CN209367106U - A kind of desiccant transport establishment - Google Patents

Abstract

It the utility model discloses a kind of desiccant transport establishment, including second shell and fits with first shell, right end and the first shell of the second shell, sets that there are two the second idler wheels in the inner cavity of the first shell.The desiccant transport establishment, pass through conveyer belt, the cooperation of second idler wheel and rubber block, make conveyer belt and the second idler wheel transport desiccant band allow to desiccant band uniform stressed and blocking promote between two desiccant bags desiccant bag it is mobile prevent desiccant band when moving discontinuity cause the fracture of desiccant band make to transport it is discontinuous, pass through fixed frame, third spring, the cooperation of nut and threaded rod can move up and down the second idler wheel among second shell in inner cavity, and the second idler wheel is allow to can move up and down the destruction of desiccant band or desiccant bag destruction when desiccant band is by next station pulling force when can indirectly control the elastic force of third spring by controlling nut, increase working efficiency and product quality.

Description

A kind of desiccant transport establishment

Technical field

The utility model relates to desiccant transport establishment technical field, specially a kind of desiccant transport establishment.

Background technique

The feeding roller of existing desiccant machine uses no-power drum, does not have Guide rollers component, desiccant moves downwards Power is driven using the force of rolling friction of rubber wheel group, and rubber wheel group is made of driving wheel and follower, and driving wheel is driven by motor, Desiccant band passes through between two rubber wheels, and two rubber wheels carry out extrusion rolling to desiccant, forms force of rolling friction, so Desiccant in the extruding force of latter two rubber wheel desiccant pack easy to damage, influences drying effect, by the laggard of rubber wheel Enter to next station, is easy by the drawing force of next station to be influenced that desiccant band is caused to be broken or desiccant bag is damaged, influence The quality of working efficiency and product.

Summary of the invention

It is mentioned above in the background art to solve the purpose of this utility model is to provide a kind of desiccant transport establishment Problem.

To achieve the above object, the utility model provides the following technical solutions: a kind of desiccant transport establishment, including second Shell and with first shell and horizontal block, right end and the first shell of the second shell fit, the inner cavity of the first shell In set there are two the second idler wheel, second idler wheel passes through pin shaft and is flexibly connected with first shell, second idler wheel outside Wall is connected with multiple rubber blocks, is set in inner cavity above the left and right sides of the second shell there are two the first idler wheel, described first Idler wheel passes through pin shaft and is flexibly connected with second shell, and the pin shaft runs through second shell, and pin shaft and second shell gap Cooperating, two the first idler wheel outer walls above the left and right sides of the second shell in inner cavity are flexibly connected by conveyer belt, The outer wall of the conveyer belt is connected with multiple rubber blocks, and the front and rear sides of the second shell are connected with fixed frame, described Third spring is socketed in the inner cavity of fixed frame, the inner cavity of the third spring is socketed with threaded rod, the lower end of the threaded rod It is connect with nut thread, upper surface and the third spring of the nut fit, upper end and the fixed frame phase of the third spring Fitting, the upper end of the threaded rod are run through fixed frame and are flexibly connected with shaft, and threaded rod and fixed frame clearance fit, described With pin shaft Joint, the outer wall of the pin shaft is connected with the second idler wheel for the inside of shaft, and the outer wall of second idler wheel is affixed There are multiple rubber blocks, is equipped with the first ladder column, the two sides of the first ladder column below the left side of the second shell in inner cavity Run through second shell a part, and the two sides outer wall of the first ladder column with second shell clearance fit, first rank The left end of cleat stanchion is mutually clamped with first shell, is machined with skewed slot on the left of the first ladder column, the skewed slot by groove with Second vertical bar fits, and second shell, and the second vertical bar and second shell gap are run through in the two sides up and down of second vertical bar Cooperation, the upper end of second vertical bar are mutually clamped with first shell, and the upper outer wall of second vertical bar is socketed with the 5th spring, The upper end of 5th spring fits with the second vertical bar, and lower end and the first ladder column of the 5th spring fit, described The outer right wall of first ladder column is socketed with the first spring, and the left end of first spring fits with the first ladder column, described The right end of first spring fits with second shell, is connected with servo motor in the right side lower end inner cavity of the second shell, institute The output end for stating servo motor is flexibly connected by third belt with the pin shaft on the right side of second shell, on the right side of the second shell Pin shaft is flexibly connected by the second belt with the left side pin shaft of second shell, the left side pin shaft on the left of the second shell in inner cavity It is flexibly connected by the first belt with the pin shaft in first shell.

Preferably, second spring, the right end and cross of the second spring are socketed with below the left side of the horizontal block in inner cavity Block fits, and left end and the second-order cleat stanchion of the second spring fit, and is machined with through-hole below the inner cavity of the horizontal block, institute The left side for stating second-order cleat stanchion is mutually clamped through a part of horizontal block with second shell, and second-order cleat stanchion and horizontal block activity connect It connects, skewed slot is machined on the left of the second-order cleat stanchion, the inner wall of the skewed slot is fitted by groove and the first vertical bar, described Horizontal block, and the first vertical bar and horizontal block clearance fit are run through in the two sides up and down of first vertical bar, and the outer wall of first vertical bar is socketed There is the 4th spring, the upper end of the 4th spring fits with the first vertical bar, the lower end of the 4th spring and second-order cleat stanchion It fits, the lower right-hand side of the horizontal block is machined with card slot.

Preferably, the affixed rubber sleeve of right end of the first ladder column.

Preferably, the intermediate inner cavity two sides of the second shell pass through circular shaft and are flexibly connected with circle wheel.

Preferably, the right side lower end of the second-order cleat stanchion is connected with vertical block, and outer wall and the through-hole of the vertical block fit.

Preferably, the front and rear sides of the second shell are connected with baffle.

Compared with prior art, the utility model has the beneficial effects that the desiccant transport establishment, by first shell and The cooperation of second idler wheel on the conveyer belt for the conveying for keeping desiccant band smooth, passes through conveyer belt, the second idler wheel and rubber block Cooperation, so that conveyer belt and the second idler wheel is allowed to desiccant band in transport desiccant band and uniform stressed and block two dryings Promoting desiccant bag movement to prevent desiccant band between agent bag, discontinuity causes the fracture of desiccant band to make to transport when moving It is discontinuous, make the second idler wheel among second shell in inner cavity can by the cooperation of fixed frame, third spring, nut and threaded rod To move up and down, and can by control nut indirectly control the elastic force of third spring when allow the second idler wheel doing Can move up and down when drying prescription band is by next station drawing force to be formed buffering prevent desiccant band destroy or desiccant bag It destroys, increases working efficiency and product quality.

Detailed description of the invention

FIG. 1 is a schematic structural view of the utility model；

Fig. 2 is the first shell of Fig. 1 and the schematic cross-sectional view of second shell；

Fig. 3 is the second vertical bar of Fig. 2 and the structural schematic diagram of the 5th spring；

Fig. 4 is the second-order cleat stanchion of Fig. 2 and the structural schematic diagram of the first vertical bar；

Fig. 5 is the threaded rod of Fig. 1 and the structural schematic diagram of third spring.

In figure: 1, pin shaft, 2, rubber block, 3, first shell, 4, circular shaft, 5, skewed slot, 6, groove, the 7, first spring, 8, Single order cleat stanchion, 9, second shell, 10, servo motor, 11, second-order cleat stanchion, the 12, first vertical bar, 13, through-hole, the 14, second bullet Spring, 15, card slot, 16, horizontal block, the 17, the 5th spring, 18, vertical block, 19, conveyer belt, the 20, first idler wheel, the 21, second idler wheel, 22, Second vertical bar, the 23, the 4th spring, 24, circle wheel, the 25, first belt, 26, fixed frame, 27, nut, 28, threaded rod, 29, third Spring, the 30, second belt, 31, shaft, 32, third belt, 33, rubber sleeve, 34, baffle.

Specific embodiment

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

Fig. 1-5 is please referred to, the utility model provides a kind of technical solution: a kind of desiccant transport establishment, including second shell Body 9, first shell 3 and horizontal block 16, right end and the first shell 3 of second shell 9 fit, are equipped in the inner cavity of first shell 3 Two the second idler wheels 21, two the second idler wheels 21 in first shell 3 are with arranged evenly in first shell 3 up and down, and second Idler wheel 21 is flexibly connected by pin shaft 1 with first shell 3, and the second idler wheel 21 can drive pin shaft 1 to rotate, the second idler wheel 21 Outer wall is connected with multiple rubber blocks 2, and the number of rubber block 2 is six, and rubber block 2 can increase the frictional force of the second idler wheel 21, It is set in inner cavity above the left and right sides of second shell 9 there are two the first idler wheel 20, the first idler wheel 20 passes through pin shaft 1 and second shell Body 9 is flexibly connected, and the first idler wheel 20 can drive pin shaft 1 to rotate, and pin shaft 1 runs through second shell 9, and pin shaft 1 and second shell 9 clearance fit of body, pin shaft 1 can rotate in second shell 9, and two above the left and right sides of second shell 9 in inner cavity the One idler wheel, 20 outer wall passes through conveyer belt 19 and is flexibly connected, two the first idler wheels in the left and right sides inner cavity of second shell 9 20 are driven mutually by conveyer belt 19, and the outer wall of conveyer belt 19 is connected with multiple rubber blocks 2, and rubber block 2 can increase biography The frictional force of band 19 is sent, the front and rear sides of second shell 9 are connected with fixed frame 26, and fixed frame 26 is separately fixed at second shell The intermediate outer wall of 9 front and rear sides is socketed with third spring 29 in the inner cavity of fixed frame 26, and the coefficient of elasticity of third spring 29 is 20N/M, the inner cavity of third spring 29 are socketed with threaded rod 28, and third spring 29 is socketed in the outer wall of threaded rod 28, threaded rod 28 Lower end be threadedly coupled with nut 27, upper surface and the third spring 29 of nut 27 fit, the upper end of third spring 29 and solid Determine frame 26 to fit, third spring 29 and nut 27 promote the position of the relatively fixed frame 26 of threaded rod 28 to fix, threaded rod 28 Upper end is run through fixed frame 26 and is flexibly connected with shaft 31, and threaded rod 28 and 26 clearance fit of fixed frame, and threaded rod 28 can be with It is moved in fixed frame 26, with 1 Joint of pin shaft, pin shaft 1 is fixed on threaded rod 28 by shaft 31 for the inside of shaft 31, Upper end, the outer wall of pin shaft 1 are connected with the second idler wheel 21, and the outer wall of the second idler wheel 21 is connected with multiple rubber blocks 2, and rubber block 2 can To increase the skin-friction force of the second idler wheel 21, the first ladder column 8, the first rank are equipped with below the left side of second shell 9 in inner cavity A part of second shell 9 is run through in the two sides of cleat stanchion 8, and the two sides outer wall of the first ladder column 8 is matched with 9 gap of second shell It closes, the first ladder column 8 can move in second shell 9, and left end and 3 phase of first shell of the first ladder column 8 are clamped, the first rank Cleat stanchion 8 move left and right first shell 3 can only with respect to second shell 9, and the left side of the first ladder column 8 is machined with skewed slot 5, skewed slot 5 It is fitted by groove 6 and the second vertical bar 22, the first ladder column 8 that moves right promotes that skewed slot 5 is made to squeeze groove lower end surface in turn Make to move under 22 phase of the second vertical bar, second shell 9, and the second vertical bar 22 and second shell are run through in the two sides up and down of the second vertical bar 22 9 clearance fit of body, the second vertical bar 22 can move in second shell 9, upper end and the 3 phase card of first shell of the second vertical bar 22 It connecing, upper end and the clamping of first shell 3 of the second vertical bar 22 promote first shell 3 that can only move up and down with respect to first shell 9, and first Ladder column 8 and the second vertical bar 22 promote first shell 3 to be fixed on the left end of second shell 9, the upper outer wall set of the second vertical bar 22 It is connected to the 5th spring 17, the upper end of the 5th spring 17 fits with the second vertical bar 22, the lower end of the 5th spring 17 and the first ladder Column 8 fits, and the coefficient of elasticity of the 5th spring 17 is 20N/M, and the outer right wall of the first ladder column 8 is socketed with the first spring 7, the The left end of one spring 7 fits with the first ladder column 8, and right end and the second shell 9 of first spring 7 fit, the first bullet The coefficient of elasticity of spring 7 is 30N/M, is connected with servo motor 10, the type of servo motor 10 in the right side lower end inner cavity of second shell 9 Number ECMA-E11320RS, servo motor 10 are fixed on the right side inner cavity lower end of second shell 9, and the output end of servo motor 10 is logical It crosses third belt 32 to be flexibly connected with the pin shaft 1 on 9 right side of second shell, servo motor 10 drives second shell by third belt 32 The pin shaft 1 on 9 right side of body rotates, and pin shaft 1 drives the rotation of the first idler wheel 20, and the first idler wheel 20 drives conveyer belt 19 to rotate, second shell The pin shaft 1 on 9 right side of body is flexibly connected by the second belt 30 with the left side pin shaft 1 of second shell 9, the pin on 9 right side of second shell Axis 1 drives the left side pin shaft 1 of second shell 9 to rotate by the second belt 30, the left side pin shaft 1 in 9 left side inner cavity of second shell It is flexibly connected by the first belt 25 with the pin shaft 1 in first shell 3, is socketed with the second bullet in inner cavity below the left side of horizontal block 16 Spring 14, right end and the horizontal block 16 of second spring 14 fit, and the coefficient of elasticity of second spring 14 is 30N/M, second spring 14 Left end fits with second-order cleat stanchion 11, and second spring 14 promotes second-order cleat stanchion 11 to fix with respect to the position of horizontal block 16, horizontal block Through-hole 13 is machined with below 16 inner cavity, through-hole 13 is convenient for pulling second-order cleat stanchion 11, and the left side of second-order cleat stanchion 11 is through cross A part of block 16 and 9 phase of second shell are clamped, and second-order cleat stanchion 11 is flexibly connected with horizontal block 16, and second-order cleat stanchion 11 can be with It is moved in horizontal block 16, the left side of second-order cleat stanchion 11 is machined with skewed slot 5, and the inner wall of skewed slot 5 passes through groove 6 and the first vertical bar 12 It fits, second-order cleat stanchion 11, which moves right, to be promoted skewed slot 5 to squeeze the lower surface of groove 6 and then make the first vertical bar 12 to moving down Dynamic, horizontal block 16, and the first vertical bar 12 and 16 clearance fit of horizontal block are run through in the two sides up and down of the first vertical bar 12, and the first vertical bar 12 can To move in horizontal block 16, the outer wall of the first vertical bar 12 is socketed with the 4th spring 23, and the coefficient of elasticity of the 4th spring 23 is 20N/ M, the upper end of the 4th spring 23 fit with the first vertical bar 12, and the 4th spring 23 promotes the position of the opposite horizontal block 16 of the first vertical bar 12 Fixed, lower end and the second-order cleat stanchion 11 of the 4th spring 23 fit, and the lower right-hand side of horizontal block 16 is machined with card slot 15, card slot 15 Convenient for being clamped with the right end of second shell 9, the affixed rubber sleeve 33 of the right end of the first ladder column 8, rubber sleeve 33 can increase the The frictional force of 8 right end of single order cleat stanchion, the intermediate inner cavity two sides of second shell 9 pass through circular shaft 4 and are flexibly connected with circle wheel 24, circle wheel 24 can rotate around circular shaft 4 relative to second shell 9, and the right side lower end of second-order cleat stanchion 11 is connected with vertical block 18, and vertical block 18 is just In pulling second-order cleat stanchion 11, outer wall and the through-hole 13 of vertical block 18 fit, and vertical block 18 can move in through-hole 13, second shell The front and rear sides of body 9 are connected with baffle 34, and baffle 34 can prevent desiccant band from skidding off conveyer belt 17.

When using this desiccant transport establishment, second shell 9 is fixed on target position, then pulls the first ladder column 8 right end, the first ladder column 8 is mobile to drive the second vertical bar 22 mobile by skewed slot 5, until the second vertical bar 22, upper end it is complete In second shell 9, then first shell 3 is placed on to the left end of second shell 9, then unclamps the first ladder column 8, first Ladder column 8 is moved to the left under the action of the first spring 7 along the inner cavity of second shell 9, until the first ladder column 8 left end with First shell 3 is clamped, and the second vertical bar 22 moves up under the action of the 5th spring 17 promotes the upper end of the second vertical bar 22 and the Then desiccant band is passed through first shell 3 by the left end that two shells 9 are clamped and then first shell 3 is made to be fixed on second shell 9 After inner cavity, the upper surface of 9 left side conveyer belt 19 of second shell, the lower end surface around the second idler wheel 21 among second shell 9 By the upper surface of 9 right side conveyer belt 19 of second shell, then servo motor 10 is connect with extraneous power supply, servo motor 10 is logical Crossing third belt 32, the second belt 30 and the first belt 25 drives pin shaft 1 to rotate, and pin shaft 1 is by driving the transmission of the first idler wheel 20 The rotation of band 19 and drive the second idler wheel 21 rotation, conveyer belt 19 and the rotation of the second idler wheel 21, promote desiccant band to transport.

In the description of the present invention, it should be understood that term " coaxial ", " bottom ", " one end ", " top ", " in The orientation of the instructions such as portion ", " other end ", "upper", " side ", " top ", "inner", " front ", " center ", " both ends " or position are closed System is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of describing the present invention and simplifying the description, rather than The device or element of indication or suggestion meaning must have a particular orientation, be constructed and operated in a specific orientation, therefore cannot It is construed as a limitation of the present invention.

In the present invention unless specifically defined or limited otherwise, term " installation ", " setting ", " connection ", " Gu Calmly ", the terms such as " being screwed on " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral； It can be mechanical connection, be also possible to be electrically connected；It can be directly connected, can also indirectly connected through an intermediary, it can be with It is the interaction relationship of the connection or two elements inside two elements, unless otherwise restricted clearly, for this field For those of ordinary skill, the concrete meaning of above-mentioned term in the present invention can be understood as the case may be.

While there has been shown and described that the embodiments of the present invention, for the ordinary skill in the art, It is understood that these embodiments can be carried out with a variety of variations in the case where not departing from the principles of the present invention and spirit, repaired Change, replacement and variant, the scope of the utility model is defined by the appended claims and the equivalents thereof.

Claims (6)

1. a kind of desiccant transport establishment, including second shell (9), first shell (3) and horizontal block (16), the second shell (9) right end fits with first shell (3), it is characterised in that: the second rolling there are two setting in the inner cavity of the first shell (3) It takes turns (21), second idler wheel (21) is flexibly connected by pin shaft (1) with first shell (3), second idler wheel (21) Outer wall is connected with multiple rubber blocks (2), sets that there are two the first idler wheels above the left and right sides of the second shell (9) in inner cavity (20), first idler wheel (20) is flexibly connected by pin shaft (1) with second shell (9), and the pin shaft (1) runs through second Shell (9), and pin shaft (1) and second shell (9) clearance fit, above the left and right sides of the second shell (9) in inner cavity Two the first idler wheel (20) outer walls pass through conveyer belt (19) flexible connection, and the outer wall of the conveyer belt (19) is connected with multiple The front and rear sides of rubber block (2), the second shell (9) are connected with fixed frame (26), in the inner cavity of the fixed frame (26) It is socketed with third spring (29), the inner cavity of the third spring (29) is socketed with threaded rod (28), under the threaded rod (28) End is threadedly coupled with nut (27), and upper surface and the third spring (29) of the nut (27) fit, the third spring (29) upper end fits with fixed frame (26), and it is living that fixed frame (26) and shaft (31) are run through in the upper end of the threaded rod (28) Dynamic connection, and threaded rod (28) and fixed frame (26) clearance fit, the inside of the shaft (31) with pin shaft (1) Joint, The outer wall of the pin shaft (1) is connected with the second idler wheel (21), is equipped with the first rank below the left side of the second shell (9) in inner cavity A part of second shell (9), and the two of the first ladder column (8) are run through in cleat stanchion (8), the two sides of the first ladder column (8) With second shell (9) clearance fit, left end and the first shell (3) of the first ladder column (8) are mutually clamped side outer wall, described It being machined with skewed slot (5) on the left of first ladder column (8), the skewed slot (5) is fitted by groove (6) with the second vertical bar (22), The two sides up and down of second vertical bar (22) are run through second shell (9), and the second vertical bar (22) is matched with second shell (9) gap It closes, upper end and the first shell (3) of second vertical bar (22) are mutually clamped, and the upper outer wall of second vertical bar (22) is socketed with 5th spring (17), upper end and the second vertical bar (22) of the 5th spring (17) fit, under the 5th spring (17) End fits with the first ladder column (8), and the outer right wall of the first ladder column (8) is socketed with the first spring (7), and described first The left end of spring (7) fits with the first ladder column (8), and right end and the second shell (9) of first spring (7) fit, It is connected with servo motor (10) in the right side lower end inner cavity of the second shell (9), the output end of the servo motor (10) is logical It crosses third belt (32) to be flexibly connected with the pin shaft (1) on the right side of second shell (9), the pin shaft (1) on the right side of the second shell (9) It is flexibly connected by the second belt (30) with the left side pin shaft (1) of second shell (9), on the left of the second shell (9) in inner cavity Left side pin shaft (1) be flexibly connected with the pin shaft (1) in first shell (3) by the first belt (25).

2. a kind of desiccant transport establishment according to claim 1, it is characterised in that: below the left side of the horizontal block (16) It is socketed in inner cavity second spring (14), right end and the horizontal block (16) of the second spring (14) fit, the second spring (14) left end fits with second-order cleat stanchion (11), is machined with through-hole (13) below the inner cavity of the horizontal block (16), and described the The left side of second order cleat stanchion (11) is mutually clamped through a part of horizontal block (16) with second shell (9), and second-order cleat stanchion (11) and Horizontal block (16) is flexibly connected, and is machined with skewed slot (5) on the left of the second-order cleat stanchion (11), the inner wall of the skewed slot (5) passes through Groove (6) fits with the first vertical bar (12), and the two sides up and down of first vertical bar (12) are run through horizontal block (16), and first is perpendicular Bar (12) and horizontal block (16) clearance fit, the outer wall of first vertical bar (12) are socketed with the 4th spring (23), the 4th bullet The upper end of spring (23) fits with the first vertical bar (12), and lower end and the second-order cleat stanchion (11) of the 4th spring (23) are affixed It closes, the lower right-hand side of the horizontal block (16) is machined with card slot (15).

3. a kind of desiccant transport establishment according to claim 1, it is characterised in that: the right side of the first ladder column (8) Hold affixed rubber sleeve (33).

4. a kind of desiccant transport establishment according to claim 1, it is characterised in that: the centre of the second shell (9) Inner cavity two sides pass through circular shaft (4) and are flexibly connected with circle wheel (24).

5. a kind of desiccant transport establishment according to claim 2, it is characterised in that: the right side of the second-order cleat stanchion (11) Side lower end is connected with vertical block (18), and outer wall and the through-hole (13) of the vertical block (18) fit.

6. a kind of desiccant transport establishment according to claim 1, it is characterised in that: the front and back of the second shell (9) Two sides are connected with baffle (34).