CN212179372U - Refrigeration equipment for coating paint spraying line - Google Patents

Abstract

The utility model discloses a refrigeration plant for painting spray line, the refrigeration plant for painting spray line includes refrigeration cavity, guide rail, rotary mechanism, two-layer cooling layer, two-layer circulating water cooling layer, two refrigeration mechanism and exhaust mechanism, when the refrigeration plant is transported to work piece after drying, will the work piece remove in the slider in the rotary mechanism, utilize the magnetic force of magnet, drive the stopper rotates, will the work piece is injectd in the slider, utilize simultaneously the blotter slows down the wearing and tearing of slider and work piece, along the guide rail, by the cooling layer will the cold wind differential that refrigeration mechanism carried is sent out, and combine the circulating water cooling layer to keep warm the cooling layer, utilize the speed difference, order to drive the slider to rotate on the T-shaped slide bar, make the work piece in the transportation process, the spiral cools and discharges through the exhaust mechanism, and the cooling effect of the workpiece is guaranteed.

Description

Refrigeration equipment for coating paint spraying line

Technical Field

The utility model relates to an application technical field especially relates to a refrigeration plant for application spray line.

Background

In the field of coating technology, the work is generally to spray an object, and then dry and cure the sprayed object. At present, in actual coating operation, the step of drying the mound adopts that the base powder is solidified and then is dried by moisture, the drying is carried out and then needs to be cooled, the work efficiency of the whole process can be improved by rapidly cooling the workpiece, the workpiece which is in operation is mostly cooled by a direct-in and direct-out mode of cooling air at present, but the cooling effect of the workpiece is not guaranteed.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a refrigeration plant for application spray painting line ensures the cooling effect of work piece.

In order to achieve the above object, the utility model provides a refrigeration plant for coating spray line, the refrigeration plant for coating spray line includes refrigeration cavity, guide rail, rotary mechanism, two-layer cooling layer, two-layer circulating water cooling layer, two refrigeration mechanism and exhaust mechanism, the guide rail with refrigeration cavity fixed connection, and lie in refrigeration cavity, the guide rail has the spout, the spout is the T font, and lies in the guide rail, rotary mechanism with the guide rail sliding connection, and lie in refrigeration cavity, two-layer the cooling layer with refrigeration cavity fixed connection, and lie in the guide rail both sides, the cooling layer is hollow structure, two-layer the circulating water cooling layer respectively with two-layer the cooling layer fixed connection, and lie in and keep away from the rotary mechanism both sides, two refrigeration mechanism respectively with two-layer the cooling layer intercommunication, the exhaust mechanism is communicated with the cooling layer and positioned on one side far away from the guide rail;

the rotary mechanism comprises a T-shaped sliding rod, a sliding block, a buffering cushion, a limiting block and a magnet, the T-shaped sliding rod is connected with the guide rail in a sliding mode and is located in the sliding groove, the T-shaped sliding rod is provided with a rotating groove, the rotating groove is located at one side, away from the refrigeration cavity, of the T-shaped sliding rod, the sliding block is connected with the T-shaped sliding rail in a rotating mode and is located at one side, away from the guide rail, the sliding block is provided with a T-shaped through hole, the T-shaped through hole is located in the sliding block, the buffering cushion is detachably connected with the sliding block and is located in the T-shaped through hole, the limiting block is connected with the sliding block in a rotating mode and is located on two sides of the T.

Wherein, it is two-layer the cooling layer all has a plurality of ventilation holes, and is a plurality of the ventilation hole array in on the cooling layer, and relative setting.

The two refrigerating mechanisms comprise a refrigerator, an air supply pipe and a water delivery pipe, the refrigerator is positioned on one side of the refrigerating cavity, the air supply pipe is communicated with the refrigerator and the cooling layer, penetrates through the refrigerating cavity, is positioned between the refrigerator and the cooling layer, and the water delivery pipe is communicated with the circulating water cooling layer and the refrigerator and is positioned between the refrigerator and the circulating water cooling layer.

The refrigeration equipment for the coating and paint spraying line further comprises a convergence layer, wherein the convergence layer is in an inverted trapezoid shape, and the convergence layer is fixedly connected with the cooling layer and located between the cooling layer and the refrigeration cavity.

Wherein, exhaust mechanism includes exhaust pipe and draught fan, the exhaust pipe with assemble the layer intercommunication, and run through the refrigeration cavity, the draught fan with the exhaust pipe intercommunication, and be located and keep away from assemble layer one side.

Wherein, refrigeration plant is used to application paint spray line still includes temperature-detecting appearance, temperature-detecting appearance with exhaust pipe fixed connection to be located and be close to draught fan one side.

The refrigeration equipment for the coating and spray line further comprises two booster pumps, wherein the two booster pumps are connected with the refrigerator and are positioned on one side of the refrigerator.

The utility model discloses a refrigeration plant for coating spray line, refrigeration plant for coating spray line includes refrigeration cavity, guide rail, rotary mechanism, two-layer cooling layer, two-layer circulating water cooling layer, two refrigeration mechanism and exhaust mechanism, and when refrigeration plant was transported to work piece after the stoving, will the work piece removes in the slider in the rotary mechanism, utilizes the magnetic force of magnet, drives the stopper rotates, will the work piece is injectd in the slider, utilizes simultaneously the blotter slows down the wearing and tearing of slider with the work piece, along the guide rail, by the cooling layer will the cold wind differential that refrigeration mechanism carried is sent out, and combines the circulating water cooling layer to keep warm the cooling layer, utilizes the speed difference, orders about the slider to rotate on the T shape slide bar, makes the work piece in the transportation process, the spiral cools off, and the air is discharged through the air exhaust mechanism, so that the cooling effect of the workpiece is guaranteed.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a refrigeration device for a coating and spray line provided by the present invention.

Fig. 2 is a schematic structural diagram of the rotating mechanism provided by the present invention.

1-refrigeration cavity, 2-guide rail, 3-rotation mechanism, 4-cooling layer, 5-refrigeration mechanism, 6-exhaust mechanism, 7-chute, 8-T-shaped slide bar, 9-slide block, 10-buffer pad, 11-limit block, 12-magnet, 13-rotation groove, 14-T-shaped through hole, 15-vent hole, 16-refrigerator, 17-blast pipe, 18-convergence layer, 19-exhaust pipe, 20-draught fan, 21-temperature detector, 22-booster pump, 23-circulating water cooling layer and 24-water pipe.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "length", "width", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", and the like indicate orientations or positional relationships based on those shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. In addition, in the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1, the utility model provides a refrigeration plant for coating and spray painting line, the refrigeration plant for coating and spray painting line includes a refrigeration cavity 1, a guide rail 2, a rotating mechanism 3, two cooling layers 4, two circulating water cooling layers 23, two refrigeration mechanisms 5 and an exhaust mechanism 6, the guide rail 2 is fixedly connected with the refrigeration cavity 1 and is located in the refrigeration cavity 1, the guide rail 2 has a chute 7, the chute 7 is T-shaped and is located in the guide rail 2, the rotating mechanism 3 is slidably connected with the guide rail 2 and is located in the refrigeration cavity 1, the two cooling layers 4 are fixedly connected with the refrigeration cavity 1 and are located at two sides of the guide rail 2, the cooling layers 4 are hollow structures, the two circulating water cooling layers 23 are respectively fixedly connected with the two cooling layers 4 and are located at two sides far away from the rotating mechanism 3, the two refrigerating mechanisms 5 are respectively communicated with the two cooling layers 4 and are positioned at two sides far away from the guide rail 2, and the exhaust mechanism 6 is communicated with the cooling layers 4 and is positioned at one side far away from the guide rail 2;

the rotating mechanism 3 comprises a T-shaped sliding rod 8, a sliding block 9, a buffering cushion 10, a limiting block 11 and a magnet 12, the T-shaped sliding rod 8 is connected with the guide rail 2 in a sliding mode and is located in the sliding groove 7, the T-shaped sliding rod 8 is provided with a rotating groove 13, the rotating groove 13 is located on one side, far away from the refrigerating cavity 1, of the T-shaped sliding rod 8, the sliding block 9 is connected with the T-shaped sliding rail in a rotating mode and is located on one side, far away from the guide rail 2, of the sliding block 9 is provided with a T-shaped through hole 14, the T-shaped through hole 14 is located in the sliding block 9, the buffering cushion 10 is detachably connected with the sliding block 9 and is located in the T-shaped through hole 14, the limiting block 11 is connected with the sliding block 9 in a rotating mode and is located on two sides of the T-.

In the embodiment, the refrigeration cavity 1 is connected with a coating and drying production line, and the guide rail 2 installed above the refrigeration cavity 1 is connected with the drying production line, so that the streamlined production operation is facilitated, the labor and the operation time are saved, the dried workpiece is moved into the slide block 9, the buffer pad 10 is utilized to reduce the abrasion to the workpiece and the slide block 9 in the moving process, and the service life is prolonged, because the clamp for conveying the workpiece is generally made of iron products, the magnet 12 is installed on the limit block 11, the limit block 11 is driven to rotate by the magnetic force of the magnet 12, the through hole of the slide block 9 is sealed and limited, the workpiece is prevented from falling in the slide block 9 and being damaged in the moving process, and the slide block 9, the T-shaped slide bar 8 and the like are made of materials without the magnetic force, such as stainless steel and the like, normal magnetic attraction between the workpiece and the magnet 12 can be effectively ensured, the limitation can be ensured by using the limiting block 11, then, through the sliding of the T-shaped slide bar 8 in the guide rail 2, as shown in the structural schematic diagram of the rotating mechanism 3 provided in fig. 2, two refrigerating mechanisms 5 with different air pressures are simultaneously used for conveying cooling air to the corresponding cooling layers 4, and simultaneously, the temperature of the cooling air in the cooling layers 4 is maintained by using the circulating water cooling layer 23, so as to further ensure the cooling effect, the cooling air with different pressures is sent out by the cooling layers 4, due to the pressure difference, the workpiece to be cooled can rotate under the action of the pressure difference, the sliding block 9 is driven to rotate in the rotating groove 13 of the T-shaped slide bar 8, and the air is exhausted by the air exhausting mechanism 6 at the lower part of the refrigerating cavity 1, so as to ensure the cooling to be performed orderly and stably, and can be in guide rail 2 side set up the motor with slider 9 is connected, can adjust the rotation rate of slider 9 further guarantees the rotary cooling of by the cooling work piece, through the speed difference drive rotation by the cooling air, practices thrift manufacturing cost to can also increase with the contact time and the area of contact etc. of cooling air, guarantee the cooling effect to the work piece.

Further, the cooling layer 4 has a plurality of ventilation holes 15, and the ventilation holes 15 are arranged on the cooling layer 4 and are arranged oppositely.

In this embodiment, at two-layer relatively set up in the cooling layer 4 a plurality of ventilation hole 15, just array arrangement between the 15 single rows of ventilation hole, the array that falls by mistake between two adjacent rows is favorable to exporting on a large scale cooling air, improves the cooling effect.

Further, the two refrigerating mechanisms 5 include a refrigerator 16, an air supply pipe 17 and a water delivery pipe 24, the refrigerator 16 is located on one side of the refrigerating cavity 1, the air supply pipe 17 is communicated with the refrigerator 16 and the cooling layer 4, penetrates through the refrigerating cavity 1, is located between the refrigerator 16 and the cooling layer 4, and the water delivery pipe 24 is communicated with the circulating water cooling layer 23 and the refrigerator 16, and is located between the refrigerator 16 and the circulating water cooling layer 23.

In this embodiment, the currently and commonly used refrigerator 16 is used to provide cooling air and cooling water, which can save a part of production cost and is convenient to use, and then the cooling air generated by the refrigerator 16 is sent into the cooling layer 4 through the air supply pipe 17, because the cooling layer 4 is of a hollow structure, the cooling air can be buffered and then uniformly discharged through the vent holes 15, and the temperature of the cooling air in the cooling layer 4 is maintained in combination with the cooling water delivered by the water delivery pipe 24, so as to further ensure the cooling effect, wherein the air supply pipe 17 and the water delivery pipe 24 are made of heat insulating materials, so that the temperature of the cooling air cannot be changed in the delivery process of the cooling air, and the cooling effect cannot be affected.

Further, refrigeration plant for coating spray line still includes and assembles layer 18, it is trapezoidal to assemble layer 18, it is two-layer to assemble layer 18 the cooling layer 4 fixed connection, and be located the cooling layer 4 with between the refrigeration cavity 1.

In the present embodiment, since the cooling air is collected in the vicinity of the workpiece while the workpiece is rotating, the cooling air in the two cooling layers 4 is collected by the reversed trapezoidal collecting layer 18, so that the gas can be easily discharged, and the cooling effect can be ensured.

Further, exhaust mechanism 6 includes exhaust pipe 19 and draught fan 20, exhaust pipe 19 with assemble layer 18 intercommunication, and run through refrigeration cavity 1, draught fan 20 with exhaust pipe 19 intercommunication, and be located and keep away from assemble layer 18 one side.

In this embodiment, will exhaust pipe 19 with layer 18 intercommunication assembles, utilizes draught fan 20's traction force will collect the gas and draw out, and set up draught fan 20's appeal is greater than refrigerator 16's output can guarantee cooling air top-down's cooling, can guarantee the orderly discharge of the gas in the cavity moreover, further guarantees the cooling effect.

Further, refrigeration plant for coating paint spray line still includes temperature detector 21, temperature detector 21 with exhaust pipe 19 fixed connection to be located and be close to draught fan 20 one side.

In this embodiment, the temperature detector 21 with the type pt100 is installed at the outlet of the exhaust duct 19, and can detect the real-time temperature of the cooling air passing through the exhaust duct 19, so as to facilitate grasping the cooling condition of the workpiece.

Further, the refrigeration equipment for the coating and spraying line further comprises two booster pumps 22, and the two booster pumps 22 are connected with the refrigerating machine 16 and are positioned on one side of the refrigerating machine 16.

In the present embodiment, the booster pumps are respectively installed at the two refrigerators 16 to increase the delivery pressure of the cooling air, and the power of the two booster pumps 22 can be adjusted to realize the speed difference of the cooling air, thereby realizing the rotary cooling of the workpiece and ensuring the cooling effect of the workpiece.

The utility model discloses a refrigeration plant for application spray painting line, refrigeration plant for application spray painting line includes refrigeration cavity 1, guide rail 2, rotary mechanism 3, two-layer cooling layer 4, two-layer circulating water cooling layer 23, two refrigeration mechanism 5 and exhaust mechanism 6, and when the work piece after the stoving transports refrigeration plant, will the work piece removes in slider 9 among the rotary mechanism 3, utilizes the magnetic force of magnet 12, drives stopper 11 rotates, will the work piece is injectd in slider 9, utilizes simultaneously the blotter 10 comes to slow down the wearing and tearing of slider 9 with the work piece, along guide rail 2, by cooling layer 4 sends out the cold wind differential that refrigeration mechanism 5 carried, utilizes circulating water cooling layer 23 to come to keep warm cooling layer 4 simultaneously, utilizes the speed difference, orders about slider 9 is in rotate on the T shape slide bar 8, the workpieces are cooled spirally in the conveying process and are exhausted through the exhaust mechanism 6, and the cooling effect of the workpieces is guaranteed.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims (7)

1. A refrigeration device for a coating and paint spraying line is characterized in that,

the refrigeration equipment for the coating and paint spraying line comprises a refrigeration cavity, a guide rail, a rotation mechanism, two cooling layers, two circulating water cooling layers, two refrigeration mechanisms and an exhaust mechanism, wherein the guide rail is fixedly connected with the refrigeration cavity and is positioned in the refrigeration cavity, the guide rail is provided with a chute, the chute is T-shaped and is positioned in the guide rail, the rotation mechanism is slidably connected with the guide rail and is positioned in the refrigeration cavity, the two cooling layers are fixedly connected with the refrigeration cavity and are positioned on two sides of the guide rail, the two cooling layers are of hollow structures, the two circulating water cooling layers are respectively fixedly connected with the two cooling layers and are positioned on two sides far away from the rotation mechanism, the two refrigeration mechanisms are respectively communicated with the two cooling layers and are positioned on two sides far away from the guide rail, and the exhaust mechanism is communicated with the cooling layers, and is positioned at one side far away from the guide rail;

the rotary mechanism comprises a T-shaped sliding rod, a sliding block, a buffering cushion, a limiting block and a magnet, the T-shaped sliding rod is connected with the guide rail in a sliding mode and is located in the sliding groove, the T-shaped sliding rod is provided with a rotating groove, the rotating groove is located at one side, away from the refrigeration cavity, of the T-shaped sliding rod, the sliding block is connected with the T-shaped sliding rail in a rotating mode and is located at one side, away from the guide rail, the sliding block is provided with a T-shaped through hole, the T-shaped through hole is located in the sliding block, the buffering cushion is detachably connected with the sliding block and is located in the T-shaped through hole, the limiting block is connected with the sliding block in a rotating mode and is located on two sides of the T.

2. The refrigeration appliance for a paint spray line according to claim 1,

it is two-layer the cooling layer all has a plurality of ventilation holes, and is a plurality of the ventilation hole array in on the cooling layer, and relative setting.

3. The refrigeration appliance for a paint spray line according to claim 1,

the two refrigerating mechanisms comprise a refrigerator, an air supply pipe and a water delivery pipe, the refrigerator is positioned on one side of the refrigerating cavity, the air supply pipe is communicated with the refrigerator and the cooling layer, penetrates through the refrigerating cavity, is positioned between the refrigerator and the cooling layer, and the water delivery pipe is communicated with the circulating water cooling layer and the refrigerator and is positioned between the refrigerator and the circulating water cooling layer.

4. The refrigeration appliance for a paint spray line according to claim 1,

the refrigeration equipment for the coating and paint spraying line further comprises a convergence layer, wherein the convergence layer is in an inverted trapezoid shape, and the convergence layer is fixedly connected with the cooling layer and located between the cooling layer and the refrigeration cavity.

5. The refrigeration appliance for a paint spray line according to claim 4,

exhaust mechanism includes exhaust pipe and draught fan, the exhaust pipe with assemble the layer intercommunication, and run through the refrigeration cavity, the draught fan with the exhaust pipe intercommunication, and be located and keep away from assemble layer one side.

6. The refrigeration appliance for a paint spray line according to claim 5,

refrigeration plant is used to application paint spray line still includes temperature-detecting appearance, temperature-detecting appearance with exhaust pipe fixed connection to be located and be close to draught fan one side.

7. The refrigeration appliance for a paint spray line according to claim 3,

the refrigeration equipment for the coating and paint spraying line further comprises two booster pumps, wherein the two booster pumps are connected with the refrigerator and are positioned on one side of the refrigerator.

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