the rotating shaft along with the rotation of the main rotating shaft, wherein the stirring ends are the stirring of the main rotating shaft and the swinging stirring of the rotating blades on the main rotating shaft; (2) The feeding device and the stirring device share one power source, and the feeding is conveyed and the combination of multiple stirring modes is realized by only arranging the bottom motor, so that the automatic degree is high, and the control system is simple; (3) The water inlet pipe provided by the invention uniformly flows water into the main cylinder body through the water spraying shell, and is uniformly mixed with cement and mortar, so that the mixing efficiency is improved.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a schematic diagram of the overall structure of the present invention.

Fig. 3 is a schematic structural diagram of a cylinder device according to the present invention.

Fig. 4 is a schematic structural diagram of a barrel device according to the present invention.

Fig. 5 is a schematic diagram of the structure of the discharging mechanism of the invention.

Fig. 6 is a schematic diagram of a barrel device according to the third embodiment of the present invention.

FIG. 7 is a schematic view of the feeding device of the present invention.

FIG. 8 is a schematic view of a stirring device according to the present invention.

FIG. 9 is a schematic diagram of a stirring apparatus according to the second embodiment of the present invention.

Fig. 10 is a schematic view of the main shaft and the inner shaft portion of the present invention.

Fig. 11 is an enlarged partial schematic view of fig. 10 a according to the present invention.

Fig. 12 is an enlarged partial schematic view of the present invention at B in fig. 10.

Reference numerals: 101-a bottom frame; 102-a lower buffer cylinder; 103-upper buffer cylinder; 104-a main cylinder; 105-gear cylinder; 106-a bottom motor; 107-a motor driving wheel; 108-a transmission belt; 109-end cap; 110-a connecting frame; 111-an inner gear ring; 112-connecting columns; 113-a bottom electric cylinder; 114-a bottom cover plate; 115-a discharge frame; 116-water inlet pipe; 117-spray shells; 118-cam; 119-spring; 201-a feed pipe; 202-rotating shaft; 203-an upper driving wheel; 204-spiral tube; 301-a main rotation shaft; 3011-inner octagonal sleeve; 302-an inner slide shaft; 303-rotating the wheel frame; 304-a roller; 305-a middle driving wheel; 306-a carrier; 307-gear; 308-edge rotation axis; 309-edge stirring bar; 310-rotating blades; 311-end connection rack; 312-middle stirring rod; 313-connecting disc; 314-an inner rack; 315-rotating leaf gear; 316-octagon block.

Detailed Description

The following describes the embodiments of the present invention further with reference to the drawings.

Examples: referring to fig. 1-12, a cement mortar efficient mixing device comprises a barrel device placed on the ground, wherein the barrel device comprises a bottom frame 101 and a main barrel 104, the bottom frame 101 is placed on the ground, an end cover 109 is fixedly installed on the main barrel 104, the barrel device is used for containing cement mortar, a feeding device is arranged on the barrel device and comprises a feeding pipe 201, the feeding pipe 201 is fixedly installed on the main barrel 104 and used for feeding cement mortar into the barrel device, a stirring device is arranged on the barrel device and comprises a main rotating shaft 301, the main rotating shaft 301 is rotatably installed with the end cover 109, and the stirring device is used for mixing cement mortar.

And the cement mortar in the cylinder device is stirred and mixed by the stirring device.

As shown in fig. 3 to 6, the cylinder device comprises a lower buffer cylinder 102 rotatably mounted on a bottom frame 101, an upper buffer cylinder 103 is slidably mounted on the lower buffer cylinder 102, a spring is arranged between the lower buffer cylinder 102 and the upper buffer cylinder 103, the upper buffer cylinder 103 is rotatably mounted with a main cylinder 104, a water inlet pipe 116 is fixedly mounted on an end cover 109, a water spraying shell 117 is fixedly mounted on the water inlet pipe 116, the water spraying shell 117 is fixedly mounted in the main cylinder 104, a transmission mechanism is arranged on the main cylinder 104, and a discharging mechanism is arranged at the bottom of the main cylinder 104.

As shown in fig. 3 to 6, the transmission mechanism comprises a gear cylinder 105 fixedly installed on a main cylinder 104, a connecting frame 110 is fixedly installed on the gear cylinder 105, a connecting column 112 is fixedly installed on the gear cylinder 105, an inner gear ring 111 is fixedly installed on the connecting column 112, a convex disc 118 is fixedly installed on the gear cylinder 105, a spring 119 is fixedly installed on the connecting frame 110, a bottom motor 106 is fixedly installed below the gear cylinder 105, a motor driving wheel 107 is fixedly installed on a motor shaft of the bottom motor 106, and a transmission belt 108 is wound outside the motor driving wheel 107.

As shown in fig. 5, the discharging mechanism comprises a discharging frame 115 fixedly installed at the bottom of the main cylinder 104, a bottom cover plate 114 is rotatably installed on the discharging frame 115, a bottom electric cylinder 113 is rotatably installed on the bottom frame 101, and the end part of the bottom electric cylinder 113 is rotatably installed with the bottom cover plate 114.

Cement mortar enters the main cylinder 104 through the feeding device, the cement mortar is stirred through the stirring device, the lower buffer cylinder 102 and the upper buffer cylinder 103 are damped, the bottom motor 106 rotates to drive the motor driving wheel 107 to rotate, and accordingly the feeding device and the stirring device are driven to act through the driving belt 108.

Water is introduced through the inlet pipe 116 and flows into the main cylinder 104 through the spray housing 117.

After the cement mortar is stirred and mixed, the bottom electric cylinder 113 is contracted to drive the bottom cover plate 114 to rotate relative to the discharge frame 115, and the stirred cement mortar flows out from the discharge frame 115.

As shown in fig. 7, the feeding device comprises a rotating shaft 202 rotatably mounted on the gear cylinder 105, an upper driving wheel 203 is fixedly mounted on the rotating shaft 202, the rotating shaft 202 is rotatably mounted with the feeding pipe 201, a spiral pipe 204 is fixedly mounted on the rotating shaft 202, and a driving belt 108 is wound outside the upper driving wheel 203.

Cement and mortar are respectively put into the two feeding pipes 201, and the upper driving wheel 203 is driven to rotate by the driving belt 108, so that the rotating shaft 202 is driven to rotate, the spiral pipe 204 is driven to rotate, and the cement and mortar are conveyed into the main cylinder 104.

As shown in fig. 8 to 12, the stirring device comprises an inner slide shaft 302 slidably mounted in a main rotation shaft 301, a rotation wheel frame 303 is fixedly mounted on the inner slide shaft 302, a roller 304 is rotatably mounted on the rotation wheel frame 303, the roller 304 is in rolling contact with a cam 118, a middle driving wheel 305 is fixedly mounted on the main rotation shaft 301, a driving belt 108 is wound outside the middle driving wheel 305, a gear frame 306 is fixedly mounted on the main rotation shaft 301, a connecting disc 313 is fixedly mounted on the gear frame 306, an end connecting frame 311 is fixedly mounted on the main rotation shaft 301, a rotating vane mechanism is arranged on the main rotation shaft 301, and a side stirring mechanism is arranged on the gear frame 306.

As shown in fig. 11, the rotary vane mechanism includes a rotary vane 310 rotatably mounted on a main rotary shaft 301, a rotary vane gear 315 is fixedly mounted on the rotary vane 310, an inner rack 314 is fixedly mounted on an inner slide shaft 302, and the inner rack 314 is engaged with the rotary vane gear 315.

As shown in fig. 8 and 9, the side stirring mechanism includes a side rotating shaft 308 rotatably mounted on a gear frame 306, a gear 307 is fixedly mounted on the side rotating shaft 308, the gear 307 is meshed with the ring gear 111, a side stirring bar 309 and a middle stirring bar 312 are fixedly mounted on the side rotating shaft 308, and the side rotating shaft 308 is rotatably mounted on an end connecting frame 311.

As shown in fig. 12, an inner octagonal sleeve 3011 is provided in the main rotation shaft 301, and an octagonal block 316 is fixedly mounted on the inner slide shaft 302, and the inner slide shaft 302 slides in the inner octagonal sleeve 3011 through the octagonal block 316.

The transmission belt 108 rotates to drive the middle driving wheel 305 to rotate so as to drive the main rotating shaft 301 to rotate, the main rotating shaft 301 simultaneously drives the inner sliding shaft 302 to rotate, the inner sliding shaft 302 rotates to drive the rotating wheel frame 303 to rotate so as to drive the roller 304 to roll on the convex disc 118, the convex disc 118 does not move so as to drive the rotating wheel frame 303 and the inner sliding shaft 302 to slide back and forth relative to the main rotating shaft 301, the spring 119 continuously extrudes so as to drive the inner rack 314 to continuously slide, thereby driving the rotating blade gear 315 and the rotating blade 310 to rotate so as to drive the rotating blade 310 to continuously swing, the stirring and mixing efficiency is improved, meanwhile, the main rotating shaft 301 rotates to drive the gear frame 306 to rotate so as to drive the edge rotating shaft 308 and the gear 307 to rotate, and the gear 307 is meshed with the inner gear ring 111 so as to drive the edge rotating shaft 308 to rotate along with the main rotating shaft 301 to stir and mix cement mortar by the edge stirring rod 309 and the middle stirring rod 312, and the mixing efficiency is further improved.

The invention discloses a cement mortar efficient mixing device, which has the working principle that: cement and mortar are respectively put into the two feeding pipes 201, the bottom motor 106 rotates to drive the motor driving wheel 107 to rotate, thereby driving the driving belt 108 to rotate, and the driving belt 108 drives the upper driving wheel 203 to rotate, thereby driving the rotating shaft 202 to rotate, thereby driving the spiral pipe 204 to rotate, the cement and mortar are conveyed into the main cylinder 104, the lower buffer cylinder 102 and the upper buffer cylinder 103 are damped, water is introduced through the water inlet pipe 116, and the water flows into the main cylinder 104 through the water spraying shell 117. The transmission belt 108 rotates to drive the middle driving wheel 305 to rotate so as to drive the main rotating shaft 301 to rotate, the main rotating shaft 301 simultaneously drives the inner sliding shaft 302 to rotate, the inner sliding shaft 302 rotates to drive the rotating wheel frame 303 to rotate so as to drive the roller 304 to roll on the convex disc 118, the convex disc 118 does not move so as to drive the rotating wheel frame 303 and the inner sliding shaft 302 to slide back and forth relative to the main rotating shaft 301, the spring 119 continuously extrudes so as to drive the inner rack 314 to continuously slide, thereby driving the rotating blade gear 315 and the rotating blade 310 to rotate so as to drive the rotating blade 310 to continuously swing, the stirring and mixing efficiency is improved, meanwhile, the main rotating shaft 301 rotates to drive the gear frame 306 to rotate so as to drive the edge rotating shaft 308 and the gear 307 to rotate, and the gear 307 is meshed with the inner gear ring 111 so as to drive the edge rotating shaft 308 to rotate along with the main rotating shaft 301 to stir and mix cement mortar by the edge stirring rod 309 and the middle stirring rod 312, and the mixing efficiency is further improved.

Claims (5)

1. The utility model provides a cement mortar high-efficient mixing arrangement, includes the barrel device of placing at ground, its characterized in that: the cement mortar stirring device comprises a barrel device and is characterized in that the barrel device comprises a bottom frame (101) and a main barrel body (104), the bottom frame (101) is placed on the ground, an end cover (109) is fixedly installed on the main barrel body (104), the barrel device is used for containing cement mortar, a feeding device is arranged on the barrel device and comprises a feeding pipe (201), the feeding pipe (201) is fixedly installed on the main barrel body (104), the feeding device is used for feeding cement mortar into the barrel device, a stirring device is arranged on the barrel device and comprises a main rotating shaft (301), the main rotating shaft (301) and the end cover (109) are rotatably installed, and the stirring device is used for mixing cement mortar;

The cylinder device comprises a lower buffer cylinder (102) rotatably mounted on a bottom frame (101), an upper buffer cylinder (103) is slidably mounted on the lower buffer cylinder (102), a spring is arranged between the lower buffer cylinder (102) and the upper buffer cylinder (103), the upper buffer cylinder (103) is rotatably mounted with a main cylinder (104), a water inlet pipe (116) is fixedly mounted on an end cover (109), a water spraying shell (117) is fixedly mounted on the water inlet pipe (116), the water spraying shell (117) is fixedly mounted in the main cylinder (104), a transmission mechanism is arranged on the main cylinder (104), and a discharging mechanism is arranged at the bottom of the main cylinder (104);

the transmission mechanism comprises a gear cylinder (105) fixedly arranged on a main cylinder body (104), a connecting frame (110) is fixedly arranged on the gear cylinder (105), a connecting column (112) is fixedly arranged on the gear cylinder (105), an inner gear ring (111) is fixedly arranged on the connecting column (112), a convex disc (118) is fixedly arranged on the gear cylinder (105), a spring (119) is fixedly arranged on the connecting frame (110), a bottom motor (106) is fixedly arranged below the gear cylinder (105), a motor driving wheel (107) is fixedly arranged on a motor shaft of the bottom motor (106), and a driving belt (108) is wound outside the motor driving wheel (107);

The stirring device comprises an inner sliding shaft (302) which is slidably arranged in a main rotating shaft (301), a rotating wheel frame (303) is fixedly arranged on the inner sliding shaft (302), a roller (304) is rotatably arranged on the rotating wheel frame (303), the roller (304) is in rolling contact with a convex disc (118), a middle driving wheel (305) is fixedly arranged on the main rotating shaft (301), a driving belt (108) is wound outside the middle driving wheel (305), a gear frame (306) is fixedly arranged on the main rotating shaft (301), a connecting disc (313) is fixedly arranged on the gear frame (306), an end connecting frame (311) is fixedly arranged on the main rotating shaft (301), a rotating leaf mechanism is arranged on the main rotating shaft (301), and a side stirring mechanism is arranged on the gear frame (306);

the rotating vane mechanism comprises a rotating vane (310) rotatably mounted on a main rotating shaft (301), a rotating vane gear (315) is fixedly mounted on the rotating vane (310), an inner rack (314) is fixedly mounted on an inner sliding shaft (302), and the inner rack (314) is meshed with the rotating vane gear (315).

2. The efficient cement mortar mixing device according to claim 1, wherein: the discharging mechanism comprises a discharging frame (115) fixedly arranged at the bottom of the main cylinder body (104), a bottom cover plate (114) is rotatably arranged on the discharging frame (115), a bottom electric cylinder (113) is rotatably arranged on the bottom frame (101), and the end part of the bottom electric cylinder (113) and the bottom cover plate (114) are rotatably arranged.

3. The efficient cement mortar mixing device according to claim 1, wherein: the feeding device comprises a rotating shaft (202) rotatably arranged on the gear cylinder (105), an upper driving wheel (203) is fixedly arranged on the rotating shaft (202), the rotating shaft (202) is rotatably arranged with the feeding pipe (201), a spiral pipe (204) is fixedly arranged on the rotating shaft (202), and a driving belt (108) is wound outside the upper driving wheel (203).

4. The efficient cement mortar mixing device according to claim 1, wherein: the side stirring mechanism comprises a side rotating shaft (308) rotatably arranged on a gear frame (306), a gear (307) is fixedly arranged on the side rotating shaft (308), the gear (307) is meshed with the inner gear ring (111), a side stirring rod (309) and a middle stirring rod (312) are fixedly arranged on the side rotating shaft (308), and the side rotating shaft (308) and an end connecting frame (311) are rotatably arranged.

5. The efficient cement mortar mixing device according to claim 1, wherein: an inner octagonal sleeve (3011) is arranged in the main rotating shaft (301), an octagonal block (316) is fixedly arranged on the inner sliding shaft (302), and the inner sliding shaft (302) slides in the inner octagonal sleeve (3011) through the octagonal block (316).