CN115289781A - Cooling equipment for insulating material production - Google Patents

Abstract

The invention belongs to the technical field of insulating material production, and particularly provides cooling equipment for insulating material production, which comprises a circulating water primary cooling shaping table, an atomized water swinging double-sided compound cooling mechanism and a cooling bearing clamping box, wherein the circulating water primary cooling shaping table is fixedly arranged on the upper surface of the inner bottom wall of the cooling bearing clamping box, and the atomized water swinging double-sided compound cooling mechanism is arranged on the circulating water primary cooling shaping table and the cooling bearing clamping box.

Description

Cooling equipment for insulating material production

Technical Field

The invention belongs to the technical field of insulating material production, and particularly relates to cooling equipment for insulating material production.

Background

Insulating material is in process of production, hot briquetting need carry out, insulation board temperature after the hot pressing is higher, the texture is softer, be difficult to quick design, after insulation board hot pressing, need carry out cooling treatment to the insulation board, so that the insulation board can rapid prototyping and come into operation, among the prior art, the cooling of insulation board adopts rivers to wash the cooling more, but this method will waste a large amount of water resources, be not conform to energy-concerving and environment-protective requirement, and do not use cold water then to be difficult to make the quick cooling shaping of insulation board.

The technical problems that cold water is used for rapidly cooling the insulating plate and cannot be used for reducing water resource waste are difficult to solve in the prior art.

Disclosure of Invention

According to the technical problem that when the insulating plate is cooled, the insulating plate is cooled rapidly by using cold water, and waste of water resources is reduced by using the cold water.

The technical scheme adopted by the invention is as follows: the scheme provides a cooling device for insulating material production, including the primary cooling design platform of circulating water, the compound cooling mechanism of atomizing water swing double-sided and cooling bear the centre gripping case, the primary cooling design platform of circulating water is fixed to be located and is born the inside diapire upper surface of centre gripping case, the compound cooling mechanism of atomizing water swing double-sided locates on the primary cooling design platform of circulating water and cooling bear the centre gripping case, the primary cooling design platform of circulating water includes the primary cooling plate of circulating water, water cycle subassembly and semiconductor cooler, the water cycle subassembly is fixed to be located and is born the inside diapire upper surface of centre gripping case, the primary cooling plate of circulating water is fixed to be located the water cycle subassembly upper wall, the semiconductor cooler is fixed to be located the water cycle subassembly lateral wall, the compound cooling mechanism of atomizing water swing double-sided includes the simple pendulum and blows the cooling device, the pendulum and blows the cooling device, blow the power subassembly and the atomizing pressure balance subassembly, the mirror symmetry distribution of simple pendulum blows the cooling device and respectively fixes and locates the upper wall edge of the primary cooling plate of circulating water and blows the power subassembly and link up with the power balance subassembly, the power subassembly and the atomizing pressure balance subassembly and link up the power subassembly and link up the circulation subassembly, the lower extreme and link up the circulation water cooling device and link up with the cooling device connection of the cooling device in opposite direction.

Furthermore, a circulating water coil is fixedly arranged inside the circulating water primary cooling plate and is tightly attached to the upper wall of the circulating water primary cooling plate, a water injection one-way check valve and a water discharge one-way check valve are fixedly arranged on the lower wall of the circulating water primary cooling plate, the water injection one-way check valve and the water discharge one-way check valve are of the same structure, the arrangement directions of the water injection one-way check valve and the water discharge one-way check valve are opposite, two ends of the circulating water coil are respectively communicated with the upper ends of the water injection one-way check valve and the water discharge one-way check valve, and lifting clamping through holes are distributed in an array mode on the upper wall of the circulating water primary cooling shaping table in a penetrating mode; the water injection one-way check valve and the water discharge one-way check valve are arranged in the vertical direction, liquid can flow from bottom to top in the water injection one-way check valve and flow from top to bottom in the water discharge one-way check valve under the action of pressure, and the water injection one-way check valve, the circulating water coil and the water discharge one-way check valve jointly form a one-way water body pressure flow path.

Furtherly, the hydrologic cycle subassembly includes the storage water tank, the water injection pipe, wet return and water injection pump, the storage water tank is fixed to be located the cooling and bears the inside diapire upper surface of centre gripping incasement, water injection pipe and wet return are fixed to be run through and are located the storage water tank lateral wall down along in opposite directions, the water injection pump is fixed to be located the storage water tank lateral wall, water injection pipe upper end and the one-way check valve lower extreme through connection of water injection, wet return upper end and the one-way check valve lower extreme through connection of drainage, the water injection pump link up and locates the water injection pipe middle part, the fixed atomizer that is equipped with of the inside diapire of storage water tank, the storage water tank lateral wall runs through fixed moisturizing pipe that is equipped with.

Further, the semiconductor cooler includes the semiconductor refrigeration piece, the cooling grid board, the heat dissipation grid board, radiator fan and cooling tube, the fixed storage water tank lateral wall that runs through of semiconductor refrigeration piece is located, cooling grid board and heat dissipation grid board are fixed respectively and are located the lateral wall that the semiconductor refrigeration piece carried on the back mutually, the cooling grid board is located inside the storage water tank, the storage water tank outside is located to the heat dissipation grid board, radiator fan and cooling tube are fixed respectively and are located the storage water tank lateral wall, the tip that the storage water tank was kept away from to the cooling tube bears centre gripping case lateral wall through connection with the cooling, radiator grid board and radiator fan locate the radiator pipe respectively inside.

Further, simple pendulum blows cooling arrangement includes that the simple pendulum blows hollow rod and simple pendulum motor, the simple pendulum blows hollow rod and rotates and locate the primary cooling plate upper wall edge of circulating water, the primary cooling plate lateral wall of circulating water is fixed to be located to the simple pendulum motor, the simple pendulum blows hollow rod circumference lateral wall array and runs through fixedly being equipped with the simple pendulum tuyere, the end fixing that the hollow rod is close to the simple pendulum motor in the simple pendulum blows is equipped with simple pendulum power pole, simple pendulum power pole lateral wall runs through and is equipped with simple pendulum shape hole, the coaxial fixed simple pendulum power wheel that is equipped with of simple pendulum motor output, simple pendulum power wheel lateral wall edge rotates and is equipped with simple pendulum and dials the driving wheel, simple pendulum dials the driving wheel and locates inside the simple pendulum shape hole, simple pendulum tuyere faces the oblique top.

Further, the linkage-swing blowing cooling equipment comprises a linkage-swing blowing hollow rod, a linkage rack and a linkage motor, the linkage-swing blowing hollow rod is symmetrically distributed and rotatably arranged on the lower surface of the upper wall inside the cooling bearing clamping box, the linkage rack is slidably clamped on the lower surface of the upper wall inside the cooling bearing clamping box, the linkage rack is arranged above the linkage-swing blowing hollow rod, the linkage motor is fixedly arranged on the lower surface of the upper wall inside the cooling bearing clamping box, a linkage-swing air nozzle is fixedly arranged on the circumferential side wall array of the linkage-swing blowing hollow rod in a penetrating mode and faces downwards, the end portions of the linkage-swing blowing hollow rod are respectively and coaxially and fixedly provided with a linkage-swing gear, the linkage-swing gear is respectively meshed with the linkage rack, the end portions of the linkage rack are fixedly provided with a linkage-swing strip-shaped hole, the output end portions of the linkage motor are coaxially and fixedly provided with a linkage wheel, the edge of the upper wall of the linkage wheel is rotatably provided with a linkage-swing button, and the linkage-swing button is arranged inside the linkage-swing strip.

The blowing power assembly comprises an atomizing air blowing main pipe, an atomizing air blowing auxiliary pipe and a blowing cooling fan, the atomizing air blowing main pipe is fixedly arranged on the inner side wall of the cooling bearing clamping box, the atomizing air blowing auxiliary pipe is fixedly arranged on the side wall of the circulating water primary cooling plate in a mirror symmetry distribution mode, the blowing cooling fan is fixedly arranged on the side wall of the circulating water primary cooling plate, the lower end of the atomizing air blowing main pipe and the upper edge of the side wall of the water storage tank are connected in a through mode, the end portion, far away from the linkage rack, of the linkage hollow rod is connected with the upper end of the atomizing air blowing main pipe in a through mode, the end portion, close to the atomizing air blowing main pipe, of the atomizing air blowing auxiliary pipe is connected with the side wall of the atomizing air blowing main pipe in a through mode, the end portion, far away from the atomizing air blowing main pipe, of the atomizing air blowing auxiliary pipe is connected with the end portion, far away from the single swing hollow rod, of the blowing auxiliary pipe is connected in a rotating mode, the blowing cooling fan penetrates through the middle of the atomizing air blowing main pipe and the blowing auxiliary pipe, and the blowing auxiliary pipe are fixedly arranged at the connecting point of the atomizing air blowing auxiliary pipe.

Further, atomizing air pressure balance assembly includes drainage groove and atmospheric pressure balance pipe, and the fixed cooling plate lateral wall of the circulating water primary that locates in drainage groove, the fixed cooling plate lower wall of the circulating water primary that locates of atmospheric pressure balance pipe, atmospheric pressure balance pipe both ends respectively with drainage groove lower wall and storage water tank lateral wall go up along running through fixed connection, atmospheric pressure balance pipe and atomizing air blow the person in charge and locate the lateral wall that the storage water tank carried on the back mutually respectively.

Further, the cooling bears the fixed jacking electric push rod that is equipped with of fixed being equipped with of centre gripping incasement portion lower wall upper surface array distribution, and jacking post is fixed to be equipped with on the jacking electric push rod, and lifting centre gripping through-hole inner wall is located respectively to the jacking post, and the cooling bears the fixed clamping frame that is equipped with of upper surface of centre gripping incasement portion upper wall lower surface.

Furthermore, the clamping frame comprises a clamping positioning rod and clamping columns, the clamping positioning rod is fixedly arranged on the lower surface of the upper wall of the cooling bearing clamping box, the clamping positioning rod is arranged below the hollow rods in the linkage-swinging blowing mode, the array distribution of the clamping columns is respectively and fixedly arranged at the end parts of the clamping positioning rod, the clamping columns and the jacking columns are arranged in a one-to-one correspondence mode, the clamping columns are respectively arranged right above the jacking columns, and touch power-off buttons, touch power-off buttons and jacking electric push rods are electrically connected to the lower wall of the clamping columns.

The invention with the structure has the following beneficial effects:

(1) The circulating water primary cooling shaping table provides a primary cooling platform for the insulating plate by utilizing a hydraulic circulation action mode, refrigeration is realized through the Peltier effect, and the primary cooling platform is always at a lower temperature, so that the cooling shaping of the insulating plate can be continuously carried out;

(2) The atomized water swinging double-sided compound cooling mechanism utilizes low-temperature atomized water vapor to carry out double-sided blowing cooling on the insulating plate, ensures the cooling efficiency while obviously reducing the water consumption, accelerates the cooling process by utilizing the action of air flow, and simultaneously realizes uniform coverage of the atomized water vapor by means of a swinging mechanical structure, so that the insulating plate is more balanced in cooling and prevents the insulating plate from warping and deforming;

(3) The cooling bearing clamping box carries out two-stage cooling on the insulating plate in a jacking and micro-force clamping mode, so that the cooling quality is ensured, the extrusion damage of equipment to the insulating plate is avoided, and the insulating plate can be kept in a stable state when being impacted by atomized airflow;

(4) The water used for the water circulation of the circulating water primary cooling shaping table and the atomized water vapor circulation of the atomized water swinging double-sided recooling mechanism is low-temperature tap water in the water storage tank, and the cooling in multiple modes is realized through a single water source, so that the waste of water resources is reduced;

(5) The one-way pressure flow arrangement of the water injection one-way check valve and the water discharge one-way check valve ensures that the inside of the circulating water coil is always filled with water;

(6) The semiconductor cooler discharges heat to the outside of the cooling bearing clamping box by using the radiating fan and the radiating pipe, so that the inside of the cooling bearing clamping box is kept in a low-temperature environment, and the cooling efficiency is improved;

(7) The simple pendulum blowing cooling equipment and the joint pendulum blowing cooling equipment realize uniform blowing on the lower wall and the upper wall of the insulating plate by means of swing effects generated by reciprocating rotation respectively.

Drawings

FIG. 1 is a schematic structural view of a cooling apparatus for insulating material production according to the present invention;

FIG. 2 is a schematic view of the interior of the cooling carrier clamp box according to the present invention;

FIG. 3 is a schematic structural view of a water storage tank and an atomized water swinging double-sided recooling mechanism provided by the invention;

FIG. 4 is a top sectional view of the circulating water primary cooling plate according to the present invention;

fig. 5 is a side sectional view of a water storage tank and a circulating water primary cooling plate according to the present invention;

FIG. 6 is a side cross-sectional view of a semiconductor cooler in accordance with the present invention;

FIG. 7 is an enlarged view of a portion C of FIG. 3;

FIG. 8 is an enlarged view of a portion A of FIG. 2;

FIG. 9 is a partial enlarged view of portion B of FIG. 2;

fig. 10 is a schematic structural view of a clamping frame according to the present invention.

Wherein, 1, a circulating water primary cooling shaping platform, 11, a circulating water primary cooling plate, 111, a circulating water coil pipe, 112, a water injection one-way check valve, 113, a water drainage one-way check valve, 114, a lifting clamping through hole, 12, a water circulation component, 121, a water storage tank, 1211, an atomizer, 1212, a water replenishing pipe, 122, a water injection pipe, 123, a water return pipe, 124, a water injection pump, 13, a semiconductor cooler, 131, a semiconductor refrigeration sheet, 132, a cooling grid plate, 133, a cooling grid plate, 134, a cooling fan, 135, a cooling pipe, 2, an atomized water swinging double-sided complex cooling mechanism, 21, a single-swing blowing cooling device, 211, a single-swing blowing hollow rod, 2111, a single-swing air nozzle, 2112, a single-swing force rod, 2113, a single-swing strip-shaped hole, 212, a single-swing motor, 2121, a single-swing force wheel, 2122, a single-swing toggle wheel, 22, a linkage-swing blowing cooling device, 221, a linkage-swing blowing hollow rod, 2211, a linkage-swing air nozzle, 2212, a linkage-swing gear, 222, a linkage rack, 2221, a linkage-swing strip-shaped hole, 223, a linkage motor, 2231, a linkage wheel, 2232, a linkage-swing toggle button, 23, a blowing power assembly, 231, an atomizing air blowing main pipe, 232, an atomizing air blowing auxiliary pipe, 2321, an electromagnetic valve, 233, a blowing cooling fan, 24, an atomizing air pressure balancing assembly, 241, a drainage groove, 242, an air pressure balancing pipe, 3, a cooling bearing clamping box, 31, a jacking electric push rod, 311, a jacking column, 32, a clamping frame, 321, a clamping positioning rod, 322, a clamping column, 3221 and a touch power-off button.

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings, merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, are not to be construed as limiting the present invention.

The embodiment is as follows:

referring to fig. 1-3, the cooling apparatus for insulating material production in this embodiment includes a circulating water primary cooling shaping table 1, an atomized water swinging double-sided re-cooling mechanism 2 and a cooling bearing clamping box 3, the circulating water primary cooling shaping table 1 is fixedly disposed on the upper surface of the inner bottom wall of the cooling bearing clamping box 3, the atomized water swinging double-sided re-cooling mechanism 2 is disposed on the circulating water primary cooling shaping table 1 and the cooling bearing clamping box 3, the circulating water primary cooling shaping table 1 includes a circulating water primary cooling plate 11, a water circulating assembly 12 and a semiconductor cooler 13, the water circulating assembly 12 is fixedly disposed on the upper surface of the inner bottom wall of the cooling bearing clamping box 3, the circulating water primary cooling plate 11 is fixedly disposed on the upper wall of the water circulating assembly 12, the semiconductor cooler 13 is fixedly disposed on the side wall of the water circulating assembly 12, the atomized water swing double-sided recooling mechanism 2 comprises a simple swing blowing cooling device 21, a combined swing blowing cooling device 22, a blowing power assembly 23 and an atomized air pressure balancing assembly 24, wherein the simple swing blowing cooling device 21 is fixedly arranged on the edge of the upper wall of the circulating water primary cooling plate 11 in a mirror symmetry manner, the combined swing blowing cooling device 22 is fixedly arranged on the lower surface of the upper wall inside the cooling bearing clamping box 3 in a symmetry manner, the blowing power assembly 23 and the atomized air pressure balancing assembly 24 are fixedly arranged on the opposite side walls of the circulating water primary cooling plate 11, the upper end of the blowing power assembly 23 is communicated with the simple swing blowing cooling device 21 and the combined swing blowing cooling device 22, the lower end of the blowing power assembly 23 is communicated with the water circulation assembly 12, and the lower end of the atomized air pressure balancing assembly 24 is communicated with the water circulation assembly 12.

Referring to fig. 4 and 5, in this embodiment, a circulating water coil 111 is fixedly disposed inside the circulating water primary cooling plate 11, the circulating water coil 111 is disposed closely to the upper wall of the circulating water primary cooling plate 11, a water injection one-way check valve 112 and a water discharge one-way check valve 113 are fixedly disposed on the lower wall of the circulating water primary cooling plate 11, the water injection one-way check valve 112 and the water discharge one-way check valve 113 have the same structure, the water injection one-way check valve 112 and the water discharge one-way check valve 113 are disposed in opposite directions, two ends of the circulating water coil 111 are respectively connected to the upper ends of the water injection one-way check valve 112 and the water discharge one-way check valve 113 in a penetrating manner, and the upper wall of the circulating water primary cooling shaping table 1 is provided with lifting clamping through holes 114 in an array manner.

Referring to fig. 3 and 5, in the embodiment, the water circulation assembly 12 includes a water storage tank 121, a water injection pipe 122, a water return pipe 123 and a water injection pump 124, the water storage tank 121 is fixedly disposed on the upper surface of the bottom wall inside the cooling and bearing clamping box 3, the water injection pipe 122 and the water return pipe 123 are fixedly disposed on the lower edge of the opposite side wall of the water storage tank 121 in a penetrating manner, the water injection pump 124 is fixedly disposed on the side wall of the water storage tank 121, the upper end of the water injection pipe 122 is connected with the lower end of the water injection one-way check valve 112 in a penetrating manner, the upper end of the water return pipe 123 is connected with the lower end of the water discharge one-way check valve 113 in a penetrating manner, the water injection pump 124 is disposed in the middle of the water injection pipe 122 in a penetrating manner, an atomizer 1211 is fixedly disposed on the bottom wall inside the water storage tank 121, and a water supplement pipe 1212 is fixedly disposed on the outer side wall of the water storage tank 121 in a penetrating manner.

Referring to fig. 6, in the embodiment, the semiconductor cooler 13 includes a semiconductor cooling plate 131, a cooling grid plate 132, a cooling grid plate 133, a cooling fan 134 and a heat dissipation pipe 135, the semiconductor cooling plate 131 is fixedly disposed on a side wall of the water storage tank 121, the cooling grid plate 132 and the cooling grid plate 133 are respectively fixedly disposed on opposite side walls of the semiconductor cooling plate 131, the cooling grid plate 132 is disposed inside the water storage tank 121, the cooling grid plate 133 is disposed outside the water storage tank 121, the cooling fan 134 and the heat dissipation pipe 135 are respectively fixedly disposed on an outer side wall of the water storage tank 121, an end portion of the heat dissipation pipe 135 away from the water storage tank 121 is in through connection with a side wall of the cooling bearing clamping box 3, and the cooling grid plate 133 and the cooling fan 134 are respectively disposed inside the heat dissipation pipe 135.

Referring to fig. 7, in the present embodiment, the simple-pendulum blowing cooling device 21 includes a simple-pendulum blowing hollow rod 211 and a simple-pendulum motor 212, the simple-pendulum blowing hollow rod 211 is rotatably disposed at an upper wall edge of the circulating water primary cooling plate 11, the simple-pendulum motor 212 is fixedly disposed at a side wall of the circulating water primary cooling plate 11, a simple-pendulum air nozzle 2111 is fixedly penetrated through a circumferential side wall array of the simple-pendulum blowing hollow rod 211, a simple-pendulum power rod 2112 is fixedly disposed at an end of the simple-pendulum blowing hollow rod 211 close to the simple-pendulum motor 212, a simple-pendulum strip-shaped hole 2113 is penetrated through a side wall of the simple-pendulum power rod 2112, a simple-pendulum power wheel 2121 is coaxially and fixedly disposed at an output end of the simple-pendulum motor 212, a simple-pendulum driving wheel 2122 is rotatably disposed at a side wall edge of the simple-pendulum power wheel 2121, the simple-pendulum driving wheel 2122 is disposed inside the simple-pendulum-strip-shaped hole 2113, and the simple-pendulum air nozzle 2111 faces upward.

Referring to fig. 8, in the present embodiment, the linkage swinging and blowing cooling device 22 includes a linkage swinging and blowing hollow rod 221, a linkage rack 222 and a linkage motor 223, the linkage swinging and blowing hollow rod 221 is symmetrically distributed and rotatably disposed on a lower surface of an inner upper wall of the cooling and holding box 3, the linkage rack 222 is slidably and fixedly mounted on the lower surface of the inner upper wall of the cooling and holding box 3, the linkage rack 222 is disposed above the linkage swinging and blowing hollow rod 221, the linkage motor 223 is fixedly disposed on the lower surface of the inner upper wall of the cooling and holding box 3, a linkage swinging air nozzle 2211 is fixedly disposed in an array of circumferential side walls of the linkage swinging and blowing hollow rod 221, the linkage swinging air nozzle 2211 faces downward, a linkage swinging gear 2212 is coaxially and fixedly disposed at an end of the linkage swinging and blowing hollow rod 221, the linkage swinging gear 2212 is respectively engaged with the linkage rack 222, a linkage swinging bar hole is fixedly disposed at an end of the linkage rack 222, a linkage motor 223 output end is coaxially and fixedly disposed with a linkage wheel 2231, a linkage swinging button 2232 is rotatably disposed at an edge of an upper wall of the linkage wheel 2231, and a linkage swinging button 2222 is disposed in an inner portion of the linkage swinging and the linkage swinging bar 2231.

Referring to fig. 3 and 9, in the present embodiment, the blowing power assembly 23 includes an atomizing air blowing main pipe 231, an atomizing air blowing sub-pipe 232 and a blowing cooling fan 233, the atomizing air blowing main pipe 231 is fixedly disposed on the inner side wall of the cooling and holding box 3, the atomizing air blowing sub-pipes 232 are respectively and fixedly disposed on the side wall of the circulating water primary cooling plate 11 in a mirror symmetry manner, the blowing cooling fan 233 is fixedly disposed on the side wall of the circulating water primary cooling plate 11, the lower end of the atomizing air blowing main pipe 231 is connected with the side wall of the water storage tank 121 in a through manner, the end of the linkage hollow rod 221 far away from the linkage rack 222 is respectively connected with the upper end of the atomizing air blowing main pipe 231 in a through manner, the end parts of the atomizing air blowing sub-pipe 232 close to the atomizing air blowing main pipe 231 are respectively communicated with the side wall of the atomizing air blowing main pipe 231, the end parts of the atomizing air blowing sub-pipe 232 far away from the atomizing air blowing main pipe 231 are respectively communicated with the end parts of the simple pendulum blowing hollow rod 211 far away from the simple pendulum motor 212 in a rotating manner, the blowing cooling fan 233 is arranged in the middle of the atomizing air blowing main pipe 231 in a penetrating manner, the blowing cooling fan 233 is arranged below the connecting point of the atomizing air blowing sub-pipe 232 and the atomizing air blowing main pipe 231, and the electromagnetic valves 2321 are respectively fixedly arranged in the middle of the atomizing air blowing sub-pipe 232 in a penetrating manner.

Referring to fig. 3, in the present embodiment, the atomizing pressure balancing assembly 24 includes a drainage groove 241 and a pressure balancing pipe 242, the drainage groove 241 is fixedly disposed on the side wall of the circulating water primary cooling plate 11, the pressure balancing pipe 242 is fixedly disposed on the lower wall of the circulating water primary cooling plate 11, two ends of the pressure balancing pipe 242 are respectively fixedly connected to the lower wall of the drainage groove 241 and the upper edge of the side wall of the water storage tank 121 in a penetrating manner, and the pressure balancing pipe 242 and the atomizing blowing main pipe 231 are respectively disposed on the opposite side walls of the water storage tank 121.

Referring to fig. 2, in the present embodiment, the jacking electric push rods 31 are fixedly disposed on the upper surface of the lower wall inside the cooling load-bearing clamping box 3 in an array manner, the jacking posts 311 are fixedly disposed on the upper ends of the jacking electric push rods 31, the jacking posts 311 are respectively disposed on the inner walls of the lifting clamping through holes 114, and the clamping frame 32 is fixedly disposed on the lower surface of the upper wall inside the cooling load-bearing clamping box 3.

Referring to fig. 10, in the present embodiment, the clamping frame 32 includes a clamping rod 321 and clamping posts 322, the clamping rod 321 is fixedly disposed on the lower surface of the inner upper wall of the cooling and loading clamping box 3, the clamping rod 321 is disposed below the swinging hollow rod 221, the clamping posts 322 are distributed in an array and respectively fixedly disposed on the ends of the clamping rod 321, the clamping posts 322 and the jacking posts 311 are disposed in a one-to-one correspondence, the clamping posts 322 are respectively disposed right above the jacking posts 311, a touch power-off button 3221 is disposed on the lower wall of the clamping posts 322, and the touch power-off button 3221 is electrically connected to the jacking electric push rod 31.

The specific implementation manner of this embodiment is:

before cooling the insulating plate, the operator first debugs the apparatus, and injects clean tap water into the water storage tank 121 through the water feeding pipe 1212 to make the tap water level between the lower edge of the atomizing air blowing main pipe 231 and the upper edges of the water injection pipe 122 and the water return pipe 123, so as to ensure that the water circulation and the atomizing air circulation can be smoothly performed, and in the initial state, the jacking electric push rod 31 is in a contraction state, the upper surface of the jacking column 311 and the upper wall of the circulating water primary cooling plate 11 are just on the same horizontal plane, the water injection one-way check valve 112, the water discharge one-way check valve 113 and the electromagnetic valve 2321 are all in a closed state, an operator precools and adjusts the equipment, so that the equipment can cool the insulating plate, the semiconductor refrigeration sheet 131 operates, the cooling grid plate 132 gradually absorbs the water heat in the water storage tank 121, thereby cooling the water, transferring the heat absorbed by the semiconductor refrigeration sheet 131 to the outside of the water storage tank 121 through the heat dissipation grid plate 133, operating the heat dissipation fan 134 and discharging the heat along the heat dissipation pipe 135 to cool the bearing and clamping box 3, operating the water injection pump 124 to drive the water inside the water storage tank 121 to reach the circulating water coil 111 along the water injection pipe 122 and return to the inside of the water storage tank 121 through the water return pipe 123, in the process, the water body can smoothly pass through the water injection one-way check valve 112 and the water discharge one-way check valve 113 under the pressure action of the water injection pump 124, the water discharge one-way check valve 113 has a blocking effect on the water body in the circulating water coil 111, when the water injection pump 124 stops operating, the water inside the circulating water coil 111 cannot flow into the water return pipe 123 in a low pressure state, thereby guaranteed that the inside water that is full of all the time of circulating water coil 111, the low temperature water in circulating water coil 111 passes through circulating water coil 111 outer wall and cools down 11 upper walls of circulating water primary cooling plate.

The cooling treatment comprises two processes of primary cooling and secondary cooling, an operator places an uncooled insulation board on the upper wall of the circulating water primary cooling board 11 through a mechanical or transmission mode to start primary cooling of the insulation board, the lower wall of the insulation board is directly contacted with low temperature under the combined action of the water circulation component 12 and the circulating water primary cooling board 11, so that the lower wall of the insulation board is rapidly and uniformly cooled, during primary cooling, the combined swinging and blowing cooling device 22 cools and cools the upper wall of the insulation board, the atomizer 1211 runs to atomize the low-temperature water body in the water storage tank 121, the blowing and cooling fan 233 runs to drive the atomized water vapor in the water storage tank 121 to reach the combined swinging and blowing hollow rod 221 through the atomized air blowing pipe 231 and to be blown out to the upper surface of the insulation board through the combined swinging nozzle 2211 to cool and cool the upper surface of the insulation board, the drainage groove 241 and the air pressure balance pipe 242 recover the atomized water vapor and balance the pressure in the water storage tank, in the process, the linked motor 223 continuously runs to drive the linked gear 2231 to rotate, thereby the linked gear 2231 continuously rotates, the linked swinging button 2212 continuously, the linked gear 2232 slides through the linked swinging and the linked rack 222 to drive the rack bar to swing more uniformly.

After the initial cooling is completed, the insulation board is basically formed, the insulation board is cooled again, the jacking electric push rod 31 extends synchronously, the electromagnetic valve 2321 is opened, the jacking electric push rod 31 drives the jacking post 311 to ascend synchronously, so as to jack the insulation board, when the upper surface of the insulation board contacts the touch power-off button 3221 on the lower wall of the clamping post 322, the jacking electric push rod 31 stops running, the clamping post 322 and the jacking post 311 clamp the insulation board, after the electromagnetic valve 2321 is opened, the atomizing air blowing sub-pipe 232 is in a through state, flowing atomized water vapor inside the atomizing air blowing main pipe 231 branches at the joint of the atomizing air blowing sub-pipe 232 and the atomizing air blowing sub-pipe 231, and part of the atomized water vapor enters the atomizing air blowing sub-pipe 232, and reaches the simple pendulum blowing hollow rod 211, and is blown out to the lower surface of the insulating plate from the simple pendulum air nozzle 2111, in the process, the simple pendulum motor 212 operates and drives the simple pendulum power wheel 2121 to rotate, the simple pendulum toggle wheel 2122 rotates along with the simple pendulum motor, the simple pendulum toggle wheel 2122 drives the simple pendulum power rod 2112 to swing in a reciprocating manner through the simple pendulum strip-shaped hole 2113, so that the simple pendulum blowing hollow rod 211 rotates in a reciprocating manner, the simple pendulum air nozzle 2111 has a continuous swinging effect, atomized water vapor is blown to the lower surface of the insulating plate more uniformly, and the simple pendulum blowing cooling device 21 and the combined pendulum blowing cooling device 22 respectively perform uniform low-temperature atomized water vapor blowing on the lower surface and the upper surface of the insulating plate, so that the cooling is more rapid.

It should be noted that, in this document, relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "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.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings show only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The utility model provides a cooling arrangement for insulating material production, includes that the preliminary cooling of circulating water is stereotyped platform (1), compound cooling body (2) of atomizing water swing double-sided and cooling bear centre gripping case (3), its characterized in that: circulating water primary cooling design platform (1) is fixed to be located the cooling and bears the inside diapire upper surface of centre gripping case (3), atomizing water swing two-sided compound cooling body (2) are located circulating water primary cooling design platform (1) and are cooled and bear on centre gripping case (3), circulating water primary cooling design platform (1) includes circulating water primary cooling plate (11), hydrologic cycle subassembly (12) and semiconductor cooler (13), hydrologic cycle subassembly (12) are fixed to be located the cooling and bear the inside diapire upper surface of centre gripping case (3), circulating water primary cooling plate (11) are fixed to be located hydrologic cycle subassembly (12) upper wall, semiconductor cooler (13) are fixed to be located hydrologic cycle subassembly (12) lateral wall.

2. A cooling apparatus for insulating material production according to claim 1, characterized in that: atomizing water swing two-sided compound cooling body (2) including simple pendulum blow cooling arrangement (21), ally oneself with the pendulum and blow cooling arrangement (22), blow power component (23) and atomizing air pressure balance subassembly (24), simple pendulum blow cooling arrangement (21) mirror symmetry distributes and fixedly locates circulating water primary cooling plate (11) upper wall edge respectively, ally oneself with pendulum blow cooling arrangement (22) symmetry distribute and fixedly locate the cooling respectively and bear the inside upper wall lower surface of centre gripping case (3), blow power component (23) and atomizing air pressure balance subassembly (24) and fixedly locate circulating water primary cooling plate (11) lateral wall in opposite directions respectively, blow power component (23) upper end and simple pendulum blow cooling arrangement (21) and ally oneself with pendulum and blow cooling arrangement (22) through connection, blow power component (23) lower extreme and water circulation subassembly (12) through connection.

3. A cooling apparatus for insulating material production according to claim 2, characterized in that: the inside fixed circulating water coil pipe (111) that is equipped with of circulating water primary cooling plate (11), the setting of circulating water coil pipe (111) hug closely circulating water primary cooling plate (11) upper wall, fixed water injection one-way check valve (112) and the one-way check valve (113) of drainage that are equipped with of circulating water primary cooling plate (11) lower wall, water injection one-way check valve (112) and the one-way check valve (113) of drainage structure are the same, the opposite direction is laid in water injection one-way check valve (112) and the one-way check valve (113) of drainage, circulating water coil pipe (111) both ends respectively with water injection one-way check valve (112) and the one-way check valve (113) upper end through connection of drainage, the primary cooling of circulating water design platform (1) upper wall array distributes and runs through and is equipped with lifting centre gripping through-hole (114).

4. A cooling apparatus for insulating material production according to claim 3, characterized in that: water circulation subassembly (12) are including storage water tank (121), water injection pipe (122), wet return (123) and water injection pump (124), storage water tank (121) are fixed to be located the cooling and bear centre gripping case (3) inside diapire upper surface, water injection pipe (122) and wet return (123) are fixed to run through and are located storage water tank (121) lateral wall down along, water injection pump (124) are fixed to be located storage water tank (121) lateral wall, water injection pipe (122) upper end and one-way check valve of water injection (112) lower extreme through connection, wet return (123) upper end and one-way check valve of drainage (113) lower extreme through connection, water injection pump (124) link up and locate water injection pipe (122) middle part, the fixed atomizer (1211) that is equipped with of storage water tank (121) inside diapire.

5. A cooling apparatus for insulating material production according to claim 4, characterized in that: simple pendulum blows cooling arrangement (21) and blows well pole (211) and simple pendulum motor (212) including the simple pendulum, the simple pendulum blows well pole (211) and rotates and locate circulating water primary cooling plate (11) upper wall edge, the fixed circulating water primary cooling plate (11) lateral wall that locates in simple pendulum motor (212), the simple pendulum blows well pole (211) circumference lateral wall array and runs through fixed simple pendulum tuyere (2111) that is equipped with, the end fixing that the hollow pole (211) is close to simple pendulum motor (212) that blows well pole is equipped with simple pendulum power pole (2112), simple pendulum power pole (2112) lateral wall runs through and is equipped with simple pendulum bar hole (2113), the coaxial fixed simple pendulum power wheel (2121) that is equipped with of simple pendulum motor (212) output, simple pendulum power wheel (2121) lateral wall edge rotates and is equipped with simple pendulum thumb wheel (2122), simple pendulum thumb wheel (2122) are located inside simple pendulum bar hole (2113), simple pendulum thumb (2111) is towards oblique pendulum.

6. A cooling apparatus for insulating material production according to claim 5, characterized in that: link pendulum and blow cooling apparatus (22) including linking the pendulum and blow hollow pole (221), linkage rack (222) and linkage motor (223), link pendulum and blow hollow pole (221) symmetric distribution and rotate and locate the cooling and bear the inside upper wall lower surface of centre gripping case (3), linkage rack (222) slide joint is located the cooling and is born the inside upper wall lower surface of centre gripping case (3), linkage motor (223) are fixed to be located the cooling and bear the inside upper wall lower surface of centre gripping case (3), link pendulum blows hollow pole (221) circumference lateral wall array and runs through fixed antithetical couplet pendulum tuyere (2211), link pendulum tuyere (2211) face downwards, link pendulum and blow hollow pole (221) tip coaxial fixed antithetical couplet pendulum gear (2212) respectively, link pendulum gear (222) end fixing is equipped with linkage rack (222) meshing respectively, link rack (222) end fixing is equipped with linkage pendulum bar (2231), link motor (222223) output is fixed to be equipped with coaxial gear (2231), link pendulum gear (2232) are equipped with linkage button (2231) and rotate linkage button (2231) on the linkage button (2232).

7. A cooling apparatus for insulating material production according to claim 6, characterized in that: the blowing power assembly (23) comprises an atomizing air blowing main pipe (231), an atomizing air blowing auxiliary pipe (232) and a blowing cooling fan (233), the atomizing air blowing main pipe (231) is fixedly arranged on the inner side wall of the cooling bearing clamping box (3), the atomizing air blowing auxiliary pipes (232) are distributed in a mirror symmetry manner and are respectively fixedly arranged on the side wall of the circulating water primary cooling plate (11), the blowing cooling fan (233) is fixedly arranged on the side wall of the circulating water primary cooling plate (11), the lower end of the atomizing air blowing main pipe (231) is communicated with the upper edge of the side wall of the water storage tank (121), the end parts of the linkage swinging blowing hollow rods (221) far away from the linkage racks (222) are respectively communicated with the upper end of the atomizing blowing main pipe (231), the end parts of the atomizing air blowing auxiliary pipe (232) close to the atomizing air blowing main pipe (231) are respectively communicated with the side wall of the atomizing air blowing main pipe (231), the end part of the atomizing air-blowing sub-pipe (232) far away from the atomizing air-blowing main pipe (231) is respectively in rotating through connection with the end part of the simple pendulum blowing hollow rod (211) far away from the simple pendulum motor (212), the blowing cooling fan (233) is arranged in the middle of the atomizing air blowing main pipe (231) in a penetrating way, the blowing cooling fan (233) is arranged below the connection point of the atomizing air blowing auxiliary pipe (232) and the atomizing air blowing main pipe (231), and the middle parts of the atomizing air blowing auxiliary pipes (232) are respectively and fixedly provided with electromagnetic valves (2321) in a penetrating way.

8. A cooling apparatus for insulating material production according to claim 7, characterized in that: atomizing air pressure balance subassembly (24) are including drainage groove (241) and air pressure balance pipe (242), drainage groove (241) are fixed and are located circulating water primary cooling plate (11) lateral wall, air pressure balance pipe (242) are fixed and are located circulating water primary cooling plate (11) lower wall, air pressure balance pipe (242) both ends respectively with drainage groove (241) lower wall and storage water tank (121) lateral wall on along running through fixed connection.

9. A cooling apparatus for insulating material production according to claim 8, characterized in that: the cooling bears fixed jacking electric push rod (31) that is equipped with of inside lower wall upper surface array distribution of centre gripping case (3), fixed jacking post (311) that is equipped with in jacking electric push rod (31) upper end, lifting centre gripping through-hole (114) inner wall is located respectively in jacking post (311), the cooling bears inside upper wall lower fixed surface of centre gripping case (3) and is equipped with holding frame (32).

10. A cooling apparatus for insulating material production according to claim 9, characterized in that: clamping frame (32) are including centre gripping locating lever (321) and centre gripping post (322), centre gripping locating lever (321) are fixed to be located the cooling and bear the inside upper wall lower surface of centre gripping case (3), centre gripping locating lever (321) are located and are linked to the pendulum and blow hollow pole (221) below, centre gripping post (322) array distribution is fixed respectively and is located centre gripping locating lever (321) tip, centre gripping post (322) and jacking post (311) one-to-one setting, directly over jacking post (311) are located respectively to centre gripping post (322), centre gripping post (322) lower wall is equipped with touching outage button (3221).

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