CN212167390U - Cooling device for matting agent - Google Patents

Abstract

The utility model belongs to the technical field of matting agent production and processing equipment, especially, be a matting agent cooling device, including cooling body, header tank, return water cooling device and controller, cooling body cup joints on reation kettle's outer wall, it is equipped with first temperature-sensing element to inlay on reation kettle's the inner wall, first temperature-sensing element is used for monitoring reation kettle temperature, first temperature-sensing element and controller electric connection. The utility model discloses collect water-cooling and forced air cooling function in an organic whole, the cooling rate of the reation kettle jar body and inside material has greatly been improved than traditional cooling jacket, cooling efficiency is higher, can realize the accurate control of cooling, make the finished product quality of flatting agent obtain the guarantee, can carry out rapid cooling to the cooling water after heaing up, the messenger loops back to the return water temperature in the header tank and satisfies the water-cooling demand, avoid the return water directly to loop back to the header tank and lead to the water temperature rise in the header tank to lead to the water-cooling effect to reduce greatly, guarantee cooling efficiency and effect, energy-conservation and practicality.

Description

Cooling device for matting agent

Technical Field

The utility model relates to a delustering agent production and processing equipment technical field specifically is a delustering agent cooling device and application method thereof.

Background

The extinction is an important means for controlling the surface gloss of decorative coatings, and different coated objects have different requirements on the gloss performance of the coated surface besides the requirements on protection effect and color due to different use purposes and environments. The requirement of soft light, the purpose of concealing, keeping secret and safety of military equipment and facilities and the special requirement of some instrument parts on optical performance are that the surface coating is semi-optical or even non-optical, which requires that a flatting agent is filled in the coating. The flatting agent is polyacrylate resin with epoxy group, is a flatting resin of outdoor powder coating, has good flatting effect, can obtain 1-60% of any gloss, and is suitable for flatting outdoor pure polyester powder with the gloss of 1-30%.

The matting agent generally needs to cool down the reation kettle body and the material inside thereof through cooling device according to the processing demand in the production and processing process, and the cooling device for the production and processing of the existing matting agent generally is a water-cooling jacket, adopts the water-cooling mode to cool down, and has the following defects:

1. the cooling device for the production and processing of the existing matting agent has a single cooling mode, so that the cooling speed is slow, the efficiency is too low, and the temperature control effect is poor;

2. in order to avoid waste of water resources in the existing cooling device for producing and processing the flatting agent, the cooling device adopts a circulating water cooling mode to realize cooling, so that the heated cooling water is directly returned to the water collecting tank, the temperature of the cooling water in the water collecting tank is increased, and the water cooling effect is greatly reduced;

3. the existing cooling device for the production and processing of the flatting agent has a fixed structure, is difficult to install and disassemble, and is not beneficial to the overhaul and maintenance of the cooling device.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

The utility model provides a not enough to prior art, the utility model provides a flatting agent cooling device and application method thereof, it is single to have solved current flatting agent production and processing cooling device cooling mode, it is slower to lead to the cooling rate, efficiency is low excessively, and the control by temperature change effect is relatively poor, it adopts circulating water cooling's mode to realize the cooling, make the cooling water after the intensification directly loopback to the header tank in, lead to the cooling water temperature in the header tank to rise, the water-cooling effect subtracts greatly, and fixed structure, the installation is dismantled the difficulty, be unfavorable for the problem of cooling device's maintenance and maintenance.

(II) technical scheme

In order to achieve the above object, the utility model provides a following technical scheme: a delustering agent cooling device comprises a cooling mechanism, a water collecting tank, a water return cooling device and a controller, wherein the cooling mechanism is sleeved on the outer wall of a reaction kettle, a first temperature sensing element is embedded on the inner wall of the reaction kettle and used for monitoring the temperature of the reaction kettle, the first temperature sensing element is electrically connected with the controller, the cooling mechanism comprises an annular mounting seat, heat conducting blocks, a protective sleeve, a water-cooling bent pipe and an annular cover cap, the heat conducting blocks are uniformly distributed along the circumferential direction of the top end of the annular mounting seat, the protective sleeve is sleeved on the protective sleeve, the water-cooling bent pipe is embedded between the heat conducting blocks and the protective sleeve, the protective sleeve is tightly pressed on the annular mounting seat through the annular cover cap, a heat dissipation channel is arranged inside the heat conducting blocks, an independent heat dissipation unit is formed between every two heat conducting blocks, and the bottom ends of the heat dissipation channels in the heat dissipation unit are communicated, the annular cover cap is provided with an air inlet machine and an exhaust fan which are communicated with the top ends of two heat dissipation channels in the heat dissipation unit respectively, the water-cooling inlet of the water-cooling elbow is connected with the water outlet of the water collection tank through a water supply pipe, the water-cooling outlet of the water-cooling elbow is connected with the water inlet of the return water cooling device through a return water pipe, the return water cooling device is used for cooling the heated cooling water, the return water pipe is provided with a circulating pump, the water outlet of the return water cooling device is connected with the water inlet of the water collection tank through a water delivery pipe, the water delivery pipe is provided with a water pump, and the circulating pump.

As the utility model discloses a preferred technical scheme, reation kettle's outer wall bottom is equipped with the fixing base, through the bolt-up between fixing base and the mount pad.

As an optimal technical scheme of the utility model, reation kettle's outer wall surface is equipped with the inlay groove, inlay groove and the cooperation of heat conduction piece joint.

As an optimal technical scheme of the utility model, the heat conduction piece corresponds the half-circular arc groove that is equipped with water-cooling return bend looks adaptation on with the protector.

As an optimal technical scheme of the utility model, the water-cooling return bend is provided with two, and two water-cooling return bends symmetry inlays and adorns between heat conduction piece and lag.

As an optimized technical scheme of the utility model, can dismantle between cyclic annular block and the heat conduction piece and be connected.

As a preferred technical scheme of the utility model, return water cooling device includes the box, the inside of box is equipped with perpendicular baffle, erect the baffle and separate the box inside left and right sides for heat dissipation chamber and thermal-insulated chamber, the bottom of erecting the baffle is equipped with the intercommunication mouth that is used for intercommunication heat dissipation chamber and thermal-insulated chamber, it is equipped with the water distributor to correspond heat dissipation chamber top in the box, water distributor and wet return intercommunication, the bottom of water distributor is equipped with the shower nozzle, the below position equipartition that corresponds the water distributor on the inner wall of box has the cooling fan with controller electric connection, thermal-insulated chamber and raceway intercommunication.

As a preferred technical scheme of the utility model, inlay on the inner wall that the box corresponds thermal-insulated chamber and be equipped with the second temperature-sensing element with controller electric connection, the second temperature-sensing element is used for monitoring the temperature of thermal-insulated intracavity cooling water.

The utility model also provides a use method of matting agent cooling device, including following step:

s1, controlling a circulating pump to start through a controller, enabling cooling water of a water collecting tank to quickly pass through a water supply pipe, a water-cooling bent pipe and a water return pipe and be conveyed to a water return cooling device, quickly absorbing radiant heat of the inner wall of the reaction kettle by using the cooling water in the water-cooling bent pipe, and simultaneously starting an air inlet fan and an exhaust fan to accelerate the gas flowing speed in a heat dissipation channel and quickly cool the temperature of the reaction kettle tank body and internal materials;

s2, acquiring the temperature of the inner wall of the reaction kettle in real time through a first temperature sensing element, and reducing the temperature of the tank body of the reaction kettle until the temperature reaches a temperature reduction threshold value arranged in the controller;

s3, cooling the heated cooling water through a return water cooling device;

and S4, starting a water pump, and returning the backwater cooled in the backwater cooling device to the water collecting tank through a water delivery pipe.

As a preferred technical scheme of the utility model, in step S3 and step S4, gather the return water temperature in return water cooling device' S the thermal-insulated intracavity in real time through the second temperature-sensing element, when the return water temperature in thermal-insulated intracavity reduces to and establishes the cooling water temperature threshold value in reaching the controller, start the water pump, through the raceway with the return water after the return water cooling device internal cooling loopback to the header tank in.

(III) advantageous effects

Compared with the prior art, the utility model provides a flatting agent cooling device and application method thereof possesses following beneficial effect:

1. according to the delustering agent cooling device and the using method thereof, the water cooling function and the air cooling function are integrated through the arrangement of the cooling mechanism, the cooling speed of a reaction kettle body and internal materials is greatly improved compared with that of a traditional cooling sleeve, and the cooling efficiency is higher.

2. According to the matting agent cooling device and the use method thereof, the temperature of the tank body is monitored in real time by the aid of the temperature sensing element in the cooling process, so that the cooling can be accurately controlled, and the quality of the finished matting agent is guaranteed.

3. According to the delustering agent cooling device and the using method thereof, the cooling water after temperature rise is quickly cooled by additionally arranging the return water cooling device, so that the return water temperature returned to the water collecting tank meets the water cooling requirement, the phenomenon that the water temperature in the water collecting tank is increased due to the fact that the return water is directly returned to the water collecting tank, the water cooling effect is greatly reduced, the cooling efficiency and the cooling effect are ensured, and the delustering agent cooling device is energy-saving and practical.

4. According to the extinction agent cooling device and the using method thereof, all components of the cooling mechanism adopt a detachable connection mode, so that the cooling mechanism can be rapidly installed and detached, and is convenient to overhaul and maintain.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the horizontal development of the cooling mechanism of the present invention;

FIG. 3 is a cross-sectional view of the cooling mechanism of the present invention;

FIG. 4 is an enlarged view taken at A in FIG. 3;

FIG. 5 is a schematic view of the connection structure of the mounting seat, the heat conducting block and the tank body of the reaction kettle;

fig. 6 is a top view of the connection between the mounting seat and the protective cover of the present invention;

fig. 7 is a top view of the ring-shaped cap of the present invention;

fig. 8 is an internal structure schematic diagram of the middle return water cooling device of the present invention.

In the figure: 100. a cooling mechanism; 101. a mounting seat; 102. a heat conducting block; 1021. a heat dissipation channel; 103. A protective sleeve; 104. water-cooling the bent pipe; 105. an annular cap; 106. an air inlet machine; 107. an exhaust fan; 200. A reaction kettle; 300. a water collection tank; 400. a backwater cooling device; 401. a box body; 402. a vertical partition plate; 4021. A communication port; 403. a water distribution pipe; 404. a spray head; 405. a heat radiation fan; 500. a first temperature sensing element; 600. a water supply pipe; 700. a water return pipe; 800. a circulation pump; 900. a water delivery pipe; 1000. a water pump; 1100. a second temperature sensing element.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Examples

Referring to fig. 1-8, the present invention provides the following technical solutions: a matting agent cooling device comprises a cooling mechanism 100, a water collecting tank 300, a backwater cooling device 400 and a controller, wherein the cooling mechanism 100 is sleeved on the outer wall of a reaction kettle 200, a first temperature sensing element 500 is embedded on the inner wall of the reaction kettle 200, the first temperature sensing element 500 is used for monitoring the temperature of the reaction kettle 200, the first temperature sensing element 500 is electrically connected with the controller, the cooling mechanism 100 comprises an annular mounting seat 101, a heat conducting block 102, a protective sleeve 103, a water-cooling bent pipe 104 and an annular cover cap 105, the heat conducting block 102 is uniformly distributed along the circumferential direction of the top end of the annular mounting seat 101, the protective sleeve 103 is sleeved on the protective sleeve 103, the water-cooling bent pipe 104 is embedded between the heat conducting block 102 and the protective sleeve 103, the protective sleeve 103 is tightly pressed on the annular mounting seat 101 through the annular cover cap 105, a heat dissipation channel 1021 is arranged inside the heat conducting block 102, an independent heat dissipation unit is formed between every two heat conducting blocks 102, and the, an air inlet machine 106 and an exhaust fan 107 which are communicated with the top ends of two heat dissipation channels 1021 in the heat dissipation unit are respectively arranged on the annular cover cap 105, a water cooling inlet of the water cooling elbow 104 is connected with a water outlet of the water collection tank 300 through a water supply pipe 600, a water cooling outlet of the water cooling elbow 104 is connected with a water inlet of a return water cooling device 400 through a return water pipe 700, the return water cooling device 400 is used for cooling the heated cooling water, a circulating pump 800 is arranged on the return water pipe 700, the water outlet of the return water cooling device 400 is connected with the water inlet of the water collection tank 300 through a water conveying pipe 900, a water pump 1000 is arranged on the water conveying pipe 900, and the.

Specifically, the bottom end of the outer wall of the reaction kettle 200 is provided with a fixed seat, and the fixed seat is fastened with the mounting seat 101 through bolts.

In this embodiment, the fixing base and the mounting base 101 are fastened by bolts, and a detachable connection mode is adopted, so that the cooling mechanism 100 is convenient to mount and dismount, the structure is simple, and the use is more convenient.

Specifically, the outer wall surface of the reaction kettle 200 is provided with an embedded groove, and the embedded groove is clamped and matched with the heat conduction block 102.

In this embodiment, the embedded groove can make the outer wall of the reaction kettle 200 and the heat conducting block 102 combined more tightly, so as to increase the contact area between the outer wall of the reaction kettle 200 and the heat conducting block 102, and effectively improve the heat radiation efficiency.

Specifically, the heat conducting block 102 and the protective sleeve 103 are correspondingly provided with semi-circular arc grooves matched with the water-cooling bent pipe 104.

In this embodiment, the semi-arc groove makes the installation structure of the water-cooling bent pipe 104 more stable, so that the water-cooling bent pipe 104 and the heat conducting block 102 are tightly combined, and the cooling speed can be accelerated.

Specifically, two water-cooling bent pipes 104 are arranged, and the two water-cooling bent pipes 104 are symmetrically embedded between the heat conduction block 102 and the protective sleeve 103.

In this embodiment, the arrangement of two water-cooling elbows 104 prevents that because water-cooling elbow 104 is longer, the cooling effect that leads to behind the cooling water intensification in water-cooling elbow 104 reduces greatly, does benefit to the quick cooling reation kettle 200 jar body and inside material temperature.

Specifically, the annular cap 105 is detachably connected to the heat conduction block 102.

In this embodiment, the annular cap 105 is detachably connected to the heat conducting block 102, so as to facilitate the installation and removal of the cooling mechanism 100.

Specifically, the backwater cooling device 400 comprises a box body 401, a vertical partition plate 402 is arranged inside the box body 401, the vertical partition plate 402 divides the inside of the box body 401 into a heat dissipation chamber and a heat insulation chamber from left to right, a communication port 4021 for communicating the heat dissipation chamber and the heat insulation chamber is arranged at the bottom end of the vertical partition plate 402, a water distribution pipe 403 is arranged in the box body 401 corresponding to the top end of the heat dissipation chamber, the water distribution pipe 403 is communicated with a backwater pipe 700, a spray head 404 is arranged at the bottom of the water distribution pipe 403, heat dissipation fans 405 electrically connected with a controller are uniformly distributed on the inner wall of the box body 401 corresponding to the lower position of the water distribution pipe.

In this embodiment, when the water cooling device is used, the temperature-rising return water entering the water distribution pipe 403 is sprayed to the bottom of the heat dissipation cavity of the box body 401 under the action of the spray head 404, the heat dissipation fan 405 is started to cool the water mist at the spraying position in an air cooling mode, the cooled return water enters the heat insulation cavity through the communication port 4021, and the cooling water in the heat insulation cavity returns to the water collection tank 300 under the action of the water pump 1000, so that a water cooling cycle is formed.

Specifically, a second temperature sensing element 1100 electrically connected to the controller is embedded in the inner wall of the box 401 corresponding to the heat insulation cavity, and the second temperature sensing element 1100 is used for monitoring the temperature of the cooling water in the heat insulation cavity.

In this embodiment, the second temperature sensing element 1100 is configured to monitor the temperature of the cooling water in the heat insulation cavity in real time, when the temperature of the cooling water in the heat insulation cavity reaches the threshold value set in the controller, the controller controls the water pump 1000 to start, and the water pipe 900 returns the return water cooled in the return water cooling device 400 to the water collection tank 300 to form a water cooling cycle, so as to prevent the return water from being directly returned to the water collection tank 300, which leads to a temperature increase of the water in the water collection tank 300 and a great decrease in the water cooling effect.

It should be noted that the controller of the utility model adopts a PLC programmable controller to realize information acquisition and programming control; the first temperature sensing element 500 and the second temperature sensing element 1100 both adopt one of WZP series platinum thermal resistors, and the WZP series platinum thermal resistors are produced according to the new national standard JB/T8622-1997, so that the temperature sensing device has the advantages of small structure, wide application range, good reliability, short thermal response time and the like.

The utility model also provides a use method of matting agent cooling device, including following step:

s1, controlling the start of the circulation pump 800 by the controller, so that the cooling water in the water collection tank 300 rapidly passes through the water supply pipe 600, the water-cooling bent pipe 104 and the water return pipe 700 and is delivered to the water return cooling device 400, the cooling water in the water-cooling bent pipe 104 is utilized to rapidly absorb the radiant heat on the inner wall of the reaction kettle 200, and the air inlet fan 106 and the exhaust fan 107 are simultaneously started to accelerate the gas flow velocity in the heat dissipation channel 1021, thereby rapidly cooling the temperature of the tank body of the reaction kettle 200 and the temperature of the internal materials;

s2, acquiring the temperature of the inner wall of the reaction kettle 200 in real time through the first temperature sensing element 500, and reducing the temperature of the kettle body of the reaction kettle 200 until the temperature reaches a temperature reduction threshold value arranged in the controller;

s3, cooling the heated cooling water through the backwater cooling device 400;

and S4, starting the water pump 1000, and returning the backwater cooled in the backwater cooling device 400 to the water collecting tank 300 through the water conveying pipe 900.

Specifically, in steps S3 and S4, the temperature of the returned water in the heat insulation cavity of the returned water cooling device 400 is collected in real time by the second temperature sensing element 1100, and when the temperature of the returned water in the heat insulation cavity is reduced to reach the temperature threshold of the cooling water in the controller, the water pump 1000 is started, and the returned water cooled in the returned water cooling device 400 is returned to the water collecting tank 300 through the water conveying pipe 900.

In the embodiment, the cooling mechanism 100 integrates the water cooling function and the air cooling function, so that the cooling speed of the tank body of the reaction kettle 200 and the internal materials is greatly increased compared with the traditional cooling jacket, the cooling efficiency is higher, the temperature of the tank body is monitored in real time by the aid of the temperature sensing element, the accurate control of cooling can be realized, and the quality of the finished matting agent is guaranteed; on the other hand, by additionally arranging the return water cooling device 400, the heated cooling water is rapidly cooled, so that the return water temperature returned to the water collecting tank 300 meets the water cooling requirement, the problem that the water temperature in the water collecting tank 300 is increased to cause great reduction of the water cooling effect due to the fact that the return water is directly returned to the water collecting tank 300 is avoided, and the cooling efficiency and the cooling effect are guaranteed.

When the cooling mechanism 100 is installed, firstly, the annular mounting seat 101 on which the heat conduction blocks 102 are uniformly distributed vertically corresponds to the fixed seat, and the annular mounting seat 101 is fastened on the fixed seat through bolts, at the moment, the heat conduction blocks 102 are clamped in the embedded grooves on the outer wall surface of the reaction kettle 200, then the water-cooling bent pipe 104 is installed in the semicircular arc-shaped groove on the heat conduction blocks 102, the protective sleeve 103 is sleeved on the periphery of the heat conduction blocks 102, the water-cooling bent pipe 104 is locked through the semicircular arc-shaped groove on the heat conduction blocks 102 in the protective sleeve 103, and finally the protective sleeve 103 is tightly pressed on the annular mounting seat 101 through the annular cover cap 105 loaded with the air inlet machine 106 and the exhaust machine 107, so that the assembly operation of the cooling mechanism 100 is completed, the cooling mechanism 100 adopts a detachable structure, the rapid installation and detachment of the cooling mechanism 100 can be realized, and the overhaul and the maintenance of.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (8)

1. The utility model provides a matting agent cooling device, includes cooling body (100), header tank (300), return water cooling device (400) and controller, cooling body (100) cup joint on reation kettle (200) outer wall, its characterized in that: the temperature-sensing device is characterized in that a first temperature-sensing element (500) is embedded in the inner wall of the reaction kettle (200), the first temperature-sensing element (500) is used for monitoring the temperature of the reaction kettle (200), the first temperature-sensing element (500) is electrically connected with a controller, the cooling mechanism (100) comprises an annular mounting seat (101), heat-conducting blocks (102), a protective sleeve (103), a water-cooling bent pipe (104) and an annular cover cap (105), the heat-conducting blocks (102) are uniformly distributed along the circumferential direction of the top end of the annular mounting seat (101), the protective sleeve (103) is sleeved on the protective sleeve (103), the water-cooling bent pipe (104) is embedded between the heat-conducting blocks (102) and the protective sleeve (103), the protective sleeve (103) is tightly pressed on the annular mounting seat (101) through the annular cover cap (105), a heat-dissipation channel (1021) is arranged inside the heat-conducting blocks (102), and an independent heat-dissipation unit is formed between every two, the bottom ends of the heat dissipation channels (1021) in the heat dissipation unit are communicated, an air inlet fan (106) and an exhaust fan (107) which are communicated with the top ends of the two heat dissipation channels (1021) in the heat dissipation unit are respectively arranged on the annular cover cap (105), the water-cooling inlet of the water-cooling elbow (104) is connected with the water outlet of the water collecting tank (300) through a water supply pipe (600), the water-cooling outlet of the water-cooling elbow (104) is connected with the water inlet of the backwater cooling device (400) through a backwater pipe (700), the backwater cooling device (400) is used for cooling the heated cooling water, the backwater pipe (700) is provided with a circulating pump (800), the water outlet of the backwater cooling device (400) is connected with the water inlet of the water collecting tank (300) through a water delivery pipe (900), the water pipe (900) is provided with a water pump (1000), and the circulating pump (800) and the water pump (1000) are respectively electrically connected with the controller.

2. A cooling apparatus for a matting agent according to claim 1, wherein: a fixing seat is arranged at the bottom end of the outer wall of the reaction kettle (200), and the fixing seat and the mounting seat (101) are fastened through bolts.

3. A cooling apparatus for a matting agent according to claim 1, wherein: the outer wall surface of the reaction kettle (200) is provided with an embedded groove, and the embedded groove is clamped and matched with the heat conducting block (102).

4. A cooling apparatus for a matting agent according to claim 1, wherein: and the heat conducting block (102) and the protective sleeve (103) are correspondingly provided with semi-circular arc grooves matched with the water-cooling bent pipe (104).

5. A cooling apparatus for a matting agent according to claim 1, wherein: the number of the water-cooling bent pipes (104) is two, and the two water-cooling bent pipes (104) are symmetrically embedded between the heat conducting block (102) and the protective sleeve (103).

6. A cooling apparatus for a matting agent according to claim 1, wherein: the annular cap (105) is detachably connected with the heat conducting block (102).

7. A cooling apparatus for a matting agent according to claim 1, wherein: the backwater cooling device (400) comprises a box body (401), a vertical partition plate (402) is arranged inside the box body (401), the vertical partition plate (402) divides the inside of the box body (401) into a heat dissipation cavity and a heat insulation cavity from left to right, a communication port (4021) used for communicating the heat dissipation cavity with the heat insulation cavity is arranged at the bottom end of the vertical partition plate (402), a water distribution pipe (403) is arranged at the top end of the corresponding heat dissipation cavity in the box body (401), the water distribution pipe (403) is communicated with a backwater pipe (700), a spray head (404) is arranged at the bottom of the water distribution pipe (403), heat dissipation fans (405) electrically connected with a controller are uniformly distributed below the inner wall of the box body (401) corresponding to the water distribution pipe (403), and the heat insulation cavity is communicated with a water conveying.

8. A cooling apparatus for a matting agent according to claim 7, wherein: and a second temperature sensing element (1100) electrically connected with the controller is embedded on the inner wall of the box body (401) corresponding to the heat insulation cavity, and the second temperature sensing element (1100) is used for monitoring the temperature of cooling water in the heat insulation cavity.

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