CN214026013U - Orchid trunk forming device - Google Patents

Abstract

The utility model discloses an orchid stem forming device, belonging to the food processing field, comprising an unformed orchid stem, a motor and a fixed frame, wherein the fixed frame is provided with a driving part and a machined part; the transmission part comprises a transmission belt, a turnover part and a connecting belt, the transmission belt comprises an upper transmission belt and a lower transmission belt, and the upper transmission belt is positioned above the lower transmission belt; the turnover piece is detachably connected with the fixed frame and is suitable for converting the processing surface of the unformed dried orchid; the connecting belt is suitable for connecting the motor, the transmission belt and a workpiece; the processing piece comprises a double-layer tool rest, the double-layer tool rest is suitable for processing the two surfaces of the unformed dried orchid, and the double-layer tool rest is suitable for simultaneously moving up and down to process different dried orchid; the utility model provides a semi-automatization orchid does forming device solves the orchid and does the scheduling problem that the rejection rate is high, manual processing's inefficiency, insanitation and intensity of labour are big.

Description

Orchid trunk forming device

Technical Field

The utility model belongs to a food processing field, specificly relate to an orchid does forming device.

Background

The dried orchid is a common bean product in life, contains various mineral substances, supplements calcium, prevents osteoporosis caused by calcium deficiency, and promotes bone health of human bodies.

In the traditional processing of dried orchid bean curd, the processes of cutting into blocks, pulling flowers, sticking and the like are mostly operated manually, so that the sanitary problem caused by direct contact in the processing process exists, and the problems of low processing efficiency, low yield, low finished product quality and the like also exist. Because the dried orchid has different dimensions, if mechanical dicing is used, the threading height is not adjustable, the turnover labor intensity is high, and the bean curd with different thicknesses cannot be accurately threaded in the middle, so that the product quality is affected.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: solves the problems of high rejection rate of orchid dry forming, low efficiency of manual processing, insanitation, high labor intensity and the like.

In order to solve the technical problems, the technical scheme of the utility model is obtained by the practice and summary of the utility model, the utility model discloses an orchid stem forming device, which comprises an unformed orchid stem, a motor 1 and a fixing frame 2, wherein a driving part and a machined part are arranged on the fixing frame 2;

the transmission part comprises a transmission belt, an overturning part 3 and a connecting belt 4, the transmission belt is provided with a groove and comprises an upper transmission belt 5 and a lower transmission belt 6, and the upper transmission belt 5 is positioned above the lower transmission belt 6;

the turnover part 3 is positioned on the fixed frame 2, the turnover part 3 is detachably connected with the fixed frame 2, and the turnover part 3 is suitable for connecting an upper conveying belt 5 and a lower conveying belt 6 and converting the processing surface of the unformed dried orchid;

the connecting belt 4 is suitable for connecting the motor 1, a conveying belt and a workpiece;

the machined part includes double-deck knife rest, double-deck knife rest includes upper knife rest 7 and lower floor's knife rest 8, upper knife rest 7 is located transmission band 5, lower floor's knife rest 8 is located transmission band 6 down, upper knife rest 7 is suitable for the one side of processing non-fashioned orchid, lower floor's knife rest 8 is suitable for the another side of processing non-fashioned orchid, upper knife rest 7 processes the surface of the different orchid simultaneously with lower floor's knife rest 8.

Preferably, the fixing frame 2 is a multi-layer structure, and the fixing frame 2 is suitable for supporting the motor 1, a transmission part and a workpiece;

the motor 1 is positioned below the conveying belt 6, the motor 1 is detachably connected to the fixed frame 2, and an output shaft of the motor 1 is connected with the connecting belt 4;

the workpiece comprises an intermittent assembly, the intermittent assembly is arranged on one side opposite to the output end of the motor 1, and the intermittent assembly is suitable for connecting a connecting belt 4 and the output end of the motor 1;

preferably, the intermittent assembly includes a driving dial 9, a driven sheave 10, a housing 11, a first connecting shaft 12 and a second connecting shaft 13, the driving dial 9 is provided with a cylindrical pin, the driving dial 9 is adapted to the driven sheave 10, the driving dial 9 is fixedly connected to the first connecting shaft 12, the driven sheave 10 is fixedly connected to the second connecting shaft 13, the first connecting shaft 12 and the second connecting shaft 13 are both mounted on the housing 11, the first connecting shaft 12 and the second connecting shaft 13 are both provided with a pulley, an output end of the motor 1 is connected to a connecting belt 4 and connected to the first connecting shaft 13, the motor 1 is adapted to drive the driving dial 9 to output continuous power, the second connecting shaft 13 is located on a side of the first connecting shaft 12 opposite to the motor 1, and the driven sheave 10 connected to the driving dial 9 outputs intermittent power, the belt wheel on the second connecting shaft 13 is connected with a connecting belt, the connecting belt 4 at the joint of the second connecting shaft 13 outputs intermittent power, and the connecting belt 4 is suitable for driving a transmission belt to run intermittently;

the both ends of first connecting axle 12 extend to outside shell 11 and are connected with the disc, first connecting axle 12 and the coaxial rotation of disc, install on the disc and pass power piece, the one end eccentric mounting that passes power piece is on the disc, pass power piece and disc fixed connection, the other end that passes power piece is connected with upper knife rest 7 and lower floor's knife rest 8 respectively, it is suitable for driving upper knife rest 7 and lower floor's knife rest 8 respectively to pass power piece and reciprocates.

Preferably, one end of each conveyor belt, which is close to the overturning part 3, is provided with a driving wheel 22, the driving wheels 22 are matched with a connecting belt 4, the connecting belt 4 drives the driving wheels 22 to rotate, a rotating shaft is fixedly arranged in each driving wheel 22 and is arranged on the inner side of each conveyor belt, and the connecting belts 4 are suitable for driving the conveyor belts to move intermittently;

a rotating shaft 24 is installed in the fixing frame 2, transition wheels 23 with different sizes are installed on the rotating shaft 24, the number of the rotating shaft 24 and the number of the transition wheels 23 are multiple groups, and the transition wheels 23 are suitable for assisting in transmission of the connecting belt 4.

Preferably, the overturning part 3 comprises a main frame and a support plate, the main frame is a C-shaped bent pipe, the upper end and the lower end of the main frame are respectively attached to an upper conveying belt 5 and a lower conveying belt 6, and the main frame is suitable for overturning unformed orchid stems corresponding to the processing surface of the double-layer tool rest;

the support plate is positioned on one side of the main frame back to the lower conveying belt 6 and is detachably connected with the fixed frame 2.

Preferably, the workpiece further comprises an upper template 14 and a lower template 15, the upper template 14 is positioned on the upper conveying belt 5, a first forming groove adapted to the upper layer tool rest 7 is formed in the upper template 14, and the upper layer tool rest 7 penetrates through the first forming groove to process one surface of the unformed dried orchid;

the lower template 15 is positioned on the lower conveying belt 6, a second forming groove matched with the lower layer tool rest 8 is formed in the lower template 15, and the lower layer tool rest 8 penetrates through the second forming groove to process the other surface of the unformed dried orchid.

Preferably, the workpiece further comprises a first bottom plate 16 and a second bottom plate 17, the first bottom plate 16 and the second bottom plate 17 are respectively fixedly connected with the upper surface of the fixing frame 2, the first bottom plate 16 is installed below the upper conveying belt 5, first straight angle plates 18 are respectively installed at two ends of the upper template 14 along the radial direction of the upper conveying belt 5, one ends of the first straight angle plates 18 are fixedly connected with the upper template 14, the other ends of the first straight angle plates 18 are fixedly connected with the first bottom plate 16, and first connecting shaft holes are formed in the first bottom plate 16;

the second bottom plate 17 is arranged below the lower conveying belt 6, second right-angle plates 19 are respectively arranged at two ends of the lower template 15 along the radial direction of the lower conveying belt 6, one end of each second right-angle plate 19 is fixedly connected with the lower template 15, the other end of each second right-angle plate 19 is fixedly connected with the second bottom plate 17, and a second connecting shaft hole is formed in the second bottom plate 17;

the power transmission piece comprises a main shaft 20, the main shaft 20 penetrates through the first connecting shaft hole and the second connecting shaft hole respectively, the bottom end of the main shaft 20 is hinged with a connecting rod 21, and the other end of the connecting rod 21 is eccentrically installed on the disc.

Preferably, the upper tool rest 7 and the lower tool rest 8 respectively comprise a plurality of groups of parallel blades, the number of the main shafts 20 is a plurality of groups, the main shafts 20 are symmetrically distributed along the transmission direction of the upper transmission belt 5, and a connecting plate 25 is arranged between the two groups of the main shafts 20 positioned in the radial direction of the upper transmission belt 5.

Compared with the prior art, the utility model discloses can obtain following technological effect:

the utility model adopts the upper and lower transmission belts and the turnover part, so that the unformed dried orchid can be automatically turned over, and then the dried orchid with different heights is cut simultaneously by the double-layer knife rest, thereby achieving the surface forming of the processed dried orchid and solving the problem of overlarge labor intensity of manual turnover; the use of the intermittent assembly is limited, so that the constant output of the motor becomes the intermittent transmission of the 1/4 path of the grooved pulley, the intermittent transmission of the transmission belt is ensured, and the forming position of the orchid stem can be better determined; meanwhile, the height of the knife rest on the transmission belt is set, so that the cutting depth of the dried orchid can be guaranteed, the quality of the finished dried orchid is guaranteed, and the sanitation is guaranteed due to non-manual cutting.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a view showing the structure of the apparatus of the present invention;

FIG. 2 is a schematic view of the transmission of the present invention;

FIG. 3 is a schematic view of the intermittent assembly of the present invention;

FIG. 4 is a partial enlarged view A of FIG. 1;

fig. 5 is a partial enlarged view B in fig. 1;

fig. 6 is a structural view of the turning member of the present invention.

In the figure: 1. a motor; 2. a fixed mount; 3. a turnover piece; 4. a connecting belt; 5. an upper conveying belt; 6. a lower conveying belt; 7. an upper layer tool rest; 8. a lower layer tool rest; 9. an active drive plate; 10. a driven sheave; 11. a housing; 12. a first connecting shaft; 13. a second connecting shaft; 14. mounting a template; 15. a lower template; 16. a first base plate; 17. a second base plate; 18. a first gusset; 19. a second rectangular plate; 20. a main shaft; 21. a connecting rod; 22. a driving wheel; 23. a transition wheel; 24. a rotating shaft; 25. a connecting plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is further described in detail with reference to the following embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

The application of the principles of the present invention will be further described with reference to the accompanying drawings and specific embodiments.

Example 1

As shown in fig. 1 to 6: an orchid stem forming device comprises unformed orchid stems, a motor 1 and a fixing frame 2, wherein a transmission part and a machined part are arranged on the fixing frame 2;

the transmission part comprises a transmission belt, an overturning part 3 and a connecting belt 4, the transmission belt is provided with a groove and comprises an upper transmission belt 5 and a lower transmission belt 6, and the upper transmission belt 5 is positioned above the lower transmission belt 6;

the overturning part 3 is positioned on the fixed frame 2, the overturning part 3 is detachably connected with the fixed frame 2, and the overturning part 3 is suitable for connecting the upper conveying belt 5 and the lower conveying belt 6 and converting the processing surface of the unformed dried orchid;

the connecting belt 4 is suitable for connecting the motor 1, the transmission belt and a workpiece;

the machined part includes double-deck knife rest, and double-deck knife rest includes upper knife rest 7 and lower floor's knife rest 8, and upper knife rest 7 is located transmission band 5, and lower floor's knife rest 8 is located transmission band 6 down, and upper knife rest 7 is suitable for the one side of processing non-fashioned orchid, and lower floor's knife rest 8 is suitable for the another side of processing non-fashioned orchid, and upper knife rest 7 processes the surface of the different orchid simultaneously with lower floor's knife rest 8.

The fixing frame 2 is of a three-layer structure, and the fixing frame 2 is suitable for supporting the motor 1, the transmission part and the workpiece;

the motor 1 is positioned below the transmission belt 6, the motor 1 is installed at the bottom layer of the fixed frame 2 in a threaded manner, and an output shaft of the motor 1 is connected with the connection belt 4;

the workpiece comprises an intermittent assembly, the intermittent assembly is arranged on one side opposite to the output end of the motor 1, and the intermittent assembly is suitable for connecting a connecting belt 4 and the output end of the motor 1;

the intermittent assembly comprises a driving dial 9, a driven sheave 10, a shell 11, a first connecting shaft 12 and a second connecting shaft 13, a cylindrical pin is arranged on the driving dial 9, the driving dial 9 is matched with the driven sheave 10, the driving dial 9 is fixedly connected with the first connecting shaft 12, the driven sheave 10 is fixedly connected with the second connecting shaft 13, the first connecting shaft 12 and the second connecting shaft 13 are both arranged on the shell 11, belt pulleys are respectively arranged on the first connecting shaft 12 and the second connecting shaft 13, the output end of the motor 1 is connected with the connecting belt 4 and is connected with the corresponding belt pulley on the first connecting shaft 13, the belt pulleys drive the first connecting shaft 12 to rotate, the motor 1 is suitable for driving the driving dial 9 to output continuous power, the second connecting shaft 13 is arranged on one side of the first connecting shaft 12 back to the motor 1, the driven sheave 10 connected with the driving dial 9 outputs intermittent power, the belt pulley on the second connecting shaft 13 is connected with the connecting belt 4 to output intermittent power, the connecting belt 4 is suitable for driving the transmission belt to run intermittently;

the both ends of first connecting axle 12 extend to the shell 11 outside and are connected with the disc, and first connecting axle 12 and disc coaxial rotation are installed and are passed the power piece on the disc, pass the eccentric installation of one end of power piece on the disc, pass power piece and disc fixed connection, pass the other end of power piece and be connected with upper knife rest 7 and lower floor's knife rest 8 respectively, pass the power piece and be suitable for driving upper knife rest 7 and lower floor's knife rest 8 respectively and reciprocate.

One end of the transmission belt close to the overturning part 3 is provided with a transmission wheel 22, the transmission wheel 22 is matched with a connecting belt 4, the connecting belt 4 drives the transmission wheel 22 to rotate, a rotating shaft is fixedly arranged in the transmission wheel 22 and is arranged on the inner side of the transmission belt, and the connecting belt 4 is suitable for driving the transmission belt to move intermittently;

the fixed frame 2 is internally provided with a rotating shaft 24, the rotating shaft 24 is provided with transition wheels 23 with different sizes, the number of the rotating shaft 24 and the number of the transition wheels 23 are multiple, and the transition wheels 23 are suitable for assisting in transmission of the connecting belt 4.

The overturning part 3 comprises a main frame and a support plate, the main frame is a C-shaped bent pipe, an upper conveying belt 5 and a lower conveying belt 6 are respectively attached to the upper end and the lower end of the main frame, and the main frame is suitable for overturning unformed orchid stems corresponding to the processing surface of the double-layer tool rest;

the support plate is arranged on one side of the main frame back to the lower conveying belt 6 and is detachably connected with the fixed frame 2.

The workpiece further comprises an upper template 14 and a lower template 15, the upper template 14 is positioned on the upper conveying belt 5, a first forming groove matched with the upper layer tool rest 7 is formed in the upper template 14, and the upper layer tool rest 7 penetrates through the first forming groove to process one surface of the unformed dried orchid;

the lower template 15 is located lower transmission band 6, offers the second shaping groove that suits with lower floor's knife rest 8 on the lower template 15, and lower floor's knife rest 8 passes the another side of second shaping groove processing unformed blue flower trunk.

The workpiece further comprises a first bottom plate 16 and a second bottom plate 17, the first bottom plate 16 and the second bottom plate 17 are fixedly connected with the upper surface of the fixing frame 2 respectively, the first bottom plate 16 is installed below the upper conveying belt 5, first straight angle plates 18 are installed at two ends of the upper template 14 along the radial direction of the upper conveying belt 5 respectively, one ends of the first straight angle plates 18 are fixedly connected with the upper template 14, the other ends of the first straight angle plates 18 are fixedly connected with the first bottom plate 16, and a first connecting shaft hole is formed in the first bottom plate 16;

the second bottom plate 17 is arranged below the lower conveying belt 6, second right-angle plates 19 are respectively arranged at two ends of the lower template 15 along the radial direction of the lower conveying belt 6, one end of each second right-angle plate 19 is fixedly connected with the lower template 15, the other end of each second right-angle plate 19 is fixedly connected with the second bottom plate 17, and a second connecting shaft hole is formed in the second bottom plate 17;

the power transmission piece comprises a main shaft 20, the main shaft 20 penetrates through the first connecting shaft hole and the second connecting shaft hole respectively, the bottom end of the main shaft 20 is hinged with a connecting rod 21, and the other end of the connecting rod 21 is eccentrically installed on the disc.

The upper layer tool rest 7 and the lower layer tool rest 8 comprise a plurality of groups of parallel blades, the main shafts 20 are arranged in a plurality of groups, the main shafts 20 are symmetrically distributed along the transmission direction of the upper transmission belt 5, and a connecting plate 25 is arranged between the two groups of main shafts 20 positioned on the upper transmission belt 5 in the radial direction.

Specifically, the method comprises the following installation steps and a forming principle:

a device installation step:

step one, mounting a fixed frame 2, respectively mounting a motor 1 on the bottom layer of the fixed frame 2, mounting a driving drive plate 9 and a driven sheave 10 in a shell 11 and placing the driving drive plate and the driven sheave at the output side of the motor 1;

secondly, a lower conveying belt 6 and an upper conveying belt 5 are laid upwards along the fixed frame 2 and are respectively fixed on a second bottom plate 17 and a first bottom plate 16;

thirdly, mounting a wafer at the outer end of the first connecting shaft 12, eccentrically mounting a connecting rod 21 on the wafer, hinging the connecting rod 21 with a main shaft 20, and sequentially penetrating the main shaft 20 through a second connecting shaft hole and the first connecting shaft hole;

step four, an upper template 14 is installed on the upper conveying belt 5, and a lower template 15 is installed on the lower conveying belt 6;

fifthly, connecting plates 24 are arranged between the main shafts 20 in the same radial direction of the upper conveying belt 5, the connecting plates 24 at different positions are respectively provided with an upper-layer tool rest 7 and a lower-layer tool rest 8, the upper-layer tool rest 7 is positioned on the upper side of the upper template 14, and the lower-layer tool rest 8 is positioned on the upper side of the lower template 15;

sixthly, mounting a rotating shaft 24 and a transition wheel 23 on the inner wall of one end of the fixing frame 2 far away from the motor 1, coaxially driving the transition wheels 23 with different sizes, and mounting a turnover part 3 between the upper conveying belt 5 and the lower conveying belt 6;

step seven, the connecting belt 4 is respectively connected with the output end of the motor 1, the driving dial 9, the driving grooved wheel 9, the driven grooved wheel 10, the second connecting shaft 13 and a transition wheel 23 on a rotating shaft 24, and the transition wheel 23 and a driving wheel 22 on the transmission belt;

step eight, debugging the installation position between the step one and the step eight and debugging the device to finish the installation of the device;

the forming principle of the dried orchid:

step one, turning on a motor 1, and placing unformed dried orchid in a groove of a conveying belt, so that the unformed dried orchid intermittently moves along with an upper conveying belt 5;

secondly, the unformed orchid trunk moves to the upper layer knife rest 7, the upper layer knife rest 7 extrudes into the upper template 14, and the unformed orchid trunk is cut and formed;

step three, the orchid trunks with single processed surfaces are transmitted into the turnover piece 3, the orchid trunks are turned over to the other side and enter the lower conveying belt 6 to reach the lower-layer knife rest 8, the lower-layer knife rest 8 extrudes the orchid trunks to enter the lower template 15, and the other side of the unformed orchid trunks are cut and formed;

and step four, finishing the dried orchid processing, rolling down the conveyor belt 6, and collecting by using a container to finish the dried orchid forming.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. An orchid stem forming device comprises unformed orchid stems and a motor (1), and is characterized in that: the device is characterized by also comprising a fixed frame (2), wherein a transmission part and a workpiece are arranged on the fixed frame (2);

the transmission part comprises a transmission belt, a turnover part (3) and a connecting belt (4), the transmission belt is provided with a groove and comprises an upper transmission belt (5) and a lower transmission belt (6), and the upper transmission belt (5) is positioned above the lower transmission belt (6);

the turnover part (3) is positioned on the fixed frame (2), the turnover part (3) is detachably connected with the fixed frame (2), and the turnover part (3) is suitable for connecting an upper conveying belt (5) and a lower conveying belt (6) and converting the processing surface of the unformed dried orchid;

the connecting belt (4) is suitable for connecting the motor (1), the transmission belt and a workpiece;

the machined part includes double-deck knife rest, double-deck knife rest includes upper knife rest (7) and lower floor's knife rest (8), upper knife rest (7) are located transmission band (5) on, lower floor's knife rest (8) are located transmission band (6) down, upper knife rest (7) are suitable for the one side of processing non-fashioned orchid, lower floor's knife rest (8) are suitable for the another side of processing non-fashioned orchid, upper knife rest (7) are processed the surface of the orchid of difference with lower floor's knife rest (8) simultaneously.

2. The orchid dry forming device of claim 1, wherein: the fixing frame (2) is of a multilayer structure, and the fixing frame (2) is suitable for supporting the motor (1), the transmission part and a workpiece;

the motor (1) is positioned below the conveying belt (6), the motor (1) is detachably connected to the fixed frame (2), and an output shaft of the motor (1) is connected with the connecting belt (4);

the workpiece comprises an intermittent assembly, the intermittent assembly is arranged on one side opposite to the output end of the motor (1), and the intermittent assembly is suitable for being connected with a connecting belt (4) and connected with the output end of the motor (1).

3. The orchid dry forming device of claim 2, wherein: the intermittent assembly comprises a driving plate (9), a driven sheave (10), a shell (11), a first connecting shaft (12) and a second connecting shaft (13), a cylindrical pin is installed on the driving plate (9), the driving plate (9) is matched with the driven sheave (10), the driving plate (9) is fixedly connected with the first connecting shaft (12), the driven sheave (10) is fixedly connected with the second connecting shaft (13), the first connecting shaft (12) and the second connecting shaft (13) are both installed on the shell (11), and belt wheels are installed on the first connecting shaft (12) and the second connecting shaft (13);

the output end of the motor (1) is connected with a connecting belt (4) and is connected with a first connecting shaft (12), the motor (1) is suitable for driving a driving drive plate (9) to output continuous power, a second connecting shaft (13) is positioned on one side, back to the motor (1), of the first connecting shaft (12), the driven grooved pulley (10) connected with the driving drive plate (9) outputs intermittent power, a belt pulley on the second connecting shaft (13) is connected with the connecting belt, the connecting belt (4) at the joint of the second connecting shaft (13) outputs intermittent power, and the connecting belt (4) is suitable for driving a transmission belt to run intermittently;

the utility model discloses a power transmission device, including shell (11), first connecting axle (12), disc, power transmission piece, upper knife rest (7) and lower floor's knife rest (8), the both ends of first connecting axle (12) extend to the shell (11) outside and be connected with the disc, first connecting axle (12) and the coaxial rotation of disc, install power transmission piece on the disc, the one end eccentric mounting that passes power transmission piece is on the disc, power transmission piece and disc fixed connection, the other end that passes power transmission piece is connected with upper knife rest (7) and lower floor's knife rest (8) respectively, power transmission piece is suitable for driving upper knife rest (7) and lower floor's knife rest (8) respectively and reciprocates.

4. The orchid dry forming device of claim 2, wherein: one end of the transmission belt, close to the overturning part (3), is provided with a transmission wheel (22), the transmission wheel (22) is matched with a connecting belt (4), the connecting belt (4) drives the transmission wheel (22) to rotate, a rotating shaft is fixedly arranged in the transmission wheel (22), the rotating shaft is arranged on the inner side of the transmission belt, and the connecting belt (4) is suitable for driving the transmission belt to move intermittently;

install axis of rotation (24) in mount (2), install not unidimensional transition wheel (23) on axis of rotation (24), axis of rotation (24) are the multiunit with the quantity of transition wheel (23), transition wheel (23) are suitable for supplementary connecting band (4) transmission.

5. The orchid dry forming device of claim 1, wherein: the turnover piece (3) comprises a main frame and a support plate, the main frame is a C-shaped bent pipe, the upper end and the lower end of the main frame are respectively attached to an upper conveying belt (5) and a lower conveying belt (6), and the main frame is suitable for turning over unformed orchid stems corresponding to the processing surface of the double-layer tool rest;

the support plate is positioned on one side of the main frame, which faces away from the lower conveying belt (6), and the support plate is detachably connected with the fixing frame (2).

6. The orchid dry forming device of claim 3, wherein: the machining piece further comprises an upper template (14) and a lower template (15), the upper template (14) is positioned on the upper conveying belt (5), a first forming groove matched with the upper layer tool rest (7) is formed in the upper template (14), and the upper layer tool rest (7) penetrates through the first forming groove to machine one surface of an unformed dried orchid;

the lower template (15) is positioned on the lower conveying belt (6), a second forming groove matched with the lower layer tool rest (8) is formed in the lower template (15), and the lower layer tool rest (8) penetrates through the second forming groove to process the other side of the non-formed orchid stem.

7. The orchid dry forming device of claim 6, wherein: the processing piece further comprises a first bottom plate (16) and a second bottom plate (17), the first bottom plate (16) and the second bottom plate (17) are fixedly connected with the upper surface of the fixing frame (2) respectively, the first bottom plate (16) is installed below the upper conveying belt (5), first straight angle plates (18) are installed at two ends of the upper template (14) along the radial direction of the upper conveying belt (5) respectively, one ends of the first straight angle plates (18) are fixedly connected with the upper template (14), the other ends of the first straight angle plates (18) are fixedly connected with the first bottom plate (16), and first connecting shaft holes are formed in the first bottom plate (16);

the second bottom plate (17) is arranged below the lower conveying belt (6), second right-angle plates (19) are respectively arranged at two ends of the lower template (15) along the radial direction of the lower conveying belt (6), one ends of the second right-angle plates (19) are fixedly connected with the lower template (15), the other ends of the second right-angle plates (19) are fixedly connected with the second bottom plate (17), and second connecting shaft holes are formed in the second bottom plate (17);

the power transmission piece comprises a main shaft (20), the main shaft (20) penetrates through the first connecting shaft hole and the second connecting shaft hole respectively, the bottom end of the main shaft (20) is hinged with a connecting rod (21), and the other end of the connecting rod (21) is eccentrically installed on the disc.

8. The orchid dry forming device of claim 7, wherein: upper knife rest (7) all include the blade that the multiunit parallels with lower floor's knife rest (8), main shaft (20) quantity is the multiunit, main shaft (20) are located upper conveyor belt (5) radial two sets of along upper conveyor belt (5) transmission direction symmetric distribution main shaft (20) install connecting plate (25) between main shaft (20).

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