CN217226070U - Automatic spraying equipment for release agent - Google Patents

Abstract

The utility model relates to automatic spraying equipment for a release agent, which comprises a horizontal moving mechanism, a support frame arranged at the driving end of the horizontal moving mechanism, a cross beam with one end arranged at the top of the support frame, a lifting mechanism arranged at the other end of the cross beam and a spraying mechanism arranged at the driving end of the lifting mechanism; the spraying mechanism comprises a supporting rod which is horizontally arranged and is perpendicular to the moving direction of the horizontal moving mechanism, C-shaped supports which are respectively arranged at two ends of the supporting rod, transverse spraying pipes which are horizontally arranged below the supporting rod and two ends of which are respectively rotatably arranged on the C-shaped supports, longitudinal spraying pipes which are respectively vertically arranged in the two C-shaped supports and can rotate, and angle adjusting components which are respectively arranged on the two C-shaped supports and are used for adjusting the ink-spraying angles of the transverse spraying pipes and the longitudinal spraying pipes; the utility model discloses a horizontal spraying pipe and two vertical spraying pipes can once carry out the spraying to bottom surface, both ends and both sides of mould, have not only improved work efficiency greatly, and the spray tube is even, effectual.

Description

Automatic spraying equipment for release agent

Technical Field

The utility model relates to a mould drawing of patterns field refers in particular to a release agent automatic spraying equipment.

Background

With the rapid development of the national industrial level, the living standard of people is increasingly improved, and people have higher requirements on living demands of clothes, eating, housing and the like. It is well known that traffic development is a key element for rapidly improving local economic vitality, information communication interchange and material turnover transportation, and particularly, high-speed rail traffic is taken as a development focus in recent years, such as high-speed rails crossing provinces, intercity commuter vehicles crossing cities, and light rails or subways which are common in the cities. However, most high-speed rail transit needs to perform work penetrating obstacles, such as subway tunnels and cave tunnels. Therefore, a large number of shield segments are needed, and the production efficiency and quality of the shield segments become one of the very important links in the upstream industry.

Whether there is higher cleanliness factor at section of jurisdiction surface in having more problem to concentrate on in present shield constructs section of jurisdiction production quality because this relates to laminating between the section of jurisdiction, the laminating of section of jurisdiction self and external environment and the attribute performance of section of jurisdiction self. The influence of the demolding of the pipe piece from the mold on the surface condition of the pipe piece is huge, so that the type and the coating mode of the mold surface coating demolding agent become important technologies.

The release agent is a functional substance between the mold and the finished product. The release agent is chemically resistant and does not dissolve when in contact with different chemical components. The release agent also has heat resistance and stress resistance, and is not easy to decompose or wear; the release agent adheres to the mold without transferring to the part being processed, and does not interfere with painting or other secondary processing operations.

At present, most of spraying of the release agent is carried out manually, namely the release agent is manually coated on the inner wall of a mould, or the release agent is sprayed on the inner wall of the mould by simple spraying equipment. The manual spraying method not only wastes manpower and material resources and increases labor cost, but also has low spraying efficiency, uneven spraying and low spraying quality, and liquid accumulation phenomenon can be generated to influence the shaping shape of the concrete material. Although release agent spraying equipment also appears in the market, such as a track plate mold release agent spraying robot disclosed in the prior art 201820327090.9, and such as a track plate release agent spraying equipment disclosed in the prior art 201921684147.1, the prior art adopts a gantry truss structure, so that the structure is complex, and the plant area is greatly occupied; as another example, the release agent spray system and method disclosed in 202010032601.6, while reducing the footprint, has the following problems: 1. the rotary spraying mechanism is only provided with one horizontally placed spraying pipe, the bottom surface, two end surfaces and two side surfaces of the mold cannot be sprayed at one time, and the spraying needs to be carried out step by step, so that the working efficiency is low; 2. the vertical moving mechanism is driven by an electro-hydraulic push rod, and the shield segment is of an arc structure, so that the electro-hydraulic push rod is low in precision, and uneven spraying can be caused; 3. the driving part of the horizontal moving mechanism is arranged below the base, so that the base needs to be detached during maintenance, time and labor are wasted, and the maintenance is very inconvenient; 4. the horizontal moving mechanism is driven by the screw rod, and under long-distance heavy load, the screw rod is easy to bend, so that uneven spraying can be caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a release agent automatic spraying equipment in order to overcome prior art not enough.

In order to achieve the above purpose, the utility model adopts the technical scheme that: an automatic spraying device for a release agent comprises a horizontal moving mechanism, a support frame vertically arranged at the driving end of the horizontal moving mechanism, a cross beam horizontally arranged with one end arranged at the top of the support frame, a lifting mechanism arranged at the other end of the cross beam, and a spraying mechanism arranged at the driving end of the lifting mechanism; the spraying mechanism comprises a supporting rod, C-shaped supports, transverse spraying pipes, longitudinal spraying pipes and angle adjusting assemblies, wherein the supporting rod is horizontally arranged and is perpendicular to the moving direction of the horizontal moving mechanism, the C-shaped supports are respectively arranged at two ends of the supporting rod, the transverse spraying pipes are horizontally arranged below the supporting rod, two ends of the transverse spraying pipes are respectively rotatably arranged on the C-shaped supports, the longitudinal spraying pipes are respectively vertically arranged in the two C-shaped supports and can be rotated, and the angle adjusting assemblies are respectively arranged on the two C-shaped supports and are used for adjusting the ink-spraying angles of the transverse spraying pipes and the longitudinal spraying pipes.

Preferably, each angle adjusting assembly comprises a first servo motor and a rotating shaft, wherein the first servo motor is arranged at the top of the C-shaped support, the driving end of the first servo motor extends into the C-shaped support, and the rotating shaft is connected with the driving end of the first servo motor and is positioned on the inner side of the longitudinal spraying pipe; and the rotating shaft is respectively provided with bevel gear transmission for adjusting the ink-jet angle of the transverse spraying pipe and synchronous belt transmission for adjusting the ink-jet angle of the longitudinal spraying pipe.

Preferably, the bottom and the side of the two C-shaped supports are respectively provided with a distance measuring sensor.

Preferably, two ends of the transverse spraying pipe and two ends of the longitudinal spraying pipe are connected with the C-shaped support through bearings.

Preferably, the lifting mechanism comprises a nut rotatably arranged on the cross beam, a second servo motor arranged on the cross beam and used for driving the nut to rotate, a screw rod in threaded connection with the nut and vertically penetrating through the cross beam, and guide rods respectively arranged on two sides of the screw rod and vertically penetrating through the cross beam; the upper ends of the screw rod and the two guide rods are connected through a connecting plate, and the lower ends of the screw rod and the two guide rods are connected with the supporting rod.

Preferably, the two guide rods are connected with the cross beam through self-lubricating copper sleeves.

Preferably, the horizontal movement mechanism comprises two guide rails which are arranged on the ground in parallel, a fixing frame which is arranged between the two guide rails and is arranged in parallel with the guide rails, a rack which is arranged at the top of the fixing frame, a sliding table which is arranged on the two guide rails in a sliding manner and is positioned above the rack, a third servo motor which is arranged on the sliding table and has a driving end penetrating through the bottom of the sliding table, and a gear which is arranged at the driving end of the third servo motor and is meshed with the rack.

Preferably, the cross beam, the supporting rod and the fixing frame are square tubes.

Because of above-mentioned technical scheme's application, compared with the prior art, the utility model have the following advantage:

1. the utility model can spray the bottom surface, two end surfaces and two side surfaces of the mould at one time through the transverse spraying pipe and the two longitudinal spraying pipes, thereby not only greatly improving the working efficiency, but also having uniform spraying pipes and good effect;

2. the middle horizontal moving mechanism of the utility model is arranged on the ground and driven by the gear and the rack, thereby not only adapting to the severe working environment, but also being convenient for daily maintenance and repair;

3. the utility model discloses well horizontal migration mechanism, elevating system and spraying mechanism all adopt servo motor drive, and the precision is high for the spraying is more even, and is effectual.

Drawings

The technical scheme of the utility model is further explained by combining the attached drawings as follows:

FIG. 1 is a schematic structural diagram of the automatic spraying equipment for the release agent of the utility model;

FIG. 2 is a schematic view of a part of the structure of the automatic spraying equipment for the release agent of the present invention;

FIG. 3 is an enlarged view of a portion A of FIG. 1;

fig. 4 is a partially enlarged view of fig. 1 at B.

Wherein: 1. a horizontal movement mechanism; 11. a guide rail; 12. a fixed mount; 13. a rack; 14. a sliding table; 15. a third servo motor; 16. a gear; 2. a support frame;

3. a cross beam; 4. a lifting mechanism; 41. a nut; 42. a second servo motor; 43. a screw rod; 44. a guide bar; 45. a self-lubricating copper sleeve; 5. a spraying mechanism; 51. a support bar; 52. a C-shaped bracket; 53. a transverse spray pipe; 54. a longitudinal spray pipe; 55. an angle adjustment assembly; 551. a first servo motor; 552. a rotating shaft; 553. bevel gear transmission; 554. synchronous belt transmission; 56. a ranging sensor; 57. a bearing; 6. a mold; 7. a track.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1-4 show the automatic spraying equipment of the mold release agent of the present invention, which comprises a horizontal moving mechanism 1, a supporting frame 2 vertically arranged at the driving end of the horizontal moving mechanism 1, a beam 3 horizontally arranged with one end arranged at the top of the supporting frame 2, a lifting mechanism 4 arranged at the other end of the beam 3, and a spraying mechanism 5 arranged at the driving end of the lifting mechanism 4; the spraying mechanism 5 comprises a supporting rod 51 which is horizontally arranged and is perpendicular to the moving direction of the horizontal moving mechanism 1, C-shaped supports 52 which are respectively arranged at two ends of the supporting rod 51, transverse spraying pipes 53 which are horizontally arranged below the supporting rod 51 and of which two ends are respectively and rotatably arranged on the C-shaped supports 52, longitudinal spraying pipes 54 which are respectively and vertically arranged in the two C-shaped supports 52 and can rotate, and angle adjusting components 55 which are respectively arranged on the two C-shaped supports 52 and are used for adjusting the ink spraying angles of the transverse spraying pipes 53 and the longitudinal spraying pipes 54; during installation: the horizontal moving mechanism 1 is arranged on the ground and is arranged in parallel with the track 7 of the mould 6, and the spraying mechanism 5 is positioned right above the mould 6; when in work: the mold 6 moves to a spraying station, then the horizontal moving mechanism 1 drives the spraying mechanism 5 to move to a position above one end of the mold 6, then the angle adjusting component 55 adjusts the angle of the transverse spraying pipe 53, so that a nozzle of the transverse spraying pipe 53 is horizontally arranged and is opposite to the end face of the mold 6, then the horizontal moving mechanism 1, the lifting mechanism 4 and the spraying mechanism 5 work simultaneously, the lifting mechanism 4 drives the spraying mechanism 5 to move downwards, meanwhile, the horizontal moving mechanism 1 drives the spraying mechanism 5 to always keep a set distance with the end face of the mold 6, and the spraying mechanism 5 sprays the end face of the mold 6 through the transverse spraying pipe 53; when the spraying mechanism 5 moves downwards to a set distance, the angle adjusting component 55 adjusts the angle of the transverse spraying pipe 53 again, so that the nozzle of the transverse spraying pipe 53 is placed downwards and is opposite to the bottom surface of the mold 6, meanwhile, the two longitudinal spraying pipes 54 are opposite to the two side surfaces of the mold 6, then the horizontal moving mechanism 1, the lifting mechanism 4 and the spraying mechanism 5 work simultaneously, the horizontal moving mechanism 1 drives the spraying mechanism 5 to move horizontally, meanwhile, the lifting mechanism 4 drives the spraying mechanism 5 to keep a set distance with the bottom surface of the mold 6 all the time, and the spraying mechanism 5 sprays the bottom surface and the two side surfaces of the mold 6 through the transverse spraying pipe 53 and the two longitudinal spraying pipes 54 respectively; when the spraying mechanism 5 moves to the other end of the mold 6, the angle adjusting component 55 adjusts the angle of the transverse spraying pipe 53 again, so that the nozzle of the transverse spraying pipe 53 is horizontally placed and is opposite to the end face of the mold 6, then the horizontal moving mechanism 1, the lifting mechanism 4 and the spraying mechanism 5 work simultaneously, the lifting mechanism 4 drives the spraying mechanism 5 to move upwards, meanwhile, the horizontal moving mechanism 1 drives the spraying mechanism 5 to keep a set distance with the end face of the mold 6 all the time, and the spraying mechanism 5 sprays the end face of the mold 6 through the transverse spraying pipe 53, so that the bottom face, two end faces and two side faces of the mold 6 can be sprayed at one time, the working efficiency is greatly improved, and the spraying pipes are uniform and good in effect; wherein the transverse spray pipe 53 and the two longitudinal spray pipes 54 are independently controlled, and the two longitudinal spray pipes 54 do not work when the transverse spray pipe 53 sprays the end face of the mold 6.

Further, each angle adjusting assembly 55 comprises a first servo motor 551 arranged at the top of the C-shaped bracket 52 and having a driving end extending into the C-shaped bracket 52, and a rotating shaft 552 connected with the driving end of the first servo motor 551 and located inside the longitudinal spraying pipe 54; the rotating shaft 552 is respectively provided with a bevel gear transmission 553 for adjusting the ink-jet angle of the transverse spray pipe 53 and a synchronous belt transmission 554 for adjusting the ink-jet angle of the longitudinal spray pipe 54; when in work: the two first servo motors 551 respectively drive the two rotating shafts 552 to rotate, the rotating shafts 552 can adjust the ink jetting angle of the transverse spraying pipe 53 through a bevel gear transmission 553, and the ink jetting angle of the longitudinal spraying pipe 54 can be adjusted through a synchronous belt transmission 554.

Further, the bottom and the side of the two C-shaped supports 52 are respectively provided with a distance measuring sensor 56, which not only facilitates the accurate control of the position of the spraying mechanism 5 by the horizontal moving mechanism 1 and the lifting mechanism 4, but also can play a role of avoiding obstacles, and prevents the spraying mechanism 5 from colliding with foreign objects, thereby providing a service life.

Further, the two ends of the transverse spray pipe 53 and the longitudinal spray pipe 54 are connected with the C-shaped bracket 52 through bearings 57, and the bearings 57 are utilized to improve the service life.

Further, the lifting mechanism 4 comprises a nut 41 rotatably arranged on the cross beam 3, a second servo motor 42 arranged on the cross beam 3 and used for driving the nut 41 to rotate, a screw rod 43 which is in threaded connection with the nut 41 and vertically penetrates through the cross beam 3, and guide rods 44 which are respectively arranged on two sides of the screw rod 43 and vertically penetrate through the cross beam 3; the upper ends of the screw rod 43 and the two guide rods 44 are connected through a connecting plate, and the lower ends of the screw rod 43 and the two guide rods are connected with a support rod 51; when in work: the nut 41 is driven to rotate by the second servo motor 42, the screw rod 43 is in threaded connection with the nut 41, so that the screw rod 43 does lifting movement, and the spraying mechanism 5 is more stable in lifting by arranging the two guide rods 44.

Further, two guide rods 44 are connected with the cross beam 3 through self-lubricating copper sleeves 45, and the self-lubricating copper sleeves 45 are utilized to prolong the service life.

Further, the horizontal moving mechanism 1 comprises two guide rails 11 arranged on the ground in parallel, a fixed frame 12 arranged between the two guide rails 11 and arranged parallel to the guide rails 11, a rack 13 arranged at the top of the fixed frame 12, a sliding table 14 arranged on the two guide rails 11 in a sliding manner and positioned above the rack 13, a third servo motor 15 arranged on the sliding table 14 and having a driving end penetrating through the bottom of the sliding table 14, and a gear 16 arranged at the driving end of the third servo motor 15 and engaged with the rack 13; when in work: the gear 16 is driven by the third servo motor 15, and the gear 16 is meshed with the rack 13, so that the sliding table 14 is driven to drive the spraying mechanism 5 to move horizontally.

Further, the cross beam 3, the support rod 51 and the fixing frame 12 are square pipes, so that the structure is firm, the weight is light, and the standard parts are convenient to process and manufacture.

The above is only a specific application example of the present invention, and does not constitute any limitation to the protection scope of the present invention. All technical solutions formed by adopting equivalent transformation or equivalent replacement fall within the protection scope of the present invention.

Claims (8)

1. The utility model provides a release agent automatic spraying equipment which characterized in that: the spraying device comprises a horizontal moving mechanism, a support frame vertically arranged at the driving end of the horizontal moving mechanism, a cross beam horizontally arranged with one end arranged at the top of the support frame, a lifting mechanism arranged at the other end of the cross beam, and a spraying mechanism arranged at the driving end of the lifting mechanism; the spraying mechanism comprises a supporting rod, C-shaped supports, transverse spraying pipes, longitudinal spraying pipes and angle adjusting assemblies, wherein the supporting rod is horizontally arranged and is perpendicular to the moving direction of the horizontal moving mechanism, the C-shaped supports are respectively arranged at two ends of the supporting rod, the transverse spraying pipes are horizontally arranged below the supporting rod, two ends of the transverse spraying pipes are respectively rotatably arranged on the C-shaped supports, the longitudinal spraying pipes are respectively vertically arranged in the two C-shaped supports and can be rotated, and the angle adjusting assemblies are respectively arranged on the two C-shaped supports and are used for adjusting the ink-spraying angles of the transverse spraying pipes and the longitudinal spraying pipes.

2. The automatic release agent spraying apparatus according to claim 1, characterized in that: each angle adjusting assembly comprises a first servo motor and a rotating shaft, wherein the first servo motor is arranged at the top of the C-shaped support, the driving end of the first servo motor extends into the C-shaped support, and the rotating shaft is connected with the driving end of the first servo motor and is positioned on the inner side of the longitudinal spraying pipe; and the rotating shaft is respectively provided with bevel gear transmission for adjusting the ink-jet angle of the transverse spraying pipe and synchronous belt transmission for adjusting the ink-jet angle of the longitudinal spraying pipe.

3. The automatic release agent spraying apparatus according to claim 2, characterized in that: and distance measuring sensors are respectively arranged at the bottom and the side surface of the two C-shaped supports.

4. The automatic release agent spraying device according to claim 3, characterized in that: and the two ends of the transverse spraying pipe and the longitudinal spraying pipe are connected with the C-shaped bracket through bearings.

5. The automatic release agent spraying apparatus according to any one of claims 1 to 4, characterized in that: the lifting mechanism comprises a nut rotatably arranged on the cross beam, a second servo motor arranged on the cross beam and used for driving the nut to rotate, a screw rod which is in threaded connection with the nut and vertically penetrates through the cross beam, and guide rods which are respectively arranged on two sides of the screw rod and vertically penetrate through the cross beam; the upper ends of the screw rod and the two guide rods are connected through a connecting plate, and the lower ends of the screw rod and the two guide rods are connected with the supporting rod.

6. The automatic release agent spraying apparatus according to claim 5, wherein: and the two guide rods are connected with the cross beam through self-lubricating copper sleeves.

7. The automatic release agent spraying device according to claim 6, wherein: the horizontal movement mechanism comprises two guide rails which are arranged on the ground in parallel, a fixing frame which is arranged between the two guide rails and is placed in parallel with the guide rails, a rack which is arranged at the top of the fixing frame, a sliding table which is arranged on the two guide rails in a sliding mode and is positioned above the rack, a third servo motor which is arranged on the sliding table and is provided with a driving end penetrating through the bottom of the sliding table, and a gear which is arranged at the driving end of the third servo motor and is meshed with the rack.

8. The automatic release agent spraying apparatus according to claim 7, wherein: the cross beam, the supporting rod and the fixing frame are square pipes.

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