CN210530268U - Automatic puttying machine for roof - Google Patents
Automatic puttying machine for roof Download PDFInfo
- Publication number
- CN210530268U CN210530268U CN201921435526.7U CN201921435526U CN210530268U CN 210530268 U CN210530268 U CN 210530268U CN 201921435526 U CN201921435526 U CN 201921435526U CN 210530268 U CN210530268 U CN 210530268U
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- China
- Prior art keywords
- material loading
- feeding roller
- gyro wheel
- feeding
- bearing
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Abstract
The utility model discloses an automatic puttying machine for a roof, which comprises a frame, wherein a hydraulic pump, a putty mixing box and an output pump are respectively arranged on the frame, the hydraulic pump is connected with the output pump, the inlet of the output pump is connected with the putty mixing box, and the output port of the output pump is connected with a conveying pipe; install the lifter on the top surface of frame, the lifter top is connected with the bearing bracket, is provided with the material loading cavity in the bearing bracket, in the output of conveyer pipe extended to the material loading cavity, be provided with material loading gyro wheel I in the material loading cavity, the side of material loading gyro wheel I was provided with material loading gyro wheel II, material loading gyro wheel II and I intermeshing of material loading gyro wheel and meshing department leave the material loading hole, the scraper is installed to one side top surface of bearing bracket. Compared with the prior art, the utility model can realize automatic output of putty, automatic feeding, and timely putty scraping through the scraper on the bearing bracket to level the roof, and the putty can not drip on the body of a worker; not only is safe, but also is simple and convenient to operate.
Description
Technical Field
The utility model belongs to the technical field of the building putty, concretely relates to automatic putty scraper for roof.
Background
Puttying is the most important step in the base course treatment by removing uneven parts on the surface of the base course in a filling or integral treatment mode and keeping the wall surface smooth. In the construction process of the existing interior decoration, the process of putty coating on the wall surface is mainly carried out manually, the putty plate is uniformly coated on the wall surface manually, a worker needs to hold the putty plate by one hand and hold the scraper by the other hand, the labor intensity is high, and the wall surface is required to be pressed and scraped smoothly ceaselessly so that the wall surface is smooth, thus the construction wastes time and energy, and the speed is slow; the other one is that the device that utilizes spraying putty sprays, after mixing putty powder evenly sprays the wall through the spray gun with putty, still need the manual work to trowel and the compaction with the putty of just spraying behind, if do not in time trowel putty then can dry out, cause the wall unevenness, can't satisfy the process requirement of puttying, the unable construction of follow-up process can cause the very big waste of manpower and materials like this. Moreover, because the roof is high, time and labor are wasted during manual putty coating, and potential safety hazards are caused by the fact that the putty easily drips on workers.
Disclosure of Invention
In order to solve the problem, the utility model provides an automatic puttying machine for roof.
The purpose of the utility model is realized with the following mode:
an automatic puttying machine for a roof comprises a frame 1, wherein a hydraulic pump 2, a putty mixing box 14 and an output pump 13 are respectively arranged on the frame 1, the hydraulic pump 2 is connected with the output pump 13, the inlet of the output pump 13 is connected with the putty mixing box 14, and the output port of the output pump 13 is connected with a conveying pipe 5; install lifter 4 on the top surface of frame 1, lifter 4 top is connected with bearing bracket 6, is provided with material loading cavity 601 in the bearing bracket 6, and material loading cavity 601's axial extends along the X axle direction, the output of conveyer pipe 5 extends to in the material loading cavity 601, is provided with material loading gyro wheel I9 in the material loading cavity 601, and the side of material loading gyro wheel I9 is provided with material loading gyro wheel II 10, is provided with unsmooth tooth 901 on the material loading gyro wheel I9, and the hole between material loading gyro wheel II 10 and the material loading gyro wheel I9 and the groove on the unsmooth tooth 901 form material loading hole 16 jointly, and the rotation direction of material loading gyro wheel II 10 and material loading gyro wheel I9 is opposite, scraper 7 along the X axle direction extension is installed to one side top surface of bearing bracket 6.
The feeding rollers I9 and the feeding rollers II 10 are respectively two and are respectively symmetrically distributed in the feeding cavity 601, the bearing gear boxes 15 are installed at the symmetric centers of the two and are left with feeding gaps between the bearing gear boxes 15 and the side walls of the feeding cavity 601, and the bearing gear boxes 15 drive the feeding rollers I9 and the feeding rollers II 10 to rotate in opposite directions respectively.
The medial surface of scraper 7 is provided with baffle I8 that its axial extends along the X axle direction, and the inner of baffle I8 extends to contact material loading gyro wheel II 10, and the outer end lower surface of baffle I8 is connected on bearing frame 6, the putty that contact roof had been formed jointly to scraper 7, baffle I8 and material loading gyro wheel II 10 and material loading gyro wheel I9 holds the chamber.
The upper surface of the feeding roller I9 is provided with a baffle II 12 extending along the X-axis direction in the axial direction, one side of the baffle II 12 contacts the feeding roller I9, and the other side of the baffle II is connected to the end part of the bearing frame 6 close to the feeding roller I9.
The baffle II 12 is L-shaped as a whole.
The feeding cavity 601 is an arc-shaped cavity.
And an auxiliary wheel 11 extending axially along the X-axis direction is installed on one side of the bearing frame 6 away from the scraper 7, and the upper surface of the auxiliary wheel 11 is in contact with a roof.
The lifting rod 4 is a hydraulic cylinder or an electric telescopic rod.
Has the advantages that: compared with the prior art, the utility model discloses can realize exporting putty automatically, realize automatic feeding through the material loading hole between material loading gyro wheel II and the material loading gyro wheel I again, realize in time puttying through the scraper on the bearing bracket and make the roof level and smooth, need not artifical manual putty spraying, puttying distribution operation, and can not drip to the workman on one's body; the lifting rod is arranged, so that the device can adapt to roofs with different heights; the utility model is not only safe, but also simple and convenient to operate.
Drawings
Fig. 1 is a side view of the present invention.
Fig. 2 is a top view of fig. 1.
Fig. 3 is a sectional view a-a of the right side view of fig. 1.
The automatic feeding device comprises a frame 1, a frame 2, a hydraulic pump 3, wheels 4, a lifting rod 5, a conveying pipe 6, a bearing frame 7, a scraper 8, a baffle I, a baffle plate 9, a feeding roller I, a feeding roller II, a feeding roller 11, an auxiliary wheel 12, a baffle plate II, a baffle plate 13, an output pump 14, a putty mixing box 15, a bearing gear box 16 and a feeding hole; 601. a feeding cavity 901 and concave-convex teeth.
Detailed Description
As shown in fig. 1, 2 and 3, the automatic puttying machine for the roof comprises a frame 1, wherein a hydraulic pump 2, a putty mixing box 14 and an output pump 13 are respectively arranged on the frame 1, the hydraulic pump 2 is connected with the output pump 13, the inlet of the output pump 13 is connected with the putty mixing box 14, and the output port of the output pump 13 is connected with a conveying pipe 5; install lifter 4 on the top surface of frame 1, lifter 4 top is connected with bearing bracket 6, is provided with material loading cavity 601 in the bearing bracket 6, and material loading cavity 601's axial extends along the X axle direction, the output of conveyer pipe 5 extends to in the material loading cavity 601, is provided with material loading gyro wheel I9 in the material loading cavity 601, and the side of material loading gyro wheel I9 is provided with material loading gyro wheel II 10, is provided with unsmooth tooth 901 on the material loading gyro wheel I9, and unsmooth tooth 901 is the zigzag, and the hole between material loading gyro wheel II 10 and the material loading gyro wheel I9 and the groove on unsmooth tooth 901 form material loading hole 16 jointly, and material loading gyro wheel II 10 and the rotation direction of material loading gyro wheel I9 are opposite, the scraper 7 of extending along the X axle direction is installed to one side top surface of bearing bracket 6. The hole between the feeding roller II 10 and the feeding roller I9 is small, so that the putty can be smoothly conveyed upwards, and the direct falling of the putty caused by too large hole is prevented.
Preferably, as an embodiment, as shown in fig. 3, the two feeding rollers i 9 and ii 10 are respectively and symmetrically distributed in the feeding cavity 601, the bearing gear box 15 is installed at the symmetric center of the feeding rollers, a feeding gap is left between the bearing gear box 15 and the side wall of the feeding cavity 601 for allowing putty to enter above the bearing gear box 15, and the bearing gear box 15 drives the feeding rollers i 9 and ii 10 to rotate in opposite directions respectively. When the feeding roller I9 and the feeding roller II 10 rotate in opposite directions, putty in the feeding cavity 601 is driven to transfer upwards from the feeding hole 16, and the moving direction of the putty is shown as the arrow direction in the feeding cavity 601 in fig. 1.
Further, in the above-mentioned one embodiment, the bearing gear box 15 is a mature prior art, and includes a motor (not shown in the figure) and a driving cavity (not shown in the figure), the outer ends of the feeding roller ii 10 and the feeding roller i 9 are respectively connected to the bearing frame 6 through bearings (not shown in the figure), the inner ends of the feeding roller i 9 and the feeding roller ii 10 are respectively connected to the bearing gear box 15 through bearings in a rotating manner and extend into the driving cavity, the extending ends of the two left and right symmetrical feeding rollers i 9 and the two feeding rollers ii 10 are respectively connected together through a driving transmission shaft (not shown in the figure) and a driven transmission shaft (not shown in the figure), the driving transmission shaft and the driven transmission shaft are respectively sleeved with a driving gear (not shown in the figure) and a driven gear (not shown in the figure), the driving gear and the driven gear are engaged with each other to control the feeding roller ii 10 and the feeding roller i 9 to rotate in opposite directions, the drive gear is driven by a motor, in particular, the drive gear meshes with a gear connected to a motor drive shaft.
Of course, as another embodiment, material loading gyro wheel I9 and material loading gyro wheel II 10 also can be one, and the side-mounting of bearing frame 6 has the motor, and material loading gyro wheel I9, the one end of material loading gyro wheel II 10 are cup jointed gear I, gear II outward respectively, and gear I, gear II intermeshing, gear I pass through motor drive, and the material loading gyro wheel I9, the other end of material loading gyro wheel II 10 rotate through the bearing respectively and connect on bearing frame 6.
In order to prevent putty from falling down in the hole between material loading cavity 601 top and the material loading gyro wheel II 10, the medial surface of scraper 7 is provided with baffle I8 that its axial extends along the X axle direction, and the inner of baffle I8 extends to contact material loading gyro wheel II 10, and the outer end lower surface of baffle I8 is connected on bearing frame 6, and the putty that contact roof had been formed jointly to scraper 7, baffle I8 and material loading gyro wheel II 10 and the upper surface of material loading gyro wheel I9 holds the chamber.
In order to prevent putty from falling down from the hole between the top of the feeding cavity 601 and the feeding roller I9, the upper surface of the feeding roller I9 is provided with a baffle II 12 extending along the X-axis direction in the axial direction, one side of the baffle II 12 contacts the feeding roller I9, and the other side of the baffle II is connected to the end part of the bearing frame 6 close to the feeding roller I9.
The baffle I8 is arc-shaped and is shown in figure 1; the inner end of the baffle II 12 is in a sawtooth shape, the sawtooth shape of the baffle II is staggered with the concave-convex teeth 901 of the feeding roller I9, so that the pores between the baffle II and the feeding roller I9 are reduced as much as possible, and the size of the sawtooth shape is subject to the standard that not only can putty be prevented from flowing out, but also the normal rotation of the feeding roller I9 is not influenced. Baffle I8 and baffle II 12 are wear-resisting rubber material.
Preferably, the baffle II 12 is L-shaped as a whole.
Preferably, the feeding cavity 601 is an arc-shaped cavity, as shown in fig. 1.
In order to support the roof so that the scrapers 7 are in the same plane with respect to the roof, an auxiliary wheel 11 extending axially along the X-axis direction is mounted on one side of the bearing frame 6 away from the scrapers 7, and the upper surface of the auxiliary wheel 11 contacts the roof. The two ends of the auxiliary wheel 11 are respectively mounted on the bearing frame 6 through bearings.
Preferably, the lifting rod 4 is a hydraulic cylinder or an electric telescopic rod.
In order to facilitate the movement of the utility model, the bottom of the frame 1 is provided with a wheel 3.
The utility model discloses the during operation, earlier at the full putty in putty mixing box 14, start 4 messenger auxiliary wheel 11 upper surface tops of lifter on the roof, then start hydraulic pump 2 simultaneously, output pump 13 and bearing gear box 15, bearing gear box 15 drives material loading gyro wheel I9 and rotates, material loading gyro wheel I9 drives material loading gyro wheel II 10 and rotates, hydraulic pump 2 passes through output pump 13 with putty and carries material loading cavity 601 in through conveyer pipe 5, again under the rotation drive of material loading gyro wheel I9 and material loading gyro wheel II 10, putty from material loading hole 16 upwards moves, it holds the intracavity to get into putty, when putty that the intracavity was held to putty was attached when enough attached on the roof surface, only need the direction that manual promotion frame 1 needed the putty of scraping along the roof to move, in-process that removes, scraper 7 scrapes the putty attached on the roof surface, thereby realized the automatic feeding of putty, And (4) automatically performing putty coating and putty scraping on the surface of the roof.
What has been described above is only the preferred embodiments of the present invention, and it should be noted that, for those skilled in the art, without departing from the overall concept of the present invention, a plurality of changes and improvements can be made, and these should also be regarded as the protection scope of the present invention, and these will not affect the effect of the present invention and the utility of the patent.
Claims (10)
1. An automatic puttying machine for roofs is characterized in that: the putty mixing machine comprises a rack (1), wherein a hydraulic pump (2), a putty mixing box (14) and an output pump (13) are respectively installed on the rack (1), the hydraulic pump (2) is connected with the output pump (13), the inlet of the output pump (13) is connected with the putty mixing box (14), and the output port of the output pump (13) is connected with a conveying pipe (5); a lifting rod (4) is arranged on the top surface of the frame (1), the top end of the lifting rod (4) is connected with a bearing frame (6), a feeding cavity (601) is arranged in the bearing frame (6), the axial direction of the feeding cavity (601) extends along the X-axis direction, the output end of the conveying pipe (5) extends into the feeding cavity (601), a feeding roller I (9) is arranged in the feeding cavity (601), a feeding roller II (10) is arranged on the side face of the feeding roller I (9), concave-convex teeth (901) are arranged on the feeding roller I (9), a feeding hole (16) is formed by a hole between the feeding roller II (10) and the feeding roller I (9) and a groove on the concave-convex teeth (901) together, the rotating directions of the feeding roller II (10) and the feeding roller I (9) are opposite, and a scraper (7) extending along the X-axis direction is mounted on the top surface of one side of the bearing frame (6).
2. The automatic puttying machine for roofs according to claim 1, wherein: the feeding roller I (9) and the feeding roller II (10) are respectively two and are respectively symmetrically distributed in the feeding cavity (601), the bearing gear box (15) is installed at the symmetrical center of the feeding roller I and the feeding roller II, a feeding gap is reserved between the bearing gear box (15) and the side wall of the feeding cavity (601), and the bearing gear box (15) drives the feeding roller I (9) and the feeding roller II (10) to rotate in opposite directions respectively.
3. The automatic puttying machine for roofs according to claim 2, wherein: bearing gear box (15) are including motor and drive cavity, the outer end of material loading gyro wheel II (10) and material loading gyro wheel I (9) is connected on bearing bracket (6) through the bearing respectively, material loading gyro wheel I (9), the inner of material loading gyro wheel II (10) rotates through the bearing respectively and connects on bearing gear box (15) and stretch into in the drive cavity, the end that stretches out of material loading gyro wheel I (9) and two material loading gyro wheels II (10) of two bilateral symmetry links together through initiative transmission shaft and driven transmission shaft respectively, driving gear and driven gear have been cup jointed respectively outward to initiative transmission shaft and driven transmission shaft, driving gear and driven gear intermeshing, the driving gear passes through motor drive.
4. The automatic puttying machine for roofs according to claim 1, wherein: the medial surface of scraper (7) is provided with baffle I (8) that its axial extends along the X axle direction, and the inner of baffle I (8) extends to contact material loading gyro wheel II (10), and the outer end lower surface of baffle I (8) is connected on bearing frame (6), the putty that contact roof had been formed jointly to upper surface of scraper (7), baffle I (8) and material loading gyro wheel II (10) and material loading gyro wheel I (9) holds the chamber.
5. The automatic puttying machine for roofs according to claim 1 or 4, wherein: the upper surface of the feeding roller I (9) is provided with a baffle II (12) extending along the X-axis direction in the axial direction, one side of the baffle II (12) contacts the feeding roller I (9), and the other side of the baffle II is connected to the end part of the bearing frame (6) close to the feeding roller I (9).
6. The automatic puttying machine for roofs according to claim 5, wherein: the baffle II (12) is L-shaped as a whole.
7. The automatic puttying machine for roofs according to claim 1, wherein: the feeding cavity (601) is an arc-shaped cavity.
8. The automatic puttying machine for roofs according to claim 1, wherein: and an auxiliary wheel (11) extending axially along the X-axis direction is mounted on one side, away from the scraper (7), of the bearing frame (6), and the upper surface of the auxiliary wheel (11) is in contact with a roof.
9. The automatic puttying machine for roofs according to claim 1, wherein: the lifting rod (4) is a hydraulic cylinder or an electric telescopic rod.
10. The automatic puttying machine for roofs according to claim 1, wherein: wheels (3) are installed at the bottom of the frame (1).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201921435526.7U CN210530268U (en) | 2019-08-31 | 2019-08-31 | Automatic puttying machine for roof |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201921435526.7U CN210530268U (en) | 2019-08-31 | 2019-08-31 | Automatic puttying machine for roof |
Publications (1)
Publication Number | Publication Date |
---|---|
CN210530268U true CN210530268U (en) | 2020-05-15 |
Family
ID=70603712
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201921435526.7U Expired - Fee Related CN210530268U (en) | 2019-08-31 | 2019-08-31 | Automatic puttying machine for roof |
Country Status (1)
Country | Link |
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CN (1) | CN210530268U (en) |
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2019
- 2019-08-31 CN CN201921435526.7U patent/CN210530268U/en not_active Expired - Fee Related
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20200515 Termination date: 20210831 |