CN207751293U - Novel tea dries equipment - Google Patents

Abstract

The utility model discloses novel teas to dry equipment, water tank, water inlet pipe, tea drier, disk including flat-plate solar collector, connection flat-plate solar collector are located at heat-transfer pipe and circulating water pipe on tea drier, first water inlet of the water outlet connection water tank of flat-plate solar collector, the water outlet of water tank connects the water inlet of heat-transfer pipe by water inlet pipe, the water inlet of the water outlet connection circulating water pipe of heat-transfer pipe, the second water inlet of the water outlet connection water tank of circulating water pipe；Tea drier includes horizontal positioned and cylindrical Drying, pushing screw rod, in pushing screw rod and spiral pusher blade and the screw motor positioned at Drying first end, heat transfer pipe dish are located on the outer wall of Drying.The utility model using the above structure, converts solar energy into thermal energy and is transferred thermal energy to by heat-transfer pipe and realize that drying tealeaves, environmental protection and energy saving improve energy utilization rate inside Drying.

Description

Novel tea dries equipment

Technical field

The utility model is related to tea-processing equipment technical fields, and in particular to novel tea dries equipment.

Background technology

Tealeaves processing generally comprises fresh leaf processing, water-removing, manage bar, bakes and pick and pick technique.Bake includes just drying and drying again. It is important operational sequence in green tea production to bake Titian, generally completed in tea drier, and thermal energy carries in the prior art It is not environmentally friendly enough for still relying on electric energy and coal gas etc., it is of high cost.And existing tea drier due to capacity it is effective, between needing Having a rest property realizes the charging blowing of tealeaves, cannot achieve the continuous drying of high-volume tealeaves, influences the drying efficiency of tealeaves.

Utility model content

The purpose of this utility model is that disclosing novel tea drying equipment, it is more to solve drying course energy consumption, It is not environmentally friendly enough, the problem of cannot achieve the continuous drying of high-volume tealeaves.

In order to achieve the above objectives, the utility model adopts the following technical solution：

Novel tea dries equipment, including flat-plate solar collector, the water tank for connecting flat-plate solar collector, water inlet Pipe, tea drier, disk are located at heat-transfer pipe and circulating water pipe on tea drier, and the water outlet of flat-plate solar collector connects First water inlet of water receiving case, the water outlet of water tank connect the water inlet of heat-transfer pipe by water inlet pipe, and the water outlet of heat-transfer pipe connects Connect the water inlet of circulating water pipe, the second water inlet of the water outlet connection water tank of circulating water pipe；Tea drier is put including level Set and cylindrical Drying, pushing screw rod, be set to pushing screw rod on and spiral pusher blade and be located at Drying The screw motor of first end, heat transfer pipe dish are located on the outer wall of Drying；Pushing screw rod is located in Drying and same with Drying Axis coordinates, and the first end of screw motor connection pushing screw rod simultaneously drives pushing screw rod to be rotated in Drying.

Further, the top of the Drying first end is equipped with tea inlet port, and the bottom of Drying second end is equipped with tea outlet, The position that tea outlet is located at and the second end of the pushing screw rod coordinates

Further, the major diameter fit of the internal diameter of the Drying and the pusher blade.

Further, the Drying includes inner cylinder, outer barrel and thermal insulation layer, and the heat transfer pipe dish is located on the outer wall of inner cylinder, And heat-transfer pipe is set between inner barrel and outer barrel, thermal insulation layer fills the gap between inner barrel and outer barrel.

Further, the heat-transfer pipe is affixed by laser welding process and the inner cylinder, heat-transfer pipe and inner cylinder link position Place is equipped with heat-conducting glue.

Further, the flat-plate solar collector includes shell, the Fresnel Lenses cover board equipped with Fresnel Lenses, sets In snakelike thermal-collecting tube and reflecting assembly in shell, Fresnel Lenses cover board is set on shell and is covered in the upper of snakelike thermal-collecting tube Orientation is set, and the water outlet of snakelike thermal-collecting tube is the water outlet of the flat-plate solar collector.

Further, further include control device, the water inlet pipe is equipped with the first flow control for controlling the water inlet pipe break-make Valve, the circulating water pipe is equipped with the second flow control valve of control loop water pipe break-make, the flat-plate solar collector, described Screw motor, first flow control valve and second flow control valve are separately connected control device.

Compared with prior art, the beneficial effects of the utility model：

1, the utility model uses the structure of flat-plate solar collector, converts solar energy into thermal energy and passes through heat-transfer pipe It transfers thermal energy to and realizes drying tealeaves inside Drying, environmental protection and energy saving improve energy utilization rate, of low cost, and work of conducting heat Matter is water, can be by circulating water pipe by heating bakes bucket again after flat-plate solar collector Repeat-heating.Tea drier Using pushing screw rod structure, the continuous drying operation of tealeaves is realized, without shutting down charging blowing, work efficiency is high, in pusher spiral shell Advance of the tealeaves in drying inner cylinder is realized under the powerful motive force of bar, while being realized and being dried under the heating of hot water in heat-transfer pipe It is dry；Tealeaves can stir propulsion in time, good drying effect, efficient there is no drying dead angle, realize that tealeaves is successional on a large scale Dry operation.Molding is transformed in the utility model on existing tea drier, saves equipment production cost.

2, heat-transfer pipe is affixed by laser welding process and bucket ontology and is equipped with heat-conducting glue, increases heat-transfer pipe and the ontology that struggles against Contact area improves heat exchange efficiency.Control inner cylinder internal temperature and wet is carried out using temperature sensor and humidity sensor simultaneously It spends, temperature is uniform in entire inner cylinder.

Description of the drawings

In order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it should be apparent that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, before not making the creative labor property It puts, other drawings may also be obtained based on these drawings.

Fig. 1 is the structural schematic diagram of novel tea drying apparatus embodiments described in the utility model；

Fig. 2 is the section schematic elevation view of Fig. 1 middle plateform solar thermal collectors；

Fig. 3 is the schematic top plan view of Fig. 2.

In figure, 1- flat-plate solar collectors；11- shells；121- Fresnel Lenses；12- Fresnel Lenses cover boards；13- Snakelike thermal-collecting tube；131- rectilinear tubes；132- camber line pipes；14- reflecting assemblies；2- water tanks；3- water inlet pipes；4- tea driers；41- Drying；411- inner cylinders；412- outer barrels；413- thermal insulation layers；42- pushing screw rods；43- pusher blades；44- screw motors；45- into Tea mouth；46- tea outlets；5- heat-transfer pipes；6- circulating water pipes；7- first flow control valves；8- second flow control valves.

Specific implementation mode

The following will be combined with the drawings in the embodiments of the present invention, carries out the technical scheme in the embodiment of the utility model Clearly and completely describe, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole Embodiment.Based on the embodiments of the present invention, those of ordinary skill in the art are without creative efforts The every other embodiment obtained, shall fall within the protection scope of the present invention.

Embodiment novel tea as shown in Figure 1 to Figure 3 dries equipment, including flat-plate solar collector 1, connection tablet are too Water tank 2, water inlet pipe 3, tea drier 4, the disk of positive energy heat collector 1 are located at heat-transfer pipe 5, circulating water pipe 6 on tea drier 4 With control device (not shown), the first water inlet of the water outlet connection water tank 2 of flat-plate solar collector 1 simultaneously provides hot water extremely In water tank 2, the water outlet of water tank 2 connects the water inlet of heat-transfer pipe 5 by water inlet pipe 3, and the water outlet of heat-transfer pipe 5 connects recirculated water The water inlet of pipe 6, the second water inlet of the water outlet connection water tank 2 of circulating water pipe 6.Tea drier 4 include it is horizontal positioned and Cylindrical Drying 41, pushing screw rod 42 are set in pushing screw rod and spiral pusher blade 43 and positioned at drying The screw motor 44 of cylinder first end.Pushing screw rod 42 be located in Drying 41 and with 41 coaxial cooperation of Drying, Drying 41 The major diameter fit of internal diameter and pusher blade 43.The top of Drying first end is equipped with tea inlet port 45, the bottom of Drying second end Equipped with tea outlet 46.Screw motor 44 connects the first end of pushing screw rod 42 and drives pushing screw rod 42 in 41 inward turning of Drying Turn, the position that tea outlet 46 is located at and the second end of pushing screw rod 42 coordinates.5 disk of heat-transfer pipe is located on the outer wall of Drying 41.

Drying 41 includes inner cylinder 411, outer barrel 412 and thermal insulation layer 413, and 5 disk of heat-transfer pipe is located on the outer wall of inner cylinder 411, And heat-transfer pipe 5 is set between inner cylinder 411 and outer barrel 412, thermal insulation layer 413 fills the gap between inner cylinder 411 and outer barrel 412.It passes Heat pipe 5 is affixed by laser welding process and inner cylinder 411, (does not show equipped with heat-conducting glue at 411 link position of heat-transfer pipe 5 and inner cylinder Go out), increase the contact area of heat-transfer pipe 5 and inner cylinder 411, improves heat exchange efficiency.

Flat-plate solar collector 1 includes shell 11, the Fresnel Lenses cover board 12 equipped with Fresnel Lenses 121, is set to Snakelike thermal-collecting tube 13 in shell 11 and reflecting assembly 14, Fresnel Lenses cover board 12 are set on shell 11 and are covered in snakelike collection The top position of heat pipe 13.Snakelike thermal-collecting tube 13 includes rectilinear tubes 131 and camber line pipe 132, between the head and the tail of adjacent rectilinear tubes 131 It is connected by camber line pipe 132.The central axes of rectilinear tubes 131 are overlapped with the Fresnel Lenses focal line L of Fresnel Lenses cover board 12, Be equipped with the reflecting assembly 14 light being reflected into rectilinear tubes 31 between adjacent rectilinear tubes 131.The water outlet of snakelike thermal-collecting tube 13 For the water outlet of flat-plate solar collector 1, it is embodied as 2 hot-water supply of water tank；The water inlet of snakelike thermal-collecting tube 13 be tablet too The water inlet of positive energy heat collector 1.Flat-plate solar collector 1 is after water tank 2 provides hot water, and the hot water in water tank 2 flows to heat transfer Pipe 5, the tealeaves in heating, drying cylinder realize drying tealeaves.

Water inlet pipe 3 is equipped with the first flow control valve 7 of control 3 break-make of water inlet pipe, and circulating water pipe 6 is equipped with control loop water pipe The second flow control valve 8 of break-make, flat-plate solar collector 1, screw motor 44, first flow control valve 7 and second flow Control valve 8 is separately connected control device.

The present embodiment further includes temperature sensor (not shown) and humidity sensor (not shown), temperature sensor and humidity Sensor is set on the inner wall of inner cylinder 411, and temperature sensor and humidity sensor are separately connected controller.When work, temperature passes Temperature and humidity signal in inner cylinder 411 is transmitted to controller by sensor, humidity sensor, and controller controls screw rod electricity according to signal The present embodiment is realized in the operation of the rotating speed, flat-plate solar collector first flow control valve 7 and second flow control valve 8 of machine Automation processing tealeaves, completes entire drying course.

The other structures of the present embodiment are referring to the prior art.

The utility model is not limited to the above embodiment, if various changes or modifications to the utility model do not take off Spirit and scope from the utility model, if these modification and variations belong to the claims and equivalents of the utility model Within the scope of, then the utility model is also intended to include these modification and variations.

Claims (7)

1. novel tea dries equipment, it is characterized in that：Water including flat-plate solar collector, connection flat-plate solar collector Case, water inlet pipe, tea drier, disk are located at heat-transfer pipe and circulating water pipe on tea drier, flat-plate solar collector Water outlet connects the first water inlet of water tank, and the water outlet of water tank connects the water inlet of heat-transfer pipe by water inlet pipe, heat-transfer pipe Water outlet connects the water inlet of circulating water pipe, the second water inlet of the water outlet connection water tank of circulating water pipe；Tea drier packet Horizontal positioned and cylindrical Drying, pushing screw rod are included, is set in pushing screw rod and spiral pusher blade and position In the screw motor of Drying first end, heat transfer pipe dish is located on the outer wall of Drying；Pushing screw rod be located in Drying and and Drying coaxial cooperation, the first end of screw motor connection pushing screw rod simultaneously drive pushing screw rod to be rotated in Drying.

2. novel tea dries equipment according to claim 1, it is characterised in that：The top of the Drying first end is equipped with The bottom of tea inlet port, Drying second end is equipped with tea outlet, the position that tea outlet is located at and the second end of the pushing screw rod coordinates It sets.

3. novel tea dries equipment according to claim 1, it is characterised in that：The internal diameter of the Drying and the pusher The major diameter fit of blade.

4. drying equipment according to novel tea described in claims 1 to 3 any one, it is characterised in that：The Drying includes Inner cylinder, outer barrel and thermal insulation layer, the heat transfer pipe dish are located on the outer wall of inner cylinder, and heat-transfer pipe is set between inner barrel and outer barrel, every Thermosphere fills the gap between inner barrel and outer barrel.

5. novel tea dries equipment according to claim 4, it is characterised in that：The heat-transfer pipe passes through laser welding process It is affixed with the inner cylinder, heat-conducting glue is equipped at heat-transfer pipe and inner cylinder link position.

6. novel tea dries equipment according to claim 1, it is characterised in that：The flat-plate solar collector includes shell Body, the Fresnel Lenses cover board equipped with Fresnel Lenses, snakelike thermal-collecting tube and reflecting assembly in shell, Fresnel Lenses Cover board is set on shell and is covered in the top position of snakelike thermal-collecting tube, and the water outlet of snakelike thermal-collecting tube is the panel solar The water outlet of heat collector.

7. novel tea dries equipment according to claim 1, it is characterised in that：Further include control device, the water inlet pipe Equipped with the first flow control valve for controlling the water inlet pipe break-make, the circulating water pipe is equipped with the second of control loop water pipe break-make Flow control valve, the flat-plate solar collector, the screw motor, first flow control valve and second flow control valve point Control device is not connected.