CN111940165A - Offline spraying device for tie rod arch bridge - Google Patents

Abstract

The invention discloses an off-line spraying device for a tie rod arch bridge, which comprises a base, a lifting mechanism, a workbench, a platform loading mechanism, a spraying mechanism and a stirring mechanism, wherein the lifting mechanism for adjusting the height of the workbench is arranged between the base and the workbench; the workbench is provided with a spraying mechanism for spraying an arch bridge deck; one side of the workbench is provided with a platform loading mechanism for workers to walk; the base is fixedly connected with universal wheels with brakes, and the universal wheels are uniformly distributed. According to the invention, by arranging the base, the lifting mechanism, the loading mechanism, the workbench and the spraying mechanism, workers can more conveniently get on the workbench through the loading mechanism, and then the height of the workbench is adjusted through the lifting mechanism, so that the spraying can be carried out on the positions with different heights of the tied arch bridge, and the spraying is quick, convenient and labor-saving; by arranging the stirring mechanism, the paint can be prevented from being solidified, and the cost of one motor is saved; through setting up receiving mechanism, energy-concerving and environment-protective.

Description

Offline spraying device for tie rod arch bridge

Technical Field

The invention relates to a spraying device, in particular to an off-line spraying device for a tie rod arch bridge.

Background

The tied arch bridge as one member of arch bridge family has the common features of arch bridge and unique features. The bridge integrates the advantages of an arch and a beam, combines two basic structural forms of the arch and the beam together to bear load together, gives full play to the structural performance and the combination effect of bending and pressing the beam, and bears the horizontal thrust of an arch end by using a pull rod so that a support of the arch end does not generate the horizontal thrust. The arch and the chord are connected by vertical rods hinged at two ends. The Nielsen system can also be formed by using diagonal rods instead of straight rods. The interior of the arch bridge is a hyperstatic system, and the exterior of the arch bridge is statically determinate, so that the uneven settlement of the abutment is not influenced.

Similar to other construction types, the tied arch bridge needs to be painted on the surface of the tied arch bridge, so that the anti-corrosion capability of the tied arch bridge is enhanced, and the aesthetic degree of the tied arch bridge is improved. Most of the existing spraying devices for the tied arch bridge are used for firstly spraying and then building components of the tied arch bridge, paint on the surfaces of the components is damaged due to the mode, and the components need to be sprayed again subsequently, so that time and labor are consumed.

Disclosure of Invention

The invention aims to provide an off-line spraying device for a tied arch bridge, which solves the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

an off-line spraying device for a tied-rod arch bridge comprises a base, a lifting mechanism, a workbench, a platform loading mechanism, a spraying mechanism and a stirring mechanism, wherein the lifting mechanism used for adjusting the height of the workbench is arranged between the base and the workbench; the workbench is provided with a spraying mechanism for spraying an arch bridge deck; one side of the workbench is provided with a platform loading mechanism for workers to walk; the base is fixedly connected with universal wheels with brakes, and the universal wheels are uniformly distributed.

As a further scheme of the invention: the upper mechanism comprises a long plate, a supporting plate, a base plate and a stair plate, wherein one end of the long plate is hinged to the workbench through a hinge shaft, the other end of the long plate is hinged to the supporting plate through the hinge shaft, the base plate is fixedly connected to the supporting plate, and the stair plate is fixedly connected to the stair plate and used for a person to step on.

As a further scheme of the invention: elevating system includes first swivel nut, first screw rod, first synchronous belt, second synchronous belt, first turbine, first worm and driving motor, workstation fixedly connected with evenly distributed's four first swivel nuts, first swivel nut threaded connection has first screw rod, and first screw rod and base rotate to be connected, and two first swivel nuts of front side are connected through first synchronous belt, and relative first swivel nuts in front and back pass through the second synchronous belt to be connected, and the first turbine of one of them first swivel nut fixedly connected with is connected with first worm, first worm has through the hold-in range connection with drive its rotatory driving motor.

As a further scheme of the invention: the spraying mechanism comprises a pigment box, a water pump, a connecting pipe and a sprayer, the pigment box is installed on the workbench and connected with an agitating mechanism for agitating the pigment box, the pigment box is connected with the water pump through a hose, the water pump is connected with the connecting pipe through a hose, the connecting pipe is fixedly connected with the sprayer, the workbench is fixedly connected with a fixing plate, the fixing plate is slidably connected with a sliding plate, the fixing plate penetrates through the sliding plate, the connecting pipe is slidably connected with the fixing plate, and one end of the sliding plate is fixedly connected with a push handle.

As a further scheme of the invention: the stirring mechanism comprises a stirring shaft, a third synchronous belt, a rotating shaft, a second turbine and a second worm, wherein the stirring rod is fixedly connected with the second turbine and is uniformly distributed, the stirring shaft is connected with a pigment box top plate in a rotating mode, the stirring shaft is connected with the rotating shaft through the third synchronous belt, the rotating shaft is fixedly connected with the second turbine, the second turbine is connected with the second worm, and the second worm is connected with a driving motor through the synchronous belt.

As a still further scheme of the invention: and a material receiving mechanism is arranged on one side of the spray head.

As a still further scheme of the invention: the material receiving mechanism comprises a material receiving groove, a second screw rod, a slide rod and a second screw sleeve, the material receiving groove is fixedly connected with the second screw rod, the second screw rod is fixedly connected with the slide rod, the second screw rod is parallel to the slide rod long rod, the slide rod penetrates through the fixing plate, the second screw rod is in threaded connection with the second screw sleeve, and the second screw sleeve is rotatably connected with the fixing plate;

as a still further scheme of the invention: the material receiving groove comprises a baffle and an opening box, and the baffle is fixedly connected with the opening box. First, the method comprises the following steps.

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

firstly, the base, the lifting mechanism, the upper platform mechanism, the workbench and the spraying mechanism are arranged, and through the upper platform mechanism, workers can conveniently get on the workbench and then adjust the height of the workbench through the lifting mechanism, so that positions with different heights of the tied arch bridge can be sprayed quickly and conveniently;

secondly, the stirring mechanism is arranged, and the synchronous belt connected between the first worm and the driving motor is removed under the driving of the driving motor contained in the lifting mechanism, the driving motor drives the second worm to rotate, the second worm drives the second turbine to rotate, the second turbine drives the rotating shaft to rotate, the rotating shaft drives the stirring shaft to rotate through the third synchronous belt, the stirring shaft drives the stirring rod to stir the paint in the paint box, so that the paint is prevented from being solidified, and the cost of one motor is saved;

thirdly, the material receiving mechanism is arranged, so that the paint which is not sprayed on the arch bridge is not scattered in the air and is sprayed on the baffle plate when the spray head sprays, the paint slides into the opening box, the environment pollution is avoided, and the energy conservation and the environmental protection are realized.

Drawings

FIG. 1 is a schematic structural view of an off-line coating apparatus for a tie-rod arch bridge;

FIG. 2 is a schematic top view of a table in an off-line spray coating apparatus for a tie-rod arch bridge;

FIG. 3 is a schematic view of a connection relationship among a base, a first worm, a driving motor, a second worm wheel and a rotating shaft in an off-line spray coating device for a tie-rod arch bridge;

FIG. 4 is a three-dimensional schematic view of a receiving trough in an off-line spray coating apparatus for a tethered arch bridge;

FIG. 5 is a three-dimensional schematic view of a second screw and a slide bar in an off-line spray coating device for a tied arch bridge.

In the figure: 1-base, 2-lifting mechanism, 201-first screw sleeve, 202-first screw rod, 203-first synchronous belt, 204-second synchronous belt, 205-first turbine, 206-first worm, 207-driving motor, 3-workbench, 4-loading mechanism, 401-long plate, 402-supporting plate, 403-baseboard, 404-stair board, 5-spraying mechanism, 501-paint box, 502-water pump, 503-connecting pipe, 504-spray head, 6-fixing plate, 7-material receiving mechanism, 701-material receiving groove, 7011-baffle, 7012-open box, 702-second screw rod, 703-sliding rod, 704-second screw sleeve, 8-stirring mechanism, 801-stirring shaft, 802-third synchronous belt, 803-rotating shaft, 804-second turbine, 805-second worm, 9-sliding plate and 901-push handle.

Detailed Description

The technical solution of the present invention will be described in further detail with reference to specific embodiments.

It should be noted that, in this document, the terms "upper", "lower", "inner", "outer", "front end", "rear end", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the referred device or element must have a specific orientation, be configured in a specific orientation, and operate + and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like are used for descriptive purposes only to distinguish between objects and are not to be construed as indicating or implying relative importance.

It should also be noted that, in this document, terms such as "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Example 1

Referring to fig. 1-5, an offline spraying device for a tie-rod arch bridge comprises a base 1, a lifting mechanism 2, a workbench 3, a loading mechanism 4, a spraying mechanism 5 and a stirring mechanism 8, wherein the lifting mechanism 2 for adjusting the height of the workbench 3 is arranged between the base 1 and the workbench 3; the workbench 3 is provided with a spraying mechanism 5 for spraying an arch bridge deck; an upper table mechanism 4 for workers to walk is arranged on one side of the workbench 3; the base 1 is fixedly connected with universal wheels with brakes, which are uniformly distributed.

In this embodiment, the landing mechanism 4 includes a long plate 401, a support plate 402, a footing plate 403 and a stair tread 404, one end of the long plate 401 is hinged to the workbench 3 through a hinge shaft, the other end of the long plate 401 is hinged to the support plate 402 through a hinge shaft, the support plate 402 is fixedly connected with the footing plate 403, and the stair tread 404 is fixedly connected to the stair tread 404 for people to step on.

In this embodiment, the lifting mechanism 2 includes a first threaded sleeve 201, a first screw 202, a first synchronous belt 203, a second synchronous belt 204, a first worm wheel 205, a first worm 206 and a driving motor 207, the workbench 3 is fixedly connected with four first threaded sleeves 201 which are uniformly distributed, the first threaded sleeve 201 is in threaded connection with the first screw 202, the first screw 202 is rotatably connected with the base 1, two first threaded sleeves 201 on the front side are connected through the first synchronous belt 203, the first threaded sleeves 201 which are opposite to each other in the front-back direction are connected through the second synchronous belt 204, one of the first threaded sleeves 201 is fixedly connected with the first worm wheel 205, the first worm wheel 205 is connected with the first worm wheel 206, and the first worm wheel 206 is connected with the driving motor 207 for driving the first worm to rotate through the synchronous belt.

In this embodiment, the spraying mechanism 5 includes a pigment box 501, a water pump 502, a connecting pipe 503 and a nozzle 504, the pigment box 501 is installed on the workbench 3, the pigment box 501 is connected with a stirring mechanism 8 for stirring the pigment box, the pigment box 501 is connected with the water pump 502 through a hose, the water pump 502 is connected with the connecting pipe 503 through a hose, the connecting pipe 503 is fixedly connected with the nozzle 504, the workbench 3 is fixedly connected with a fixing plate 6, the fixing plate 6 is slidably connected with a sliding plate 9, the fixing plate 6 penetrates through the sliding plate 9, the connecting pipe 503 is slidably connected with the fixing plate 6, and one end of the sliding plate 9 is fixedly connected with a push handle 901.

In this embodiment, the stirring mechanism 8 includes a stirring shaft 801, a third synchronous belt 802, a rotating shaft 803, a second worm wheel 804 and a second worm 805, the second worm wheel 804 is fixedly connected with uniformly distributed stirring rods, the stirring shaft 801 is rotatably connected with a top plate of the pigment box 501, the stirring shaft 801 is connected with the rotating shaft 803 through the third synchronous belt 802, the rotating shaft 803 is fixedly connected with the second worm wheel 804, the second worm wheel 804 is connected with the second worm 805, and the second worm 805 is connected with the driving motor 207 through the synchronous belt.

Example 2

The embodiment is expanded on the basis of embodiment 1, a material receiving mechanism 7 is arranged on one side of the spray head 504, the material receiving mechanism 7 includes a material receiving groove 701, a second screw 702, a sliding rod 704 and a second screw 704, the material receiving groove 701 is fixedly connected with the second screw 702, the second screw 702 is fixedly connected with the sliding rod 704, the long rod of the second screw 702 is parallel to the long rod of the sliding rod 704, the sliding rod 704 penetrates through the fixing plate 6, the second screw 702 is in threaded connection with the second screw 704, the second screw 704 is rotatably connected with the fixing plate 6, the fixing plate 6 is rotated to drive the second screw 702 to move forward and backward, so that adjustment is performed, interference with a bridge is avoided, and the sliding rod 704 ensures that the second screw 702 cannot rotate along with the second screw 704; the material receiving groove 701 comprises a baffle 7011 and an opening box 7012, the baffle 7011 is fixedly connected with the opening box 7012, when paint is not sprayed onto the arch bridge, the paint is sprayed onto the baffle 7011, and then the paint can slide into the opening box 7012 along the baffle 7011, so that the paint is prevented from spreading into the air, and the environment is polluted.

The working principle of the invention is as follows: firstly, a support plate 402 is vertically placed, a baseboard 403 is placed on the ground, then a worker steps on a workbench 3, then the worker below starts a driving motor 207, the driving motor 207 drives a first worm 206 to rotate, the first worm 206 drives a first worm wheel 205 to rotate, the first worm wheel 205 drives a first screw 202 to rotate, the first screw 202 drives a first screw sleeve 201 to ascend, then a synchronous belt connected between the first worm 206 and the driving motor 207 is removed, the driving motor 207 drives a second worm 805 to rotate, the second worm 805 drives a second worm wheel 804 to rotate, the second worm wheel 804 drives a rotating shaft 803 to rotate, the rotating shaft 803 drives a stirring shaft 801 to rotate through a third synchronous belt 802, the stirring shaft 801 drives a stirring rod to stir paint in a paint box 501 to prevent solidification, then a water pump 502 is started, the water pump 502 transfers the paint in the paint box 501 to a spray head 504, and the worker pushes a push handle 901, the push handle 901 drives the sliding plate 9, and the sliding plate 9 drives the connecting pipe 503, so that the spraying height of the spray nozzle 504 can be adjusted, and the arm is prevented from being limp due to long-time holding;

further, by the material receiving mechanism 7, the paint which is not sprayed on the arch bridge can be kept from scattering into the air and sprayed on the baffle 7011 during spraying, so that the paint can slide into the opening box 7012.

It should be noted that, the power utilization components, such as the power mechanism, etc., in the present application are all connected to the external controller, the external controller is the prior art, and the present application does not improve the external controller, so that the specific model, the circuit structure, etc., of the external controller need not be disclosed, and the integrity of the present application is not affected.

While the preferred embodiments of the present invention have been described in detail, the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (8)

1. An off-line spraying device for a tie rod arch bridge comprises a base (1), a lifting mechanism (2), a workbench (3), a loading mechanism (4), a spraying mechanism (5) and a stirring mechanism (8), and is characterized in that the lifting mechanism (2) for adjusting the height of the workbench (3) is arranged between the base (1) and the workbench (3); a spraying mechanism (5) for spraying the arch bridge deck is arranged on the workbench (3); an upper platform mechanism (4) for workers to walk is arranged on one side of the workbench (3); the base (1) is fixedly connected with universal wheels with brakes, which are uniformly distributed.

2. The offline spraying device for the tied arch bridge according to claim 1, wherein the landing mechanism (4) comprises a long plate (401), a support plate (402), a base plate (403) and a stair plate (404), one end of the long plate (401) is hinged with the workbench (3) through a hinge shaft, the other end of the long plate (401) is hinged with the support plate (402) through a hinge shaft, the base plate (403) is fixedly connected with the support plate (402), and the stair plate (404) used for people to step on is fixedly connected with the stair plate (404).

3. The offline spraying device for the tied arch bridge according to claim 1, wherein the lifting mechanism (2) comprises a first threaded sleeve (201), a first screw (202), a first synchronous belt (203), a second synchronous belt (204), a first worm wheel (205), a first worm (206) and a driving motor (207), the workbench (3) is fixedly connected with four first threaded sleeves (201) which are uniformly distributed, the first threaded sleeve (201) is in threaded connection with the first screw (202), the first screw (202) is in rotational connection with the base (1), two first threaded sleeves (201) on the front side are connected through the first synchronous belt (203), the first threaded sleeves (201) which are opposite to each other in the front and back are connected through the second synchronous belt (204), one first threaded sleeve (201) is fixedly connected with the first worm wheel (205), and the first worm wheel (205) is connected with the first worm (206), the first worm (206) is connected with a driving motor (207) for driving the first worm to rotate through a synchronous belt.

4. The offline coating apparatus for a tie-rod arch bridge according to claim 3, the spraying mechanism (5) comprises a paint box (501), a water pump (502), a connecting pipe (503) and a spray head (504), the paint box (501) is arranged on the workbench (3), the paint box (501) is connected with a stirring mechanism (8) for stirring the paint box, the paint box (501) is connected with a water pump (502) through a hose, the water pump (502) is connected with a connecting pipe (503) through a hose, the connecting pipe (503) is fixedly connected with the spray head (504), the workbench (3) is fixedly connected with a fixed plate (6), the fixed plate (6) is connected with a sliding plate (9) in a sliding way, the fixing plate (6) penetrates through the sliding plate (9), the connecting pipe (503) is connected with the fixing plate (6) in a sliding mode, and one end of the sliding plate (9) is fixedly connected with the push handle (901).

5. The offline spraying device for the tied arch bridge according to claim 4, wherein the stirring mechanism (8) comprises a stirring shaft (801), a third synchronous belt (802), a rotating shaft (803), a second turbine (804) and a second worm screw (805), the stirring shaft (801) is rotatably connected with the top plate of the paint box (501), the stirring shaft (801) is connected with the rotating shaft (803) through the third synchronous belt (802), the rotating shaft (803) is fixedly connected with the second turbine (804), the second turbine (804) is connected with the second worm screw (805), and the second worm screw (805) is connected with the driving motor (207) through the synchronous belt.

6. The off-line coating device for the tied arch bridge according to claim 4, wherein a material receiving mechanism (7) is arranged on one side of the spray head (504).

7. The offline spraying device for the tied arch bridge according to claim 6, wherein the material receiving mechanism (7) comprises a material receiving groove (701), a second screw rod (702), a sliding rod (704) and a second screw sleeve (704), the material receiving groove (701) is fixedly connected with the second screw rod (702), the second screw rod (702) is fixedly connected with the sliding rod (704), the second screw rod (702) is parallel to the long rod of the sliding rod (704), the sliding rod (704) penetrates through the fixing plate (6), the second screw sleeve (704) is in threaded connection with the second screw rod (702), and the second screw sleeve (704) is rotatably connected with the fixing plate (6).

8. The offline spraying device for the tied arch bridge according to claim 7, wherein the material receiving groove (701) comprises a baffle plate (7011) and an opening box (7012), and the baffle plate (7011) and the opening box (7012) are fixedly connected.

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