CN114455131A - Paper-packaged coin reel continuous processing device - Google Patents

Abstract

The invention discloses a paper-packaged coin reel continuous processing device, which comprises a device shell, a coin reel and a paper packaging device, wherein the device shell is used for loading a coin reel formed by primarily winding paper; a rotating device for rotating the coin roll; and the walking roller is used for spirally winding the adhesive tape on the coin winding drum. The rotating device comprises a driving rotating shaft and a clamping rotating shaft; the walking roller comprises a walking bracket, an outer ring assembly, a planet assembly, a sun assembly, a walking tooth group, a rotation adjusting device, a movement adjusting device and a one-way ratchet.

Description

Paper-packaged coin reel continuous processing device

Technical Field

The application relates to the technical field of machinery, concretely relates to coin reel continuation processing apparatus of paper encapsulation.

Background

The conventional coin storage method is to stack coins into a cylindrical shape and then to wind the stacked coins into a roll with newspapers or other paper by a hand or a machine. The above method is a simple and effective method for short-term storage. However, the above preservation method has the following problems:

1. newspapers have poor long-term storage properties. That is, the newspaper stored for a long time becomes yellow and crisp and is broken when being bumped.

2. And does not accommodate a more humid environment. Newspapers or other papers have limited water resistance and are prone to moisture and even breakage.

In order to solve the above problems, the following methods may be adopted:

1. and directly packaging with waterproof paper during packaging.

2. The coin roll that has been wrapped with the non-water-repellent paper is subjected to water-repellent treatment. The method does not need to disassemble the original non-waterproof paper package, and coins can not be scattered after the package is removed. Therefore, the method is a feasible and effective continuous treatment method. Based on above-mentioned design one kind can be on the basis of paper packaging's coin reel, further carry out water repellent's device. With the orderly coiling sticky tape of above-mentioned coin reel, both can carry out dampproofing protection, can also avoid the sticky tape directly to paste the coin and cause the awkward that the later stage is difficult to take off.

Disclosure of Invention

A paper-packaged coin roll continuous processing device comprises

A device housing for loading a coin roll preliminarily wound and formed by paper;

a rotating device for rotating the coin roll;

and the traveling roller is used for spirally winding the adhesive tape on the coin winding drum.

Further, the further technical scheme of the device shell is as follows:

the device comprises a device shell and a control device, wherein the device shell comprises a hollow rectangular shell body, a front adhesive tape cavity and a rear coin cavity are formed in the inner cavity of the shell body through division of a middle partition plate, an adhesive tape transverse hole is formed in the middle partition plate in the left-right direction, a rear rack is further arranged at the rear end of the front adhesive tape cavity, a left adjusting hole is formed in the left side of the front adhesive tape cavity, a right opening is formed in the right side of the front adhesive tape cavity, and openings are formed in the upper ends of the front adhesive tape cavity and the rear coin cavity;

as a further embodiment:

the front side and the rear side of the lower end face of the rear coin cavity are respectively and rotatably provided with auxiliary rollers arranged along the left and right directions.

As a further embodiment:

the lower end face center of the rear coin cavity is provided with a lower coin hole arranged along the left-right direction, and the upper half part of the rear end face of the rear coin cavity is provided with a rear coin hole.

The rotating device includes:

the driving rotating shaft comprises a left shaft hole arranged at the left end of the rear coin cavity, a driving shaft body rotatably arranged in the left shaft hole, a first chuck plate arranged at the right end of the driving shaft body, and a torsion roller arranged at the left side of the driving shaft body;

the clamping rotating shaft comprises a clamping through hole arranged at the right end of the rear coin cavity, a clamping shaft center which is slidably arranged in the clamping through hole, a right stop disc formed at the right end of the clamping shaft center, a second chuck plate formed at the left end of the clamping shaft center and a clamping pressure spring wound on the clamping shaft center, wherein the clamping pressure spring is positioned between the second chuck plate and the right end face of the rear coin cavity;

as a further embodiment:

and the right end face of the first chuck and the left end face of the second chuck are respectively formed with an anti-skid device.

As a further embodiment:

adhesive tape paper is arranged in the annular groove.

The walking roller comprises a walking bracket, a transverse column cavity arranged along the left-right direction is further arranged in the inner cavity of the walking bracket, an adhesive tape outlet is arranged at the rear end of the transverse column cavity, a walking main cavity is further arranged on the right side of the walking bracket,

as a further embodiment:

the front end of the front adhesive tape cavity is provided with a sliding transverse groove along the left-right direction, and the front end of the walking support is provided with a sliding inserting strip which can be slidably inserted into the sliding transverse groove.

Thanks to the improved technical scheme, the walking bracket can stably move left and right along the sliding transverse groove without deflection.

Still further, the sliding transverse groove is a dovetail groove or other shapes capable of preventing the sliding insert from sliding backwards out of the sliding slot.

The walking roller further comprises:

the outer ring assembly comprises a rubber belt roller ring which is rotatably arranged in the cavity of the transverse column, an annular groove which is formed on the outer wall of the rubber belt roller ring, a contact inner ring which is formed on the inner wall of the rubber belt roller ring, a limiting inner ring which is formed on the left side of the inner wall of the outer ring assembly and ratchet slots which are uniformly distributed on the left wall of the rubber belt roller ring in the circumferential direction;

the planet assembly comprises an installation base which is uniformly distributed on the right end surface of the transverse column cavity in the circumferential direction, a planet wheel shaft which is rotatably arranged in the installation base, and a tapered rotating wheel which is narrow at the left and wide at the right and is formed on the planet wheel shaft, the central axis of the tapered rotating wheel is gradually inclined outwards from the right to the left, and the outer wall of the tapered rotating wheel is arranged along the left and right direction and is in transmission contact connection with the contact inner ring;

the solar component comprises a transmission through hole which is arranged on the right side of the transverse column cavity and communicated with the walking main cavity, a transmission mandrel which is rotatably arranged in the transmission through hole, a driving bevel gear which is arranged on the right side of the transmission mandrel, and a solar rotating wheel which is formed on the transmission mandrel and is in transmission contact with the inner wall of the conical rotating wheel;

the walking tooth group comprises a narrow-diameter front hole arranged at the front end of the walking main cavity, a large-diameter circular cavity formed at the front end of the narrow-diameter front hole, a limiting disc rotatably arranged in the large-diameter circular cavity, a walking middle shaft arranged at the center of the rear end surface of the limiting disc and penetrating through the narrow-diameter front hole, the walking tooth group also comprises a connecting rear hole formed at the rear end of the walking main cavity, a connecting rear shaft rotatably arranged in the connecting rear hole, a driven bevel gear formed at the front end of the connecting rear shaft and concentrically and fixedly connected with the walking middle shaft, and an output gear formed at the rear end of the connecting rear shaft and connected with a rear rack, and the driven bevel gear is meshed with the driving bevel gear;

the rotary adjusting device comprises an adjusting left cavity arranged on the left side of the transverse column cavity, an adjusting left hole arranged on the left side of the adjusting left cavity, an adjusting mandrel rotatably arranged in the adjusting left hole, a twisting left column arranged on the left side of the adjusting mandrel and an external threaded rod arranged on the right side of the adjusting mandrel;

the movable adjusting device comprises an internal thread cylinder which is inserted into the adjusting left cavity in a sliding way and is meshed with the external thread rod, an external ring groove which is formed on the outer wall of the internal thread cylinder and is used for accommodating a limiting inner ring, a rotation stopping plug which is circumferentially and uniformly distributed on the inner wall of the adjusting left cavity, and an axial slot which is circumferentially and uniformly distributed on the left side of the outer wall of the internal thread cylinder and is in insertion fit with the rotation stopping plug;

the one-way ratchet comprises a ratchet slot arranged in front of the left side of the transverse column cavity and a limiting front groove arranged in front of the ratchet slot, wherein a ratchet pressure spring and a ratchet inserting rod are sequentially arranged in the ratchet slot from left to right, a ratchet plug in plug-in fit with the ratchet slot is arranged at the right end of the ratchet inserting rod, and a limiting plug inserted in the limiting front groove is arranged at the front end of the ratchet inserting rod.

Has the advantages that:

according to the continuous processing device, the coin winding drum is driven to integrally rotate through the rotating device, and the telescopic characteristic of the clamping rotating shaft allows the coin winding drum to adapt to a certain length range.

The scheme is a continuation processing apparatus, installs adhesive tape through the walking roller, through taking out adhesive tape as the power supply, realizes the straight line walking of walking roller, finally makes adhesive tape encapsulate the coin reel with spiral winding mode.

According to the continuous processing device, the walking roller reciprocates in the left and right directions, and the adhesive tape paper can only be drawn out and cannot be reversely wound:

when the walking roller is reset from right to left, the walking roller is pushed to move leftwards from the right opening by fingers or other tools, and the output gear drives the planetary assembly to rotate reversely; however, the ratchet slot of the outer ring component is unidirectionally locked by the unidirectional ratchet, so that the ratchet slot is not driven by the planet component to rotate reversely, and the adhesive tape is prevented from being reversely wound.

Description of the drawings:

in order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained from the drawings without inventive effort.

FIG. 1 is a schematic view of an embodiment of the sheet-fed coin roll reprocessing apparatus.

FIG. 2 is a schematic view of an embodiment of the sheet-fed coin roll reprocessing apparatus.

FIG. 3 is a cross-sectional view of one embodiment of the sheet-fed coin roll reprocessing apparatus.

FIG. 4 is a cross-sectional view of another embodiment of the sheet-fed coin roll reprocessing apparatus.

FIG. 5 is a sectional view of yet another embodiment of the sheet-fed coin roll reprocessing apparatus.

Fig. 6 is a sectional view taken along line a-a of fig. 3.

Fig. 7 is a sectional view taken along line B-B in fig. 3.

Figure 8 is a cross-sectional view of one embodiment of a walking roller.

Figure 9 is a cross-sectional view of another embodiment of a walking roller.

Fig. 10 is an enlarged schematic view of the portion C in fig. 8.

FIG. 11 is a cross-sectional view of one embodiment of the clamping spindle.

Icon:

m. coin roll, n. adhesive tape;

1. the device comprises a device shell, 11. a shell body, 12. a middle clapboard, 13. a front adhesive tape cavity, 13a. a sliding transverse groove, 13b. a rear rack, 13c. a left adjusting hole, 13d. a right opening, and 14. a rear coin cavity;

2. the device comprises a rotating device, 21, a driving rotating shaft, 21a, a left shaft hole, 21b, a driving shaft body, 21c, a first chuck plate, 21d, a torsion roller, 22, a clamping rotating shaft, 22a, a clamping through hole, 22b, a clamping shaft core, 22c, a right stop disc, 22d, a second chuck plate and 22e, and a clamping pressure spring;

3. a traveling roller;

31. the device comprises a walking bracket, a sliding insert 31a, a transverse column cavity 31b, a rubber belt outlet 31c and a walking main cavity 31 d;

32. an outer ring assembly, 32a, a tape roller ring, 32b, an annular groove, 32c, a contact inner ring, 32d, a limiting inner ring, and 32e, a ratchet slot;

33. the planet assembly, 33a. a mounting base, 33b. a planet wheel shaft, 33c. a conical rotating wheel;

34. a sun component, 34a. a transmission through hole, 34b. a transmission mandrel, 34c. a driving bevel gear, 34d. a sun runner;

35. the gear comprises a walking tooth group, a narrow-diameter front hole, a large-diameter round cavity, a limiting disc, a walking middle shaft, a connecting rear hole, a connecting rear shaft, a driven bevel gear and an output gear, wherein the walking tooth group is 35a, the narrow-diameter front hole is 35b, the large-diameter round cavity is 35c, the limiting disc is 35d, the walking middle shaft is 35d, the connecting rear hole is 35e, the connecting rear shaft is 35f, the driven bevel gear is 35g, and the output gear is 35 h;

36. rotating an adjusting device, 36a, 36b, 36c, 36d, twisting a left column and 36e, wherein the left cavity is adjusted, the left hole is adjusted, the mandrel is adjusted, and the external thread rod is twisted;

37. the device comprises a mobile adjusting device, an internal thread cylinder 37a, an external ring groove 37b, a rotation stopping plug 37c and an axial slot 37 d;

38. the ratchet mechanism comprises a one-way ratchet, 38a, a ratchet slot, 38b, a limiting front slot, 38c, a ratchet pressure spring, 38d, a ratchet inserted rod, 38e, a ratchet plug and 38e, a limiting plug.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments.

A paper-packaged coin roll continuous processing device comprises

A device case 1 for loading a coin roll n formed by preliminarily winding paper;

a rotating device 2 for rotating the coin roll n;

and a traveling roller 3 for spirally winding the adhesive tape m on the coin roll n.

Further, the device housing 1 has the following further technical scheme:

the device shell 1 comprises a hollow rectangular shell body 11, the inner cavity of the shell body 11 is divided and formed with a front adhesive tape cavity 13 and a rear coin cavity 14 through a middle partition plate 12, the middle partition plate 12 is also provided with an adhesive tape cross hole 12a arranged along the left-right direction, the rear end of the front adhesive tape cavity 13 is also provided with a rear rack 13b, the left side of the front adhesive tape cavity 13 is provided with a left adjusting hole 13c, the right side of the front adhesive tape cavity 13 is also provided with a right opening 13d, and the upper ends of the front adhesive tape cavity 13 and the rear coin cavity 14 are opened;

as a further embodiment:

the front and the rear sides of the lower end surface of the rear coin cavity 14 are respectively provided with auxiliary rollers 14a which are arranged along the left-right direction in a rotatable manner.

As a further embodiment:

the lower end face center of the rear coin cavity 14 is provided with a coin lower hole 14b arranged along the left-right direction, and the upper half part of the rear end face of the rear coin cavity 14 is provided with a coin rear hole 14 c.

Thanks to the improved technical scheme, the auxiliary roller 14a of the rear coin cavity 14 can greatly reduce the damping of the rotation of the coin winding drum n, so that the coin winding drum n can smoothly rotate.

The rotating device 2 includes:

the driving rotating shaft 21 comprises a left shaft hole 21a arranged at the left end of the rear coin cavity 14, a driving shaft body 21b rotatably arranged in the left shaft hole 21a, a first chuck 21c arranged at the right end of the driving shaft body 21b, and a torsion roller 21d arranged at the left side of the driving shaft body 21 b;

a clamping rotating shaft 22, which comprises a clamping through hole 22a arranged at the right end of the rear coin cavity 14, a clamping shaft center 22b arranged in the clamping through hole 22a in a sliding manner, a right stop disc 22c formed at the right end of the clamping shaft center 22b, a second chuck plate 22d formed at the left end of the clamping shaft center 22b, and a clamping pressure spring 22e wound on the clamping shaft center 22b, wherein the clamping pressure spring 22e is positioned between the second chuck plate 22d and the right end face of the rear coin cavity 14;

as a further embodiment:

and anti-skid devices are respectively formed on the right end surface of the first chuck plate 21c and the left end surface of the second chuck plate 22d.

Thanks to the above improved technical solution, after the first chuck 21c and the second chuck 22d clamp the coin roll n, the coin roll n can be driven to rotate due to sufficient friction between the first chuck 21c and the coin roll n.

As a further embodiment, the second chuck 22d comprises a fixed disk 22d-1, a rotating disk 22d-2 rotatably sleeved on the fixed disk 22d-1, and an anti-slip device 22d-3 densely distributed on the left end surface of the rotating disk 22d-2, wherein a lubricating device is arranged between the fixed disk 22d-1 and the rotating disk 22 d-2.

Thanks to the improved technical scheme, the friction force between the anti-skid device 22d-3 on the left end surface of the rotating disc body 22d-2 and the coin winding drum n is large enough to realize the effective transmission of the two, and the rotating disc body 22d-2 and the fixed disc body 22-1 are smooth enough to reduce the running damping thereof, so that the rotating disc body 22d-2 rotates more efficiently along with the coin winding drum n.

As a further embodiment:

adhesive tape m is arranged in the annular groove 32b.

Thanks to the improved technical scheme, the adhesive tape paper m can be wound conveniently.

The walking roller 3 comprises a walking bracket 31, a transverse column cavity 31b arranged along the left-right direction is also arranged in the inner cavity of the walking bracket 31, a rubber belt outlet 31c is arranged at the rear end of the transverse column cavity 31b, a walking main cavity 31d is also arranged on the right side of the walking bracket 31,

as a further embodiment:

the front end of the front adhesive tape cavity 13 is provided with a sliding transverse groove 13a along the left-right direction, and the front end of the walking bracket 31 is provided with a sliding insertion strip 31a which is slidably inserted into the sliding transverse groove 13a.

Thanks to the above improved technical solution, the walking frame 31 can move left and right stably along the sliding transverse slot 13a without deflection.

Still further, the sliding transverse slot 13a is a dovetail slot or other shape that can prevent the sliding insert 31a from sliding backwards out of the sliding slot 13a.

The walking roller 3 further comprises:

the outer ring assembly 32 comprises a rubber belt roller ring 32a which is rotatably arranged in the transverse cylindrical cavity 31b, an annular groove 32b which is formed on the outer wall of the rubber belt roller ring 32a, a contact inner ring 32c which is formed on the inner wall of the rubber belt roller ring 32a, a limit inner ring 32d which is formed on the left side of the inner wall of the outer ring assembly 32 and ratchet slots 32e which are uniformly distributed on the left wall of the rubber belt roller ring 32a in the circumferential direction;

the planet assembly 33 comprises an installation base 33a which is uniformly distributed on the right end surface of the transverse cylindrical cavity 31b in the circumferential direction, a planet wheel shaft 33b which is rotatably arranged in the installation base 33a, and a tapered rotating wheel 33c which is narrow at the left and wide at the right and is formed on the planet wheel shaft 33b, the central axis of the tapered rotating wheel 33c is gradually inclined outwards from the right to the left, and the outer wall of the tapered rotating wheel 33c is arranged along the left and right direction and is in transmission contact connection with the contact inner ring 32 c;

the sun component 34 comprises a transmission through hole 34a which is arranged at the right side of the transverse column cavity 31b and is communicated with the walking main cavity 31d, a transmission mandrel 34b which is rotatably arranged in the transmission through hole 34a, a driving bevel gear 34c which is arranged at the right side of the transmission mandrel 34b, and a sun rotating wheel 34d which is formed on the transmission mandrel 34b and is in transmission contact with the inner wall of the conical rotating wheel 33 c;

the walking tooth group 35 comprises a narrow-diameter front hole 35a arranged at the front end of the walking main cavity 31a, a large-diameter circular cavity 35b formed at the front end of the narrow-diameter front hole 35a, a limiting disc 35c rotatably arranged in the large-diameter circular cavity 35b, a walking middle shaft 35d arranged at the center of the rear end surface of the limiting disc 35c and penetrating through the narrow-diameter front hole 35a, a connecting rear hole 35e formed at the rear end of the walking main cavity 31a, a connecting rear shaft 35f rotatably arranged in the connecting rear hole 35e, a driven bevel gear 35g formed at the front end of the connecting rear shaft 35f and fixedly connected with the walking middle shaft 35d in a concentric manner, and an output gear 35h formed at the rear end of the connecting rear shaft 35f and connected with the rear rack 13b, wherein the driven bevel gear 35g is meshed with the driving bevel gear 34 c;

the rotary adjusting device 36 comprises an adjusting left cavity 36a arranged on the left side of the transverse column cavity 31b, an adjusting left hole 36b arranged on the left side of the adjusting left cavity 36a, an adjusting mandrel 36c rotatably arranged in the adjusting left hole 36b, a twisting left column 36d arranged on the left side of the adjusting mandrel 36c, and an external threaded rod 36e arranged on the right side of the adjusting mandrel 36 c;

the movable adjusting device 37 comprises an internal thread cylinder 37a which is slidably inserted into the adjusting left cavity 36a and is meshed with the external thread rod 36e, an external ring groove 37b which is formed on the outer wall of the internal thread cylinder 37a and accommodates a limiting inner ring 32d, a rotation stopping plug 37c which is circumferentially and uniformly distributed on the inner wall of the adjusting left cavity 36a, and an axial slot 37d which is circumferentially and uniformly distributed on the left side of the outer wall of the internal thread cylinder 37a and is in inserted fit with the rotation stopping plug 37 c;

the one-way ratchet 38 comprises a ratchet slot 38a arranged in front of the left side of the transverse column cavity 31b and a limiting front groove 38b arranged in front of the ratchet slot 38a, a ratchet pressure spring 38c and a ratchet inserted bar 38d are sequentially arranged in the ratchet slot 38a from left to right, a ratchet plug 38e in plug-in fit with the ratchet slot 32e is arranged at the right end of the ratchet inserted bar 38d, and a limiting plug 38f inserted in the limiting front groove 38b is arranged at the front end of the ratchet inserted bar 38d.

Based on foretell paper encapsulation's coin reel continuation processing apparatus, provide a paper encapsulation's coin reel continuation processing apparatus's processing method for the coin that will have been wrapped up by the paper, further cladding covers the sticky tape, and then reaches better saving and water-proof effects, is convenient for preserve for a long time:

step 1, placing a coin reel:

stacking the coins into a cylindrical shape, and primarily packaging the coins with paper to form a coin roll n;

the right stopping disc 22c is pulled rightwards by hand to drive the clamping shaft center 22b and the second chuck 22d to move rightwards by overcoming the damping of the clamping pressure spring 22 e;

the coin roll n is placed through an opening in the upper end of the rear coin chamber 14;

releasing the right stopper disk 22c, moving the second chuck 22d to the left, and clamping the coin roll n by the first chuck 21c and the second chuck 22 d;

step 2, primary winding:

drawing out the head end of the adhesive tape m and bonding the head end of the adhesive tape m to the left end of the coin winding drum n;

step 3, the walking roller 3 walks:

step 3.1, the outer ring assembly 32 rotates:

rotating the torsion roller 21d, the driving shaft body 21b and the first chuck 21 c;

the first chuck plate 21c drives the coin reel n and the second chuck plate 22d to rotate;

the coin roll n draws the adhesive tape m from the outer ring assembly 32 and winds the adhesive tape m on the coin roll n;

the contact inner ring 32c rotates to drive the conical rotating wheel 33c to rotate, and the conical rotating wheel 33c drives the sun rotating wheel 34d, the transmission mandrel 34b and the driving bevel gear 34c to rotate;

the driving bevel gear 34c drives the driven bevel gear 35g, the connecting rear shaft 35f and the output gear 35h to rotate;

the output gear 35h rotates on the rear rack 13b to drive the traveling roller 3 to move rightwards;

and the adhesive tape paper m is wound in a spiral track to finish winding the coin reel n.

As a further embodiment:

further comprising a step 4 of adjusting the winding distance of the adhesive tape m:

rotating the left torsion column 36d, the adjusting spindle 36c and the external threaded rod 36 e;

the external screw rod 36e acts on the internal screw cylinder 37a, thereby driving the entire movement adjusting device 37 to move rightward;

thereby driving the outer ring assembly 32 to move rightwards;

and adjusting the actual contact position and the effective transmission radius of the contact inner ring 32c and the conical rotating wheel 33c, further adjusting the transmission ratio between the contact inner ring 32 and the planetary assembly 33, finally adjusting the transmission ratio between the contact inner ring 32 and the output gear 35h, and finally adjusting the traveling speed of the traveling roller 3 along the output gear 35h, namely the winding distance of the adhesive tape m on the coin roll n.

Further, the axial end of the coin roll n may be adhered by manually winding adhesive tape m or additionally preparing a circular adhesive tape.

As a further embodiment, the method further comprises the step 5 of resetting:

when the traveling roller 3 travels to the right end, the coin roller n finishes winding, and adhesive tape m is cut off;

pushing the walking roller 3 leftwards by using fingers or other tools from the right opening 13d to move leftwards, rotating the output gear 35h in the direction opposite to the direction in the step 3, and finally driving the planetary assembly 33 to rotate reversely;

however, since the ratchet slots 32e of the outer ring assembly 32 are unidirectionally locked by the unidirectional ratchet 38, i.e., the outer ring assembly 32 can only rotate in the direction of step 3, the outer ring assembly 32 is kept stationary, and a slip is generated between the tapered rollers 33c of the rotating planetary assembly 33 and the contacting inner rings 32c of the stationary outer ring assembly 32;

finally, the outer ring assembly 32 is stationary, and the adhesive tape m is prevented from being reversely wound.

It should be further noted that the anti-slip means on the right end surface of the first chuck 21c and the left end surface of the second chuck 22d are densely distributed anti-slip needle pricks or anti-slip protruding points.

It should be further noted that when the winding is finished and needs to be reset, the walking roller 3 can be inserted and pushed from the right opening 13d by a finger or other tools to reset to the left.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. A paper-encapsulated coin roll reprocessing apparatus, comprising: comprises that

A device housing (1) for loading a coin roll (n) formed by preliminarily winding paper;

-rotation means (2) to rotate said coin rolls (n);

and the traveling roller (3) is used for spirally winding the adhesive tape (m) on the coin winding drum (n).

2. The paper-wrapped coin roll reprocessing apparatus according to claim 1, wherein:

the device shell (1) comprises a hollow rectangular shell body (11), the inner cavity of the shell body (11) is divided and formed with a front adhesive tape cavity (13) and a rear coin cavity (14) through a middle-arranged clapboard (12), the middle-arranged clapboard (12) is also provided with an adhesive tape cross hole (12a) arranged along the left-right direction, the rear end of the front adhesive tape cavity (13) is also provided with a rear rack (13b), the left side of the front adhesive tape cavity (13) is provided with a left adjusting hole (13c), the right side of the front adhesive tape cavity (13) is also provided with a right opening (13d), and the upper ends of the front adhesive tape cavity (13) and the rear coin cavity (14) are provided with openings;

the rotating device (2) comprises:

the driving rotating shaft (21) comprises a left shaft hole (21a) arranged at the left end of the rear coin cavity (14), a driving shaft body (21b) rotatably arranged in the left shaft hole (21a), a first chuck plate (21c) arranged at the right end of the driving shaft body (21b), and a torsion roller (21d) arranged at the left side of the driving shaft body (21 b);

the clamping rotating shaft (22) comprises a clamping through hole (22a) arranged at the right end of the rear coin cavity (14), a clamping shaft center (22b) arranged in the clamping through hole (22a) in a sliding mode, a right stop disc (22c) formed at the right end of the clamping shaft center (22b), a second chuck (22d) formed at the left end of the clamping shaft center (22b), and a clamping pressure spring (22e) wound on the clamping shaft center (22b), wherein the clamping pressure spring (22e) is located between the second chuck (22d) and the right end face of the rear coin cavity (14);

be equipped with adhesive tape (m) on walking roller (3), rotating device (2) drive coin reel (n) and tentatively convolute adhesive tape (m) on coin reel (n) and rotate, and then the pull adhesive tape (m) of walking roller (3) makes it remove, finally spiral winding adhesive tape (m) on coin reel (n).

3. The sheet-fed coin roll reprocessing apparatus according to claim 2, wherein:

the walking roller (3) comprises:

the rubber belt conveyor is characterized by comprising a walking support (31), wherein a transverse column cavity (31b) arranged along the left-right direction is further arranged in the inner cavity of the walking support (31), a rubber belt outlet (31c) is formed in the rear end of the transverse column cavity (31b), and a walking main cavity (31d) is further arranged on the right side of the walking support (31);

the outer ring assembly (32) comprises a rubber belt roller ring (32a) which is rotatably arranged in the transverse cylindrical cavity (31b), an annular groove (32b) which is formed in the outer wall of the rubber belt roller ring (32a), a contact inner ring (32c) which is formed in the inner wall of the rubber belt roller ring (32a), a limiting inner ring (32d) which is formed on the left side of the inner wall of the outer ring assembly (32), and ratchet slots (32e) which are uniformly distributed on the left wall of the rubber belt roller ring (32a) in the circumferential direction;

the planet assembly (33) comprises an installation base (33a) which is uniformly distributed on the right end surface of the transverse column cavity (31b) in the circumferential direction, a planet wheel shaft (33b) which is rotatably arranged in the installation base (33a), and a tapered rotating wheel (33c) which is narrow at the left and wide at the right and is formed on the planet wheel shaft (33b), the central axis of the tapered rotating wheel (33c) is gradually inclined outwards from the right to the left, and the outer wall of the tapered rotating wheel (33c) is arranged along the left and right direction and is in transmission contact connection with the contact inner ring (32 c);

the solar component (34) comprises a transmission through hole (34a) which is arranged on the right side of the transverse column cavity (31b) and communicated with the walking main cavity (31d), a transmission mandrel (34b) which is rotatably arranged in the transmission through hole (34a), a driving bevel gear (34c) which is arranged on the right side of the transmission mandrel (34b), and a solar rotating wheel (34d) which is formed on the transmission mandrel (34b) and is in transmission contact with the inner wall of the conical rotating wheel (33 c);

the walking tooth group (35) comprises a narrow-diameter front hole (35a) arranged at the front end of the walking main cavity (31a), a large-diameter round cavity (35b) formed at the front end of the narrow-diameter front hole (35a), a limiting disc (35c) rotatably arranged in the large-diameter round cavity (35b), and a walking middle shaft (35d) arranged at the center of the rear end surface of the limiting disc (35c) and penetrating through the narrow-diameter front hole (35a), the walking tooth group (35) also comprises a connecting rear hole (35e) formed at the rear end of the walking main cavity (31a), a connecting rear shaft (35f) rotatably arranged in the connecting rear hole (35e), a driven bevel gear (35g) formed at the front end of the connecting rear shaft (35f) and concentrically and fixedly connected with the walking middle shaft (35d), and an output gear (35h) formed at the rear end of the connecting rear shaft (35f) and connected with the rear rack (13b), the driven bevel gear (35g) is meshed with the drive bevel gear (34 c);

the rotary adjusting device (36) comprises an adjusting left cavity (36a) arranged on the left side of the transverse column cavity (31b), an adjusting left hole (36b) arranged on the left side of the adjusting left cavity (36a), an adjusting mandrel (36c) rotatably arranged in the adjusting left hole (36b), a twisting left column (36d) arranged on the left side of the adjusting mandrel (36c) and an external threaded rod (36e) arranged on the right side of the adjusting mandrel (36 c);

the movable adjusting device (37) comprises an internal thread cylinder (37a) which is slidably inserted into the adjusting left cavity (36a) and is meshed with the external thread rod (36e), an external ring groove (37b) which is formed in the outer wall of the internal thread cylinder (37a) and is used for accommodating a limiting inner ring (32d), a rotation stopping plug (37c) which is circumferentially and uniformly distributed on the inner wall of the adjusting left cavity (36a), and axial inserting grooves (37d) which are circumferentially and uniformly distributed on the left side of the outer wall of the internal thread cylinder (37a) and are matched with the rotation stopping plug (37c) in an inserting mode;

one-way ratchet (38) is including establishing ratchet slot (38a) in horizontal post chamber (31b) left side place ahead, establishing spacing front groove (38b) in ratchet slot (38a) the place ahead, ratchet pressure spring (38c), ratchet inserted bar (38d) are equipped with in ratchet slot (38a) from left to right in proper order, ratchet inserted bar (38d) right-hand member is equipped with and pegs graft ratchet plug (38e) of complex with ratchet slot (32e), ratchet inserted bar (38d) front end is equipped with inserts spacing plug (38f) of establishing in spacing front groove (38 b).

4. The paper-wrapped coin roll reprocessing apparatus of claim 3, wherein:

the front end of the front adhesive tape cavity (13) is provided with a sliding transverse groove (13a) along the left-right direction, and the front end of the walking bracket (31) is provided with a sliding inserting strip (31a) which can be slidably inserted into the sliding transverse groove (13 a).

5. The paper-wrapped coin roll reprocessing apparatus of claim 4, wherein:

the front side and the rear side of the lower end surface of the rear coin cavity (14) are respectively and rotatably provided with an auxiliary roller (14a) arranged along the left-right direction.

6. The paper-wrapped coin roll reprocessing apparatus of claim 5, wherein:

the middle of the lower end face of the rear coin cavity (14) is provided with a lower coin hole (14b) arranged along the left-right direction, and the upper half part of the rear end face of the rear coin cavity (14) is provided with a rear coin hole (14 c).

7. The sheet fed coin roll reprocessing apparatus according to claim 6, wherein:

and anti-skid devices are respectively formed on the right end surface of the first chuck (21c) and the left end surface of the second chuck (22 d).

8. The sheet fed coin roll reprocessing apparatus according to claim 7, wherein:

adhesive tape paper (m) is arranged in the annular groove (32 b).

9. A method of further processing of paper wrapped coin rolls using the processing apparatus of any one of claims 1 to 8, characterized by:

step 1, placing a coin reel:

stacking the coins into a cylindrical shape, and primarily packaging the coins with paper to form a coin roll (n);

the right stopping disc (22c) is pulled rightwards by hand to drive the clamping shaft center (22b) and the second chuck (22d) to move rightwards by overcoming the damping of a clamping pressure spring (22 e);

putting the coin roll (n) into the rear coin cavity (14) through an opening at the upper end;

-releasing the right stop disc (22c), the second chuck (22d) moving to the left, the coin roll (n) being clamped by the first chuck (21c) and the second chuck (22 d);

step 2, primary winding:

the head end of the adhesive tape paper (m) is drawn out and is adhered to the left end of the coin winding drum (n);

step 3, the walking roller (3) walks:

step 3.1, the outer ring component (32) rotates:

rotating the torsion roller (21d), the driving shaft body (21b) and the first chuck (21 c);

the first chuck (21c) drives the coin winding drum (n) and the second chuck (22d) to rotate;

the coin winding drum (n) draws out the adhesive tape (m) from the outer ring assembly (32) and winds the adhesive tape on the coin winding drum (n);

the contact inner ring (32c) rotates to drive the conical rotating wheel (33c) to rotate, and the conical rotating wheel (33c) drives the sun rotating wheel (34d), the transmission mandrel (34b) and the drive bevel gear (34c) to rotate;

the driving bevel gear (34c) drives the driven bevel gear (35g), the connecting rear shaft (35f) and the output gear (35h) to rotate;

the output gear (35h) rotates on the rear rack (13b) to drive the traveling roller (3) to move rightwards;

and the adhesive tape paper (m) is wound in a spiral track to finish winding the coin reel (n).

10. The method of claim 9, further comprising the step of:

further comprising a step 4 of adjusting the winding distance of the adhesive tape paper (m):

rotating the left twisting column (36d), the adjusting mandrel (36c) and the external threaded rod (36 e);

the external thread rod (36e) acts on the internal thread cylinder (37a) so as to drive the whole movement adjusting device (37) to move rightwards;

thereby driving the outer ring component (32) to move rightwards;

and adjusting the actual contact position and the effective transmission radius of the contact inner ring (32c) and the conical rotating wheel (33c), further adjusting the transmission ratio between the contact inner ring (32) and the planetary assembly (33), finally adjusting the transmission ratio between the contact inner ring (32) and the output gear (35h), and finally adjusting the traveling speed of the traveling roller (3) along the output gear (35h), namely the winding distance of the adhesive tape (m) on the coin winding drum (n).

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