CN215631735U

CN215631735U - Cement pouring machine capable of vibrating and press polishing cement

Info

Publication number: CN215631735U
Application number: CN202120297297.8U
Authority: CN
Inventors: 李宏伟
Original assignee: Chengwu Zhonglian Cement Co ltd
Current assignee: Chengwu Zhonglian Cement Co ltd
Priority date: 2021-02-02
Filing date: 2021-02-02
Publication date: 2022-01-25
Anticipated expiration: 2031-02-02

Abstract

The utility model provides a cement pouring machine capable of vibrating and calendering cement, which comprises a supporting plate, a vibrating rod, a wiring port, a sealing wire pipe, a reinforcing plate, a concrete outlet pipe, a buffer cavity, a concrete inlet pipe and a suspension plate, wherein: the vibrating rod is arranged below the supporting plate through a bolt, the wiring port is arranged on one side of the vibrating rod through the bolt, and the sealing wire tube is arranged on the surface of the wiring port through threads; the reinforcing plate is arranged on the surface of the vibrating rod through bolts, the concrete delivery pipe is embedded in the supporting plate and the reinforcing plate and fixed through the bolts, and the buffer cavity is arranged above the concrete delivery pipe through threads; the rear end of the vibrating rod is connected with the buffer cavity through the supporting block, the concrete inlet pipe is installed above the buffer cavity through threads, and the suspension plate is embedded on the surfaces of the vibrating rod and the concrete outlet pipe. The buffer cavity, the suspension plate and the suspension cavity are arranged, the press polish can be performed, and the vibrating efficiency is high.

Description

Cement pouring machine capable of vibrating and press polishing cement

Technical Field

The utility model belongs to the technical field of cement vibration, and particularly relates to a cement pouring machine capable of vibrating and calendering cement.

Background

When the concrete mixed by the concrete mixer is used for pouring the member, air bubbles in the concrete must be removed, and tamping is carried out to ensure that the concrete is tightly combined, so that the phenomena of honeycomb pitted surface and the like of the concrete are eliminated, the strength of the concrete is improved, and the quality of the concrete member is ensured. The concrete vibrating idea is obtained by the process of eliminating air bubbles and tamping the concrete.

The secondary vibration of the concrete means that the concrete is vibrated again at a proper time after the concrete is poured. The secondary vibration of the concrete has a plurality of advantages, not only can improve the strength of the concrete or save the cement consumption on the premise of ensuring the strength, but also can increase the compactness of the concrete, improve the anti-seepage property and eliminate cracks and fine seams of the concrete caused by settlement. Experiments show that the secondary vibration can increase the bond strength of the reinforcing steel bars by 1/3, increase the strength of the reinforcing steel bars by 10-15%, and save about 15% of cement consumption on the premise of keeping the strength unchanged, but the existing cement vibration device still has the problems of incapability of calendaring and low vibration efficiency.

Therefore, it is necessary to invent a cement pouring machine capable of vibrating and calendering cement.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problems, the utility model provides a cement pouring machine capable of vibrating and calendering cement so as to solve the problems that the existing cement vibrating device still cannot be calendered and has low vibrating efficiency. The utility model provides a can vibrate and cement placement machine of press polish to cement, includes the backup pad, the stick that vibrates, the wiring mouth, sealed spool, gusset plate, concrete eduction tube, cushion chamber, concrete inlet tube and suspension board, wherein: the vibrating rod is arranged below the supporting plate through a bolt, the wiring port is arranged on one side of the vibrating rod through the bolt, and the sealing wire tube is arranged on the surface of the wiring port through threads; the reinforcing plate is arranged on the surface of the vibrating rod through bolts, the concrete delivery pipe is embedded in the supporting plate and the reinforcing plate and fixed through the bolts, and the buffer cavity is arranged above the concrete delivery pipe through threads; the rear end of the vibrating rod is connected with the buffer cavity through the supporting block, the concrete inlet pipe is installed above the buffer cavity through threads, and the suspension plate is embedded on the surfaces of the vibrating rod and the concrete outlet pipe.

The buffer cavity comprises a shell, an inlet pipe connecting port and an outlet pipe connecting port, the inlet pipe connecting port is installed above the shell through threads, and the outlet pipe connecting port is installed below the shell through threads.

The suspension plate comprises a stress plate, a suspension cavity and an anti-sticking surface, the suspension cavity is welded below the stress plate, and the anti-sticking surface is bonded on the surfaces of the stress plate and the suspension cavity.

The cushion chamber adopts cylindric steel metal box, and the inside of cushion chamber is provided with the space, and the income pipe connector and the exit tube connector of this cushion chamber inside carry out the UNICOM through the shell, are favorable to making the short time of dwell that is preceded in the cushion chamber by the injected concrete, then the outside blowout of even follow concrete delivery pipe under the promotion of pressure again, the outside outflow that makes the concrete of each position of local area can be more even.

The suspension plate is made of a steel metal plate, two ends of the suspension plate are tilted upwards, the suspension plate can slide on the surfaces of the vibrating rod and the concrete delivery pipe and is fixed at a designated position through bolts, the contact area between the suspension plate and the liquid level of the concrete is favorably corrected, the suspension plate can easily slide on the surface of the suspension plate, and the concrete can be prevented from sinking into the concrete.

The suspension cavity adopts a plurality of steel hemispheroids, is hollow and is uniformly distributed on the lower surface of the stress plate, so that the buoyancy of the suspension plate is increased, additionally, the support force is provided for the suspension device, the liquid level is prevented from submerging into the surface of the suspension plate, the suspension device is submerged in the suspension device, the suspension cavity can perform slight matte treatment on the surface of cement while moving along with the suspension plate, and the cement on the surface of the suspension cavity is more uniform.

Compared with the prior art, the utility model has the following beneficial effects:

1. the arrangement of the buffer cavity is beneficial to enabling the injected concrete to stay in the buffer cavity for a short time, and then the injected concrete is uniformly sprayed out from the concrete delivery pipe under the pushing of pressure, so that the concrete at each position of a local area can flow out more uniformly.

2. The suspension plate is beneficial to the contact area between the suspension plate and the liquid level of the concrete, so that the suspension plate can easily slide on the surface of the concrete and can prevent the concrete from sinking into the concrete.

3. The arrangement of the suspension cavity is beneficial to increasing the buoyancy of the suspension plate, additionally provides a supporting force for the suspension plate, prevents the liquid level from submerging into the surface of the suspension plate, enables the suspension plate to sink, and can perform slight matte treatment on the surface of cement while the suspension cavity moves along with the suspension plate, so that the cement on the surface of the suspension plate is more uniform.

Drawings

Fig. 1 is a schematic structural view of the present invention.

FIG. 2 is a schematic view of the buffer chamber of the present invention.

Fig. 3 is a schematic structural view of the suspension plate of the present invention.

In the figure:

1-support plate, 2-vibrating rod, 3-wiring port, 4-sealing wire pipe, 5-reinforcing plate, 6-concrete delivery pipe, 7-buffer cavity, 71-shell, 72-inlet pipe connector, 73-outlet pipe connector, 8-concrete delivery pipe, 9-suspension plate, 91-stress plate, 92-suspension cavity and 93-anti-sticking surface.

Detailed Description

In order to make the technical solutions of the present invention better understood by those skilled in the art, the technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. 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.

As shown in figures 1 to 3.

The utility model provides a cement pouring machine capable of vibrating and calendering cement, which comprises a supporting plate 1, a vibrating rod 2, a wiring port 3, a sealing wire pipe 4, a reinforcing plate 5, a concrete delivery pipe 6, a buffer cavity 7, a concrete inlet pipe 8 and a suspension plate 9, wherein: the vibrating rod 2 is installed below the supporting plate 1 through a bolt, the wiring port 3 is installed on one side of the vibrating rod 2 through a bolt, and the sealing wire pipe 4 is installed on the surface of the wiring port 3 through threads; the reinforcing plate 5 is arranged on the surface of the vibrating rod 2 through bolts, the concrete delivery pipe 6 is embedded in the supporting plate 1 and the reinforcing plate 5 and fixed through the bolts, and the buffer cavity 7 is arranged above the concrete delivery pipe 6 through threads; the rear end of the vibrating rod 2 is connected with the buffer cavity 7 through a supporting block, the concrete inlet pipe 8 is installed above the buffer cavity 7 through threads, and the suspension plate 9 is embedded on the surfaces of the vibrating rod 2 and the concrete outlet pipe 6.

The buffer chamber 7 includes a housing 71, an inlet pipe connection port 72 and an outlet pipe connection port 73, the inlet pipe connection port 72 being screw-mounted above the housing 71, and the outlet pipe connection port 73 being screw-mounted below the housing 71.

The suspension plate 9 comprises a force-bearing plate 91, a suspension cavity 92 and a release surface 93, wherein the suspension cavity 92 is welded below the force-bearing plate 91, and the release surface 93 is adhered to the surfaces of the force-bearing plate 91 and the suspension cavity 92.

According to the cement pouring machine capable of vibrating and calendaring cement, a supporting plate 1 is a round steel metal disc and is used for supporting other structures below the supporting plate; the vibrating rod 2 carries out a vibrating and tamping process on the concrete mixture discharged into the pouring bin so as to improve the strength of the concrete mixture and ensure the quality of the concrete member; the wiring port 3 and the sealing wire tube 4 are connected with a power supply for the vibrating rod 2; the reinforcing plate 5 is beneficial to reinforcing the connection between the concrete delivery pipe 6 and the vibrating rod 2 again; the concrete delivery pipe 6 is used for outputting concrete outwards; the buffer cavity 7 is a cylindrical steel metal box, a space is arranged in the buffer cavity 7, and an inlet pipe connecting port 72 and an outlet pipe connecting port 73 in the buffer cavity 7 are communicated through the shell 71, so that the injected concrete can stay in the buffer cavity 7 for a short time, and then is uniformly sprayed out from the concrete delivery pipe 6 under the pushing of pressure, and the concrete at each position of a local area can flow out more uniformly; the suspension plate 9 is made of a steel metal plate, two ends of the suspension plate 9 are tilted upwards, the suspension plate 9 can slide on the surfaces of the vibrating rod 2 and the concrete delivery pipe 6 and is fixed at a designated position through bolts, the contact area between the concrete delivery pipe and the liquid level of the concrete is favorably corrected, the concrete delivery pipe can easily slide on the surface of the concrete delivery pipe, and the concrete delivery pipe can be prevented from sinking into the concrete; the suspension cavity 92 is made of a plurality of steel hemispheroids, the suspension cavity 92 is hollow, the suspension cavity 92 is uniformly distributed on the lower surface of the stress plate 91, the buoyancy of the suspension plate 9 is increased, and a supporting force is additionally provided for the suspension device, so that the liquid level is prevented from sinking into the surface of the suspension plate 9, and the suspension device is practical to sink.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims

1. The utility model provides a can vibrate cement pouring machine with press polish to cement which characterized in that: including backup pad (1), vibrating rod (2), wiring mouth (3), sealed spool (4), gusset plate (5), concrete delivery pipe (6), cushion chamber (7), concrete induction pipe (8) and suspension board (9), wherein: the vibrating rod (2) is arranged below the supporting plate (1) through a bolt, the wiring port (3) is arranged on one side of the vibrating rod (2) through the bolt, and the sealing wire pipe (4) is arranged on the surface of the wiring port (3) through threads; the reinforcing plate (5) is arranged on the surface of the vibrating rod (2) through bolts, the concrete delivery pipe (6) is embedded in the supporting plate (1) and the reinforcing plate (5) and fixed through the bolts, and the buffer cavity (7) is arranged above the concrete delivery pipe (6) through threads; the rear end of the vibrating rod (2) is connected with the buffer cavity (7) through the supporting block, the concrete inlet pipe (8) is installed above the buffer cavity (7) through threads, and the suspension plate (9) is embedded on the surfaces of the vibrating rod (2) and the concrete outlet pipe (6).

2. A cement casting machine capable of vibrating and calendering cement as claimed in claim 1, characterized in that: the buffer cavity (7) comprises a shell (71), an inlet pipe connecting port (72) and an outlet pipe connecting port (73), the inlet pipe connecting port (72) is installed above the shell (71) through threads, and the outlet pipe connecting port (73) is installed below the shell (71) through threads.

3. A cement casting machine capable of vibrating and calendering cement as claimed in claim 1, characterized in that: the suspension plate (9) comprises a stress plate (91), a suspension cavity (92) and an anti-sticking surface (93), the suspension cavity (92) is welded below the stress plate (91), and the anti-sticking surface (93) is adhered to the surfaces of the stress plate (91) and the suspension cavity (92).

4. A cement casting machine capable of vibrating and calendering cement as claimed in claim 1, characterized in that: the buffer cavity (7) is a cylindrical steel metal box, a space is arranged in the buffer cavity (7), and an inlet pipe connecting port (72) and an outlet pipe connecting port (73) in the buffer cavity (7) are communicated through a shell (71).

5. A cement casting machine capable of vibrating and calendering cement as claimed in claim 1, characterized in that: the suspension plate (9) adopts a steel metal plate, the two ends of the suspension plate (9) are upwards tilted, and the suspension plate (9) can slide on the surfaces of the vibrating rod (2) and the concrete delivery pipe (6) and is fixed at a designated position through bolts.

6. A cement casting machine capable of vibrating and calendering cement as claimed in claim 3, characterized in that: the suspension cavity (92) is made of a plurality of steel hemispheroids, the suspension cavity (92) is hollow, and the suspension cavity (92) is uniformly distributed on the lower surface of the stress plate (91).