CN116718039A - Tea grinding cooler with efficient heat exchange function - Google Patents

Abstract

The invention discloses a tea grinding cooler with efficient heat exchange, which relates to the technical field of tea grinding processing and comprises a fixed base, a cooling fan and a heat exchange component, wherein a fixing frame is fixedly arranged at the top of the fixed base, and a cooling net is fixedly connected to the top of the fixing frame. This tea-rolling cooler of high-efficient heat transfer is extracted through the water pump for cold water in the second water tank gets into V type condensation top along the wet return, owing to the steam in the cooling network is heated and rises again, contact the V type condensation top, the water that flows to V type condensation top heats, the water after heating gets into first water tank along the outlet pipe, and it leads to the primary oven outer wall to follow the hose, reinforcing primary oven heat preservation effect, the rethread aqueduct is arranged in the supplementary cooling mechanism, flow back to the second water tank at last and realize the circulation, the tea-rolling cooler after the improvement can realize high-efficient heat transfer, can carry out the heat transfer utilization to the heat of cooling operation in the tea-rolling processing, not only reduced the heat extravagant, can also play the effect of promoting to the primary drying.

Description

Tea grinding cooler with efficient heat exchange function

Technical Field

The invention relates to the technical field of tea grinding processing, in particular to a tea grinding cooler with efficient heat exchange.

Background

The primary tea processing is also called tea grinding processing, has higher degree of automation, generally achieves continuous production without falling to the ground in the whole process, and comprises the following processing technological processes: the method comprises the steps of green storage, leaf cutting, enzyme deactivation, cooling, primary drying, stem and leaf separation, secondary drying (leaf), tea grinding, wherein the stem part after the first stem and leaf separation also contains a small amount of leaves, the leaves enter another dryer for secondary drying, secondary stem and leaf separation is carried out, and the separated leaves are also tea grinding after secondary drying. After the water-removing leaves are water-removed by saturated steam or high-temperature superheated steam, the water-removing leaves are required to be cooled by a tea grinding cooler, and the working flow of the tea grinding cooler is as follows: the water-removing agent She Chuishang is lifted and lowered for a plurality of times in a cooling net of 8-10 meters by a fan, and is rapidly cooled and dehumidified for 5-10 minutes. After cooling, the water in the tea stems and the leaves can be redistributed, so that the tea leaves are soft when being kneaded by hands, however, the existing tea grinding cooling machine still has the following defects:

the existing tea grinding cooler is generally inconvenient for efficient heat exchange, heat of cooling operation in tea grinding processing cannot be utilized through heat exchange, heat waste is caused, tea grinding processing production is not facilitated, and in addition, water vapor generated in the cooling process is not convenient to condense and recycle, so that water resource waste is caused.

Therefore, the invention provides a tea grinding cooler with high-efficiency heat exchange, which is researched and improved aiming at the existing structure and the defects.

Disclosure of Invention

The invention aims to provide a tea grinding cooler capable of efficiently exchanging heat so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a tea-milling cooler of high-efficient heat transfer, includes unable adjustment base, cooling fan and heat exchange component, unable adjustment base's top fixedly mounted has the mount to the top fixedly connected with cooling net of mount, and the left side fixedly connected with feeding component in bottom of cooling net, cooling fan fixed mounting is at unable adjustment base's top, and cooling fan is located the right side of mount, cooling fan's air outlet fixedly connected with air pipe, and air pipe's one end fixedly connected with air supply fill to the top of air supply fill link up with the bottom of cooling net and link up, air pipe's bottom fixedly connected with water catch bowl, and the bottom fixedly connected with header tank of water catch bowl, heat exchange component installs at the top of cooling net, and the bottom fixedly connected with water collecting component of heat exchange component, and water collecting component is located the inboard of cooling net, the bottom fixedly connected with water pipe of water collecting component, and the bottom of water pipe is submerged into the inboard of fill.

Further, the feeding assembly comprises a feeding table, a feeding fan, an arc feeding channel and a conveying belt, wherein the feeding fan is fixedly connected to the left side of the feeding table, the arc feeding channel is fixedly connected to the right side of the feeding table, the top of the arc feeding channel is in through connection with the bottom of the cooling net, the conveying belt is arranged right above the feeding fan, and one end, close to the feeding table, of the conveying belt is immersed into the inner side of the feeding table.

Further, the header tank is including box, visual window, water inlet and drain pipe, and the surface of box is provided with visual window to the water inlet has been seted up at the top of box, and the left side wall of box is provided with the drain pipe moreover.

Further, the heat exchange assembly comprises a V-shaped condensation top, a water outlet pipe, a water pump and a first water tank, wherein the V-shaped condensation top is fixedly arranged at the top of the cooling net, the left side of the V-shaped condensation top is fixedly connected with the water outlet pipe, one end of the water outlet pipe is fixedly connected with the water pump, and one side of the water pump is fixedly connected with the first water tank.

Further, the heat exchange assembly further comprises a clamping structure, a water guide pipe and a hose, wherein the clamping structure is fixedly arranged at the top of the first water tank through a bolt, the water guide pipe is fixedly connected to the inner side of the clamping structure, and the hose is fixedly connected to the top of the water guide pipe.

Further, the hose is fixed on the outer surface of the primary oven through the fastening hoop wall, one end of the hose is connected with the outer wall of the first water tank in a penetrating mode, and the other end of the hose is fixedly connected with the water guide pipe.

Further, the heat exchange assembly further comprises an auxiliary cooling mechanism, a second water tank and a water return pipe, wherein the auxiliary cooling mechanism is fixedly arranged on the right side of the first water tank, the right side wall of the auxiliary cooling mechanism is fixedly connected with the second water tank, the outer wall of the second water tank is fixedly connected with the water return pipe, and one end of the water return pipe is connected with the right side of the V-shaped condensation top in a penetrating mode.

Further, supplementary cooling mechanism is including basin, communicating pipe, connecting bearing, rotary rod and blade, and the right side wall of basin is provided with communicating pipe to the inner wall fixedly connected with connecting bearing of basin, the inner wall fixedly connected with rotary rod of connecting bearing moreover, the outer wall welding of rotary rod has the blade, and one side fixedly connected with arc of blade turns over the water spare.

Further, the subassembly that catchments is including connector, dead lever and bracing piece, and the bottom at V type condensation top is welded to the connector to the inboard of connector has the dead lever through threaded connection, and the outer wall fixedly connected with bracing piece of outlet pipe moreover.

Further, the water collecting assembly further comprises a receiving basin, the receiving basin is arranged on the outer side of the fixing rod through the supporting rod cover, one end of the supporting rod is connected with the outer wall of the fixing rod in a welding mode, the other end of the supporting rod is connected with the inner surface of the receiving basin in a welding mode, and meanwhile the fixing rod, the supporting rod and the first water tank form an integrated structure.

The invention provides a tea grinding cooler with high-efficiency heat exchange, which has the following beneficial effects:

1. the invention is provided with a heat exchange component, the heat exchange component consists of a V-shaped condensation top, a water outlet pipe, a water pump, a first water tank, a clamping structure, a water guide pipe, a hose, an auxiliary cooling mechanism, a second water tank and a water return pipe, cold water in the second water tank enters the V-shaped condensation top along the water return pipe and is heated and rises due to water vapor in a cooling net, the bottom of the V-shaped condensation top is cooled and condensed, heat is transferred to the V-shaped condensation top, water flowing through the V-shaped condensation top is heated, the heated water enters the first water tank along the water outlet pipe and is led to the outer wall of a primary oven along the hose, the heat preservation effect of the primary oven is enhanced, the heated water is discharged into the auxiliary cooling mechanism through the water guide pipe, and finally flows back to the second water tank to realize circulation, the improved tea rolling cooler can realize efficient heat exchange, can utilize heat of cooling operation in tea rolling processing through heat exchange, not only reduces heat waste, but also plays a role in promoting the next primary drying of tea rolling processing.

2. The improved tea grinding cooler is provided with the auxiliary cooling mechanism, the auxiliary cooling mechanism is composed of the water tank, the communicating pipe, the connecting bearing, the rotating rod and the blades, the blades are impacted when water is discharged from the water guide pipe, the connecting bearing and the rotating rod are matched, so that the blades and the arc-shaped water turning pieces can continuously rotate under the flowing action of the water flow, water flowers are lifted through the blades and the arc-shaped water turning pieces, the water in the water tank is further radiated, the temperature of water flowing back into the second water tank after heat exchange is lower through the auxiliary radiating operation, the temperature of water circulating back into the V-shaped condensation top is lower, the condensation effect of the V-shaped condensation top on water vapor is further improved, and efficient heat exchange is promoted.

3. The improved tea grinding cooler not only can utilize heat through heat exchange, but also can recover water vapor generated in the processing process, the operation reduces the humidity in a cooling network, improves the cooling effect, and water condensed by the water vapor can be utilized later, thereby improving the resource utilization rate.

Drawings

FIG. 1 is a schematic diagram of the front view structure of a tea grinding cooler with high-efficiency heat exchange;

FIG. 2 is a schematic diagram showing the connection of a cooling net and an air supply hopper of the efficient heat exchange tea grinding cooler;

FIG. 3 is a schematic diagram showing the connection of a cooling net-V-shaped condensing top structure of a high-efficiency heat exchange tea grinding cooler;

FIG. 4 is an enlarged schematic view of the structure A in FIG. 3 of a high-efficiency heat exchange tea grinding cooler according to the invention;

FIG. 5 is a schematic diagram of the structure of the auxiliary cooling mechanism of the efficient heat exchange tea grinding cooler in a front cross section;

fig. 6 is a schematic top view of an auxiliary cooling mechanism of the efficient heat exchange tea grinding cooler.

In the figure: 1. a fixed base; 2. a fixing frame; 3. a cooling net; 4. a feeding assembly; 401. a feeding table; 402. a feeding fan; 403. an arc-shaped feeding channel; 404. a conveyor belt; 5. a cooling fan; 6. a ventilation duct; 7. a wind hopper; 8. a water collection bucket; 9. a water collection tank; 901. a case; 902. a visual window; 903. a water inlet; 904. a drain pipe; 10. a heat exchange assembly; 1001. v-shaped condensation top; 1002. a water outlet pipe; 1003. a water pump; 1004. a first water tank; 1005. a clamping structure; 1006. a water conduit; 1007. a hose; 1008. an auxiliary cooling mechanism; 10081. a water tank; 10082. a communicating pipe; 10083. connecting a bearing; 10084. a rotating rod; 10085. a blade; 10086. an arc-shaped water turning piece; 1009. a second water tank; 1010. a water return pipe; 11. a water collection assembly; 1101. a connector; 1102. a fixed rod; 1103. a support rod; 1104. a receiving basin; 12. a water pipe.

Detailed Description

Embodiments of the present invention are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the invention but are not intended to limit the scope of the invention.

As shown in fig. 1, fig. 2, fig. 3 and fig. 4, a tea grinding cooler with efficient heat exchange comprises a fixed base 1, a cooling fan 5 and a heat exchange component 10, wherein a fixed frame 2 is fixedly arranged at the top of the fixed base 1, a cooling net 3 is fixedly connected to the top of the fixed frame 2, a feeding component 4 is fixedly connected to the left side of the bottom of the cooling net 3, the feeding component 4 comprises a feeding table 401, a feeding fan 402, an arc-shaped feeding channel 403 and a conveyor belt 404, the left side of the feeding table 401 is fixedly connected with the feeding fan 402, the right side of the feeding table 401 is fixedly connected with the arc-shaped feeding channel 403, the top of the arc-shaped feeding channel 403 is in through connection with the bottom of the cooling net 3, a conveyor belt 404 is arranged right above the feeding fan 402, one end of the conveyor belt 404 close to the feeding table 401 is immersed into the inner side of the feeding table 401, and enzyme-deactivating leaves are conveyed into the feeding table 401 through the conveyor belt 404, the cooling fan 5 is fixedly arranged at the top of the fixed base 1, the cooling fan 5 is positioned at the right side of the fixed frame 2, an air outlet of the cooling fan 5 is fixedly connected with a ventilating duct 6, one end of the ventilating duct 6 is fixedly connected with an air supply hopper 7, the top of the air supply hopper 7 is communicated with the bottom of the cooling net 3, the bottom of the ventilating duct 6 is fixedly connected with a water collecting hopper 8, the bottom of the water collecting hopper 8 is fixedly connected with a water collecting tank 9, the water collecting tank 9 comprises a box body 901, a visual window 902, a water inlet 903 and a drain pipe 904, the outer surface of the box body 901 is provided with the visual window 902, the water inlet 903 is arranged at the top of the box body 901, the left side wall of the box body 901 is provided with the drain pipe 904, and condensed water enters the box body 901 through the water inlet 903, and accessible window 902 observes the water level change in the box 901 outside, realize the drainage through drain pipe 904 after the collection, heat exchange module 10 installs at the top of cooling net 3, and heat exchange module 10's bottom fixedly connected with water collection subassembly 11, and water collection subassembly 11 is located the inboard of cooling net 3, water collection subassembly 11 is including connector 1101, dead lever 1102 and bracing piece 1103, and connector 1101 welds the bottom at V type condensation top 1001, and the inboard of connector 1101 has the dead lever 1102 through threaded connection, and the outer wall fixedly connected with bracing piece 1103 of outlet pipe 1002, water collection subassembly 11 still includes accepts basin 1104, and accept basin 1104 and establish the outside at the dead lever 1102 through the bracing piece 1103 cover, and the one end of bracing piece 1103 links to each other with the outer wall welding of dead lever 1102, and the other end of bracing piece 1103 links to each other with accepting basin 1104 internal surface welding, simultaneously dead lever 1102, bracing piece 1103 and first water tank 1004 constitute integrated structure, the connection between the integrated design makes between the structure inseparabler, through connector 1101, dead lever 1102 and bracing piece hang the bottom of installing first water tank 1004 in V type condensation top 1001, make can follow the inside of V type condensation top 1001 and draw into the bottom of water collection basin 12 through the inner surface of water collection basin 12, the bottom that is connected with the inside of water collection basin 12, the bottom 12 of the bottom that is taken turns into under the inside the bottom of the inside of the hollow box 12.

As shown in fig. 1, 3, 5 and 6, the top of the fixed base 1 is fixedly provided with a fixed frame 2, the top of the fixed frame 2 is fixedly connected with a cooling net 3, the left side of the bottom of the cooling net 3 is fixedly connected with a feeding component 4, a cooling fan 5 is fixedly provided at the top of the fixed base 1, the cooling fan 5 is positioned at the right side of the fixed frame 2, an air outlet of the cooling fan 5 is fixedly connected with a ventilating duct 6, one end of the ventilating duct 6 is fixedly connected with an air supply hopper 7, the top of the air supply hopper 7 is communicated with the bottom of the cooling net 3, the bottom of the ventilating duct 6 is fixedly connected with a water collecting hopper 8, the bottom of the water collecting hopper 8 is fixedly connected with a water collecting tank 9, a heat exchange component 10 is arranged at the top of the cooling net 3, the heat exchange component 10 comprises a V-shaped condensing top 1001, an outlet pipe 1002, a water pump 1003 and a first water tank 1004, the V-shaped condensing top 1001 is fixedly provided at the top of the cooling net 3, the left side of the V-shaped condensation top 1001 is fixedly connected with a water outlet pipe 1002, one end of the water outlet pipe 1002 is fixedly connected with a water pump 1003, one side of the water pump 1003 is fixedly connected with a first water tank 1004, the heat exchange assembly 10 further comprises a clamping structure 1005, a water guide pipe 1006 and a hose 1007, the clamping structure 1005 is fixedly arranged at the top of the first water tank 1004 through a bolt fixing seat, the inner side of the clamping structure 1005 is fixedly connected with the water guide pipe 1006, the top of the water guide pipe 1006 is fixedly connected with the hose 1007, the hose 1007 is adhered to the outer surface of the primary oven through a fastening hoop, one end of the hose 1007 is connected with the outer wall of the first water tank 1004 in a penetrating manner, the other end of the hose 1007 is fixedly connected with the water guide pipe 1006, the heat exchange assembly 10 further comprises an auxiliary cooling mechanism 1008, a second water tank 1009 and a water return pipe 1010, the auxiliary cooling mechanism 1008 is fixedly arranged at the right side of the first water tank 1004, the right side wall of the auxiliary cooling mechanism 1008 is fixedly connected with a second water tank 1009, the outer wall of the second water tank 1009 is fixedly connected with a water return pipe 1010, one end of the water return pipe 1010 is connected with the right side of the V-shaped condensation top 1001 in a penetrating way, the water is pumped by a water pump 1003, cold water in the second water tank 1009 enters the V-shaped condensation top 1001 along the water return pipe 1010, and the water vapor in the cooling net 3 is heated and rises to contact the bottom of the V-shaped condensation top 1001 to be cooled and condensed, the heat is transferred to the V-shaped condensation top 1001, the water flowing through the V-shaped condensation top 1001 is heated, the heated water enters the first water tank 1004 along the water outlet pipe 1002 and is led to the outer wall of the primary drying oven along a hose 1007, the primary drying oven heat preservation effect is enhanced, the heated water is discharged into the auxiliary cooling mechanism 1008 through the water return pipe 1006, finally flows back to the second water tank 1009 to realize circulation, the auxiliary cooling mechanism 1008 comprises a water tank 10081, a communicating pipe 10082, a connecting bearing 10083, a rotating rod 10084 and a blade 10085, and the right side wall of the water tank 10081 is provided with a communicating pipe 10082, the inner wall of the water tank 10081 is fixedly connected with a connecting bearing 10083, the inner wall of the connecting bearing 10083 is fixedly connected with a rotating rod 10084, the outer wall of the rotating rod 10084 is welded with a blade 10085, one side of the blade 10085 is fixedly connected with an arc water turning piece 10086, the blade 10085 in the water tank 10081 is impacted by water flow discharged by utilizing a water guide pipe 1006, the connecting bearing 10083 and the rotating rod 10084 are matched, the blade 10085 and the arc water turning piece 10086 can continuously rotate under the action of water flow, the water flowers are lifted up by the blade 10085 and the arc water turning piece 10086, heat is further dissipated to heat exchange water, the water temperature flowing back into the second water tank 1009 is lower, the bottom of the heat exchange assembly 10 is fixedly connected with a water collecting assembly 11, the water collecting assembly 11 is positioned on the inner side of the cooling net 3, the bottom of the water collecting assembly 11 is fixedly connected with a water pipe 12, and the bottom end of the water pipe 12 is immersed into the inner side of the water collecting bucket 8.

In summary, as shown in fig. 1 to 6, the working principle of the efficient heat exchange tea grinding cooler is as follows: firstly, the de-enzyming leaves are conveyed into the feeding table 401 through the conveying belt 404, the de-enzyming leaves are conveyed into the cooling network 3 along the arc-shaped feeding channel 403 under the blowing of the feeding fan 402, meanwhile, the cooling fan 5 generates wind power to blow into the cooling network 3 through the ventilating duct 6 and the air supply hopper 7, de-enzyming She Shengjiang in the cooling network 3 is blown to cool and dehumidify, water vapor generated in the process is heated up, the heat exchange assembly 10 is started, the water pump 1003 is used for pumping up, cold water in the second water tank 1009 enters the V-shaped condensation top 1001 along the water return pipe 1010, the water vapor in the cooling network 3 is heated up, the water vapor contacts the bottom of the V-shaped condensation top 1001 to be condensed, slides into the receiving basin 1104 along the lower surface of the V-shaped condensation top 1001 and falls into the water collecting hopper 8 along the water pipe 12, so as to be collected in the water collecting tank 9, the heat carried by the water vapor is transferred to the V-shaped condensation top 1001, the heated water flows into the first water tank 1004 along the water outlet pipe 1002, and is led to the outer wall of the primary drying oven along the hose 1007, the primary drying oven is enhanced, the water flow is discharged from the water return pipe 1010 along the water return pipe 1010, the water return pipe 1010 is further flows into the arc-shaped condensation top 85 along the water return pipe 85, the heat exchange tube 85, the heat is further is prevented from flowing into the water return pipe 10082, and the heat exchange tube is further cooled down along the water return pipe 85, the heat transfer channel is cooled by the water flow fan 10085, and the heat is further cooled down along the water flow guide pipe 85, and the heat is cooled down and the heat exchange tube 85, and the heat is further cooled down and the heat is cooled, and the heat is cooled down.

The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (10)

1. The utility model provides a tea-milling cooler of high-efficient heat transfer, includes unable adjustment base (1), cooling fan (5) and heat exchange component (10), its characterized in that, the top fixed mounting of unable adjustment base (1) has mount (2) to the top fixedly connected with cooling screen (3) of mount (2), and the bottom left side fixedly connected with pay-off subassembly (4) of cooling screen (3), cooling fan (5) fixed mounting is at the top of unable adjustment base (1), and cooling fan (5) are located the right side of mount (2), the air outlet fixedly connected with air pipe (6) of cooling fan (5), and the one end fixedly connected with air supply fill (7) of air supply fill (7) link up with the bottom of cooling screen (3), the bottom fixedly connected with water collecting hopper (8) of air supply fill (6), and the bottom fixedly connected with water collecting tank (9) of water collecting hopper (8), heat exchange component (10) are installed at the top of cooling screen (3), and the bottom fixedly connected with water collecting component (11) of heat exchange component (10) is located the bottom of mount (2), and water collecting component (11) are located water collecting component (11) are connected with each other, and the bottom end of the water pipe (12) is immersed into the inner side of the water collecting bucket (8).

2. The efficient heat exchange tea grinding cooler according to claim 1, wherein the feeding assembly (4) comprises a feeding table (401), a feeding fan (402), an arc-shaped feeding channel (403) and a conveying belt (404), the feeding fan (402) is fixedly connected to the left side of the feeding table (401), the arc-shaped feeding channel (403) is fixedly connected to the right side of the feeding table (401), the top of the arc-shaped feeding channel (403) is in through connection with the bottom of the cooling net (3), the conveying belt (404) is arranged right above the feeding fan (402), and one end, close to the feeding table (401), of the conveying belt (404) is immersed into the inner side of the feeding table (401).

3. The efficient heat exchange tea grinding cooler according to claim 1, wherein the water collecting tank (9) comprises a tank body (901), a visible window (902), a water inlet (903) and a drain pipe (904), the visible window (902) is arranged on the outer surface of the tank body (901), the water inlet (903) is formed in the top of the tank body (901), and the drain pipe (904) is arranged on the left side wall of the tank body (901).

4. The efficient heat exchange tea grinding cooler according to claim 1, wherein the heat exchange component (10) comprises a V-shaped condensation top (1001), a water outlet pipe (1002), a water pump (1003) and a first water tank (1004), the V-shaped condensation top (1001) is fixedly installed at the top of the cooling net (3), the left side of the V-shaped condensation top (1001) is fixedly connected with the water outlet pipe (1002), one end of the water outlet pipe (1002) is fixedly connected with the water pump (1003), and one side of the water pump (1003) is fixedly connected with the first water tank (1004).

5. The efficient heat exchange tea grinding cooler according to claim 4, wherein the heat exchange assembly (10) further comprises a clamping structure (1005), a water guide pipe (1006) and a hose (1007), the clamping structure (1005) is fixedly arranged on the top of the first water tank (1004) through bolts, the water guide pipe (1006) is fixedly connected to the inner side of the clamping structure (1005), and the hose (1007) is fixedly connected to the top of the water guide pipe (1006).

6. The efficient heat exchange tea grinding cooler according to claim 5, wherein the hose (1007) is fixed on the outer surface of the primary oven by fastening hoops, one end of the hose (1007) is connected with the outer wall of the first water tank (1004) in a penetrating manner, and the other end of the hose (1007) is fixedly connected with the water guide pipe (1006).

7. The efficient heat exchange tea grinding cooler according to claim 1, wherein the heat exchange assembly (10) further comprises an auxiliary cooling mechanism (1008), a second water tank (1009) and a water return pipe (1010), the auxiliary cooling mechanism (1008) is fixedly arranged on the right side of the first water tank (1004), the right side wall of the auxiliary cooling mechanism (1008) is fixedly connected with the second water tank (1009), the outer wall of the second water tank (1009) is fixedly connected with the water return pipe (1010), and meanwhile one end of the water return pipe (1010) is connected with the right side of the V-shaped condensation top (1001) in a penetrating mode.

8. The efficient heat exchange tea grinding cooler according to claim 7, wherein the auxiliary cooling mechanism (1008) comprises a water tank (10081), a communicating pipe (10082), a connecting bearing (10083), a rotating rod (10084) and a blade (10085), the communicating pipe (10082) is arranged on the right side wall of the water tank (10081), the connecting bearing (10083) is fixedly connected with the inner wall of the water tank (10081), the rotating rod (10084) is fixedly connected with the inner wall of the connecting bearing (10083), the blade (10085) is welded on the outer wall of the rotating rod (10084), and one side of the blade (10085) is fixedly connected with an arc-shaped water turning piece (10086).

9. The efficient heat exchange tea grinding cooler according to claim 1, wherein the water collecting assembly (11) comprises a connector (1101), a fixing rod (1102) and a supporting rod (1103), the connector (1101) is welded at the bottom of the V-shaped condensation top (1001), the fixing rod (1102) is connected to the inner side of the connector (1101) through threads, and the supporting rod (1103) is fixedly connected to the outer wall of the water outlet pipe (1002).

10. The efficient heat exchange tea grinding cooler according to claim 9, wherein the water collecting assembly (11) further comprises a receiving basin (1104), the receiving basin (1104) is covered on the outer side of the fixing rod (1102) through the supporting rod (1103), one end of the supporting rod (1103) is connected with the outer wall of the fixing rod (1102) in a welding mode, the other end of the supporting rod (1103) is connected with the inner surface of the receiving basin (1104) in a welding mode, and meanwhile the fixing rod (1102), the supporting rod (1103) and the first water tank (1004) form an integrated structure.