CN210532821U - Cooling tower for processing printer ink powder - Google Patents

Abstract

The utility model discloses a cooling tower for printer ink powder processing, which comprises a cooling tower shell, a discharging guide device and a condenser, wherein a material chamber is arranged at the middle position close to the lower part in the inside of the cooling tower shell, a cooling liquid chamber is arranged at the space between the material chamber and the cooling tower shell, a conveyor belt conveying device is arranged in the middle of the inside of the cooling tower shell, the conveyor belt conveying device comprises an electric roller and a conveyor belt, scooping devices are arranged on the outer surface of the conveyor belt at equal intervals, and air cooling air draft devices are arranged at the positions, close to the upper part, on the two sides of the cooling tower shell, the utility model is provided with the scooping devices, the belt conveying device capable of driving the scooping devices to operate and the air cooling air draft devices capable of carrying out air cooling on the materials in the scooping devices in the scooping operation process, thereby leading the materials to be a small part of materials when being air, the cooling is accelerated, so that the working efficiency of the device is high.

Description

Cooling tower for processing printer ink powder

Technical Field

The utility model relates to an powdered ink processing technology field specifically is a cooling tower is used in printer powdered ink processing.

Background

The ink powder of printer needs to use the mixer to mix the raw materials when processing in production, and the liquid after mixing needs to be cooled, and current cooling method generally uses the cooling tower to cool, and current cooling tower has the higher work efficiency and carries out for water cooling air cooling simultaneously, but this kind of cooling tower still has the problem:

in the air cooling process, the heat extracted by the exhaust fan is only the upper layer heat of the material, and the heat at the bottom of the water quantity with a large base number in the large-capacity cooling tower cannot be touched.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a printer ink powder processing is with cooling tower aims at improving current cooling tower at the air-cooling in-process, and the heat that its air exhauster extracted only is the upper heat of material, to the unable problem that touches of the heat of the great water yield bottom of cardinal number in the cooling tower of large capacity.

The utility model discloses a realize like this:

the utility model provides a cooling tower is used in printer powdered ink processing, includes cooling tower shell, ejection of compact guider and condenser, the position that is close to the below in the middle of the inside of cooling tower shell is provided with the material room, space setting between material room and the cooling tower shell is the cooling liquid room, be provided with conveyer belt conveyer in the middle of the inside of cooling tower shell, conveyer belt conveyer includes motorized pulley and conveyer belt, motorized pulley is provided with two altogether, and motorized pulley sets up in the inside top of cooling tower shell and the inside below of material room, and the transmission is connected with the conveyer belt between two motorized pulley, the surface equidistance of conveyer belt is installed and is ladled out the material device, forced air cooling updraft ventilator is all installed near the position of top in the both sides of cooling tower shell, the hot gas outlet is installed in the outside of forced air cooling updraft ventilator, the up end of cooling tower shell is provided with, the hot gas outlet is connected with the air inlet of the condenser, and the cold gas inlet is connected with the air outlet of the condenser.

Further, air-cooled updraft ventilator includes shell and pivot, and the internally mounted of shell has the motor, and the pivot inserts the inside of cooling tower shell from the inside of shell, and the pivot inserts the inside one end of cooling tower shell and is fixed with the flabellum, and the gear is all installed to the inside one end that the pivot is located the shell, and the power take off end and one of them pivot of motor are fixed mutually.

Furthermore, the cooling tower shell is provided with intensive heat outlet holes at positions corresponding to the shell, and the outer surface of the motor is provided with a heat shield.

Further, ejection of compact guider is including hinge and the baffle down that resets, and the baffle is fixed in the position that is close to the below in inside one side of cooling tower shell down, and the up end of baffle is fixed with the second deflector down, and the up end of second deflector installs first deflector through the hinge that resets, and the upper surface both sides of first deflector, hinge and second deflector that resets all are fixed with the side shield, the position that one side that the cooling tower shell is close to ejection of compact guider is a little higher than the baffle down is provided with the discharge gate.

Further, the material scooping device comprises a bridge-shaped frame and a pin shaft, one side of the bridge-shaped frame is fixed to the conveying belt, a bottom plate is fixed to the lower surface of the bridge-shaped frame, a connecting plate is installed inside the bridge-shaped frame in a rotating mode through the pin shaft, and a scooping spoon is fixed to one side, far away from the bridge-shaped frame, of the connecting plate.

Further, the material inlet pipe is installed to one side below that the cooling tower shell is close to ejection of compact guider, and the material inlet pipe inserts the inside of material room, the top of material inlet pipe is provided with the cooling water outlet pipe, and the cooling water outlet pipe inserts the inside of coolant chamber, the cooling tower shell is kept away from one side below of material inlet pipe and is installed the cooling water inlet tube, and the cooling water inlet tube inserts the inside of coolant chamber.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses set up the ladling out the material device, can drive the belt conveyer of ladling out the material device operation and can carry out air-cooled updraft ventilator to the material of ladling out the material device inside in the operation process of ladling out the material, and then make and be a small part material when carrying out the air-cooling to the material at every turn for the cooling, make the work efficiency of this device high.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention, and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

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

FIG. 2 is a schematic structural view of the discharge guide device of the present invention;

FIG. 3 is a schematic structural view of the scooping device of the present invention;

fig. 4 is a schematic view of the installation position of the bottom plate of the present invention;

FIG. 5 is a schematic structural view of the air-cooled exhauster of the present invention;

fig. 6 is a schematic connection diagram of the condenser of the present invention.

In the figure: 1. cooling the tower shell; 2. a discharge port; 3. an air cooling air draft device; 31. a housing; 32. a motor; 33. a rotating shaft; 34. a fan blade; 35. a gear; 4. a heat outlet hole; 5. a conveyor belt conveyor; 51. an electric roller; 52. a conveyor belt; 6. a cooling water inlet pipe; 7. a scooping device; 71. scooping; 72. a connecting plate; 73. a bridge frame; 74. a pin shaft; 75. a base plate; 8. a discharge guide device; 81. a first guide plate; 82. a reset hinge; 83. a second guide plate; 84. a lower baffle plate; 85. a side dam; 9. a material feeding pipe; 10. a material chamber; 11. a hot gas outlet; 12. a cooling water outlet pipe; 13. a cold air inlet; 14. a coolant chamber; 15. A condenser.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined to clearly and completely describe the technical solutions of the embodiments of the present invention, and obviously, the described embodiments are 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. Thus, the following detailed description of the embodiments of the present invention, presented in the accompanying drawings, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. 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.

Referring to fig. 1, a cooling tower for processing printer ink powder comprises a cooling tower shell 1, a discharging guide device 8 and a condenser 15, wherein a material chamber 10 is arranged at a position close to the lower part in the middle of the inside of the cooling tower shell 1, the material chamber 10 is used as a place for water-cooling and cooling of the ink powder, a space between the material chamber 10 and the cooling tower shell 1 is provided with a cooling liquid chamber 14, the cooling liquid chamber 14 is used as a temporary storage chamber for water-cooling water, a conveyor belt conveying device 5 is arranged in the middle of the inside of the cooling tower shell 1, the conveyor belt conveying device 5 is used for driving a scooping device 7 to operate, the conveyor belt conveying device 5 comprises an electric roller 51 and a conveyor belt, and the motorized pulley 51 is arranged above the interior of the cooling tower housing 1 and below the interior of the material chamber 10, a conveyor belt 52 is connected between the two electric rollers 51 in a transmission way, and the electric rollers 51 can drive the conveyor belt 52 to rotate;

referring to fig. 1, 3 and 4, the outer surface of the conveyor belt 52 is equidistantly provided with the scooping devices 7, the scooping devices 7 are used for scooping the water-cooled material and enabling the water-cooled material to move along with the conveyor belt 52, each scooping device 7 comprises a bridge frame 73 and a pin 74, one side of each bridge frame 73 is fixed with the conveyor belt 52, a bottom plate 75 is fixed on the lower surface of each bridge frame 73, a connecting plate 72 is rotatably arranged inside each bridge frame 73 through the pin 74, one side of each connecting plate 72, which is far away from the corresponding bridge frame 73, is fixed with a scoop 71, the scoop 71 is used for scooping the material, and the scoop 71 can rotate on the corresponding bridge frame 73 to the side, which is far away from the bottom plate 75, through the action of the connecting plate 72 and the;

referring to fig. 1 and 5, the cooling tower housing 1 is provided with an air cooling ventilator 3 at a position near the upper side at both sides, a hot air outlet 11 is provided at the outer side of the air cooling ventilator 3, the hot air outlet 11 is used for discharging hot air exhausted by the air cooling ventilator 3, the air cooling ventilator 3 comprises a housing 31 and a rotating shaft 33, a motor 32 is provided inside the housing 31, the rotating shaft 33 is inserted into the cooling tower housing 1 from the inside of the housing 31, fan blades 34 are fixed at one end of the rotating shaft 33 inserted into the cooling tower housing 1, gears 35 are provided at one end of the rotating shaft 33 located inside the housing 31, the power output end of the motor 32 is fixed with one of the rotating shafts 33, the motor 32 drives one of the rotating shafts 33 to rotate, and because two adjacent gears 35 are engaged with each other, three fan blades 34 can exhaust air, and hot air is pumped into the housing 31 through the heat outlet 4, the cooling tower shell 1 is provided with intensive heat outlet holes 4 at the position corresponding to the shell 31, and the outer surface of the motor 32 is provided with a heat shield which can prevent the motor 32 from being in a high-temperature state;

referring to fig. 1 and 6, the upper end surface of the cooling tower housing 1 is provided with a cold air inlet 13, the hot air outlet 11 is connected with an air inlet of a condenser 15, the cold air inlet 13 is connected with an air outlet of the condenser 15, the gas carrying heat discharged from the hot air outlet 11 enters the interior of the condenser 15 for cooling air, and the generated cold air enters the interior of the cooling tower housing 1 again through the cold air inlet 13;

referring to fig. 1 and 2, the discharging guide device 8 includes a reset hinge 82 and a lower baffle 84, the lower baffle 84 is fixed at a position near the lower side of the inner side of the cooling tower housing 1, the lower baffle 84 can prevent the material from falling into the inner side of the cooling liquid chamber 14 from the lower side, a second guide plate 83 is fixed on the upper end surface of the lower baffle 84, the second guide plate 83 is used for guiding the material, a first guide plate 81 is installed on the upper end surface of the second guide plate 83 through the reset hinge 82, the first guide plate 81 can be pressed down by the scoop 71, the scoop 71 can pass through the first guide plate 81, side baffles 85 are fixed on both sides of the upper surfaces of the first guide plate 81, the reset hinge 82 and the second guide plate 83, the side baffles 85 can prevent the material from leaking out from the side, another embodiment is that the side edges of the first guide plate 81, the second guide plate 83 and the lower baffle 84 can extend to the inner wall of the cooling tower housing 1, in this way, the material can be prevented from leaking from the side, the position, which is slightly higher than the lower baffle 84, of one side, close to the discharging guide device 8, of the cooling tower shell 1 is provided with the discharging hole 2, and the discharging hole 2 is used for discharging the cooled material;

referring to fig. 1, a material inlet pipe 9 is installed below one side of a cooling tower shell 1 close to an outlet guide device 8, the material inlet pipe 9 is inserted into a material chamber 10, the material inlet pipe 9 is used for allowing a toner material to enter the material chamber 10, a cooling water outlet pipe 12 is arranged above the material inlet pipe 9, the cooling water outlet pipe 12 is inserted into a cooling water chamber 14, a cooling water inlet pipe 6 is installed below one side of the cooling tower shell 1 far away from the material inlet pipe 9, the cooling water inlet pipe 6 is inserted into the cooling water chamber 14, the cooling water inlet pipe 6 is used for allowing cooling water to enter the cooling water chamber 14, and the cooling water outlet pipe 12 is used for discharging the cooling water carrying heat from the inside of the cooling water chamber 14.

The working principle is as follows: when the device is used, the toner mixed liquid material to be cooled is fed into the material chamber 10 from the material feeding pipe 9, the cooling water is fed into the cooling water chamber 14 from the cooling water inlet pipe 6, the cooling water can firstly cool the material in the material chamber 10, meanwhile, the electric roller 51 drives the conveyor belt 52 to drive, the conveyor belt 52 drives the scooping device 7 to drive clockwise, when the scooping device 7 is positioned at the right side of the view shown in fig. 1, due to the self weight of the scoop 71, the scoop 71 can rotate downwards along the pin shaft 74 (in the scooping state shown at the right side of the conveyor belt 52 in fig. 1), when the scoop 71 passes under the material chamber 10, due to the scoopable material in the scoop, when the conveyor belt 52 drives the scoop 71 to be positioned at the left side of the conveyor belt 52, the scoop 71 and the material in the scoop 71 have a downward gravity, so that the scoop 71 at this time has a downward rotating tendency, however, the scoop 71 cannot be rotated downward due to the blockage of the bottom plate 75, and the state of the scoop 71 on the left side of the conveyor belt 52 as shown in fig. 1 is achieved;

the conveyor belt 52 continues to drive the scoop 71 to rotate to the right side of the conveyor belt 52, at this time, the material is poured on the upper surface of the first guide plate 81, and the material flows along the second guide plate 83 and finally is discharged from the discharge port 2;

rotate the in-process need advance twice at ladling out spoon 71, during left air-cooled updraft ventilator 3, flabellum 34 rotates the extraction heat, the heat advances out hot hole 4 and gets into the inside of shell 31, rethread hot gas outlet 11 gets into condenser 15 and condenses, the inside that the air conditioning that produces after the condensation got into cooling tower shell 1 once more through air conditioning import 13 is used for cooling down, and air-cooled updraft ventilator 3 on right side can carry out the forced air cooling to the material on the second deflector 83, the material of forced air cooling is a fraction at every turn, it is effectual to air-cool.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. 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 (6)

1. The utility model provides a printer is cooling tower for toner processing, includes cooling tower shell (1), ejection of compact guider (8) and condenser (15), its characterized in that: the utility model discloses a cooling tower, including cooling tower shell (1), conveyer belt conveyer (5), electric drum (51) and conveyer belt (52), electric drum (51) are provided with two in the middle of the inside of cooling tower shell (1) and are provided with conveyer belt conveyer (5) in the middle of the inside of cooling tower shell (1), and conveyer belt conveyer (5) are connected with conveyer belt (52) including electric drum (51) and conveyer belt (14), electric drum (51) are provided with two altogether, and electric drum (51) set up in the inside top of cooling tower shell (1) and the inside below of material room (10), and the transmission between two electric drum (51) is connected with conveyer belt (52), ladling out material device (7) are installed to the surface equidistance of conveyer belt (52), wind cooling device (3) are all installed to the position that the both sides of cooling tower shell (1) are close to the top, hot air outlet (11) is installed in the outside of air-cooled air draft device (3), the up end of cooling tower shell (1) is provided with air conditioning import (13), hot air outlet (11) is connected with the air inlet of condenser (15), air conditioning import (13) is connected with the gas outlet of condenser (15).

2. The cooling tower for processing the printer toner as claimed in claim 1, wherein the air-cooled air draft device (3) comprises a shell (31) and a rotating shaft (33), a motor (32) is installed inside the shell (31), the rotating shaft (33) is inserted into the cooling tower shell (1) from the inside of the shell (31), fan blades (34) are fixed at one end of the rotating shaft (33) inserted into the cooling tower shell (1), gears (35) are installed at one ends of the rotating shaft (33) located inside the shell (31), and a power output end of the motor (32) is fixed with one of the rotating shafts (33).

3. The cooling tower for processing the printer toner as claimed in claim 2, wherein the cooling tower shell (1) is provided with dense heat outlet holes (4) at positions corresponding to the shell (31), and the outer surface of the motor (32) is provided with a heat shield.

4. The cooling tower for processing the printer toner as claimed in claim 1, wherein the discharging guide device (8) comprises a reset hinge (82) and a lower baffle (84), the lower baffle (84) is fixed at a position close to the lower part on one side of the inside of the cooling tower shell (1), a second guide plate (83) is fixed on the upper end surface of the lower baffle (84), a first guide plate (81) is installed on the upper end surface of the second guide plate (83) through the reset hinge (82), side baffles (85) are fixed on two sides of the upper surfaces of the first guide plate (81), the reset hinge (82) and the second guide plate (83), and a discharging port (2) is arranged at a position slightly higher than the lower baffle (84) on one side of the cooling tower shell (1) close to the discharging guide device (8).

5. The printer toner processing cooling tower as claimed in claim 1, wherein the scooping device (7) comprises a bridge frame (73) and a pin (74), one side of the bridge frame (73) is fixed with the conveyor belt (52), a bottom plate (75) is fixed on the lower surface of the bridge frame (73), a connecting plate (72) is rotatably installed inside the bridge frame (73) through the pin (74), and a scooping spoon (71) is fixed on one side of the connecting plate (72) far away from the bridge frame (73).

6. The cooling tower for processing the printer toner according to claim 1, wherein a material inlet pipe (9) is installed below one side of the cooling tower shell (1) close to the discharging guide device (8), the material inlet pipe (9) is inserted into the material chamber (10), a cooling water outlet pipe (12) is arranged above the material inlet pipe (9), the cooling water outlet pipe (12) is inserted into the cooling liquid chamber (14), a cooling water inlet pipe (6) is installed below one side of the cooling tower shell (1) far away from the material inlet pipe (9), and the cooling water inlet pipe (6) is inserted into the cooling liquid chamber (14).

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