CN112779839A

CN112779839A - Filling device for road and bridge construction and working method thereof

Info

Publication number: CN112779839A
Application number: CN202011535755.3A
Authority: CN
Inventors: 张明明
Original assignee: Xuzhou Ronglu Bridge Co Ltd
Current assignee: Xuzhou Ronglu Bridge Co Ltd
Priority date: 2020-12-23
Filing date: 2020-12-23
Publication date: 2021-05-11

Abstract

The invention discloses a filling device for road and bridge construction, which mainly comprises a storage box, a filling box, a support frame, a discharge compressor and a feeding pipe. Wherein, the stuffing box is arranged on the support frame and is positioned in the middle of the support frame. The feeding pipe is respectively connected with the material storage box and the stuffing box. The discharge compressor is arranged on the feeding pipe and is positioned at one end of the feeding pipe connected with the storage box. Wherein, the storage case includes case lid, feed inlet, (mixing) shaft, stirring end, discharge gate. Wherein, the case lid closes with storage box top lid. The feed inlet is arranged on the box cover and is positioned at one end of the box cover close to the side wall of the storage box. The stirring shaft is arranged in the material storage box and is positioned at the middle end of the bottom of the material storage box. The stirring end is arranged at one end of the stirring shaft far away from the bottom of the material storage box. The discharge port is arranged at the bottom of the storage box. The discharge port is connected with a feeding pipe. The stuffing box comprises an inlet, a circulating stirring mechanism, a discharge port, a vibration disc and a stuffing port.

Description

Filling device for road and bridge construction and working method thereof

Technical Field

The invention belongs to the field of road and bridge construction and production and manufacturing of road and bridge construction equipment, and particularly relates to a filling device for road and bridge construction and a working method thereof.

Background

In the road and bridge construction, the quality of the filler directly determines the overall quality, and in the process of filling, if too much air is mixed in the filler, the filler is easy to effectively act, the filler is usually directly filled in the traditional process of filling, other auxiliary materials cannot be added in the filler process to improve the performance, and more air generated in the filler process cannot be treated.

Disclosure of Invention

The invention aims to provide a filling device for road and bridge construction and a working method thereof, which can effectively improve the quality of filling, mix materials and discharge air generated in the filling process.

The technical scheme is as follows: the utility model provides a filler device is used in road and bridge construction, includes storage case, stuffing box, support frame, row's material compressor and conveying pipe.

Wherein, the stuffing box is arranged on the support frame and is positioned in the middle of the support frame. The feeding pipe is respectively connected with the material storage box and the stuffing box. The discharge compressor is arranged on the feeding pipe and is positioned at one end of the feeding pipe connected with the storage box. Wherein, the storage case includes case lid, feed inlet, (mixing) shaft, stirring end, discharge gate. Wherein, the case lid closes with storage box top lid. The feed inlet is arranged on the box cover and is positioned at one end of the box cover close to the side wall of the storage box. The stirring shaft is arranged in the material storage box and is positioned at the middle end of the bottom of the material storage box. The stirring end is arranged at one end of the stirring shaft far away from the bottom of the material storage box. The discharge port is arranged at the bottom of the storage box. The discharge port is connected with a feeding pipe. The stuffing box comprises an inlet, a circulating stirring mechanism, a discharge port, a vibration disc and a stuffing port. Wherein, insert the mouth and establish at the top of gland packing, insert the mouth and be connected with the conveying pipe. The circulating stirring mechanism is arranged in the stuffing box and is positioned at two ends of the bottom in the stuffing box. The discharge port is arranged at the bottom of the stuffing box and is positioned in the middle of the bottom end of the stuffing box. The vibration disc is arranged on the support frame and is positioned at the bottom of the stuffing box on the support frame. The vibration plate is connected with the discharge port. The filling opening is arranged on the vibration disc and is positioned in the middle of the bottom end of the vibration disc.

The invention discloses a filling device for road and bridge construction, which mainly comprises a storage box, a filling box, a support frame, a discharge compressor and a feeding pipe. Wherein, the stuffing box is arranged on the support frame and is positioned in the middle of the support frame. The feeding pipe is respectively connected with the material storage box and the stuffing box. The discharge compressor is arranged on the feeding pipe and is positioned at one end of the feeding pipe connected with the storage box. Wherein, the storage case includes case lid, feed inlet, (mixing) shaft, stirring end, discharge gate. Wherein, the case lid closes with storage box top lid. The feed inlet is arranged on the box cover and is positioned at one end of the box cover close to the side wall of the storage box. The stirring shaft is arranged in the material storage box and is positioned at the middle end of the bottom of the material storage box. The stirring end is arranged at one end of the stirring shaft far away from the bottom of the material storage box. The discharge port is arranged at the bottom of the storage box. The discharge port is connected with a feeding pipe. The stuffing box comprises an inlet, a circulating stirring mechanism, a discharge port, a vibration disc and a stuffing port. Through the cooperation of storage case and stuffing box, can improve the filler speed in the road bridge construction, the filler can not be deposited to the reserves case, can carry out further mixed processing to the filler simultaneously, in the stuffing box, can make the filler be in a circulating flow's state, avoids the filler deposit, simultaneously, through the vibrations dish, can improve the quality of filler with air escape.

Furthermore, the filling device for road and bridge construction further comprises a filter layer. The filter layer is arranged in the storage box and is arranged at one end of the discharge hole close to the storage box. As a preferable mode of the invention, the filter layer can effectively intercept auxiliary materials which are large in volume or not completely dissolved in the storage box, so that the filler which can enter the filler box is kept consistent.

Furthermore, the filling device for road and bridge construction further comprises a fixed cross rod and a movable wheel. Wherein, the fixed cross rod is arranged on the support frame and is positioned in the middle of the support frame. The stuffing box is provided with the top end of the fixed cross rod. The vibration plate is provided with the bottom end of the fixed cross rod. The moving wheels are arranged on the supporting frame and are positioned at two ends of the bottom of the supporting frame. Preferably, the fixed cross rod on the support frame is beneficial to fixing the stuffing box and the vibration disc, so that the stuffing box and the vibration disc can work more stably, and the moving wheels are convenient to move when stuffing is carried out.

Furthermore, the above-mentioned filler device for road and bridge construction still includes vibrating motor. The vibration motor is arranged on the support frame and is positioned at one end close to the vibration disc. Preferably, the vibration motor drives the vibration disc to vibrate, so that the air discharge effect in the filler is improved.

Furthermore, the filling device for road and bridge construction further comprises an exhaust hole. The exhaust hole is arranged on the stuffing box, is positioned at the top of the stuffing box and is far away from one end of the access port. Preferably, the vent hole is capable of discharging gas generated when the packing enters the stuffing box.

Furthermore, the filling device for road and bridge construction further comprises a flow guide cover. The kuppe is established on connecing the mouth, and is located the one end that connects the mouth and be located the stuffing box. Preferably, the guide sleeve can effectively enable the filler to enter the filler box more stably, and excessive gas is not generated easily.

Furthermore, foretell filler device for road and bridge construction still includes storage case gyro wheel. The material storage box rollers are arranged on the material storage box and are positioned at two ends of the bottom. Preferably, the magazine roller enables the magazine to be moved more conveniently and to work for a long distance.

Meanwhile, the invention also provides a working method of the filling device for road and bridge construction, which comprises the following steps:

(1) cleaning a storage box and a stuffing box to avoid the conditions of caking and blockage in the boxes;

(2) installing a discharge compressor and a connecting pipe to connect the storage box and the stuffing box;

(3) discharging the basic filler and the auxiliary additive from a feed inlet, and starting a stirring shaft to stir and mix simultaneously; a

(4) The material discharging compressor extracts the filler in the material storage box and discharges the filler from the inlet through the feeding pipe;

(5) the circulating stirring mechanism in the stuffing box keeps the stuffing in a motion state and discharges the stuffing from the discharge port;

(6) discharging the material discharged from the discharge port into the vibration disc, and further discharging air by the vibration disc;

(7) and the filler vibrated by the vibration disc is discharged from the filler opening.

The technical scheme shows that the invention has the following beneficial effects: the invention discloses a filling device for road and bridge construction, which mainly comprises a storage box, a filling box, a support frame, a discharge compressor and a feeding pipe. Wherein, the stuffing box is arranged on the support frame and is positioned in the middle of the support frame. The feeding pipe is respectively connected with the material storage box and the stuffing box. The discharge compressor is arranged on the feeding pipe and is positioned at one end of the feeding pipe connected with the storage box. Wherein, the storage case includes case lid, feed inlet, (mixing) shaft, stirring end, discharge gate. Wherein, the case lid closes with storage box top lid. The feed inlet is arranged on the box cover and is positioned at one end of the box cover close to the side wall of the storage box. The stirring shaft is arranged in the material storage box and is positioned at the middle end of the bottom of the material storage box. The stirring end is arranged at one end of the stirring shaft far away from the bottom of the material storage box. The discharge port is arranged at the bottom of the storage box. The discharge port is connected with a feeding pipe. The stuffing box comprises an inlet, a circulating stirring mechanism, a discharge port, a vibration disc and a stuffing port. The filling speed in road and bridge construction can be improved through the matching of the storage box and the stuffing box, the storage box can not store the stuffing, the stuffing can be further mixed and processed, the stuffing can be in a circulating flow state in the stuffing box to avoid the sedimentation of the stuffing, meanwhile, air can be discharged through the vibration disc to improve the quality of the stuffing, the filter layer can effectively intercept auxiliary materials with larger volume or without complete dissolution in the storage box, the stuffing which can enter the stuffing box can be kept consistent, the fixed cross rod on the support frame is beneficial to fixing the stuffing box and the vibration disc, the stuffing can work more stably, the moving wheel can move conveniently when the stuffing is filled, the vibration motor drives the vibration disc to vibrate, the discharge effect of the air in the stuffing is improved, and the exhaust holes can discharge the gas generated when the stuffing enters the stuffing box, the kuppe can be effectual make the filler more steady when getting into the stuffing box, be difficult for producing too much gas, the storage case gyro wheel can make more convenient the removal of storage case, can carry out long distance work.

Drawings

Fig. 1 is a filling device for road and bridge construction according to embodiment 1 of the present invention;

fig. 2 is a filling device for road and bridge construction according to embodiment 2 of the present invention.

In the figure: the device comprises a storage box 1, a box cover 11, a feeding hole 12, a stirring shaft 13, a stirring end 14, a discharging hole 15, a filter layer 16, a storage box roller 17, a stuffing box 2, an inlet 21, a guide cover 211, a circulating stirring mechanism 22, a discharging hole 23, a vibration disc 24, a vibration motor 241, a stuffing hole 25, an exhaust hole 26, a support frame 3, a fixed cross rod 31, a movable wheel 32, a discharge compressor 4 and a feeding pipe 41.

Detailed Description

The invention is further elucidated with reference to the drawings and the embodiments.

Example 1

The filling device for road and bridge construction shown in fig. 1 comprises a storage box 1, a filling box 2, a support frame 3, a discharge compressor 4 and a feeding pipe 41. Wherein, the stuffing box 2 is arranged on the support frame 3 and is positioned in the middle of the support frame 3. The feeding pipe 41 is respectively connected with the storage box 1 and the stuffing box 2. The discharge compressor 4 is arranged on the feeding pipe 41 and is positioned at one end of the feeding pipe 41 connected with the storage box 1. Wherein, the storage box 1 comprises a box cover 11, a feed inlet 12, a stirring shaft 13, a stirring end 14 and a discharge port 15. Wherein, the case lid 11 covers with the storage case 1 top. The feed inlet 12 is arranged on the box cover 11 and is located at one end of the box cover 11 close to the side wall of the storage box 1. The stirring shaft 13 is arranged in the material storage box 1 and is positioned at the middle end of the bottom of the material storage box 1. The stirring end 14 is arranged at one end of the stirring shaft 13 far away from the bottom of the material storage tank 1. The discharge port 15 is arranged at the bottom of the storage box 1. The discharge port 15 is connected to the feed pipe 41. The stuffing box 2 comprises an inlet 21, a circulating stirring mechanism 22, an outlet 23, a vibration disc 24 and a stuffing opening 25. Wherein, the inlet 21 is arranged at the top of the stuffing box 2, and the inlet 21 is connected with the feeding pipe 41. The circulating stirring mechanism 22 is arranged in the stuffing box 2 and is positioned at two ends of the inner bottom of the stuffing box 2. The discharge opening 23 is provided at the bottom of the stuffing box 2 and in the middle of the bottom end of the stuffing box 2. The vibration disc 24 is arranged on the support frame 3 and is positioned at the bottom of the stuffing box 2 on the support frame 3. The vibration plate 24 is connected to the discharge port 23. A filler opening 25 is provided in the vibration plate 24 at a central portion of the bottom end of the vibration plate 24. Wherein a filter layer 16 is also included. The filter layer 15 is arranged in the storage box 1 and is arranged at one end of the discharge port 15 close to the storage box 1. In addition, a fixed cross bar 31 and a moving wheel 32 are included. Wherein, the fixed cross bar 31 is arranged on the support frame 3 and is positioned in the middle of the support frame 3. The stuffing box 2 is provided with a top end of a fixed crossbar 31. The vibration plate 24 is provided with a bottom end of a fixed cross bar 31. The moving wheels 32 are disposed on the supporting frame 3 and located at two ends of the bottom of the supporting frame 3. Further, a vibration motor 241 is also included. The vibration motor 241 is disposed on the supporting frame 3 and located near one end of the vibration plate 24.

Meanwhile, the working method comprises the following steps:

(1) cleaning the material storage box 1 and the stuffing box 2 to avoid the conditions of caking and blockage in the boxes;

(2) installing a discharge compressor 4 and a connecting pipe 41 to connect the storage box 1 and the stuffing box 2;

(3) discharging the basic filler and the auxiliary additive from a feed inlet 12, and starting a stirring shaft 13 to stir and mix; a

(4) The discharge compressor 4 extracts the filler in the storage box 1 and discharges the filler from the inlet 21 into the filler box 2 through the feeding pipe 41;

(5) the circulating stirring mechanism 22 in the stuffing box 2 keeps the stuffing in a moving state and discharges the stuffing from a discharge port 23;

(6) the material discharged from the discharge port 23 is discharged into the vibration plate 24, and further discharged with air by the vibration plate 24;

(7) the filler vibrated by the vibration plate 24 is discharged through the filler opening 25.

Example 2

The filling device for road and bridge construction shown in fig. 2 comprises a storage box 1, a filling box 2, a support frame 3, a discharge compressor 4 and a feeding pipe 41. Wherein, the stuffing box 2 is arranged on the support frame 3 and is positioned in the middle of the support frame 3. The feeding pipe 41 is respectively connected with the storage box 1 and the stuffing box 2. The discharge compressor 4 is arranged on the feeding pipe 41 and is positioned at one end of the feeding pipe 41 connected with the storage box 1. Wherein, the storage box 1 comprises a box cover 11, a feed inlet 12, a stirring shaft 13, a stirring end 14 and a discharge port 15. Wherein, the case lid 11 covers with the storage case 1 top. The feed inlet 12 is arranged on the box cover 11 and is located at one end of the box cover 11 close to the side wall of the storage box 1. The stirring shaft 13 is arranged in the material storage box 1 and is positioned at the middle end of the bottom of the material storage box 1. The stirring end 14 is arranged at one end of the stirring shaft 13 far away from the bottom of the material storage tank 1. The discharge port 15 is arranged at the bottom of the storage box 1. The discharge port 15 is connected to the feed pipe 41. The stuffing box 2 comprises an inlet 21, a circulating stirring mechanism 22, an outlet 23, a vibration disc 24 and a stuffing opening 25. Wherein, the inlet 21 is arranged at the top of the stuffing box 2, and the inlet 21 is connected with the feeding pipe 41. The circulating stirring mechanism 22 is arranged in the stuffing box 2 and is positioned at two ends of the inner bottom of the stuffing box 2. The discharge opening 23 is provided at the bottom of the stuffing box 2 and in the middle of the bottom end of the stuffing box 2. The vibration disc 24 is arranged on the support frame 3 and is positioned at the bottom of the stuffing box 2 on the support frame 3. The vibration plate 24 is connected to the discharge port 23. A filler opening 25 is provided in the vibration plate 24 at a central portion of the bottom end of the vibration plate 24. Wherein a filter layer 16 is also included. The filter layer 15 is arranged in the storage box 1 and is arranged at one end of the discharge port 15 close to the storage box 1. In addition, a fixed cross bar 31 and a moving wheel 32 are included. Wherein, the fixed cross bar 31 is arranged on the support frame 3 and is positioned in the middle of the support frame 3. The stuffing box 2 is provided with a top end of a fixed crossbar 31. The vibration plate 24 is provided with a bottom end of a fixed cross bar 31. The moving wheels 32 are disposed on the supporting frame 3 and located at two ends of the bottom of the supporting frame 3. Further, a vibration motor 241 is also included. The vibration motor 241 is disposed on the supporting frame 3 and located near one end of the vibration plate 24. Also, an exhaust hole 26 is included. Exhaust hole 26 is provided on stuffing box 2 and is located at the top of stuffing box 2, the end remote from inlet 21. In addition, a pod 211 is included. The pod 211 is provided on the inlet 21 and is located at one end of the inlet 21 located within the stuffing box 2. In addition, a storage box roller 17 is also included. The material storage box rollers 17 are arranged on the material storage box 1 and are positioned at two ends of the bottom.

Meanwhile, the working method comprises the following steps:

The foregoing is only a preferred embodiment of the present invention, and it should be noted that modifications can be made by those skilled in the art without departing from the principle of the present invention, and these modifications should also be construed as the protection scope of the present invention.

Claims

1. The utility model provides a filler device is used in road bridge construction which characterized in that: comprises a storage box (1), a stuffing box (2), a support frame (3), a discharge compressor (4) and a feeding pipe (41); the stuffing box (2) is arranged on the support frame (3) and is positioned in the middle of the support frame (3); the feeding pipe (41) is respectively connected with the material storage box (1) and the stuffing box (2); the discharge compressor (4) is arranged on the feeding pipe (41) and is positioned at one end of the feeding pipe (41) connected with the storage box (1); wherein, the storage box (1) comprises a box cover (11), a feed inlet (12), a stirring shaft (13), a stirring end (14) and a discharge outlet (15); wherein the box cover (11) is covered with the top of the storage box (1); the feed inlet (12) is arranged on the box cover (11) and is positioned at one end of the box cover (11) close to the side wall of the storage box (1); the stirring shaft (13) is arranged in the material storage box (1) and is positioned at the middle end of the bottom of the material storage box (1); the stirring end (14) is arranged at one end of the stirring shaft (13) far away from the bottom of the material storage box (1); the discharge hole (15) is formed in the bottom of the material storage box (1); the discharge hole (15) is connected with the feeding pipe (41); the stuffing box (2) comprises an inlet (21), a circulating stirring mechanism (22), a discharge port (23), a vibration disc (24) and a stuffing port (25); the inlet (21) is arranged at the top of the stuffing box (2), and the inlet (21) is connected with a feeding pipe (41); the circulating stirring mechanism (22) is arranged in the stuffing box (2) and is positioned at two ends of the inner bottom of the stuffing box (2); the discharge port (23) is arranged at the bottom of the stuffing box (2) and is positioned in the middle of the bottom end of the stuffing box (2); the vibration disc (24) is arranged on the support frame (3) and is positioned at the bottom of the stuffing box (2) on the support frame (3); the vibration disc (24) is connected with the discharge port (23); the filling opening (25) is arranged on the vibration disc (24) and is positioned in the middle of the bottom end of the vibration disc (24).

2. The packing device for road and bridge construction according to claim 1, wherein: further comprising a filter layer (16); the filter layer (15) is arranged in the storage box (1) and is arranged at one end, close to the storage box (1), of the discharge hole (15).

3. The packing device for road and bridge construction according to claim 1, wherein: the device also comprises a fixed cross bar (31) and a moving wheel (32); the fixed cross rod (31) is arranged on the support frame (3) and is positioned in the middle of the support frame (3); the stuffing box (2) is arranged at the top end of the fixed cross rod (31); the vibration disc (24) is arranged at the bottom end of the fixed cross rod (31); the moving wheels (32) are arranged on the support frame (3) and are positioned at two ends of the bottom of the support frame (3).

4. The packing device for road and bridge construction according to claim 3, wherein: the device also comprises a vibration motor (241); the vibration motor (241) is arranged on the support frame (3) and is positioned at one end close to the vibration disc (24).

5. The packing device for road and bridge construction according to claim 1, wherein: also comprises an exhaust hole (26); the exhaust hole (26) is formed in the stuffing box (2), is located at the top of the stuffing box (2) and is far away from one end of the access opening (21).

6. The packing device for road and bridge construction according to claim 5, wherein: further comprising a pod (211); the air guide sleeve (211) is arranged on the inlet (21) and is positioned at one end, located in the stuffing box (2), of the inlet (21).

7. The packing device for road and bridge construction according to claim 1, wherein: the device also comprises a material storage box roller (17); the storage box rollers (17) are arranged on the storage box (1) and are positioned at two ends of the bottom.

8. A working method of a filling device for road and bridge construction is characterized in that: the method comprises the following steps:

cleaning the storage box (1) and the stuffing box (2) to avoid the conditions of caking and blockage in the boxes;

a discharge compressor (4) and a connecting pipe (41) are installed to connect the storage box (1) and the stuffing box (2);

discharging the basic filler and the auxiliary additive from a feed inlet (12), and starting a stirring shaft (13) to stir and mix; a

The discharge compressor (4) extracts the filler in the storage box (1), and the filler is discharged from the inlet (21) into the filler box (2) through the feeding pipe (41);

a circulating stirring mechanism (22) in the stuffing box (2) keeps the stuffing in a motion state and discharges the stuffing from a discharge port (23);

the material discharged from the discharge port (23) is discharged into the vibration plate (24) and further discharged by the vibration plate (24);

the filler vibrated by the vibration disc (24) is discharged from the filler through the filler opening (25).