CN112123559B - Cement pipe production device convenient for discharging and using method thereof - Google Patents

Abstract

The invention discloses a cement pipe production device convenient for discharging and a using method thereof, and the cement pipe production device comprises an outer die mechanism and an inner die mechanism which are used for matching and forming, a vibration mechanism used for providing a vibration effect and a discharging mechanism used for discharging quickly, wherein the outer die mechanism is arranged on a supporting mechanism, the vibration mechanism is arranged on the upper side of the outer die mechanism, the inner die mechanism is arranged on the inner side of the outer die mechanism, a cement pipe is formed between the outer die mechanism and the inner die mechanism, the lower end of the inner die mechanism is connected with the discharging mechanism, and the power end of the vibration mechanism is connected with a vibration power mechanism. According to the invention, the outer template, the semicircular inner template and the splicing inner template are matched, so that the demoulding can be carried out quickly, the later-stage unloading operation is facilitated, meanwhile, the vibrating position can be adjusted along with the pouring position by using the vibrating rod, the forming effect of the cement pipe is improved, the cement pipe can be quickly inclined to unload after being formed by using the matching of the overturning seat, the supporting cylinder and the bottom adjusting screw, and the unloading working efficiency is improved.

Description

Cement pipe production device convenient for discharging and using method thereof

Technical Field

The invention relates to the field of cement pipe production, in particular to a cement pipe production device convenient for discharging and a using method thereof.

Background

The cement pipeline is also called cement pressure pipe and reinforced concrete pipe, and can be used as sewer pipe in urban construction foundation, and can discharge sewage, flood control and drainage, and water supply pipe and farmland pumping well used in some special factories and mines.

The existing cement pipe production line is working, the upper and lower dies are operated manually, so that the labor intensity is large, the external vibration force is required to be ensured when pouring is carried out, the forming effect of the cement pipe is ensured, and when the dies are dismantled, the discharging can not be carried out quickly and effectively.

Disclosure of Invention

The present invention is directed to solving the above problems and providing a cement pipe manufacturing apparatus facilitating discharge and a method of using the same.

The invention realizes the purpose through the following technical scheme:

a cement pipe production device convenient for discharging comprises an outer die mechanism, an inner die mechanism, a vibration mechanism and a discharging mechanism, wherein the outer die mechanism and the inner die mechanism are used for being matched and formed, the vibration mechanism is used for providing a vibration effect, the discharging mechanism is used for discharging materials quickly, the outer die mechanism is mounted on a supporting mechanism, the vibration mechanism is arranged on the upper side of the outer die mechanism, the inner die mechanism is arranged on the inner side of the outer die mechanism, a cement pipe is formed between the outer die mechanism and the inner die mechanism, the lower end of the inner die mechanism is connected with the discharging mechanism, and the power end of the vibration mechanism is connected with a vibration power mechanism;

the supporting mechanism comprises an upright post and a base, and the base is arranged at the lower end of the upright post;

the outer die mechanism comprises an outer die plate, a connecting seat, a rotating column and a central coupling, wherein the outer side of the outer die plate is connected with the connecting seat, the power end of the connecting seat is connected with the rotating column, the lower end of the rotating column is connected with the central coupling, and the central coupling is connected with a rotating motor through a speed change gear set;

the vibration mechanism comprises a lifting slider, a connecting arm and a vibrating rod, the connecting arm is connected to the front end of the lifting slider, the vibrating rod is mounted on the connecting arm, and the connecting arm is matched with a vibration slot and formed on the connecting seat;

the inner die mechanism comprises a semicircular inner die plate, a splicing inner die plate, a first supporting cylinder and a central fixed column, wherein the front side of the semicircular inner die plate is provided with two splicing inner die plates, the inner sides of the semicircular inner die plate and the splicing inner die plate are connected with the central fixed column through the first supporting cylinder, and the central fixed column is connected to the upper end of the unloading mechanism;

the discharging mechanism comprises a turnover seat, an outer fixing seat, a turnover support shaft and a bottom sliding block, wherein the turnover support shaft is arranged at two ends of the turnover seat and is connected with the base through the outer fixing seat;

the center fixing column is connected with the turnover seat through a bolt, the first supporting cylinder is connected with the center fixing column through a bolt, the center fixing column is arranged in such a way, the center fixing column plays a supporting role, the supporting cylinder stretches and contracts to adjust, the outer fixing seat is connected with the base through welding, the turnover seat is connected with the turnover supporting shaft through welding, the turnover supporting shaft is connected with the outer fixing seat in a rotating way, the outer fixing seat plays a connecting and supporting role, the connecting strength is guaranteed through welding, the movable connecting seat is connected with the turnover seat through welding, the movable connecting seat is connected with the second supporting cylinder through a pin, the bottom sliding block is connected with the bottom adjusting screw rod through threads, the movable connecting seat plays a movable connecting role, and the second supporting cylinder plays a stretching and supporting role to adjust.

Preferably: the vibration power mechanism comprises a servo motor, a central shaft, transmission chain wheels and transmission chains, wherein the power output end of the servo motor is connected with the central shaft, the central shaft is connected with the two transmission chain wheels, the transmission chain wheels are connected with the transmission chain wheels at two sides through the transmission chains, and the lifting screw rods are connected to the transmission chain wheels at two sides.

So set up, it is right as needs when the vibrting spear goes up and down, the servo motor bucket the center pin drives two drive sprocket rotates to the cooperation drive chain and opposite side drive sprocket makes the lifting screw is rotatory, thereby makes the lifting screw cooperation the lift slider makes the vibrting spear goes up and down.

Preferably: the vibration power mechanism comprises a servo motor, a central shaft, a driving bevel gear and a transmission bevel gear, wherein the power output end of the servo motor is connected with the central shaft, the driving bevel gear is connected to the central shaft, the transmission bevel gear is connected to the outer portion of the driving bevel gear, the transmission bevel gear is connected to the other side of the driving bevel gear through a connecting rod, and a lifting screw is connected to the transmission bevel gear on the other side of the driving bevel gear.

With the arrangement, when the vibrating rod needs to be lifted, the central shaft of the servo motor barrel drives the driving bevel gear to rotate, so that the driving bevel gear enables the lifting screw to rotate through the transmission bevel gear and the connecting rod, and the lifting screw is matched with the lifting slider to lift the vibrating rod.

Preferably: the base is connected with the upright post through welding.

So set up, the base plays the bearing effect, the stand plays the supporting role, has guaranteed stability through welded connection.

Preferably: the outer template is connected with the connecting seat in a welding mode, the connecting seat is connected with the rotary column in a welding mode, the rotary column is in key connection with the central coupling, and the speed change gear set is in key connection with the central coupling and the rotating motor.

So set up, the exterior sheathing plays the cooperation shaping effect, the connecting seat plays the supporting role.

Preferably: the vibrating rod is connected with the connecting arm through a bolt, the vibrating rod is connected with the connecting seat in a sliding mode, and the lifting sliding block is connected with the vibrating power mechanism through threads.

So set up, the vibrting spear plays and takes place the vibration effect to make cement can receive abundant shock, improve the shaping effect of cement pipe.

The use method of the cement pipe production device convenient for discharging comprises the following steps:

a. when a cement pipe needs to be poured, the two outer templates are sealed in a rotating matching mode through a rotating column, meanwhile, the inner semicircular template and the inner splicing template on the inner side form a proper sealing state, and a groove which is used for forming the cement pipe and has good sealing performance is formed between the outer template mechanism and the inner template mechanism;

b. pouring the space in front of the outer template and the semicircular inner template, and starting a servo motor at the same time, so that the servo motor drives a lifting screw to rotate through a transmission chain wheel and a transmission chain or through a driving bevel gear and a transmission bevel gear, and a lifting slide block drives a vibrating rod to descend and insert into the inner side of a matched vibrating slot on a connecting seat;

c. the vibration is generated by matching with the vibration slot during pouring, and simultaneously, the position of the vibrating rod is raised when the cement horizontal plane is raised, so that the strongest point of vibration can be always lower than the cement horizontal plane for a certain distance, and the pouring effect of cement is improved;

d. after the pouring, treat cement pipe shaping back, the rotating electrical machines starts, the column spinner drives two exterior sheathing separations through power transmission back, makes the cement pipe expose, and the second start of bottom accommodate motor of controlling again and support cylinder to support the upset seat and overturn, treat to overturn to suitable angle after, correspond two concatenation interior formworks and support cylinder shrink, make the semicircle interior formword support the cement pipe, and the concatenation interior formword breaks away from the cement pipe, thereby horizontal direction removal cement pipe unloads fast.

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

1. the outer template is matched with the semicircular inner template and the spliced inner template, so that the demoulding can be performed quickly, the later-stage unloading operation is facilitated, and meanwhile, the vibrating position can be adjusted along with the pouring position by using the vibrating rod, so that the forming effect of the cement pipe is improved;

2. the cooperation of the turnover seat, the supporting cylinder and the bottom adjusting screw is utilized, so that the cement pipe can be quickly inclined and unloaded after being formed, and the unloading work efficiency is improved.

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 only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic view of a first state of a cement pipe production apparatus for facilitating discharge according to the present invention;

FIG. 2 is a schematic structural view of a cement pipe production apparatus for facilitating discharge according to the present invention in a second state;

FIG. 3 is a schematic view of a third state of the apparatus for producing a cement pipe for facilitating discharging according to the present invention;

FIG. 4 is a schematic structural view of a discharge mechanism of the apparatus for producing cement pipes for facilitating discharge according to the present invention;

FIG. 5 is a schematic structural view of a vibration mechanism of a cement pipe production apparatus for facilitating discharge according to the present invention;

FIG. 6 is a schematic structural diagram of an internal mold mechanism of a cement pipe production device for facilitating discharge according to the present invention;

FIG. 7 is a schematic view of a driving sprocket of a cement pipe production apparatus for facilitating discharge according to the present invention;

fig. 8 is a schematic view of a drive bevel gear structure of a cement pipe production apparatus for facilitating discharge according to the present invention.

The reference numerals are explained below:

1. a support mechanism; 2. an outer mold mechanism; 3. a vibration mechanism; 4. an internal mold mechanism; 5. a discharge mechanism; 6. a vibration power mechanism; 7. a cement pipe; 11. a column; 12. a base; 21. an outer template; 22. a connecting seat; 23. a spin column; 24. a central coupling; 25. a speed change gear set; 26. a rotating electric machine; 31. a lifting slide block; 32. a connecting arm; 33. a vibrating rod; 34. matching with a vibration slot; 41. a semicircular inner template; 42. splicing the inner templates; 43. a first supporting cylinder; 44. a central fixing column; 51. a turning seat; 52. an outer fixed seat; 53. turning over the supporting shaft; 54. a bottom slider; 55. a second supporting cylinder; 56. a bottom adjusting screw; 57. a bottom adjustment motor; 58. a movable connecting seat; 61. a servo motor; 62. a central shaft; 63. a drive sprocket; 64. a drive chain; 65. a lifting screw; 611. a drive bevel gear; 612. a drive bevel gear; 613. a connecting rod.

Detailed Description

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on those shown in the drawings, and are used only for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

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 meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

The invention will be further described with reference to the accompanying drawings in which:

example 1

As shown in fig. 1-7, a cement pipe production device convenient for discharging comprises an outer mold mechanism 2 for matching molding, an inner mold mechanism 4, a vibration mechanism 3 for providing a vibration effect, and a discharging mechanism 5 for discharging quickly, wherein the outer mold mechanism 2 is installed on a supporting mechanism 1, the vibration mechanism 3 is arranged on the upper side of the outer mold mechanism 2, the inner mold mechanism 4 is arranged on the inner side of the outer mold mechanism 2, a cement pipe 7 is molded between the outer mold mechanism 2 and the inner mold mechanism 4, the lower end of the inner mold mechanism 4 is connected with the discharging mechanism 5, and the power end of the vibration mechanism 3 is connected with a vibration power mechanism 6;

the supporting mechanism 1 comprises a vertical column 11 and a base 12, wherein the base 12 is arranged at the lower end of the vertical column 11;

the outer die mechanism 2 comprises an outer die plate 21, a connecting seat 22, a rotating column 23 and a central coupling 24, wherein the outer side of the outer die plate 21 is connected with the connecting seat 22, the power end of the connecting seat 22 is connected with the rotating column 23, the lower end of the rotating column 23 is connected with the central coupling 24, and the central coupling 24 is connected with a rotating motor 26 through a speed change gear set 25;

the vibration mechanism 3 comprises a lifting slide block 31, a connecting arm 32 and a vibrating rod 33, the connecting arm 32 is connected to the front end of the lifting slide block 31, the vibrating rod 33 is installed on the connecting arm 32, and the connecting arm is matched with a vibration slot 34 and formed on the connecting seat 22;

the inner die mechanism 4 comprises a semicircular inner die plate 41, a splicing inner die plate 42, a supporting cylinder I43 and a central fixing column 44, wherein the two splicing inner die plates 42 are arranged on the front side of the semicircular inner die plate 41, the inner sides of the semicircular inner die plate 41 and the splicing inner die plate 42 are connected with the central fixing column 44 through the supporting cylinder I43, and the central fixing column 44 is connected to the upper end of the discharging mechanism 5;

the discharging mechanism 5 comprises a turnover seat 51, an outer fixed seat 52, a turnover support shaft 53 and a bottom sliding block 54, wherein the turnover support shaft 53 is arranged at two ends of the turnover seat 51, the turnover support shaft 53 is connected with the base 12 through the outer fixed seat 52, the lower end face of the turnover seat 51 is connected with a support cylinder II 55 through a movable connecting seat 58, the lower end of the support cylinder II 55 is connected with the bottom sliding block 54 through the movable connecting seat 58, a bottom adjusting screw 56 is connected onto the bottom sliding block 54, and the power end of the bottom adjusting screw 56 is connected with a bottom adjusting motor 57;

the central fixing column 44 is connected with the overturning seat 51 through a bolt, the first supporting cylinder 43 is connected with the central fixing column 44 through a bolt, the central fixing column 44 plays a supporting role, and the first supporting cylinder 43 plays a telescopic adjusting role; the outer fixing seat 52 is connected with the base 12 through welding, the overturning seat 51 is connected with the overturning support shaft 53 through welding, the overturning support shaft 53 is rotatably connected with the outer fixing seat 52, the outer fixing seat 52 plays a role in connection and support, and the connection strength is ensured through welding; the movable connecting seat 58 is connected with the overturning seat 51 through welding, the movable connecting seat 58 is in pin connection with the supporting cylinder II 55, the bottom sliding block 54 is in threaded connection with the bottom adjusting screw rod 56, the movable connecting seat 58 plays a role in movable connection, and the supporting cylinder II 55 plays a role in telescopic supporting and adjusting.

Preferably: the vibration power mechanism 6 comprises a servo motor 61, a central shaft 62, transmission chain wheels 63 and a transmission chain 64, wherein the power output end of the servo motor 61 is connected with the central shaft 62, the central shaft 62 is connected with the two transmission chain wheels 63, the transmission chain wheels 63 are connected with the transmission chain wheels 63 at two sides through the transmission chain 64, and a lifting screw 65 is connected with the transmission chain wheels 63 at two sides; the base 12 is connected with the upright post 11 through welding, the base 12 plays a bearing role, the upright post 11 plays a supporting role, and the stability is ensured through the welding connection; the outer template 21 is connected with the connecting seat 22 through welding, the connecting seat 22 is connected with the rotating column 23 through welding, the rotating column 23 is in key connection with the central coupling 24, the speed change gear set 25 is in key connection with the central coupling 24 and the rotating motor 26, the outer template 21 plays a role in matching and forming, and the connecting seat 22 plays a role in supporting; the vibrating spear 33 passes through bolted connection linking arm 32, and vibrating spear 33 sliding connection connecting seat 22, and the slider 31 that goes up and down passes through threaded connection vibration power unit 6, and vibrating spear 33 plays the vibration effect that takes place to make cement can receive abundant shock, improve the shaping effect of cement pipe 7.

Example 2

As shown in fig. 8, the present embodiment is different from embodiment 1 in that:

the vibration power mechanism 6 comprises a servo motor 61, a central shaft 62, a drive bevel gear 611 and a drive bevel gear 612, wherein the power output end of the servo motor 61 is connected with the central shaft 62, the drive bevel gear 611 is connected to the central shaft 62, the drive bevel gear 612 is connected to the outside of the drive bevel gear 611, the drive bevel gear 612 is connected to the drive bevel gear 612 on the other side through a connecting rod 613, and the lifting screw 65 is connected to the drive bevel gear 612 on the other side.

The use method of the cement pipe production device convenient for discharging comprises the following steps:

a. when the cement pipe 7 needs to be poured, the two outer templates 21 are sealed in a rotating fit mode through the rotating column 23, meanwhile, the semicircular inner template 41 and the splicing inner template 42 on the inner side form a proper sealing state, and a groove which is well sealed and forms the cement pipe 7 is formed between the outer template mechanism 2 and the inner template mechanism 4;

b. pouring is carried out in the space in front of the outer template 21 and the semicircular inner template 41, and meanwhile, the servo motor 61 is started, so that the servo motor 61 drives the lifting screw 65 to rotate through the transmission chain wheel 63 and the transmission chain 64 or the servo motor 61 through the driving bevel gear 611 and the transmission bevel gear 612, and the lifting slide block 31 drives the vibrating rod 33 to descend and be inserted into the inner side of the matched vibration slot 34 on the connecting seat 22;

c. the vibration slot 34 is matched to generate vibration during pouring, and simultaneously, the position of the vibrating rod 33 is raised when the cement horizontal plane is raised, so that the point with the strongest vibration can be always lower than the cement horizontal plane for a certain distance, and the pouring effect of cement is improved;

d. after the pouring, treat cement pipe 7 shaping back, rotating electrical machines 26 starts, the column spinner 23 drives two exterior sheathing 21 separations through power transmission back, make cement pipe 7 expose, the second 55 start of bottom accommodate motor 57 of the second sum of control cylinder again, thereby support upset seat 51 and overturn, treat to overturn behind the suitable angle, support cylinder 43 that corresponds two concatenation inner formworks 42 contracts, make semicircle inner formworks 41 support cement pipe 7, and concatenation inner formworks 42 breaks away from cement pipe 7, thereby horizontal direction removes cement pipe 7, unload fast.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed.

Claims (7)

1. The utility model provides a cement pipe apparatus for producing convenient to unload which characterized in that: the device comprises an outer die mechanism (2) and an inner die mechanism (4) which are used for being matched and formed, a vibration mechanism (3) used for providing a vibration effect and a discharging mechanism (5) used for discharging materials quickly, wherein the outer die mechanism (2) is installed on a supporting mechanism (1), the vibration mechanism (3) is arranged on the upper side of the outer die mechanism (2), the inner die mechanism (4) is arranged on the inner side of the outer die mechanism (2), a cement pipe (7) is formed between the outer die mechanism (2) and the inner die mechanism (4), the lower end of the inner die mechanism (4) is connected with the discharging mechanism (5), and the power end of the vibration mechanism (3) is connected with a vibration power mechanism (6);

the supporting mechanism (1) comprises an upright post (11) and a base (12), wherein the base (12) is arranged at the lower end of the upright post (11);

the outer die mechanism (2) comprises an outer die plate (21), a connecting seat (22), a rotary column (23) and a central coupling (24), the outer side of the outer die plate (21) is connected with the connecting seat (22), the power end of the connecting seat (22) is connected with the rotary column (23), the lower end of the rotary column (23) is connected with the central coupling (24), and the central coupling (24) is connected with a rotary motor (26) through a speed change gear set (25);

the vibration mechanism (3) comprises a lifting slide block (31), a connecting arm (32) and a vibrating rod (33), the front end of the lifting slide block (31) is connected with the connecting arm (32), the vibrating rod (33) is installed on the connecting arm (32), and the connecting arm is matched with a vibration slot (34) to be formed in the connecting base (22);

the inner die mechanism (4) comprises a semicircular inner die plate (41), a splicing inner die plate (42), a first supporting cylinder (43) and a central fixing column (44), wherein the two splicing inner die plates (42) are arranged on the front side of the semicircular inner die plate (41), the inner sides of the semicircular inner die plate (41) and the splicing inner die plate (42) are connected with the central fixing column (44) through the first supporting cylinder (43), and the central fixing column (44) is connected to the upper end of the discharging mechanism (5);

the discharging mechanism (5) comprises a turning seat (51), an outer fixed seat (52), a turning support shaft (53) and a bottom sliding block (54), the turning support shaft (53) is arranged at two ends of the turning seat (51), the turning support shaft (53) is connected with the base (12) through the outer fixed seat (52), the lower end face of the turning seat (51) is connected with a second support cylinder (55) through a movable connecting seat (58), the lower end of the second support cylinder (55) is connected with the bottom sliding block (54) through the movable connecting seat (58), the bottom sliding block (54) is connected with a bottom adjusting screw rod (56), and the power end of the bottom adjusting screw rod (56) is connected with a bottom adjusting motor (57);

the center fixing column (44) is connected with the overturning seat (51) through a bolt, the supporting cylinder I (43) is connected with the center fixing column (44) through a bolt, the outer fixing seat (52) is connected with the base (12) through welding, the overturning seat (51) is connected with the overturning support shaft (53) through welding, the overturning support shaft (53) is rotatably connected with the outer fixing seat (52), the movable connecting seat (58) is connected with the overturning seat (51) through welding, the movable connecting seat (58) is in pin connection with the supporting cylinder II (55), and the bottom sliding block (54) is connected with the bottom adjusting screw rod (56) through a thread.

2. A cement pipe production apparatus facilitating discharge according to claim 1, wherein: vibration power unit (6) include servo motor (61), center pin (62), drive sprocket (63), drive chain (64), servo motor (61) power take off end connects center pin (62), be connected with two on center pin (62) drive sprocket (63), drive sprocket (63) pass through drive chain (64) connect both sides drive sprocket (63), lifting screw (65) are connected both sides on drive sprocket (63).

3. A cement pipe production apparatus facilitating discharge according to claim 1, wherein: the vibration power mechanism (6) comprises a servo motor (61), a central shaft (62), a driving bevel gear (611) and a transmission bevel gear (612), wherein the power output end of the servo motor (61) is connected with the central shaft (62), the driving bevel gear (611) is connected to the central shaft (62), the transmission bevel gear (612) is connected to the outside of the driving bevel gear (611), the transmission bevel gear (612) is connected to the other side of the transmission bevel gear (612) through a connecting rod (613), and a lifting screw (65) is connected to the transmission bevel gear (612) on the other side of the transmission bevel gear.

4. A cement pipe production apparatus facilitating discharge according to claim 1, wherein: the base (12) is connected with the upright post (11) through welding.

5. A cement pipe production apparatus facilitating discharge according to claim 1, wherein: outer template (21) is through welded connection connecting seat (22), connecting seat (22) are through welded connection column spinner (23), column spinner (23) key-type connection center shaft coupling (24), change gear group (25) key-type connection center shaft coupling (24) rotating electrical machines (26).

6. A cement pipe production apparatus facilitating discharge according to claim 1, wherein: the vibrating rod (33) is connected with the connecting arm (32) through a bolt, the vibrating rod (33) is connected with the connecting seat (22) in a sliding mode, and the lifting sliding block (31) is connected with the vibrating power mechanism (6) through threads.

7. Use of a cement pipe production plant for facilitating discharge according to any one of claims 1 to 6, characterized in that: the method comprises the following steps:

a. when the cement pipe (7) needs to be poured, the two outer templates (21) are sealed in a rotating fit mode through the rotating column (23), meanwhile, the semicircular inner template (41) and the splicing inner template (42) on the inner side form a proper sealing state, and a groove which is used for forming the cement pipe (7) and has good sealing performance is formed between the outer template mechanism (2) and the inner template mechanism (4);

b. pouring the space in front of the outer template (21) and the semicircular inner template (41), and simultaneously starting the servo motor (61), so that the servo motor (61) drives the lifting screw rod (65) to rotate through the transmission chain wheel (63) and the transmission chain (64) or the servo motor (61) drives the driving bevel gear (611) and the transmission bevel gear (612), and the lifting slide block (31) drives the vibrating rod (33) to descend and be inserted into the inner side of the matched vibration slot (34) on the connecting seat (22);

c. the vibration is generated by matching with the vibration slot (34) during pouring, and simultaneously, the position of the vibrating rod (33) is raised when the cement level is raised, so that the point with the strongest vibration can be always lower than the cement level for a certain distance, and the pouring effect of cement is improved;

d. after the pouring, treat cement pipe (7) shaping back, rotating electrical machines (26) start, rotating column (23) drive two exterior sheathing (21) separation after through power transmission, make cement pipe (7) expose, control bottom adjustment motor (57) and support cylinder two (55) and start again, thereby support upset seat (51) and overturn, treat to overturn behind the suitable angle, support cylinder one (43) the shrink of corresponding two concatenation interior formworks (42), make semicircle interior formworks (41) support cement pipe (7), and concatenation interior formworks (42) break away from cement pipe (7), thereby horizontal direction removal cement pipe (7), unload fast.

Images