CN109808044B - Cylinder concrete block forming machine and forming method - Google Patents

Abstract

The invention provides a cylinder concrete block forming machine and a forming method, wherein vertical plates are symmetrically and fixedly arranged on two sides of the top of a frame, a top plate is fixedly arranged on the top of the vertical plates, a mould turntable is supported at the middle part of the top plate, and a plurality of forming mould cylinders are uniformly arranged on the mould turntable; the main shaft of the mould turntable is connected with the ratchet mechanism and drives the ratchet mechanism to rotate; the ratchet mechanism is connected with the power device through a gear transmission assembly; the automatic blanking machine is characterized in that a stirring blanking cylinder for blanking is arranged right above the die turntable, a stirring plate is arranged inside the stirring blanking cylinder, the stirring plate is connected with a stirring power mechanism, and the stirring power mechanism is matched with a ratchet mechanism through a chain transmission mechanism and drives the stirring plate to rotate so as to realize blanking. The forming machine adopts a turntable type vertical structure, can be conveniently used for forming cylinder concrete cut blocks, and further greatly improves the forming efficiency.

Description

Cylinder concrete block forming machine and forming method

Technical Field

The invention relates to the field of concrete block forming devices, in particular to a cylinder concrete block forming machine and a cylinder concrete block forming method.

Background

In the municipal road construction process, a large number of cylinder concrete blocks are needed, the cylinder concrete block molding production line of linear type is mainly adopted in the cylinder concrete block molding of the current common use, the molding equipment of the structure is adopted, the occupied area of the equipment production line is larger, in the specific use process, excessive manual participation operation is needed, the labor cost investment is larger, and the labor intensity of operators is high.

Disclosure of Invention

In order to solve the technical problems, the invention provides the cylinder concrete block forming machine and the forming method, and the forming machine adopts a turntable type vertical structure, so that the forming machine can be conveniently used for forming cylinder concrete blocks, thereby greatly improving the forming efficiency, improving the automation degree and reducing the labor intensity of operators.

In order to achieve the technical characteristics, the aim of the invention is realized in the following way: the cylinder concrete block forming machine comprises a frame, wherein vertical plates are symmetrically and fixedly arranged on two sides of the top of the frame, a top plate is fixedly arranged on the top of the vertical plates, a mould turntable is supported at the middle part of the top plate, and a plurality of forming mould cylinders are uniformly arranged on the mould turntable; the main shaft of the mould turntable is connected with the ratchet mechanism and drives the ratchet mechanism to rotate; the ratchet mechanism is connected with the power device through a gear transmission assembly; the automatic blanking machine is characterized in that a stirring blanking cylinder for blanking is arranged right above the die turntable, a stirring plate is arranged inside the stirring blanking cylinder, the stirring plate is connected with a stirring power mechanism, and the stirring power mechanism is matched with a ratchet mechanism through a chain transmission mechanism and drives the stirring plate to rotate so as to realize blanking.

The ratchet mechanism comprises a first vertical shaft, the first vertical shaft is vertically arranged on the ratchet rack, a ratchet plate is arranged on the first vertical shaft, a pawl is arranged at the top edge of the ratchet plate, the pawl and the ratchet form ratchet meshing transmission, the ratchet is arranged on a turntable main shaft, and the turntable main shaft is fixedly connected with a central hole of a mold turntable and drives the turntable main shaft to rotate.

The gear transmission assembly comprises a first main shaft, the first main shaft is supported and installed between the vertical plates, a driving gear is installed on the first main shaft, the driving gear and a driven gear are in meshed transmission, the driven gear is installed on a second main shaft, the second main shaft is installed between the vertical plates, a driving bevel gear is installed on the second main shaft, the driving bevel gear and the driven bevel gear are in meshed transmission, and the driven bevel gear is installed at the top of a first vertical shaft of the ratchet mechanism.

The power device comprises a motor, the motor is fixedly arranged on the frame through a motor base, a driving belt pulley is arranged on an output shaft of the motor, the driving belt pulley and a driven belt pulley form belt transmission through a belt, and the driven belt pulley is fixedly arranged on a first main shaft of the gear transmission assembly.

The stirring power mechanism comprises a stirring main shaft, a first driven sprocket is arranged at the bottom of the stirring main shaft, a bottom plate of the stirring blanking barrel is provided with a blanking opening, and the blanking opening is arranged right above the forming die barrel.

The chain transmission mechanism comprises a first driven sprocket arranged on a stirring main shaft of the stirring power mechanism, the first driven sprocket is in meshed transmission with a second driven sprocket arranged on an intermediate shaft through a chain, a third driven sprocket is arranged on the intermediate shaft, and the third driven sprocket is in meshed transmission with a fourth driven sprocket arranged on a first vertical shaft of the ratchet mechanism through a chain, and the belt drives the third driven sprocket to rotate.

And a pushing mechanism for blanking is arranged at the top of the top plate and right above the die turntable, and is connected with a crank connecting rod mechanism for driving the pushing mechanism to reciprocate.

The pushing mechanism comprises guide posts which are fixedly installed on a top plate in parallel, the bottoms of the guide posts are fixedly installed on upright post sleeves, the upright post sleeves are fixedly installed on the top plate, top fixing plates are fixedly installed at the tops of the guide posts, reciprocating lifting plates are installed between the guide posts through sliding fit, pushing rods are installed at the bottoms of the reciprocating lifting plates, the pushing rods are matched with forming die cylinders on a die turntable, a blanking groove is formed in the top plate under the pushing rods, and discharge holes are formed in the blanking groove, and the reciprocating lifting plates are connected with a crank connecting rod mechanism.

The crank connecting rod mechanism comprises a crank arranged on a second main shaft of the gear transmission assembly, the other end of the crank is hinged with a connecting rod, and the other end of the connecting rod is hinged with two ends of the reciprocating lifting plate through a pin shaft.

The method for forming the cylindrical concrete block by the cylindrical concrete block forming machine, which comprises the following steps:

step1: filling the mixed concrete material into a stirring blanking cylinder, and starting a motor of a power device;

step2: the motor drives the driving belt wheel, the driven belt wheel is driven by the driving belt wheel, the first main shaft is driven by the driven belt wheel, the driving gear is driven by the first main shaft, the driven gear is driven by the driving gear, the driving bevel gear is driven by the driven gear, and the driven bevel gear is driven by the driving bevel gear;

step3: the first vertical shaft is driven by the driven bevel gear, the ratchet mechanism is driven by the first vertical shaft, the turntable main shaft is driven by the ratchet mechanism in a stepping way, and then the turntable main shaft drives the mold turntable to rotate in a stepping way;

step4: the intermediate shaft is driven by the chain through the first vertical shaft, the intermediate shaft drives the third driven sprocket, the first driven sprocket is driven by the chain through the third driven sprocket, the first driven sprocket drives the stirring main shaft, and the stirring main shaft drives the stirring plate to rotate so as to realize blanking;

step5: when the forming die cylinder of the die rotary table is matched with the blanking opening, concrete automatically falls to the forming die cylinder, the rotary table main shaft continuously drives the die rotary table to rotate in a stepping mode, when the forming die cylinder rotates to the position right below the pushing rod, the pushing rod is driven to be pressed down through the pushing mechanism, and the formed cylindrical concrete building blocks are ejected out of the forming die cylinder, so that the concrete building blocks fall onto the blanking groove, and further the forming of the concrete building blocks is continuously completed.

The invention has the following beneficial effects:

1. through the concrete block forming machine adopting the structure, the cylinder concrete block can be continuously formed, and then the traditional linear concrete block forming production line is replaced, so that the space occupied by equipment is greatly reduced, the traditional manual operation mode is replaced, and the forming efficiency and quality are greatly improved.

2. The ratchet mechanism with the structure is mainly used for driving the die turntable to rotate in a stepping manner, in the operation process, the ratchet plate is driven to rotate through the first vertical shaft, then the ratchet plate drives the pawl, the pawl drives the ratchet, and then the turntable main shaft is driven through the ratchet, and the die turntable is driven to rotate through the turntable main shaft.

3. The driving gear is driven by the first main shaft in the operation process, the driven gear is driven by the driving gear, the second main shaft is driven by the driven gear, the driving bevel gear is driven by the second main shaft, the driving bevel gear is meshed with the driven bevel gear, and the first vertical shaft is finally driven to rotate.

4. Through the power device of above-mentioned structure, in the course of the work, can drive driven pulley through the energy, by driven pulley drive first main shaft again, and then drive the driving gear through first main shaft, and then drive gear assembly.

5. The pushing mechanism is mainly used for pushing out the cylindrical concrete block molded in the molding die cylinder, automatic discharging of the cylindrical concrete block is achieved, in the working process, the reciprocating lifting plate can be driven through the crank connecting rod mechanism, the pushing rod is driven to lift in a reciprocating mode along the guide post through the reciprocating lifting plate, and then the pushing rod is matched with the molding die cylinder, so that ejection is achieved.

6. Through the crank connecting rod mechanism with the structure, in the working process, the crank is driven by the second main shaft, and then the connecting rod is driven by the crank, so that the reciprocating lifting plate is driven by the connecting rod to realize reciprocating movement.

Drawings

The invention is further described below with reference to the drawings and examples.

Fig. 1 is a three-dimensional view of a first perspective of the present invention.

Fig. 2 is a three-dimensional view of a second perspective of the present invention.

Fig. 3 is a three-dimensional view of a third view of the present invention.

In the figure: the device comprises a frame 1, a motor 2, a driving pulley 3, a driven pulley 4, a first main shaft 5, a connecting rod 6, a vertical plate 7, a vertical column sleeve 8, a guide column 9, a top plate 10, a forming die cylinder 11, a die turntable 12, a blanking groove 13, a push rod 14, a reciprocating lifting plate 15, a top fixing plate 16, a stirring blanking cylinder 17, a blanking opening 18, a stirring plate 19, a stirring main shaft 20, a third driven sprocket 21, a second driven sprocket 22, a first driven sprocket 23, a crank 24, a second main shaft 25, a driving bevel gear 26, a driven bevel gear 27, a first vertical shaft 28, a driven gear 29, a ratchet disc 30, a ratchet frame 31, a fourth driven sprocket 32, a pawl 33, a turntable main shaft 34, a ratchet 35, a driving gear 36, a discharging hole 37 and an intermediate shaft 38.

Detailed Description

Embodiments of the present invention will be further described with reference to the accompanying drawings.

Example 1:

referring to fig. 1-3, a cylinder concrete block forming machine comprises a frame 1, wherein vertical plates 7 are symmetrically and fixedly arranged on two sides of the top of the frame 1, a top plate 10 is fixedly arranged on the top of the vertical plates 7, a mould turntable 12 is supported at the middle part of the top plate 10, and a plurality of forming mould cylinders 11 are uniformly distributed on the mould turntable 12; the rotary table main shaft 34 of the die rotary table 12 is connected with a ratchet mechanism and drives the rotary table main shaft to rotate; the ratchet mechanism is connected with the power device through a gear transmission assembly; the stirring blanking cylinder 17 for blanking is arranged right above the die turntable 12, a stirring plate 19 is arranged inside the stirring blanking cylinder 17, the stirring plate 19 is connected with a stirring power mechanism, and the stirring power mechanism is matched with a ratchet mechanism through a chain transmission mechanism and drives the stirring plate 19 to rotate so as to realize blanking. Through the concrete block forming machine adopting the structure, the cylinder concrete block can be continuously formed, and then the traditional linear concrete block forming production line is replaced, so that the space occupied by equipment is greatly reduced, the traditional manual operation mode is replaced, and the forming efficiency and quality are greatly improved.

Further, the ratchet mechanism comprises a first vertical shaft 28, the first vertical shaft 28 is vertically arranged on a ratchet rack 31, a ratchet plate 30 is arranged on the first vertical shaft 28, a pawl 33 is arranged at the top edge of the ratchet plate 30, the pawl 33 and a ratchet 35 form ratchet meshing transmission, the ratchet 35 is arranged on a turntable main shaft 34, and the turntable main shaft 34 is fixedly connected with a central hole of the mold turntable 12 and drives the mold turntable to rotate. The ratchet mechanism with the structure is mainly used for driving the die turntable 12 to rotate in a stepping way, in the operation process, the ratchet plate 30 is driven to rotate through the first vertical shaft 28, the pawl 33 is driven by the ratchet plate 30, the ratchet 35 is driven by the pawl 33, the turntable main shaft 34 is driven by the ratchet 35, and the die turntable 12 is driven to rotate through the turntable main shaft 34.

Further, the gear transmission assembly comprises a first main shaft 5, the first main shaft 5 is supported and installed between the vertical plates 7, a driving gear 36 is installed on the first main shaft 5, the driving gear 36 is in meshed transmission with a driven gear 29, the driven gear 29 is installed on a second main shaft 25, the second main shaft 25 is installed between the vertical plates 7, a driving bevel gear 26 is installed on the second main shaft 25, the driving bevel gear 26 is in meshed transmission with a driven bevel gear 27, and the driven bevel gear 27 is installed on the top of a first vertical shaft 28 of the ratchet mechanism. The gear transmission assembly is mainly used for driving the ratchet mechanism, in the operation process, the first main shaft 5 is used for driving the driving gear 36, the driving gear 36 is used for driving the driven gear 29, the driven gear 29 is used for driving the second main shaft 25, the second main shaft 25 is used for driving the driving bevel gear 26, the driving bevel gear 26 is meshed with the driven bevel gear 27, and the first vertical shaft 28 is finally driven to rotate.

Further, the power device comprises a motor 2, the motor 2 is fixedly arranged on the frame 1 through a motor base, a driving belt pulley 3 is arranged on an output shaft of the motor 2, the driving belt pulley 3 and a driven belt pulley 4 form belt transmission through a belt, and the driven belt pulley 4 is fixedly arranged on a first main shaft 5 of the gear transmission assembly. Through the power device with the structure, in the working process, the driven belt wheel 4 can be driven by the motor 2, the first main shaft 5 is driven by the driven belt wheel 4, the driving gear 36 is driven by the first main shaft 5, and the gear transmission assembly is driven.

Further, the stirring power mechanism comprises a stirring main shaft 20, a first driven sprocket 23 is mounted at the bottom of the stirring main shaft 20, a blanking opening 18 is formed in the bottom plate of the stirring blanking barrel 17, and the blanking opening 18 is arranged right above the forming die barrel 11. The stirring power mechanism with the structure can effectively stir the concrete raw materials, and in the operation process, the stirring plate 19 is driven to rotate through the stirring main shaft 20.

Further, the chain transmission mechanism comprises a first driven sprocket 23 arranged on the stirring main shaft 20 of the stirring power mechanism, the first driven sprocket 23 is meshed with a second driven sprocket 22 arranged on the intermediate shaft 38 through a chain, a third driven sprocket 21 is arranged on the intermediate shaft 38, and the third driven sprocket 21 is meshed with a fourth driven sprocket 32 arranged on the first vertical shaft 28 of the ratchet mechanism through a chain, so that the belt drives the belt to rotate. The chain transmission mechanism is mainly used for transmitting power from the ratchet mechanism to the stirring power mechanism, in the working process, the fourth driven sprocket 32 is driven by the first vertical shaft 28, the intermediate shaft 38 is driven by the fourth driven sprocket 32, the stirring main shaft 20 is driven to rotate by the chain transmission by the intermediate shaft 38, and the stirring plate 19 is driven to rotate by the stirring main shaft 20.

Further, a pushing mechanism for blanking is arranged on the top of the top plate 10 and right above the die turntable 12, and the pushing mechanism is connected with a crank-link mechanism for driving the pushing mechanism to reciprocate. The pushing mechanism comprises guide posts 9 which are fixedly installed on a top plate 10 in parallel, the bottoms of the guide posts 9 are fixedly installed on a vertical column sleeve 8, the vertical column sleeve 8 is fixedly installed on the top plate 10, a top fixing plate 16 is fixedly installed at the top of the guide posts 9, a reciprocating lifting plate 15 is installed between the guide posts 9 through sliding fit, a pushing rod 14 is installed at the bottom of the reciprocating lifting plate 15, the pushing rod 14 is matched with a forming die cylinder 11 on a die turntable 12, a blanking groove 13 is formed in the top plate 10 under the pushing rod 14, a discharging hole 37 is formed in the blanking groove 13, and the reciprocating lifting plate 15 is connected with a crank connecting rod mechanism. The pushing mechanism is mainly used for pushing out the cylindrical concrete blocks molded in the molding die cylinder 11, so that automatic discharging is achieved, in the working process, the reciprocating lifting plate 15 can be driven by the crank-link mechanism, the pushing rod 14 is driven by the reciprocating lifting plate 15 to lift in a reciprocating manner along the guide post 9, and the pushing rod 14 is matched with the molding die cylinder 11, so that ejection is achieved.

Further, the crank-link mechanism comprises a crank 24 arranged on a second main shaft 25 of the gear transmission assembly, the other end of the crank 24 is hinged with a link 6, and the other end of the link 6 is hinged with two ends of the reciprocating lifting plate 15 through a pin shaft. Through the crank-link mechanism with the structure, in the working process, the crank 24 is driven by the second main shaft 25, the link rod 6 is driven by the crank 24, and the reciprocating lifting plate 15 is driven by the link rod 6 to realize reciprocating movement.

Example 2:

the method for forming the cylindrical concrete block by the cylindrical concrete block forming machine, which comprises the following steps:

step1: loading the mixed concrete material into the stirring blanking barrel 17, and starting the motor 2 of the power device;

step2: the motor 2 drives the driving belt wheel 3, the driving belt wheel 3 drives the driven belt wheel 4, the driven belt wheel 4 drives the first main shaft 5, the first main shaft 5 drives the driving gear 36, the driving gear 36 drives the driven gear 29, the driven gear 29 drives the driving bevel gear 26, and the driving bevel gear 26 drives the driven bevel gear 27;

step3: the first vertical shaft 28 is driven by the driven bevel gear 27, the ratchet mechanism is driven by the first vertical shaft 28, the turntable main shaft 34 is driven by the ratchet mechanism in a stepping way, and the mold turntable 12 is driven by the turntable main shaft 34 in a stepping way to rotate;

step4: the intermediate shaft 38 is driven by a chain through the first vertical shaft 28, the intermediate shaft 38 drives the third driven sprocket 21, the first driven sprocket 23 is driven by the chain through the third driven sprocket 21, the first driven sprocket 23 drives the stirring main shaft 20, and the stirring plate 19 is driven to rotate through the stirring main shaft 20, so that blanking is realized;

step5: when the forming die cylinder 11 of the die rotary table 12 is matched with the blanking opening 18, concrete automatically falls to the forming die cylinder 11, the rotary table main shaft 34 continuously steps to drive the die rotary table 12 to rotate, when the forming die cylinder 11 rotates to be right below the pushing rod 14, the pushing rod 14 is driven to be pressed down by the pushing mechanism, and the formed cylindrical concrete block is ejected from the forming die cylinder 11 to fall onto the blanking groove 13, so that the forming of the cylindrical concrete block is continuously completed.

The above embodiments are only preferred embodiments of the present invention, and should not be construed as limiting the present invention, and the scope of the present invention should be defined by the claims, including the equivalents of the technical features in the claims. I.e., equivalent replacement modifications within the scope of this invention are also within the scope of the invention.

Claims (2)

1. The method for forming the cylindrical concrete blocks comprises the steps that a cylindrical concrete block forming machine is adopted for forming, the cylindrical concrete block forming machine comprises a frame (1), vertical plates (7) are symmetrically and fixedly arranged on two sides of the top of the frame (1), a top plate (10) is fixedly arranged on the top of each vertical plate (7), a mold turntable (12) is supported at the middle part of the top of each top plate (10), and a plurality of forming mold cylinders (11) are uniformly distributed on each mold turntable (12); a turntable main shaft (34) of the mold turntable (12) is connected with the ratchet mechanism and drives the ratchet mechanism to rotate; the ratchet mechanism is connected with the power device through a gear transmission assembly; a stirring discharging barrel (17) for discharging is arranged right above the die turntable (12), a stirring plate (19) is arranged inside the stirring discharging barrel (17), the stirring plate (19) is connected with a stirring power mechanism, and the stirring power mechanism is matched with a ratchet mechanism through a chain transmission mechanism and drives the stirring plate (19) to rotate so as to realize discharging;

the ratchet mechanism comprises a first vertical shaft (28), the first vertical shaft (28) is vertically arranged on a ratchet rack (31), a ratchet disc (30) is arranged on the first vertical shaft (28), a pawl (33) is arranged at the top edge of the ratchet disc (30), the pawl (33) and a ratchet wheel (35) form ratchet meshing transmission, the ratchet wheel (35) is arranged on a turntable main shaft (34), and the turntable main shaft (34) is fixedly connected with a central hole of a mold turntable (12) and drives the mold turntable to rotate;

the gear transmission assembly comprises a first main shaft (5), the first main shaft (5) is supported and installed between vertical plates (7), a driving gear (36) is installed on the first main shaft (5), the driving gear (36) is in meshed transmission with a driven gear (29), the driven gear (29) is installed on a second main shaft (25), the second main shaft (25) is installed between the vertical plates (7), a driving bevel gear (26) is installed on the second main shaft (25), the driving bevel gear (26) is in meshed transmission with a driven bevel gear (27), and the driven bevel gear (27) is installed at the top of a first vertical shaft (28) of the ratchet mechanism;

the power device comprises a motor (2), the motor (2) is fixedly arranged on a frame (1) through a motor base, a driving belt pulley (3) is arranged on an output shaft of the motor (2), the driving belt pulley (3) and a driven belt pulley (4) form belt transmission through a belt, and the driven belt pulley (4) is fixedly arranged on a first main shaft (5) of a gear transmission assembly;

the stirring power mechanism comprises a stirring main shaft (20), a first driven chain wheel (23) is arranged at the bottom of the stirring main shaft (20), a blanking opening (18) is formed in the bottom plate of the stirring blanking cylinder (17), and the blanking opening (18) is arranged right above the forming die cylinder (11);

the chain transmission mechanism comprises a first driven sprocket (23) arranged on a stirring main shaft (20) of the stirring power mechanism, the first driven sprocket (23) is meshed and transmitted with a second driven sprocket (22) arranged on an intermediate shaft (38) through a chain, a third driven sprocket (21) is arranged on the intermediate shaft (38), and the third driven sprocket (21) is meshed and transmitted with a fourth driven sprocket (32) arranged on a first vertical shaft (28) of the ratchet mechanism through a chain, and the belt drives the third driven sprocket (21) to rotate;

a pushing mechanism for blanking is arranged at the top of the top plate (10) and right above the die turntable (12), and is connected with a crank-link mechanism for driving the pushing mechanism to reciprocate;

the pushing mechanism comprises guide posts (9) which are fixedly arranged on a top plate (10) in parallel, the bottoms of the guide posts (9) are fixedly arranged on a vertical column sleeve (8), the vertical column sleeve (8) is fixedly arranged on the top plate (10), a top fixing plate (16) is fixedly arranged at the top of the guide posts (9), reciprocating lifting plates (15) are arranged between the guide posts (9) in a sliding fit manner, pushing rods (14) are arranged at the bottoms of the reciprocating lifting plates (15), the pushing rods (14) are matched with forming die cylinders (11) on a die turntable (12), a blanking groove (13) is formed in the top plate (10) under the pushing rods (14), a discharging hole (37) is formed in the blanking groove (13), and the reciprocating lifting plates (15) are connected with a crank connecting rod mechanism;

characterized in that the method comprises the steps of:

step1: filling the mixed concrete material into a stirring blanking cylinder (17), and starting a motor (2) of a power device;

step2: the driving pulley (3) is driven by the motor (2), the driven pulley (4) is driven by the driving pulley (3), the first main shaft (5) is driven by the driven pulley (4), the driving gear (36) is driven by the first main shaft (5), the driven gear (29) is driven by the driving gear (36), the driving bevel gear (26) is driven by the driven gear (29), and the driven bevel gear (27) is driven by the driving bevel gear (26);

step3: a first vertical shaft (28) is driven by a driven bevel gear (27), a ratchet mechanism is driven by the first vertical shaft (28), a turntable main shaft (34) is driven by the ratchet mechanism in a stepping way, and then the turntable main shaft (34) drives the die turntable (12) to rotate in a stepping way;

step4: the intermediate shaft (38) is driven by a chain through the first vertical shaft (28), the intermediate shaft (38) drives the third driven sprocket (21), the first driven sprocket (23) is driven by the chain through the third driven sprocket (21), the first driven sprocket (23) drives the stirring main shaft (20), and the stirring plate (19) is driven to rotate through the stirring main shaft (20) to realize blanking;

step5: when the forming die cylinder (11) of the die rotary table (12) is matched with the blanking opening (18), concrete automatically falls onto the forming die cylinder (11), the rotary table main shaft (34) continuously steps to drive the die rotary table (12) to rotate, when the forming die cylinder (11) rotates to be right below the pushing rod (14), the pushing rod (14) is driven to be pressed down by the pushing mechanism, and the formed cylindrical concrete block is ejected out of the forming die cylinder (11) to fall onto the blanking groove (13), so that the forming is continuously completed.

2. A method of forming a cylindrical concrete block according to claim 1, wherein: the crank connecting rod mechanism comprises a crank (24) arranged on a second main shaft (25) of the gear transmission assembly, the other end of the crank (24) is hinged with a connecting rod (6), and the other end of the connecting rod (6) is hinged with two ends of the reciprocating lifting plate (15) through a pin shaft.