CN111958810A

CN111958810A - Flat lantern ring interface cement pipe manufacture equipment

Info

Publication number: CN111958810A
Application number: CN202010831469.5A
Authority: CN
Inventors: 李俊杰; 何泽帆; 林健龙
Original assignee: Guangdong Lianxing Ruiye Cement Products Co Ltd
Current assignee: Guangdong Lianxing Ruiye Cement Products Co Ltd
Priority date: 2020-08-18
Filing date: 2020-08-18
Publication date: 2020-11-20

Abstract

The invention discloses a cement pipe manufacturing device with a plain end lantern ring interface, which belongs to the technical field of cement pipe manufacturing and comprises a floor, an upper die mechanism, a lower die mechanism, a reinforcing mesh pushing mechanism, an air drying mechanism and a discharging mechanism, wherein the floor is laid on a horizontal plane, the upper die mechanism is arranged at the upper part of the lower die mechanism and is arranged on the floor, the reinforcing mesh pushing mechanism is arranged at one side of the lower die mechanism and penetrates through the outer side of the lower die mechanism, the air drying mechanism is arranged between the upper die mechanism and the lower die mechanism, the discharging mechanism is arranged at the other side of the lower die mechanism, and the lower die mechanism, the reinforcing mesh pushing mechanism, the air drying mechanism and the discharging mechanism are all arranged on the floor. The invention completes the manufacture of the cement pipe by the upper die mechanism and the lower die mechanism, adopts the core die vibration method, saves energy, reduces manual participation, compacts concrete with optimal vibration force, obviously enhances the load resistance and impermeability of the pipeline, and prolongs the service life.

Description

Flat lantern ring interface cement pipe manufacture equipment

Technical Field

The invention relates to the technical field of cement pipe manufacturing, in particular to a manufacturing device for a cement pipe with a plain lantern ring interface.

Background

The cement pipe, especially the cement pipe with a flat sleeve ring interface is widely applied to urban construction pipelines, and can be connected all the time due to the structure of the flat sleeve ring, such as a drainage pipeline for rainwater and sewage in cities and towns, an outer sleeve pipe which can be operated in tap water, electric power telecommunication, gas momentum and the like and needs to lay pipelines underground, and longitudinal and transverse drainage and water permeability of highways, while the existing pipe manufacturing method and equipment mainly use centrifugal pipe manufacturing and suspension roller pipe manufacturing, and have the following problems:

after the cement pipe is formed, the pipe wall is layered, the cement texture is uneven, the reinforcing mesh protective layer is uneven, and the reinforcing mesh is damaged, so that the load resistance is uneven, and the service life of workers is short.

In the process of manufacturing the cement pipe, a large amount of raw materials are thrown out, so that more waste residues are generated, resources are wasted, and the production environment is polluted.

When a small-caliber cement pipe is manufactured, the pipe wall is too thin during rolling, so that the cement pipe is easy to break.

Because high-speed rotation centrifugation needs a large amount of moulds, and the mould size deviation appears easily, leads to the product specification not accurate.

Disclosure of Invention

The invention aims to provide equipment for manufacturing a cement pipe with a plain end lantern ring interface, which aims to solve the technical problem in the prior art.

The invention provides a manufacturing device of a cement pipe with a plain end lantern ring interface, which comprises a floor, an upper die mechanism, a lower die mechanism, a reinforcing mesh pushing mechanism, an air drying mechanism and a discharging mechanism, wherein the floor is laid on a horizontal plane, the lower die mechanism is installed on the floor, the upper die mechanism is arranged at the upper part of the lower die mechanism and is installed and fixed on the floor, the reinforcing mesh pushing mechanism is installed at one side of the lower die mechanism and penetrates through the outer side of the lower die mechanism, the air drying mechanism is arranged between the upper die mechanism and the lower die mechanism, the discharging mechanism is arranged at the other side of the lower die mechanism, and the reinforcing mesh pushing mechanism, the air drying mechanism and the discharging mechanism are all installed and fixed on the floor.

Further, the lower die mechanism comprises lower die supporting leg blocks, lower die crosspieces, a lower die supporting plate, a lower die belt, a lower die motor, two lower die side plates, two lower die rolling shafts, a plurality of lower die modules and a plurality of separating blocks, the number of the lower die supporting leg blocks is three, the crosspieces are installed between the three lower die supporting leg blocks, the lower die supporting plate is of a rectangular structure, the lower die supporting plate is installed at the tops of the three lower die supporting leg blocks, the two lower die side plates are mutually parallel and vertically installed on the lower die supporting plate, the two lower die rolling shafts are respectively installed between the two lower die side plates and are in running fit with the lower die side plates, the lower die belt is sleeved on the two lower die rolling shafts, the lower die motor is installed on the back side plates of the lower dies, a main shaft is in running fit with, the lower modules are disc structures designed according to the shapes of the bottoms of the cement pipes, and the lower modules are respectively arranged between two adjacent separating blocks with large distances.

Further, the upper die mechanism comprises an upper die support, an upper die transverse plate, an upper die hydraulic lifting rod, an upper module, a filling port and two vibrating motors, the upper die support is vertically installed on the floor and located at the middle position of the back side, one end of the upper die transverse plate is vertically installed at the top of the upper die support, the other end of the upper die transverse plate extends towards the direction of the lower module, the upper die hydraulic lifting rod is vertically installed at the bottom of the upper die transverse plate and located at the upper part of the middle lower module, the top center of the upper module is connected with the bottom of the output end of the upper die hydraulic lifting rod, the upper module is divided into an inner die and an outer die, the lower module and the upper module can be in butt joint fit, the interlayer between the lower module and the upper module is in the shape of a cement pipe, the filling port is arranged at the top of the outer die and, and the two vibration motors are arranged in a resonance mode.

Further, the reinforcing mesh pushing mechanism comprises two pushing support leg blocks, a pushing transverse plate, a pushing block, a pushing cylinder, a cylinder seat, a pushing motor, a pushing belt, two pushing rolling shafts, two material conveying side plates, two pushing bottom plates and two pushing side plates, wherein the number of the pushing support leg blocks is two, the two pushing support leg blocks are vertically arranged on the floor, the two pushing bottom plates are respectively and vertically arranged on the tops of the two pushing support leg plates, the two material conveying side plates are respectively and vertically arranged on the tops of the two pushing bottom plates, the two pushing rolling shafts are respectively arranged between the two material conveying side plates and are positioned at the two ends of the two material conveying side plates, the two pushing rolling shafts are in rotating fit with the two material conveying side plates, the pushing belt is sleeved on the two pushing rolling shafts, the pushing motor is arranged on the material conveying side plate positioned on one side of the lower die side plate, and the output end of the pushing rolling shaft is in transmission connection with, the two pushing side plates are parallel to each other and perpendicular to the two material conveying side plates, the two pushing side plates penetrate through the two material conveying side plates, the cylinder seat is installed at the front ends of the two pushing bottom plates, the pushing cylinder is installed on the cylinder seat, the output end of the pushing cylinder penetrates through the cylinder seat and extends inwards, and the pushing block is installed at the output end of the pushing cylinder.

Further, air-dry mechanism is including air-drying the landing leg, air-drying bottom plate, fan frame, fan casing and flabellum, air-dry the landing leg and install perpendicularly on the floor and be located between the lower mould landing leg piece of mould support and centre, air-dry the bottom plate and install perpendicularly at air-dry landing leg top, fan frame is installed perpendicularly on air-drying the bottom plate, the fan casing is installed in the fan frame, the fan leaf is installed on the fan casing, the fan casing is installed at the fan frame dorsal part.

Further, unloading mechanism includes rotating base, unloading hydraulic lifting rod, connecting block, rotating electrical machines, machinery palm and two gripper, rotating base installs on the floor and is located the one end of keeping away from reinforcing bar net push mechanism, unloading hydraulic lifting rod is vertical to be installed on rotating base, the top at unloading hydraulic lifting rod is installed to the connecting block, rotating electrical machines's bottom horizontal installation is in the connecting block side and the output module direction down, the output at rotating electrical machines is installed to the machinery palm, two gripper symmetry is installed in the side of machinery palm.

Further, the gripper includes claw head, slipmat, electric jar, first connector and second connector, the claw head rotates with mechanical palm to be connected, and the slipmat is installed in the inside of claw head, can prevent when snatching the cement pipe that the cement pipe landing from damaging, the output of electric jar is articulated through first connector and claw head, the bottom of electric jar is articulated through second connector and mechanical palm.

Compared with the prior art, the invention has the beneficial effects that:

firstly, the prior art adopts a centrifugal pipe making device and a suspension roll pipe making device, after a cement pipe is formed, the cement texture and a reinforcing mesh are uneven or damaged, the load-bearing capacity is poor, and the service life is long.

Secondly, the centrifugal pipe making equipment and the overhang roll pipe making equipment that have now, in the preparation cement pipe in-process, because rotate fast, probably lead to a large amount of concrete raw materials to be thrown away, resources are wasted, pollute the production environment, and this equipment adopts mould and lower mould cooperation enclosed construction, and the mode of pouring has accomplished how much to put many material with to do not have the seepage and spill, very resources are saved cost, the very clean environmental protection of production environment moreover.

Thirdly, when the existing suspension roller pipe manufacturing equipment is used for manufacturing a small-caliber cement pipe, because the cement pipe needs to be hung on a suspension roller to rotate, if the pipe wall is too thin, the cement pipe is easy to break, and the equipment adopts a form of pouring by an upper die and a lower die, so that the wall thickness of the cement pipe can be ensured, the cement on the pipe wall can be tamped, and the cement pipe with any caliber can be produced.

Fourth, the centrifugal tubulation equipment that has now probably makes the shape of mould rise the change because high-speed rotatory centrifugation, the deviation appears easily in the mould size, the cement pipe that leads to producing is not conform, can only improve through a large amount of change moulds, and this equipment's adoption is two whole pipe dies inside and outside, go up the lower mould and form a complete set, only need the simple resonance of vibrating motor, do not need the motion of high strength, the very good non-deformable of rigidity of mould, and a specification only needs one set of mould, so fashioned concrete pipe circularity, pipe diameter size standard, the pipe shaft does not close the seam, pipe inner wall smooth finish has obviously improved than centrifugal tubulation equipment and overhang roll tubulation equipment, after concrete pan feeding, carry out the rotation extrusion once more to the concrete in the axial direction, the orificial intensity and the straightness that hangs down have more effectually increased, the construction installation is smooth.

Fifthly, the existing pipe-only equipment needs to manually convey the reinforcing mesh protective layer to the lower die, the steel mesh protective layer needs to be hung and discharged when production is finished, and the equipment is very troublesome, complex and unsafe.

Sixthly, the existing pipe-only equipment needs one end time to air-dry and shape the formed cement pipe after the pipe-only equipment is closed, and the equipment directly air-dries and shapes through a fan mechanism, so that the equipment is conveniently and directly transported to a warehouse for storage, and the finished product time is saved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

FIG. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic perspective view of a reinforcing mesh pushing mechanism according to the present invention;

FIG. 3 is a top view of the present invention;

FIG. 4 is a cross-sectional view taken along line A-A of FIG. 3;

FIG. 5 is a schematic perspective view of the blanking mechanism of the present invention;

FIG. 6 is a partial enlarged view of FIG. 5 at B;

FIG. 7 is a schematic perspective view of the mating of the upper and lower modules of the present invention;

fig. 8 is a cross-sectional view taken along line C-C of fig. 7.

Reference numerals: the floor board 1, the lower die mechanism 2, the upper die mechanism 3, the reinforcing mesh pushing mechanism 4, the air drying mechanism 5, the blanking mechanism 6, the lower die support leg block 21, the lower die crosspiece 22, the lower die support plate 23, the lower die belt 24, the lower die motor 25, the lower die side plate 26, the lower die roller 27, the lower die block 28, the partition block 29, the upper die support frame 31, the upper die cross plate 32, the upper die hydraulic lifting rod 33, the upper die block 34, the filling port 35, the vibrating motor 36, the inner die 37, the outer die 38, the pushing support leg block 41, the pushing cross plate 42, the pushing block 43, the pushing cylinder 44, the cylinder seat 45, the pushing motor 46, the pushing belt 47, the pushing roller 48, the material conveying side plate 49, the pushing bottom plate 410, the pushing side plate 411, the air drying support legs 51, the air drying bottom plate 52, the fan frame 53, the fan frame 54, the fan cover 55, the fan blades 56, the mechanical hand 65, the mechanical claw 66, the claw head 661, the non-slip mat 662, the electric cylinder 663, the first connector 664 and the second connector 665.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the accompanying drawings, and it should be understood that the described embodiments are some, but not all embodiments of the present invention.

The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1 to 8, an embodiment of the present invention provides a manufacturing apparatus for a cement pipe with a plain end collar interface, which includes a floor 1, an upper die mechanism 3, a lower die mechanism 2, a reinforcing mesh pushing mechanism 4, an air drying mechanism 5, and a blanking mechanism 6, the floor 1 is laid on a horizontal plane, the lower die mechanism 2 is installed on the floor 1, the upper die mechanism 3 is arranged at the upper part of the lower die mechanism 2 and is installed and fixed on the floor 1, the reinforcing mesh pushing mechanism 4 is arranged on one side of the lower die mechanism 2 and penetrates through the outer side of the lower die mechanism 2, the air drying mechanism 5 is arranged between the upper die mechanism 3 and the lower die mechanism 2, the blanking mechanism 6 is arranged at the other side of the lower die mechanism 2, the reinforcing mesh pushing mechanism 4, the air drying mechanism 5 and the blanking mechanism 6 are all installed and fixed on the floor 1, so that the manufacturing of the plain lantern ring joint cement pipe can be completed.

The lower die mechanism 2 comprises lower die supporting leg blocks 21, lower die crosspieces 22, a lower die supporting plate 23, lower die belts 24, lower die motors 25, two lower die side plates 26, two lower die rolling shafts 27, a plurality of lower die blocks 28 and a plurality of separating blocks 29, the number of the lower die supporting leg blocks 21 is three, the crosspieces are installed between the three lower die supporting leg blocks 21, the lower die supporting plate 23 is of a rectangular structure, the lower die supporting plate 23 is installed at the tops of the three lower die supporting leg blocks 21, the two lower die side plates 26 are parallel to each other and are vertically installed on the lower die supporting plate 23, the two lower die rolling shafts 27 are respectively installed between the two lower die side plates 26 and are in running fit with the lower die side plates 26, the lower die belts 24 are sleeved on the two lower die rolling shafts 27, the lower die motors 25 are installed on the back sides of, the separating blocks 29 are installed on the lower die belt 24 in a pairwise matching mode, the lower die block 28 is of a disc structure, the shape of the disc structure is designed according to the bottom of the cement pipe, and the lower die blocks 28 are arranged between the two separating blocks 29 which are adjacent in a large distance, so that the finished cement pipe can be automatically conveyed out when the manufacturing is completed, preparation is provided for automatic blanking, and time is saved.

The upper die mechanism 3 comprises an upper die support 31, an upper die transverse plate 32, an upper die hydraulic lifting rod 33, an upper die block 34, a filling opening 35 and two vibrating motors 36, the upper die support 31 is vertically installed on the floor 1 and located at the back side middle position, one end of the upper die transverse plate 32 is vertically installed at the top of the upper die support 31 and the other end extends towards the direction of the lower die block 28, the upper die hydraulic lifting rod 33 is vertically installed at the bottom of the upper die transverse plate 32 and located at the upper part of the middle lower die block 28, the top center of the upper die block 34 is connected with the bottom of the output end of the upper die hydraulic lifting rod 33, the upper die block 34 is divided into the inner die 37 and the outer die 38, the lower die block 28 and the upper die block 34 can be in butt joint fit, an interlayer between the lower die block 28 and the upper die block 34 is in the shape of a cement, can be through the mode of pouring hard concrete like this, fill the shaping with the mould in, can reduce the waste of raw and other materials like this, the energy saving, do not produce waste water mud, industrial waste residue is also few, two vibrating motor 36 installs respectively on the inner wall of centre form 37 and the outer wall of external mold 38, two vibrating motor 36 resonance sets up, can pass through high-frequency vibration shaping like this, and the layering segregation effect does not take place for the concrete, and body concrete intensity is high, homogeneity is good.

The reinforcing mesh pushing mechanism 4 comprises two pushing support leg blocks 41, two pushing transverse plates 42, two pushing blocks 43, a pushing air cylinder 44, an air cylinder seat 45, a pushing motor 46, a pushing belt 47, two pushing rollers 48, two material conveying side plates 49, two pushing bottom plates 410 and two pushing side plates 411, wherein the number of the pushing support leg blocks 41 is two, the two pushing support leg blocks 41 are vertically arranged on the floor 1, the pushing transverse plate 42 is arranged between the two pushing support leg blocks 41, the two pushing bottom plates 410 are respectively vertically arranged on the tops of the two pushing support leg blocks 41, the two material conveying side plates 49 are respectively vertically arranged on the tops of the two pushing bottom plates 410, the two pushing rollers 48 are respectively arranged between the two material conveying side plates 49 and positioned at the two ends of the two material conveying side plates 49, the two pushing rollers 48 are in running fit with the two material conveying side plates 49, the pushing belt 47 is sleeved on the two pushing rollers 48, the pushing motor 46 is mounted on a material conveying side plate 49 located on one side of the lower die side plate 26, the output end of the pushing motor is in transmission connection with a pushing roller 48 in a corresponding position, so that the pushing motor can be used for conveying a reinforcing mesh, the two pushing side plates 411 are parallel to each other and perpendicular to the two material conveying side plates 49, the two pushing side plates 411 penetrate through the two material conveying side plates 49, the cylinder seat 45 is mounted at the front ends of the two pushing bottom plates 410, the pushing cylinder 44 is mounted on the cylinder seat 45, the output end of the pushing cylinder 44 penetrates through the cylinder seat 45 and extends inwards, and the pushing block 43 is mounted at the output end of the pushing cylinder 44, so that a reinforcing mesh structure required to be used in the middle of a cement pipe can be pushed onto the lower die block 28, automatic reinforcing mesh feeding is completed, manual and mechanical.

Air-dry mechanism 5 is including air-drying landing leg 51, air-drying bottom plate 52, fan frame 53, fan casing 54, fan housing 55 and fan blade 56, air-drying landing leg 51 is installed perpendicularly on floor 1 and is located between mould support 31 and the middle lower mould landing leg module 21, air-dry bottom plate 52 is installed perpendicularly at air-drying landing leg 51 top, fan frame 53 is installed perpendicularly on air-drying bottom plate 52, fan casing 54 is installed in fan frame 53, fan blade 56 is installed on fan casing 54, fan casing 55 is installed at fan frame 53 dorsal part, can carry out quick air-drying to the good cement pipe of shaping like this and stereotype, convenient transportation.

The blanking mechanism 6 comprises a rotary base 61, a blanking hydraulic lifting rod 62, a connecting block 63, a rotary motor 64, a mechanical palm 65 and two mechanical claws 66, the rotating base 61 is installed on the floor 1 and located at one end far away from the mesh reinforcement pushing mechanism 4, the blanking hydraulic lifting rod 62 is vertically arranged on the rotary base 61, the connecting block 63 is arranged at the top of the blanking hydraulic lifting rod 62, the bottom of the rotating motor 64 is horizontally arranged on the side surface of the connecting block 63, the output end of the rotating motor faces the direction of the lower module 28, the mechanical palm 65 is arranged at the output end of the rotating motor 64, the two mechanical claws 66 are symmetrically arranged on the side surface of the mechanical palm 65, so that the shaped cement pipe can be clamped, and can be lifted up to rotate and transversely put into a designated storage area, so that a large-scale crane or manpower transportation can be avoided, the cost is saved, and the efficiency is improved.

The gripper 66 includes claw head 661, slipmat 662, electric jar 663, first connector 664 and second connector 665, claw head 661 rotates with mechanical palm 65 to be connected, and slipmat 662 is installed in the inside of claw head 661, can prevent when snatching the cement pipe that the cement pipe landing is damaged, the output of electric jar 663 is articulated with claw head 661 through first connector 664, the bottom of electric jar 663 is articulated with mechanical palm 65 through second connector 665, and like this when electric jar 663 stretches out the output, two grippers 66 can be gathered together to the centre, press from both sides tight cement pipe, unusual firm.

The working principle is as follows: when the cement pipe needs to be manufactured, firstly, the reinforcing mesh is placed on a pushing belt 47, a pushing motor 46 is started to start conveying the reinforcing mesh, when the reinforcing mesh reaches a pushing side plate 411, a pushing cylinder 44 is started to drive a pushing block 43 to push the reinforcing mesh onto a lower module 28, a lower die motor 25 is started to convey the reinforcing mesh below an upper module 34, an upper die hydraulic lifting rod 33 is started to lower the upper module 34 to be matched and cover the lower module 28, then, dry and hard concrete is injected from a material injection port 35, after the material injection is finished, two vibrating motors 36 are started to vibrate, after the cement pipe is tamped, the upper module 34 is pulled upwards to form the cement pipe, a fan blade 56 is started to carry out air drying and shaping on the shaped cement pipe, then, the shaped cement pipe is conveyed to one end close to a blanking mechanism 6 through the lower die belt 24, a mechanical claw 66 is started to grasp the shaped cement pipe, the cement pipe is lifted through the blanking hydraulic lifting rod 62, then the horizontal cement pipe is rotated, finally, the whole blanking hydraulic lifting rod 62 is rotated to place the finished cement pipe at a specified storage position, and a vehicle to be transported is transported to a warehouse.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; while the invention has been described in detail and with reference to the foregoing embodiments, it will be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims

1. A flat-mouth lantern ring joint cement pipe manufacturing device is characterized by comprising a floor (1), an upper die mechanism (3), a lower die mechanism (2), a reinforcing mesh pushing mechanism (4), an air drying mechanism (5) and a blanking mechanism (6), the floor (1) is laid on a horizontal plane, the lower die mechanism (2) is arranged on the floor (1), the upper die mechanism (3) is arranged at the upper part of the lower die mechanism (2) and is fixedly arranged on the floor (1), the reinforcing mesh pushing mechanism (4) is arranged on one side of the lower die mechanism (2) and penetrates through the outer side of the lower die mechanism (2), the air drying mechanism (5) is arranged between the upper die mechanism (3) and the lower die mechanism (2), the blanking mechanism (6) is arranged at the other side of the lower die mechanism (2), and the reinforcing mesh pushing mechanism (4), the air drying mechanism (5) and the blanking mechanism (6) are all installed and fixed on the floor (1).

2. The manufacturing equipment of the cement pipe with the flat lantern ring interface according to claim 1, wherein the lower die mechanism (2) comprises lower die supporting leg blocks (21), lower die crosspieces (22), lower die supporting plates (23), lower die belts (24), a lower die motor (25), two lower die side plates (26), two lower die rollers (27), a plurality of lower die blocks (28) and a plurality of separating blocks (29), the number of the lower die supporting leg blocks (21) is three, the lower die crosspieces (22) are installed between the three lower die supporting leg blocks (21), the lower die supporting plates (23) are of a rectangular structure, the lower die supporting plates (23) are installed at the tops of the three lower die supporting leg blocks (21), the two lower die side plates (26) are parallel to each other and are vertically installed on the lower die supporting plates (23), the two lower die rollers (27) are respectively installed between the two lower die side plates (26) and are in running fit with the lower die side, lower mould belt (24) cover is established on two lower mould roller bearings (27), install at the back lower mould motor (25) on lower mould curb plate (26) and main shaft and lower mould roller bearing (27) transmission cooperation, it is the rectangular block to separate piece (29), and is a plurality of separate piece (29) two liang of cooperations respectively are installed on lower mould belt (24), lower module (28) are the disc structure of shape according to cement pipe bottom design, and is a plurality of lower module (28) are established respectively between two adjacent separate piece (29).

3. The flat collar interface cement pipe manufacturing equipment according to claim 2, wherein the upper die mechanism (3) comprises an upper die support (31), an upper die transverse plate (32), an upper die hydraulic lifting rod (33), an upper die block (34), a feeding port (35) and two vibrating motors (36), the upper die support (31) is vertically installed on the floor (1) and located at the middle position of the back side, one end of the upper die transverse plate (32) is vertically installed at the top of the upper die support (31) and the other end extends towards the direction of the lower die block (28), the upper die hydraulic lifting rod (33) is vertically installed at the bottom of the upper die transverse plate (32) and located at the upper part of the middle lower die block (28), the top center of the upper die block (34) is connected with the bottom of the output end of the upper die hydraulic lifting rod (33), and the upper die block (34) is divided into an inner die (37) and an, lower module (28) and last module (34) between the intermediate layer be the shape of required cement pipe, sprue (35) are established the top of external mold (38) and run through to the intermediate layer between interior mould (37) and external mold (38), two vibrating motor (36) are installed respectively on the inner wall of interior mould (37) and the outer wall of external mold (38), two vibrating motor (36) resonance setting.

4. The manufacturing equipment of the cement pipe with the plain end lantern ring interface as claimed in claim 2, wherein the reinforcing mesh pushing mechanism (4) comprises two pushing leg blocks (41), two pushing transverse plates (42), two pushing blocks (43), two pushing cylinders (44), a cylinder block (45), a pushing motor (46), a pushing belt (47), two pushing rollers (48), two material conveying side plates (49), two pushing bottom plates (410) and two pushing side plates (411), the number of the pushing leg blocks (41) is two, the two pushing leg blocks (41) are vertically installed on the floor (1), the pushing transverse plate (42) is installed between the two pushing leg blocks (41), the two pushing bottom plates (410) are respectively vertically installed on the tops of the two pushing leg blocks (41), the two material conveying side plates (49) are respectively vertically installed on the tops of the two pushing bottom plates (410), the two pushing rollers (48) are respectively arranged between the two material conveying side plates (49) and positioned at the two ends of the two material conveying side plates (49), the two pushing rollers (48) are in running fit with the two material conveying side plates (49), the pushing belt (47) is sleeved on the two pushing rollers (48), the pushing motor (46) is installed on a material conveying side plate (49) positioned on one side of the lower die side plate (26), a main shaft is in transmission connection with the pushing rollers (48) in the corresponding positions, the two pushing side plates (411) are parallel to each other and are perpendicular to the two material conveying side plates (49), the two pushing side plates (411) penetrate through the two material conveying side plates (49), the cylinder seat (45) is arranged at the front ends of the two pushing bottom plates (410), the pushing cylinder (44) is arranged on the cylinder seat (45) and the output end penetrates through the cylinder seat (45) to extend inwards, the pushing block (43) is mounted on the output end of the pushing cylinder (44).

5. The flat collar interface cement pipe manufacturing equipment according to claim 3, wherein the air drying mechanism (5) comprises air drying legs (51), an air drying bottom plate (52), a fan frame (53), a fan frame (54), a fan cover (55) and fan blades (56), the air drying legs (51) are vertically installed on the floor (1) and located between the upper mold support (31) and the middle lower mold leg block (21), the air drying bottom plate (52) is vertically installed on the tops of the air drying legs (51), the fan frame (53) is vertically installed on the air drying bottom plate (52), the fan frame (54) is installed in the fan frame (53), the fan blades (56) are installed on the fan frame (54), and the fan cover (55) is installed on the back side of the fan frame (53).

6. The apparatus for manufacturing plain end lantern ring interface cement pipe according to claim 2, the blanking mechanism (6) comprises a rotary base (61), a blanking hydraulic lifting rod (62), a connecting block (63), a rotary motor (64), a mechanical palm (65) and two mechanical claws (66), the rotating base (61) is arranged on the floor (1) and is positioned at one end far away from the reinforcing mesh pushing mechanism (4), the blanking hydraulic lifting rod (62) is vertically arranged on the rotary base (61), the connecting block (63) is arranged at the top of the blanking hydraulic lifting rod (62), the bottom of the rotating motor (64) is horizontally arranged on the side surface of the connecting block (63) and the main shaft faces to the direction of the lower module (28), the mechanical palm (65) is arranged on a main shaft of the rotating motor (64), and the two mechanical claws (66) are symmetrically arranged on the side surface of the mechanical palm (65).

7. The manufacturing equipment of the cement pipe with the plain end lantern ring interface as claimed in claim 6, wherein the mechanical claw (66) comprises a claw head (661), an anti-slip mat (662), an electric cylinder (663), a first connector (664) and a second connector (665), the claw head (661) is rotatably connected with the mechanical palm (65), the anti-slip mat (662) is installed inside the claw head (661), the cement pipe can be prevented from slipping and being damaged when the cement pipe is grabbed, the output end of the electric cylinder (663) is hinged with the claw head (661) through the first connector (664), and the bottom of the electric cylinder (663) is hinged with the mechanical palm (65) through the second connector (665).