CN101744352B - Vegetable dehydrator with elastic dialing mechanism - Google Patents

Abstract

The invention provides a vegetable dehydrator with an elastic dialing mechanism, comprising a tank body, transmission devices, conveying devices, far infrared radiation devices and guide rails, wherein a set of conveying device driven by the transmission devices is arranged in each layer of drying tank, each conveying chain plate is supported on each guide rail to form a groove-shaped material channel, each far infrared radiation device is arranged above each channel, material guiding grooves are arranged below the tail ends of the channels, the top of the tank body is provided with a material inlet, and the bottom of the tank body is provided with a material outlet. The vegetable dehydrator is characterized in that the conveying device in each layer is provided with an elastic dialing mechanism between two conveying chain wheels, both ends of a pin shaft provided with a rolling body are fixed on a U-shaped frame, one end of a telescopic rod, having a large diameter, is fixed at the outer side of the bottom of the U-shaped part, the small end of the telescopic rod, which is sleeved with a spring at the outside, is inserted in a small hole in the outer vertical wall of a support and is fixed through nuts, a spacing plate is clamped between the two nuts through the other nut, and one side face of the spacing plate is attached with the plane on the groove bottom of the support. The vegetable dehydrator can ensure the alternative conversion of each conveying chain plate and reliably turn over blanks.

Description

The vegetable dehydrator of band elasticity driving plate structure

Technical field

The present invention provides a kind of vegetable dehydrator with the elasticity driving plate structure, specifically is the device that utilizes far infrared radiation and hot blast that vegetables are dehydrated.

Background technology

At present, the domestic dewatering vegetable dried forms that generally adopts is that hot air convection is dry.In order to guarantee rate of drying, hot blast temperature is again under normal pressure, to carry out drying generally all than higher in addition, because oxidation is easy to cause nutritional labelings such as organic substance and Vc in the vegetables to lose in a large number.Simultaneously, too high temperature also can make material surface form duricrust, and that hinders internal moisture moves evaporation outward.If reduce air themperature, then rate of drying slows down, and drying time is longer.Not only can not guarantee product quality, and greatly reduce production efficiency.Simultaneously, also can cause the color and luster variation of dry vegetalbe, loss of nutritional ingredients is serious, and class reduces.Therefore, only adopt the hot air convection mode to carry out drying and the dry vegetalbe that obtains, can not satisfy the quality requirement of people dehydrated vegetables.With regard to production process, adopt the hot air convection mode that vegetables are carried out drying, belong to typical labor-intensive production, remove the base of a fruit, remove seed from vegetables, to dry vegetalbe go-no-go, packing, whole process of production manual operations link is many, production efficiency is low.In a word; The dewatering vegetable industry is existing only adopts the hot air convection drying mode of hot blast as thermal source; Exist the energy consumption height, link hand-manipulated is many, production efficiency is low, sanitary condition is poor, and the loss of nutritional ingredients of dry vegetalbe is serious; Shade deviation, problem such as of low grade, its market competitiveness worse and worse.

To the problems referred to above, have at present and utilize far infrared heating technology the report that vegetables dehydrate, think and utilize the far infrared heating technology drying vegetables, help reducing the particularly loss of Vc of nutrition in the vegetables, improve the quality of dry vegetalbe.In addition; We have also developed first generation far infrared vegetable dewaterer voluntarily in 2004; Evidence, this equipment have that rate of drying is fast, heat transfer efficiency is high, energy consumption is low, pollution-free, dry vegetalbe quality better, and are easy to realize advantage such as control automatically; And authorized national inventing patent, the patent No. is: ZL 200410023973.3.After air inducing and mode of heating improvement, authorized new national inventing patent and utility model patent again respectively, the patent No. is: ZL 200610042375.X and ZL 200620082943.4.Can not the overturn phenomenon of blanking of some transporting chain plate appears often but vegetable dehydrator is in service; Through thinking that main cause is each transporting chain plate that constitutes the flute profile material channel; Fail to guarantee that at its overlapped place the transporting chain plate of back is pressed in above the transporting chain plate of front; When causing each transporting chain plate upset blanking thus, the transporting chain plate of back has hindered the normal upset of front transporting chain plate.Transporting chain plate is " preceding pressure back " or " before the pressure of back " in its mutual alignment relation of overlapping; Be to guarantee in time to overturn the key of blanking; And cause the basic reason of " preceding press back " or " back press before "; When being transporting chain plate through the transportation sprocket switching-over, whether position, the left and right sides relation of its forward and backward transporting chain plate has successfully implemented trade-off.After this problem improvement, authorized new china national practical new-type patent again, the patent No. is: ZL200620081054.6.But, find the part transporting chain plate blanking that still can not normally overturn through further test.Trace it to its cause, the patent No. is the driving plate structure that ZL200620081054.6 provided, and its rolling element is fixed with respect to the position of transportation sprocket, and promptly the rolling element cylindrical is tangent with the pitch circle of transportation sprocket all the time.Therefore, the angle of stirring transporting chain plate swing is big inadequately, causes the part transporting chain plate still can not trade-off.

Take a broad view of dewatering vegetable industry present situation, be badly in need of a kind of each transporting chain plate and all can implement trade-off, accurate, the reliable dewatering vegetable drying equipment of upset blanking of position relation.

Summary of the invention

The purpose of this invention is to provide a kind ofly can overcome that above-mentioned defective, rate of drying are fast, the vegetable dehydrator of dry vegetalbe quality better, reliable operation.

Its technical scheme is: comprise drying box, transmission device, transport, far infrared radiation device and guide rail, wherein the drying box inner route clapboard is horizontally partitioned into multilayer, and one group of transport by the actuator drives running all is set in every layer; Transport comprises transporting chain plate, chain and transportation sprocket, and the equal support of the transporting chain plate of transport two sections is on guide rail and constitute the flute profile material channel, and each passage top is provided with the far infrared radiation device; The below of channel end is provided with deflector chute, and the top of drying box is provided with charging aperture, and the bottom is provided with discharging opening; It is characterized in that: be provided with the elasticity driving plate structure between two transportation sprockets of every layer of transport, comprise rolling element, bearing pin, U-shaped frame, expansion link, nut, spring, limiting plate and be fixed in the support on the drying box inwall, the top of support is flute profile; Outer upright wall is near the inner surface of drying box end; The parallel axes of inside and outside wall and transportation sprocket, inside and outside wall are respectively processed the axis circular hole vertical with wall, and the hole on the coaxial and interior wall in two holes is greater than the hole on the outer upright wall; The two ends that the bearing pin of rolling element is housed are fixed on the U-shaped frame through nut; Bearing pin axis and transportation sprocket parallel axes, the bottom outside of U-shaped frame is fixed in the end of the bigger end of expansion link diameter, expansion link axis and bearing pin axis normal; After the expansion link small end of outside cover upper spring passes the macropore of wall in the support; Make that little, major diameter two parts of expansion link are inserted in respectively that support is outer, in little, the macropore on the interior wall, and fix through nut, another nut is clipped in limiting plate between two nuts; One side of limiting plate and bearing pin parallel axes, and with the bottom land of support on the plane fit.

The vegetable dehydrator of described band elasticity driving plate structure; Near the transportation sprocket place two cover elasticity driving plate structures are set between two transportation sprockets of every layer of transport; The bearing pin axis of two cover elasticity driving plate structures overlaps under free state, and the rolling element cylindrical protrudes in the circumference that the baffle part width sum by the pitch diameter of transportation sprocket and transporting chain plate constituted.

The vegetable dehydrator of described band elasticity driving plate structure; Near the transportation sprocket place one cover elasticity driving plate structure is set between two transportation sprockets of every layer of transport, and the rolling element cylindrical protrudes in the circumference that the baffle part width sum by the pitch diameter of transportation sprocket and transporting chain plate constituted.

The vegetable dehydrator of described band elasticity driving plate structure; Two cover elasticity driving plate structures are set between two transportation sprockets of every layer of transport; The bearing pin axis of two cover elasticity driving plate structures overlaps under free state, and the rolling element cylindrical protrudes in the pitch circle of transportation sprocket.

The vegetable dehydrator of described band elasticity driving plate structure one cover elasticity driving plate structure is set between two transportation sprockets of every layer of transport, and the rolling element cylindrical protrudes in the pitch circle of transportation sprocket.

The vegetable dehydrator of described band elasticity driving plate structure, rolling element are a roller, and the inner hole sleeve of roller is contained on the bearing pin.

The vegetable dehydrator of described band elasticity driving plate structure, rolling element is a rolling bearing, rolling bearing is fixedly mounted on the bearing pin.

The vegetable dehydrator of described band elasticity driving plate structure, casing is provided with heat-insulation layer, and the top is equipped with blower fan.

Its operation principle is: the present invention is on the technical foundation of ZL 200410023973.3, ZL 200610042375.X, ZL 200620082943.4 and ZL200620081054.6 in the patent No.; Set up the elasticity driving plate structure; After certain transporting chain plate runs to the enforcement upset blanking of ending; The link sections that drives this transporting chain plate in the chain just gets into and the transportation sprocket engagement stage, after the transportation sprocket switching-over, gets into another section continuation support, convey materials again.Transporting chain plate is positioned at the transportation sprocket center when following, and the transporting chain plate of front is positioned at the left side of back transporting chain plate.When making transporting chain plate get into next section, can guarantee " back press before " and successfully implement the upset blanking, transporting chain plate runs to the transportation sprocket center when above, and the transporting chain plate of front should be positioned at the right side of transporting chain plate at the back.But because the transporting chain plate width is slightly larger than the chain pitch, cause transporting chain plate to have certain lap, exactly because also forward and backward transporting chain plate overlapped hindered its left and right sides trade-off.Present technique has been set up the elasticity driving plate structure between driven end two transportation sprockets of transport after; When each transporting chain plate runs to its baffle edge contact resilient driving plate structure; Because the rolling element of elasticity driving plate structure can protrude in the circumference that the baffle part width sum by the pitch diameter of transportation sprocket and transporting chain plate constituted; Therefore will stir bigger angle of this sheet transporting chain plate swing, thoroughly eliminate overlapped with the front transporting chain plate; Or transporting chain plate is when running to its plate face contact resilient driving plate structure; Because the rolling element of elasticity driving plate structure can protrude in the pitch circle of transportation sprocket; Therefore will stir bigger angle of this sheet transporting chain plate swing, thoroughly eliminate overlapped with the front transporting chain plate.Like this, can make the transporting chain plate of front can successfully carry out the transition to the right side of this sheet transporting chain plate, guarantee the left and right sides trade-off of forward and backward transporting chain plate.

The present invention compared with prior art; Be to have set up the elasticity driving plate structure on the technical foundation of ZL 200410023973.3, ZL 200610042375.X, ZL 200620082943.4 and ZL200620081054.6 in the patent No.; When each transporting chain plate is commutated at driven end transportation sprocket place; Can successfully implement the left and right sides trade-off of forward and backward transporting chain plate; This concerns the position accurately to guarantee " back is pressed preceding " all arranged each transporting chain plate overlapping, makes the upset blanking smooth, thereby has improved the operational reliability of existing vegetable dehydrator greatly.

Description of drawings

Fig. 1 is the structure principle chart of the embodiment of the invention.

Fig. 2 is the local amplification view of I embodiment illustrated in fig. 1.

Fig. 3 is an A-A cutaway view embodiment illustrated in fig. 2.

Fig. 4 is the A-A cutaway view of another embodiment shown in Figure 2.

Fig. 5 is an elastic dialing plate mechanism structure schematic diagram embodiment illustrated in fig. 1.

Fig. 6 is the local amplification view of the I of another embodiment shown in Figure 1.

Fig. 7 is a B-B cutaway view embodiment illustrated in fig. 6.

Fig. 8 is the B-B cutaway view of another embodiment shown in Figure 5.

Fig. 9 is a transporting chain plate splicing sketch map embodiment illustrated in fig. 1.

Figure 10 is the local amplification view of the I of another embodiment shown in Figure 1.

Figure 11 is a C-C cutaway view embodiment illustrated in fig. 10.

Figure 12 is the C-C cutaway view of another embodiment shown in Figure 10.

Figure 13 is the elastic dialing plate mechanism structure schematic diagram of another embodiment shown in Figure 1.

Figure 14 is the local amplification view of the I of another embodiment shown in Figure 1.

Figure 15 is a D-D cutaway view embodiment illustrated in fig. 14.

Figure 16 is the D-D cutaway view of another embodiment shown in Figure 14.

The specific embodiment

1, drying box 2, transmission device 3, far infrared radiation device 4, guide rail 5, dividing plate 6, transporting chain plate 7, chain 8, transportation sprocket 9, deflector chute 10, charging aperture 11, discharging opening 12, bearing pin 13, U-shaped frame 14, expansion link 15, nut 16, spring 17, limiting plate 18, support 19, roller 20, rolling bearing 21, heat-insulation layer 22, blower fan.

In Fig. 1 ~ 3,5, the embodiment shown in 9: the top of drying box 1 is provided with charging aperture 10; The bottom is provided with discharging opening 11; Drying box 1 inner route clapboard 5 is horizontally partitioned into multilayer; All be provided with one group in every layer and drive the transport of running by transmission device 2, transporting chain plate 6 supports of transport are on guide rail 4 and constitute the flute profile material channel, and each channel end is provided with a deflector chute 9.When transporting chain plate 6 is delivered to deflector chute 9 places together with material; Because of before guide rail 4 terminates in deflector chute 9; Transporting chain plate 6 loses supporting suddenly and overturns; Material is fallen in lower floor's flute profile material channel along deflector chute 9 thereupon, and the transporting chain plate 6 below the deflector chute 9 relies on guide rail 4 to form the flute profile material channel herein again, and each passage top is provided with far infrared radiation device 3.Be equipped with two cover elasticity driving plate structures between two transportation sprockets 8 in every layer of drying box; Every cover comprises roller 19, bearing pin 12, U-shaped frame 13, expansion link 14, nut 15, spring 16, limiting plate 17 and is fixed in the support 18 on drying box 1 inwall; The top of support 18 is flute profile, and outer upright wall is near the inner surface of drying box 1 end, the parallel axes of interior outer upright wall and transportation sprocket 8; Inside and outside wall is respectively processed the axis circular hole vertical with wall; Hole on the coaxial and interior wall in two holes is greater than the hole on the outer upright wall, and the two ends that are set with the bearing pin 12 of roller 19 are fixed on the U-shaped frame 13 through nut 15, bearing pin 12 axis and transportation sprocket 8 parallel axes; The bottom outside of U-shaped frame 13 is fixed in the end of the bigger end of expansion link 14 diameters; Expansion link 14 axis and bearing pin 12 axis normal after expansion link 14 small ends of outside cover upper spring 16 pass the macropore of walls in the support 18, make that little, major diameter two parts of expansion link 14 are inserted in respectively that support is 18 outer, in little, the macropore on the interior wall; And it is fixing through nut 15; Another nut 15 is clipped in limiting plate 17 between two nuts 15, a side of limiting plate 17 and the parallel axes of bearing pin 12, and with the bottom land of support 18 on the plane fit.Present technique is provided with two cover elasticity driving plate structures near transportation sprocket 8 places between two transportation sprockets 8 of transport; Bearing pin 12 axis of two cover elasticity driving plate structures overlap under free state, and the cylindrical of roller 19 protrudes in the circumference that the baffle part width sum by the pitch diameter of transportation sprocket 8 and transporting chain plate 6 constituted.When each transporting chain plate 6 runs to the roller 19 of its baffle edge contact resilient driving plate structure; Roller 19 is stirred bigger angle of these sheet transporting chain plate 6 swings; Thoroughly eliminated overlapped with front transporting chain plate 6; Thereby the transporting chain plate 6 that makes the front successfully carries out the transition to the right side of this sheet transporting chain plate 6, has realized the left and right sides trade-off of forward and backward transporting chain plate 6, and this concerns the position accurately to guarantee " back is pressed preceding " all arranged each transporting chain plate 6 overlapping; Make the upset blanking smooth, thereby improved the operational reliability of existing vegetable dehydrator greatly.

In the embodiment shown in fig. 4: near transportation sprocket 8 places one cover elasticity driving plate structure is set between two transportation sprockets 8 of every layer of transport, and the cylindrical of roller 19 protrudes in the circumference that the baffle part width sum by the pitch diameter of transportation sprocket 8 and transporting chain plate 6 constituted.

In Fig. 6, the embodiment shown in 7: two cover elasticity driving plate structures are set between two transportation sprockets 8 of every layer of transport; Two bearing pin 12 axis that are set with roller 19 overlap under free state, and the cylindrical of roller 19 protrudes in the pitch circle of transportation sprocket 8.When each transporting chain plate 6 ran to the roller 19 of its plate face contact resilient driving plate structure, roller 19 was stirred bigger angle of this sheet transporting chain plate 6 swings, had thoroughly eliminated overlapped with front transporting chain plate 6.

In the embodiment shown in fig. 8: a cover elasticity driving plate structure is set between two transportation sprockets 8 of every layer of transport, and the cylindrical of roller 19 protrudes in the pitch circle of transportation sprocket 8.

In Figure 10,11, the embodiment shown in 13: the two ends that the bearing pin 12 of rolling bearing 20 fixedly is housed are fixed on the U-shaped frame 13 through nut 15; Near transportation sprocket 8 places two cover elasticity driving plate structures are set between two transportation sprockets 8 of every layer of transport; Bearing pin 12 axis of two cover elasticity driving plate structures overlap under free state, and the cylindrical of rolling bearing 20 protrudes in the circumference that the baffle part width sum by the pitch diameter of transportation sprocket 8 and transporting chain plate 6 constituted.

In the embodiment shown in fig. 12: near transportation sprocket 8 places one cover elasticity driving plate structure is set between two transportation sprockets 8 of every layer of transport, and the cylindrical of rolling bearing 20 protrudes in the circumference that the baffle part width sum by the pitch diameter of transportation sprocket 8 and transporting chain plate 6 constituted.

In Figure 14, the embodiment shown in 15: two cover elasticity driving plate structures are set between two transportation sprockets 8 of every layer of transport; Two bearing pin 12 axis that rolling bearing 20 fixedly is housed overlap under free state, and the cylindrical of rolling bearing 20 protrudes in the pitch circle of transportation sprocket 8.

In the embodiment shown in Figure 16: a cover elasticity driving plate structure is set between two transportation sprockets 8 of every layer of transport, and the cylindrical of rolling bearing 20 protrudes in the pitch circle of transportation sprocket 8.

Claims (1)

1. vegetable dehydrator with the elasticity driving plate structure; Comprise drying box (1), transmission device (2), transport, far infrared radiation device (3) and guide rail (4); Wherein drying box (1) inner route clapboard (5) is horizontally partitioned into multilayer, all is provided with one group in every layer and drives the transport of running by transmission device (2), and transport comprises transporting chain plate (6), chain (7) and transportation sprocket (8); The transporting chain plate of transport two sections (6) all support is gone up and formation flute profile material channel at guide rail (4); Each passage top is provided with far infrared radiation device (3), and the below of channel end is provided with deflector chute (9), and the top of drying box (1) is provided with charging aperture (10); The bottom is provided with discharging opening (11); It is characterized in that: be provided with the elasticity driving plate structure between two transportation sprockets (8) of every layer of transport, comprise rolling element, bearing pin (12), U-shaped frame (13), expansion link (14), nut (15), spring (16), limiting plate (17) and be fixed in the support (18) on drying box (1) inwall, the top of support (18) is flute profile; Outer upright wall is near the inner surface of drying box (1) end; The parallel axes of inside and outside wall and transportation sprocket (8), inside and outside wall are respectively processed the axis circular hole vertical with wall, and the hole on the coaxial and interior wall in two holes is greater than the hole on the outer upright wall; The two ends that the bearing pin (12) of rolling element is housed are fixed on the U-shaped frame (13) through nut (15); Bearing pin (12) axis and transportation sprocket (8) parallel axes, the bottom outside of U-shaped frame (13) is fixed in the end of the bigger end of expansion link (14) diameter, expansion link (14) axis and bearing pin (12) axis normal; After expansion link (14) small end of outside cover upper spring (16) passes the macropore of the interior wall of support (18); Make that little, major diameter two parts of expansion link (14) are inserted in respectively that support (18) is outer, in little, the macropore on the interior wall, and fixing through nut (15), another nut (15) is clipped in limiting plate (17) between two nuts (15); One side of limiting plate (17) and bearing pin (12) parallel axes, and with the bottom land of support (18) on the plane fit.

2, the vegetable dehydrator of band elasticity driving plate structure as claimed in claim 1; It is characterized in that: locate to be provided with two cover elasticity driving plate structures near transportation sprocket (8) between two transportation sprockets (8) of every layer of transport; Bearing pin (12) axis of two cover elasticity driving plate structures overlaps under free state, and the rolling element cylindrical protrudes in the circumference that the baffle part width sum by the pitch diameter of transportation sprocket (8) and transporting chain plate (6) constituted.

3, the vegetable dehydrator of band elasticity driving plate structure as claimed in claim 1; It is characterized in that: locate to be provided with a cover elasticity driving plate structure near transportation sprocket (8) between two transportation sprockets (8) of every layer of transport, and the rolling element cylindrical protrudes in the circumference that the baffle part width sum by the pitch diameter of transportation sprocket (8) and transporting chain plate (6) constituted.

4, the vegetable dehydrator of band elasticity driving plate structure as claimed in claim 1; It is characterized in that: two cover elasticity driving plate structures are set between two transportation sprockets (8) of every layer of transport; Bearing pin (12) axis of two cover elasticity driving plate structures overlaps under free state, and the rolling element cylindrical protrudes in the pitch circle of transportation sprocket (8).

5, the vegetable dehydrator of band elasticity driving plate structure as claimed in claim 1 is characterized in that: a cover elasticity driving plate structure is set between two transportation sprockets (8) of every layer of transport, and the rolling element cylindrical protrudes in the pitch circle of transportation sprocket (8).

6, the vegetable dehydrator of band elasticity driving plate structure as claimed in claim 1 is characterized in that: rolling element is a roller (19), and the inner hole sleeve of roller (19) is contained on the bearing pin (12).

7, the vegetable dehydrator of band elasticity driving plate structure as claimed in claim 1 is characterized in that: rolling element is a rolling bearing (20), and rolling bearing (20) is fixedly mounted on the bearing pin (12).

8, the vegetable dehydrator of band elasticity driving plate structure as claimed in claim 1 is characterized in that: casing (1) is provided with heat-insulation layer (21), and the top is equipped with blower fan (22).

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