CN102910414A - Conveyor belt conveying mechanism and device applying same - Google Patents

Abstract

The invention relates to a conveyor belt conveying mechanism and a device applying the same. The conveyor belt conveying mechanism comprises a conveyor belt, a guide rail, a drum and the like; the conveyor belt is provided with a tandem axle; and the drum is provided with a slideway. When the conveyor belt is positioned on the periphery of the drum, one end of the tandem axle can be matched with the slideway; the matching between the tandem axle and the slideway can ensure one end of the tandem axle to move on the slideway and can reliably ensure the tandem axle to rotate along with the drum so as to drive the conveyor belt to move on a passage consisting of the guide rail. The invention provides another conveyor belt and another conveying mechanism besides a conveyor belt and a conveying mechanism which transfer power by a friction force or are dragged by an external force. The conveyor belt conveying mechanism can be applied to conveying of articles on the conveyor belt and implements the linear, arc turning or screw conveying of the articles. If the conveyor belt conveying mechanism is provided with a storage body and quick-freezing equipment, cooling equipment, ventilating equipment, air duct equipment, defreezing equipment, heating equipment, baking equipment, drying equipment, cooking equipment, spraying equipment, cleaning equipment, checking equipment, detecting equipment, sterilizing or disinfecting equipment and the like are selectively arranged in the storage body, the articles can be subjected to corresponding machining or processing so as to implement the production line operation.

Description

A kind of tape transport mechanism and application apparatus thereof

Technical field

The present invention relates to tape transport mechanism and application apparatus thereof, load-transfer device and conveying mechanism are applicable to straight line, circular arc or spiral fashion and carry article, its application apparatus can also be processed the article of carrying, particularly be applicable to the continuous occasion of carrying and processing or processing of article is belonged to conveying machinery equipment technology field.

Background technology

Load-transfer device is a kind of form of conveying with straight line, circular arc or spiral-shaped article are carried.When in helical feed, can as plate-like, be layering owing to load-transfer device, it has advantages of that floor area is little for simple straight line is carried, if be applied in some devices then can make the volume-diminished of device, the degree of utilization in place is high, such as screw fast refreezer, screw dryer etc.Load-transfer device carries mechanism and the principle that article were adopted normally to include a rotating cylinder that sways with straight line and spiral fashion in the known technology, one side panel of load-transfer device around and urgent wall at rotating cylinder on, rotating cylinder is given load-transfer device transmission of power by friction force, rotating cylinder is provided with static with spiral-shaped guide rail around rotating cylinder outward, load-transfer device is placed on the guide rail, relies on the friction force of a side (namely inboard) can drive load-transfer device and does spiral (dish rises or dish falls) motion at guide rail.The handlebar load-transfer device is placed on the method that drags on the static helical track in addition.The load-transfer device of front a kind of known technology and conveying mechanism are as shown in Figure 2, by load-transfer device 1, guide rail 2, rotating cylinder 3, swelling device 4, frame 5, the compositions such as driver train 6 and rotating drum shaft 7, take screw fast refreezer as example, the netted zone face 13 of its load-transfer device 1 general employing, as shown in Figure 3, the spaced string axle 11 of horizontal string in the guipure, two ends of every string axle also claim water chestnut with chain 1 and chain two 12(of guipure two sides respectively) welding, and at the outside of chain formation pressure head and solder joint, it is the same in cup head 20 and the load-transfer device two side shapes of string shaft diameter that solder joint is welded on the carrier bar pressure head and string axle to form a slightly larger in diameter together, this cup head along on the direction of carrying zone face with the shape of solder joint, surperficial arc to the carrier bar of cup head and solder joint forms smooth curved surfaces 45.For fear of in use its edge and rotating cylinder generation friction scratch of load-transfer device, adopt the moulding of automation high frequency, and all welding pressure head surfaces are polished, smooth smooth with keep the edge information, cover toward contact on the outside face of rotating cylinder nylon with improve with belt edges between contact and friction, so manufacture difficulty is high, complicated structure.Because load-transfer device has been uploaded goods, make the screw motion normal operation, need to there be enough friction force to produce and driving, also namely need to have enough frictional areas and positive pressure, so the face area of rotating cylinder needs enough greatly in the practical application, and need to be provided with the swelling device 4 of having relatively high expectations in belt system, and load-transfer device is carried out swelling and often will keep a close eye on and adjust its swelling degree, to control positive pressure in rational scope, therefore the requirement of operational administrative is also higher.On the other hand, the mode of utilizing friction-driven is the inboard that by rotating cylinder motion is passed to first load-transfer device, transmit the motion to load-transfer device and the outside thereof by the load-transfer device inboard again, because pass order has successively, the existence of the many factors such as friction on the load-transfer device between the impact of load and load-transfer device and the guide rail, can easily produce in actual use the asynchronous of the interior movement outside of load-transfer device, the rotation in the outside is stable not as inboard, make bumpy motion, reliability is low, the inboard oppressed of load-transfer device lacks degree of freedom upwards in drum wall, cause the being in operation outside of load-transfer device might be started to make and carried with flat appearance inclination or peviform that becomes, sometimes also can cause the upset of conveyer belt surface, produce serious consequence.So in the application apparatus of reality, generally be that the radius (R) of rotating cylinder carries bandwidth (W) narrower greatly.Take screw fast refreezer as example, the increase of rotating cylinder radius namely is the floor area that has increased instant freezer as still, high material consumption, and wind is easily walked short circuit simultaneously, and the utilization of cold wind is not high, increases energy consumption, has affected the performance of instant freezer.

Summary of the invention

The object of the present invention is to provide except relying on frictional force drives or with another kind of tape transport mechanism and application apparatus thereof the method that drags, can carry out straight line, circular arc or spiral-shaped conveying to article, load-transfer device keeps making synchronously motion more reliable and steady, simplified structure and make the radius of curvature of load-transfer device less, and realize better application apparatus.

In order to realize above-mentioned purpose, the present invention adopts following scheme:

A kind of tape transport mechanism and application apparatus thereof, comprise load-transfer device, guide rail and rotating cylinder etc., at load-transfer device the string axle is arranged, be provided with slideway at rotating cylinder, when load-transfer device was in rotating cylinder peripheral, an end of string axle can form with slideway and cooperate, and the end that this cooperation can make the string axle is mobile and the string axle is rotated with slideway at slideway, thereby driving conveying belt moves at the passage that is comprised of guide rail, guarantees to carry motion reliable and steady.

The cooperation that one end of described string axle and slideway form is that slit or groove and flange match, flange stretches among slit or groove, the end of axle of namely referring to go here and there is provided with groove, slideway is flange, the end of axle of perhaps referring to go here and there is flange, and slideway is slit or groove, and what there was the end inside is groove, bottomless is the slit, and the shape of load-transfer device two sides is different.

Can overlap on one end of described string axle has axle sleeve or is provided with convex shoulder or cover has axle sleeve and be provided with convex shoulder, in order to gain in strength, locate or reduce friction and wear and tear.

In the cooperation that an end of described string axle and slideway form, one end and the slideway of string axle have two contact points at least when motion, and this contact point can be clipped in an end of string axle or slideway wherein and force the string axle to rotate synchronously with slideway.

Described load-transfer device can be crooked; the unit that load-transfer device is comprised of zone face and string axle etc. links up and forms; zone face refers to the zone between the adjacent string axle of load-transfer device; maybe can be provided with metal, cloth, rubber or the plastics such as nylon, plastic-steel in this zone; can to be three unit linking to each other be pulled open in chain one side bend mode and squeeze to the unit of centre in the unit on its two limit of chain two sides or nested; make it mutually to draw close; wherein the unit on two limits is opposed each other, and the relative position of axle and zone face of namely going here and there is inconsistent.

The inflow point in described groove or slit is provided with the transition region that enters smoothly of an end that can make the string axle, and one side of this transition region or two limits can be to tilt or arc shape, can be vertically or radial arrangement.

Also comprise the storehouse body, quick-frozen or cooling or ventilation or air channel can also be set in the body of storehouse selectively or thaw or heating or baking or drying or boiling or smoke or spray or clean or check or detect or the equipment of sterilization or sterilization etc.

Described storehouse body can heat-insulation and heat-preservation, and with observing or the door of maintenance.

Described guide rail is provided in a side of a side of load-transfer device or is provided in a side of respectively two sides of load-transfer device, and the cross-sectional plane of guide rail is L-shaped, and wherein a perpendicular side bumper is in the side of load-transfer device, and the another side holder is below load-transfer device.

Described load-transfer device is by zone face, string axle, chain one and chain is second-class forms, and chain two or chain one and chain two are comprised of chain part, and adjacent chain part can be mutually nested.

After the present invention adopts such scheme, not to rely on friction force to come transferring power between rotating cylinder and the load-transfer device, but come transferring power by the cooperation of slideway and string shaft end.Two contact points are clipped in string axle (or slideway) and wherein force the string axle directly to rotate synchronously with slideway, have overcome the uncertain problem of synchronism of the interior movement outside of load-transfer device in the prior art.Rotating cylinder can effectively drive the string axle and do to rotate synchronously so that operate steadily in the interior outside of string axle and load-transfer device, avoids perk or the upset of load-transfer device.Because load-transfer device does not need to compress rotating cylinder, thus the swelling measure in the mechanism also be simplified, only be after load-transfer device is lax, automatically do some just adjust can, the difficulty of its operational administrative also decreases.Because the difference of conveyer belt structure just can be dwindled the radius of curvature of the diameter of rotating cylinder and load-transfer device, save the space simultaneously, saved material.

Design such as the transition region on the axle sleeve on the string axle, convex shoulder, the slideway or guide rail etc. of the present invention is the measure that further improves load-transfer device and conveying mechanism effect.This load-transfer device and conveying mechanism can be used in conjunction with the storehouse body of storehouse body or heat-insulation and heat-preservation, can also in the body of storehouse, be provided with selectively quick-frozen, cooling, ventilate, thaw, drying, heating, baking, boiling, smoke, spray, clean, check, detect, the equipment such as sterilization or sterilization or be aided with again the supplementary structure in rational air channel etc., can realize corresponding good application apparatus.As adding heat-preservation warehouse body and reduced volume and can reduce loss of refrigeration capacity as example being applied in the instant freezer, after the diameter of rotating cylinder diminishes, not only can save the place and save material, and operation can be more steadily reliable.

The invention will be further described below in conjunction with the drawings and specific embodiments.

Description of drawings

Fig. 1 is the structural representation of a kind of load-transfer device of the present invention, guide rail, slideway and rotating cylinder;

Fig. 2 is the schematic diagram of a kind of tape transport mechanism;

Fig. 3 is the planar view of existing a kind of load-transfer device when being in linear portion;

Fig. 4 is the planar view of existing a kind of load-transfer device when being in circular arc or spiral section;

Fig. 5 is the sketch of Fig. 4;

Fig. 6 is the planar view of a kind of load-transfer device of the present invention when being in linear portion;

Fig. 7 is the planar view of another kind of load-transfer device of the present invention when being in circular arc or spiral section;

Fig. 8 is the sketch of Fig. 7;

Fig. 9 is the front view of a kind of rotating cylinder of the present invention;

Figure 10 is a kind of structural representation of screw fast refreezer;

Figure 11 is the planar view of a kind of load-transfer device of the present invention, guide rail, slideway and rotating cylinder;

Figure 12 is a kind of schematic diagram that axle and slideway match of going here and there of the present invention;

Figure 13 is a kind of schematic diagram that matches with string axle and the slideway of sleeve and convex shoulder of the present invention;

Figure 14 is the schematic diagram that another kind of string axle of the present invention and slideway match.

The specific embodiment

As shown in Figure 1, the present invention includes load-transfer device 1, guide rail 2 and rotating cylinder 3 etc.Load-transfer device 1 is comprised of zone face 13, string axle 11, chain 1 and chain 2 12 etc.Zone face 13 refers to the zone between the adjacent string axle 11 on the load-transfer device 1, wherein can be provided with metal, cloth, rubber or the plastics such as nylon, plastic-steel, but can not establish (such as Fig. 6) yet, the meshwork that the zone face 13 among Fig. 1 is comprised of stainless steel wire, string axle 11 crosses zone face 13 and is spaced.Rotating cylinder 3 is tubular articles, can rotate, and is provided with on its outer surface the slideway 8 of arranging along the circle spacing.Slideway 8 is vertical bars, is provided with groove 9.The outer surrounding of rotating cylinder 3 and slideway 8 static screw-shaped guide rail 2, and load-transfer device 1 is on guide rail 2 and removable.When load-transfer device 1 was in rotating cylinder 3 peripheral, an end 18 of string axle 11 can form with slideway 8 and cooperate and can be mobile at slideway 8.Slideway 8 can drive string axle 11 and rotate, thereby string axle 11 driving conveying belts 1 are moved at the passage that is comprised of guide rail 2.

One end 18 of string axle 11 can stretch in the slit 46 of the groove 9 of Fig. 1 or Figure 12, forms with it to cooperate and can move in groove 9 or slit 46, and it is the end of string axle 11 close rotating cylinder 3 one sides.Slit 46 or groove 9 are comprised of two vertical bars on the slideway 8 of rotating cylinder 3, and what the end was inwardly arranged is groove, and bottomless is the slit, string one end 18 of axle 11 and slideway 8 match refer to slideway 8 on groove 9 or slit 46 match.In order to gain in strength, to locate or reducing friction drag when sliding etc., can overlap on an end 18 of string axle 11 has axle sleeve 19(such as Fig. 7 and shown in Figure 13); Or the string axle 11 an end 18 be provided with convex shoulder; Can also be that cover has axle sleeve 19 and is provided with convex shoulder 43(as shown in figure 13), these ends 18 that refer to go here and there axle 11 are flanges, and are the form of slit 46 or groove 9 on the slideway 8.String one end 18 of axle 11 and slideway 8 form to cooperate and can refer to go here and there an end 18 of axle 11 in slideway 8 mobile another kind of forms and are provided with groove 9, and slideway 8 is flanges, as shown in figure 14.The shape of two sides of load-transfer device 1 is different.In the cooperation that string one end 18 of axle 11 and slideway 8 form, no matter slideway 8 is flange or slit 46 or groove 9, one end 18 of string axle 11 and slideway 8 produce two contact points to I haven't seen you for ages when motion, be contact point 41 and contact point 42, such as Figure 12 and shown in Figure 14, thereby contact point 41 and contact point 42 is clipped in string axle 11 or slideway 8 and wherein forces string axle 11 to rotate synchronously with slideway 8, guarantees the transmission of moving steadily and reliable, and string axle 11 can be moved at slideway 8.

Load-transfer device 1 can be crooked, except can making circular arc or screw motion round rotating cylinder 3 moving linearly.As shown in Figure 6, chain 2 12 is comprised of chain part 15, chain part 16 and chain part 17, the wide t1 of outside chain batten and the wide t2 of inboard Chain plate of adjacent chain part are different, make chain part 15 can enter the inside of chain part 16 or chain part 17, chain part 16 also can enter the inside of chain part 17, so adjacent chain part can mutually nested (such as Fig. 7).Chain part is provided with hole or groove 14(such as Fig. 1 and Fig. 6), string axle 11 can pass hole or with it welding, perhaps slides in groove 14.Chain part when load-transfer device 1 moving linearly on chain 1 and the chain 2 12 is mutual tractive separately, is in the state that pulls open; Chain part 15, chain part 16 and chain part 17 again can be mutually nested when making circular arc or screw motion, form bending.Shown in Figure 7 is the situation of another kind of load-transfer device 1 when making circular arc or screw motion; zone face 13 also is comprised of silk screen as Fig. 1; load-transfer device 1 is by zone face 13; string axle 11; each unit of the compositions such as chain 1 and chain 2 12 links up and forms; Fig. 8 is the sketch of Fig. 7; the lower view of Fig. 8 is the partial enlarged drawing of top view; as shown in FIG.; ABCD; HEFG is three unit that wherein link to each other that form load-transfer device 1 with LMJK; be in these three unit of chain one 10 sides and pulled open; and in chain 2 12 sides; to be ABCD and LMJK draw close to the unit HEFG of centre in the unit on two limits; the zone face of corresponding two edge elements also squeezes or nested to the zone face of temporary location, and load-transfer device 1 just forms crooked.The string axle 11 of ABCD is in the position of AB side, and the string axle 11 of LMJK is in the position of KJ side; The zone face BCDA of ABCD is on the right side of AB, and the zone face MJKL of LMJK is in the left side of KJ, so the unit ABCD on two limits and LMJK opposed each other, the relative position of axle and zone face of namely going here and there is inconsistent.Temporary location HEFG is comprised of the string axle on zone face and two limits, as shown in Figure 7, the string axle on this two limit is respectively in the position of HE and GF, string in zone face and the position relatively can be constant, also go here and there respectively in the zone face of two limit adjacent cells simultaneously, so that the string axle had both played the connection function between the unit, do not hinder again the unit on two limits to the embedding of temporary location.When making circular arc or screw motion, each chain part of chain 2 12 is mutually nested, and can be regarded as chain parts 16 and chain parts 17 is respectively that chain parts 15 are drawn close to the centre.In Fig. 7 and Fig. 8, chain one 10 sides are in three unit that pull open, chain 2 12 sides through after drawing close in theory close to a unit.Fig. 4 is the planar view of existing a kind of load-transfer device 1 when making circular arc or screw motion, its zone face 13 also is comprised of silk screen (such as stainless steel cloth), Fig. 5 is the sketch of Fig. 4, the view of the bottom of Fig. 5 is the enlarged drawing of the part of upper view, but the string axle 11 in its each unit all is the left side (being the same side) at zone face 13, in the PQ side such as the string axle 11 in the PQST unit, namely in the left side of zone face QSTP, string axle 11 in the UVXY unit is in the UV side, namely be in the left side of zone face VXYU, two unit that being in of chain one 10 sides pulled open chain 2 12 sides through after drawing close in theory close to a unit.This shows that the present invention can reach less radius of curvature, thereby can make the floor area of equipment less.

Fig. 9 is a kind of front view of rotating cylinder 3, and establishing load-transfer device 1 is the cylinder 3 helical disk liters that rotate from the bottom.One end 18 of string axle 11 enters groove 9 and is clipped in wherein from the inflow point of groove 9 bottoms, then rotates with rotating cylinder 3 and moves up along groove 9, skids off groove 9 behind the top and leaves rotating cylinder 3, thereby realize the process that the helical disk of load-transfer device 1 rises.It is slideway 8 that many groove 9(are arranged on the rotating cylinder 3).A side 23 in groove 9 bottoms of rotating cylinder 3 is to tilt or circular-arc, and this side 23 can be axial as shown in the figure, also can be radially.Another side of side 23 and groove 9 consists of transition region 22, can be described as and catch the axle district, is exactly the rotation along with rotating cylinder 3, and an end 18 of string axle 11 is successfully entered in the groove 9, and on the go to the string axle 11 an end 18 between relative position put in order, make it little by little mutually to draw close.

Guide rail 2 is strips, is provided with two in Figure 11, is provided in a side of respectively two sides of load-transfer device 1, and its cross-sectional plane is L-shaped, and wherein perpendicular one side 39 gears are in the side of load-transfer device 1, and another side 40 is below load-transfer device 1 and hold load-transfer device 1.Figure 11 is the planar view of load-transfer device, guide rail, slideway and rotating cylinder, and the upper right corner is partial enlarged drawing among the figure.

Above-mentioned each parts and structure are gathered, its flow process as shown in Figure 2, driver train (such as electrical motor etc.) 6 drives rotating drum shafts 7 and rotating cylinder 3 rotates, thereby rotating cylinder 3 drives string axle 11 by the cooperation between the end 18 of slideway 8 and string axle 11 makes load-transfer device 1 in guide rail 2 motions, just can realize the conveying of article.Load-transfer device 1 generally is the loop that forms sealing, article is carried out the conveying of straight line, circular arc or spiral.Swelling device 4 is load-transfer device 1 to be in operation be in the state of tightening, for the conveying mechanism that relies on the friction force transferring power, because need to ensure enough friction force, so very important, but then inessential for the present invention, can simplify, not establish swelling control apparatus 27 as in Figure 10, only establishing swelling device 30, even not establish swelling device also passable.Frame 5 plays a part to support and is fixing.The quantity of rotating cylinder 3 is one among the figure, but also two or more can be arranged.

A kind of tape transport of the present invention mechanism is in application, if be provided with storehouse body 24, and interiorly can also be provided with selectively quick-frozen 37, cooling at storehouse body 24, ventilate 36, air channel 35, thaw, heat, toast, drying, boiling, smoke, spray, clean, check, detect, the equipment of sterilization or sterilization etc., just can do corresponding processing or process article, arrange selectively and refer to arrange for specific purpose (such as certain processing or processing) corresponding (equipment).Figure 10 is a kind of structural representation of spiral quick-freezing device, except load-transfer device and conveying mechanism, also formed by storehouse body 24, assistant drive system 25, discharging section 26, swelling control apparatus 27, electrical control cabinet 28, swelling device 30, feed zone 31, observation door 33, equipment rack 34, blower fan 36, quick-frozen (being evaporator) 37 and guipure washing equipment 38 etc., power drives rotating cylinder 3 by main drive system 29 and rotates, sometimes need 25 pairs of load-transfer devices 1 of assistant drive system to make assistive drive, load-transfer device 1 is along the channel path circulating motion.The present invention disobeys the frictionally transferring power, thus reliable and steady, can make volume-diminished, the structures such as swelling device also are simplified.Storehouse body 24 can be with observation window or access door 33, and some storehouse body 24 can be made by heat-insulating heat-preserving material 32, has the function of heat-insulation and heat-preservation.

Load-transfer device 1 can be coiled in the peripheral of rotating cylinder 3 and on guide rail 2.If the guide rail at this place 2 is levels, then load-transfer device 1 can be realized the conveying that the flat circle arc turns to article; If the guide rail at this place 2 is spirals, then load-transfer device 1 can be realized helical feed to article.

Above-described embodiment only is used for explaining inventive concept of the present invention, but not to the restriction of rights protection of the present invention, allly utilizes this design that the present invention is carried out the change of unsubstantiality, all should fall into protection scope of the present invention.

Claims (10)

1. a tape transport mechanism and application apparatus thereof, comprise load-transfer device (1), guide rail (2) and rotating cylinder (3), at load-transfer device (1) string axle (11) is arranged, it is characterized in that: be provided with slideway (8) at rotating cylinder (3), when load-transfer device (1) is in rotating cylinder (3) peripheral, one end (18) of string axle (11) can and slideway (8) form to cooperate, this cooperation can make an end (18) of string axle (11) rotate with slideway (8) at the mobile string axle (11) that also can make reliably of slideway (8), thereby driving conveying belt (1) moves at the passage that is comprised of guide rail (2).

2. a kind of tape transport mechanism as claimed in claim 1 and application apparatus thereof, it is characterized in that: the cooperation that an end (18) of described string axle (11) and slideway (8) form is that slit (46) or groove (9) and flange match, flange stretches among slit (46) or groove (9), the end (18) of axle (11) of namely referring to go here and there is provided with groove (9), slideway (8) is flange, the end (18) of axle (11) of perhaps referring to go here and there is flange, and slideway (8) is slit (46) or groove (9).

3. a kind of tape transport mechanism as claimed in claim 1 or 2 and application apparatus thereof is characterized in that: can overlap on the end (18) of described string axle (11) has axle sleeve (19) or is provided with convex shoulder or cover has axle sleeve and is provided with convex shoulder (43).

4. such as claim 1 or 2 or 3 described a kind of tape transport mechanism and application apparatus thereof, it is characterized in that: in the cooperation that the end (18) of described string axle (11) and slideway (8) form, one end (18) and the slideway (8) of string axle (11) have two contact points at least when motion, be contact point (41) and contact point (42), this contact point (41) and contact point (42) make string axle (11) move with slideway (8).

5. a kind of tape transport mechanism as claimed in claim 1 and application apparatus thereof; it is characterized in that: described load-transfer device (1) can be crooked; the unit that load-transfer device (1) is comprised of zone face (13) and string axle (11) etc. links up and forms; zone face (13) is the zone between the adjacent string axle (11) of load-transfer device (1); can to be three unit linking to each other be pulled open and to be ABCD in the unit on chain two (12) sides two limits squeeze or nested to the unit HEFG of centre with LMJK in chain one (10) side bend mode; wherein the unit ABCD on two limits and LMJK are opposed each other; be that the string axle (11) of ABCD is in the position of AB side; the string axle (11) of LMJK is in the position of KJ side; the zone face BCDA of ABCD is on the right side of AB, and the zone face MJKL of LMJK is in the left side of KJ.

6. a kind of tape transport mechanism as claimed in claim 2 and application apparatus thereof, it is characterized in that: the inflow point of described groove (9) or slit (46) is provided with the transition region (22) that enters smoothly of an end (18) that can make string axle (11), one side of this transition region (22) or two limits can be to tilt or (23) of arc shape, can be vertically or radial arrangement.

7. a kind of tape transport mechanism as claimed in claim 1 and application apparatus thereof, it is characterized in that: also comprise storehouse body (24), quick-frozen (37) or cooling can also be set in storehouse body (24) selectively or ventilate (36) or air channel (35) or thaw or heating or baking or drying or boiling or smoke or spray or clean or check or detect or the equipment of sterilization or sterilization etc.

8. a kind of tape transport mechanism as claimed in claim 7 and application apparatus thereof is characterized in that: described storehouse body (24) can heat-insulation and heat-preservation, and with observing or the door (33) of maintenance.

9. a kind of tape transport mechanism as claimed in claim 1 and application apparatus thereof, it is characterized in that: described guide rail (2) is provided in a side of a side of load-transfer device (1) or is provided in a side of respectively two sides of load-transfer device (1), the cross-sectional plane of guide rail (2) is L-shaped, wherein perpendicular one side (39) gear is in the side of load-transfer device (1), and another side (40) holds in the palm below load-transfer device (1).

10. a kind of tape transport mechanism as claimed in claim 1 and application apparatus thereof, it is characterized in that: described load-transfer device (1) is comprised of zone face (13), string axle (11), chain one (10) and chain two (12) etc., chain two (12) or chain one (10) and chain two (12) are comprised of chain part (15), chain part (16) and chain part (17), and adjacent chain part can be mutually nested.

Images