CN217866349U - Automatic buffer memory storage device of compressed towel - Google Patents

Abstract

The utility model discloses an automatic buffer memory storage device of compressed towel draws together the bed plate, bed plate bottom surface fixed mounting has first servo motor and second servo motor, upper sprocket and lower floor's sprocket are all installed to first servo motor and second servo motor power take off end, and are connected with the chain between the sprocket that is located the coplanar of first servo motor and second servo motor power take off end. The utility model has the advantages that: drive the transition mould through first servo motor and second servo motor and rotate to the realization is transported the towel that compresses well in the transition mould, and whole process is whole to be packed and unload by the machine in addition, has improved holistic work efficiency greatly, has alleviateed artifical intensity of labour, because the transition mould is a plurality of, can pack the compression to next mould through rotating after a packing compression finishes, make the production process in need not pause intermittent type formula production, realize the automation.

Description

Automatic buffer memory storage device of compressed towel

Technical Field

The utility model relates to a health supplies mechanical equipment makes the field, especially an automatic buffer memory storage device of compression towel.

Background

Traditional compressed towel production mechanical equipment only has single mould to operate when carrying out the compression transportation, can only intermittent type formula production, and is inefficient, can't accomplish automated production, for this reason we provide an automatic buffer memory storage device of compressed towel and solve above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

The utility model aims to overcome prior art's shortcoming, provide an automatic buffer memory storage device of compressed towel.

The purpose of the utility model is realized through the following technical scheme:

the utility model provides an automatic buffer memory storage device of compressed towel, includes the bed plate, bed plate bottom surface fixed mounting has first servo motor and second servo motor, upper sprocket and lower floor's sprocket are all installed to first servo motor and second servo motor power take off end, and are connected with the chain between the coplanar sprocket that is located of first servo motor and second servo motor power take off end, even interval installs a plurality of transition moulds on the chain, the packing point of transition mould and the top of discharge point are provided with push-in rod and liftout bar respectively, first servo motor and second servo motor start-up drive the rotatory circulation of transition mould and reciprocate to unload packing compression and ejecting unload.

A further technical scheme is, the upper sprocket includes second sprocket and first sprocket, lower floor's sprocket includes third sprocket and fourth sprocket, third sprocket, fourth sprocket and first sprocket, fourth sprocket are installed respectively to first servo motor and second servo motor power take off end, second sprocket and fourth sprocket adopt fixed mounting means then third sprocket and first sprocket adopt rotate/fixed mounting means.

Still further technical scheme is, the chain includes chain and lower chain, the transmission is connected with down the chain between third sprocket and the fourth sprocket, be connected with the chain between second sprocket and the first sprocket, go up the chain and rotate mutually independent between the chain down, go up the chain and install interval evenly distributed's transition mould with down on the chain, the last fixed surface of bed plate is connected with the circular orbit that plays the supporting role for the transition mould.

According to a further technical scheme, the transition die comprises a plurality of first dies fixedly mounted on the upper chain and a plurality of second dies fixedly mounted on the lower chain, and the first dies and the second dies are alternately and uniformly distributed at intervals on the rotating tracks of the upper chain and the lower chain.

A first connecting mechanism is arranged between the first mold and the upper chain, the first connecting mechanism comprises a first mounting plate and a first vertical plate which are detachably mounted on the side face of the first mold close to the direction of the third chain wheel, the side face of the first vertical plate close to the direction of the third chain wheel is fixedly connected with a first connecting plate, the first connecting plate is fixedly connected with one chain link of the upper chain, the bottom surface of the first mounting plate is rotatably connected with two groups of first idler wheels and second idler wheels which roll relative to the circular rail, and the first idler wheels and the second idler wheels are respectively located on two sides of the circular rail.

A second connecting mechanism is arranged between the second mold and the lower chain and comprises a second mounting plate and a second vertical plate which are detachably mounted on the side face, close to the third chain wheel, of the second mold, the second mounting plate is fixedly connected with one chain link of the lower chain, a third roller and a fourth roller which roll relative to the annular rail are rotatably connected to the bottom face of the second mounting plate, and the third roller and the fourth roller are located on two sides of the annular rail respectively.

According to a further technical scheme, a position-giving opening capable of accommodating the transition mold is formed in the upper surface of the base plate.

According to a further technical scheme, a plurality of hole sites are arranged in the first die and the second die and are uniformly arranged in a matrix shape, and the number of the ejector rods is matched with the number of the hole sites.

The utility model has the advantages of it is following:

1. the utility model discloses a first servo motor and second servo motor drive transition mould and rotate to the realization is transported the towel that compresses well in transition mould, and whole process is whole to be packed and is unloaded by the machine in addition, has improved holistic work efficiency greatly, has alleviateed artifical intensity of labour, because transition mould is a plurality of, can pack the compression to next mould through rotating after a packing compression finishes, make the production process in need not pause intermittent type formula production, realize the automation.

2. The utility model discloses last chain and the first coupling mechanism of lower chain fixed mounting and second coupling mechanism can transmit power and still play the effect that supports first mould and second mould to first mould and second mould, prevent that first mould and second mould from taking place to break away from with the sprocket to the gravity load of last chain and lower chain too big messenger.

3. The utility model discloses a set up on the bed plate upper surface and let the position mouth make things convenient for the ejector pin to ejecting the next process to the towel in the transition mould.

Drawings

Fig. 1 is a perspective view of the present invention;

fig. 2 is a schematic top view of the present invention;

fig. 3 is an installation diagram of the second connecting mechanism of the present invention;

fig. 4 is an installation diagram of the first connecting mechanism of the present invention;

fig. 5 is a schematic view of the internal structure of the first connecting mechanism of the present invention;

fig. 6 is a schematic view of the internal structure of the second connecting mechanism of the present invention.

In the figure, 1, a base plate; 21. a first servo motor; 22. a second servo motor; 3. an annular track; 4. a chain; 41. chain feeding; 42. a lower chain; 51. a third sprocket; 52. a second sprocket; 53. a first sprocket; 54. a fourth sprocket; 6. a first mold; 7. a second mold; 8. a let position port; 9. ejecting the rod; 10. pressing in the rod; 11. a first connecting mechanism; 111. a first mounting plate; 112. a first roller; 113. a first connecting plate; 114. a second roller; 115. a first vertical plate; 12. a second connecting mechanism; 121. a third roller; 122. a second mounting plate; 123. a fourth roller; 124. a second riser.

Detailed Description

To make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the drawings of the embodiments of the present invention are combined to clearly and completely describe the technical solutions of the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the present invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1-6, an automatic compressed towel caching and storing device comprises a base plate 1, wherein a first servo motor 21 and a second servo motor 22 are fixedly mounted on the bottom surface of the base plate 1, power output ends of the first servo motor 21 and the second servo motor 22 are respectively provided with an upper layer chain wheel and a lower layer chain wheel, a chain 4 is connected between the chain wheels of the power output ends of the first servo motor 21 and the second servo motor 22 which are positioned on the same plane, a plurality of transition dies are uniformly mounted on the chain 4 at intervals, a press-in rod 10 and a push-out rod 9 are respectively arranged above a filling point and a discharging point of each transition die, and the first servo motor 21 and the second servo motor 22 are started to drive the transition dies to rotate, discharge filling, compress and discharge and push out; the press-in rod 10 can move left and right, the non-woven fabric can be pressed into each hole site by the left and right movement of the press-in rod 10 and the rotation of the transition mold, the press-in rod 10 can move up and down by a crank link mechanism, or the press-in rod 10 can move up and down by a cylinder or other parts, the left and right movement can move the press-in rod 10 up and down by a motor-driven threaded rod or a cylinder, so that the effect of the left and right movement of the press-in rod 10 can be realized, the press-in rod 10 can move up and down and can move left and right, and the non-woven fabric can be pressed into each hole site in the transition mold by the press-in rod 10; drive upper sprocket and lower floor's sprocket through first servo motor 21 and second servo motor 22 and rotate to it is rotatory to drive chain 4, and then makes the transition mould be rotary motion, impresses the non-woven fabrics in the transition mould under the drive of pole 10 of impressing, then the rotatory below of ejecting pole 9 of transition mould of all impressing the non-woven fabrics of rethread, then start ejecting pole 9's drive component makes ejecting pole 9 downstream push out the non-woven fabrics towel that the transition mould was pressed well ejecting to next process.

The upper layer chain wheel comprises a second chain wheel 52 and a first chain wheel 53, the lower layer chain wheel comprises a third chain wheel 51 and a fourth chain wheel 54, the power output ends of the first servo motor 21 and the second servo motor 22 are respectively provided with the third chain wheel 51, the fourth chain wheel 52, the first chain wheel 53 and the fourth chain wheel 54, the second chain wheel 52 and the fourth chain wheel 54 adopt a fixed/rotating installation mode, and the third chain wheel 51 and the first chain wheel 53 adopt a rotating/fixed installation mode and a fixed/rotating cross installation mode for installation; the chain 4 comprises an upper chain 41 and a lower chain 42, the lower chain 42 is in transmission connection between a third chain wheel 51 and a fourth chain wheel 54, the upper chain 41 is connected between a second chain wheel 52 and a first chain wheel 53, the upper chain 41 and the lower chain 42 rotate independently, transition dies which are uniformly distributed at intervals are installed on the upper chain 41 and the lower chain 42, and the annular rail 3 which plays a supporting role for the transition dies is fixedly connected to the upper surface of the base plate 1; when the first servo motor 21 and the second servo motor 22 are started, the rotation motions of the upper chain 41 and the lower chain 42 are independent to each other, and the motion distance is controlled better, in the installation process, if the first chain wheel 53 is fixedly arranged at the power output end of the second servo motor 22, the fourth chain wheel 54 is rotatably arranged at the power output end of the second servo motor 22, the second chain wheel 52 is rotatably arranged at the power output end of the first servo motor 21, and the third chain wheel 51 is fixedly arranged at the power output end of the first servo motor 21; if the first chain wheel 53 is rotatably installed at the power output end of the second servo motor 22, the fourth chain wheel 54 is fixedly installed at the power output end of the second servo motor 22, the second chain wheel 52 is fixedly installed at the power output end of the first servo motor 21, and the third chain wheel 51 is rotatably installed at the power output end of the first servo motor 21, when one of the installation modes is changed, other installation modes are also changed, so that the upper chain 41 and the lower chain 42 are driven to rotate independently.

The transition die comprises a plurality of first dies 6 fixedly arranged on the upper chain 41 and a plurality of second dies 7 fixedly arranged on the lower chain 42, and the first dies 6 and the second dies 7 are alternately and uniformly distributed at intervals on the rotating tracks of the upper chain 41 and the lower chain 42; the upper chain 41 rotates to drive the first mold 6 to rotate, and the lower chain 42 drives the second mold 7 to rotate, so that the first mold 6 and the second mold 7 move independently.

A first connecting mechanism 11 is arranged between the first die 6 and the upper chain 41, the first connecting mechanism 11 comprises a first mounting plate 111 and a first vertical plate 115 which are detachably mounted on the side surface of the first die 6 close to the third chain wheel 51, the side surface of the first vertical plate 115 close to the third chain wheel 51 is fixedly connected with a first connecting plate 113, the first connecting plate 113 is fixedly connected with one chain link of the upper chain 41, the bottom surface of the first mounting plate 111 is rotatably connected with two groups of first rollers 112 and second rollers 114 which roll relative to the annular rail 3, and the first rollers 112 and the second rollers 114 are respectively positioned on two sides of the annular rail 3; when the upper chain 41 rotates, because one of the chain links of the first connecting plate 113 and the upper chain 41 is fixedly connected, the power of the rotation of the upper chain 41 is transmitted to the first die 6 through the first connecting plate 113, thereby driving the first die 6 to rotate, because the bottom surface of the first mounting plate 111 is rotatably connected with the first roller 112 and the second roller 114 to rotate with the circular rail 3, the effect of limiting and guiding the first mounting plate 111 is achieved, the first mounting plate 111 is prevented from changing position during movement, the first roller 112 and the second roller 114 are prevented from rolling and blocking the circular rail 3 and being separated from the circular rail 3, and the first mounting plate 111 is enabled to have a certain supporting effect on the first die 6 at the same time.

A second connecting mechanism 12 is arranged between the second mold 7 and the lower chain 42, the second connecting mechanism 12 comprises a second mounting plate 122 and a second vertical plate 124 which are detachably mounted on the side surface of the second mold 7 close to the third chain wheel 51, the second mounting plate 122 is fixedly connected with one chain link of the lower chain 42, the bottom surface of the second mounting plate 122 is rotatably connected with a third roller 121 and a fourth roller 123 which roll relative to the annular rail 3, and the third roller 121 and the fourth roller 123 are respectively positioned on two sides of the annular rail 3; the lower chain 42 rotates to transmit power to the second mold 7 through the second mounting plate 122, so that the second mold 7 also rotates, the fourth roller 123 and the third roller 121 roll and clamp the circular rail 3 to prevent the circular rail 3 from being separated from the circular rail 3, and the clamping of the second mounting plate 122 also has a certain supporting effect on the second mold 7.

The upper surface of the base plate 1 is provided with a abdication port 8 capable of accommodating a transition mold; the compressed towel in the transition die can be conveniently ejected out to the next working procedure by the ejection rod 9 through the position opening 8.

A plurality of hole sites are arranged in the first die 6 and the second die 7 and are uniformly arranged in a matrix shape, the first die 6 and the second die 7 are two and are alternately distributed, the number of transverse hole sites on the first die 6 and the number of longitudinal hole sites on the second die 7 are three, the number of longitudinal hole sites on the first die 6 is four, the number of the first die 6 and the second die 7 and the number of the hole sites in the first die 7 can be adjusted according to actual needs in actual use, and the number of the ejector rods 9 is matched with the number of the hole sites on the first die 6 and the second die 7; the compressed non-woven fabric towel can be ejected from the first mold 6 or the second mold 7 of the ejector rod 9.

The working process of the utility model is as follows: when the device is used, the first chain wheel 53 is fixedly connected with the power output end of the second servo motor 22, the fourth chain wheel 54 is rotatably connected with the power output end of the second servo motor 22, the second chain wheel 52 is rotatably connected with the power output end of the first servo motor 21, the third chain wheel 51 is fixedly installed and connected with the power output end of the first servo motor 21, the first die 6 is rotated to a filling point, then the press-in rod 10 is used for filling continuously conveyed non-woven fabrics into the first die 6, after the transverse hole sites of the first row of the first die 6 are filled, the first servo motor 21 is started to drive the first chain wheel 53 to rotate so as to drive the upper chain 41 to rotate, so that the hole sites of the second row of the first die 6 are moved to the lower part of the press-in rod 10, at the moment, the second servo motor 22 is also started to drive the second die 7 to move, the distance between two adjacent first dies 6 and two adjacent second dies 7 is the same, the non-woven fabric is filled and compressed into the hole sites of the first dies 6 again through the press-in rod 10, after the hole sites of the first dies 6 are filled up by repeating the operation, the first servo motor 21 and the second servo motor 22 are started to move the positions of the first dies 6 and the second dies 7 so as to perform filling compression on the hole sites in the second dies 7, and after the first dies 6 or the second dies 7 which are subjected to filling compression are transferred to the lower part of the ejector rod 9, towels in the first dies or the second dies are ejected through the ejector rod 9, and the towels fall to the next procedure through the position-giving opening 8.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments or portions thereof without departing from the spirit and scope of the invention.

Claims (8)

1. The utility model provides an automatic storage device that caches of compressed towel, includes bed plate (1), its characterized in that: base plate (1) bottom surface fixed mounting has first servo motor (21) and second servo motor (22), upper sprocket and lower floor's sprocket are all installed to first servo motor (21) and second servo motor (22) power take off end, and are connected with chain (4) between first servo motor (21) and second servo motor (22) power take off end's the sprocket that is located the coplanar, even interval installs a plurality of transition moulds on chain (4), the packing point of transition mould and the top of unloading the point are provided with pole (10) and ejector pin (9) of impressing respectively, first servo motor (21) and second servo motor (22) start-up drive transition mould rotatory circulation and reciprocate to unload packing compression and unload ejecting.

2. The automatic compressed towel caching and storing device according to claim 1, wherein the automatic compressed towel caching and storing device comprises: the upper sprocket includes second sprocket (52) and first sprocket (53), the sprocket of lower floor includes third sprocket (51) and fourth sprocket (54), third sprocket (51), second sprocket (52) and first sprocket (53), fourth sprocket (54) are installed respectively to first servo motor (21) and second servo motor (22) power take off end, second sprocket (52) and fourth sprocket (54) adopt fixed mounting means then third sprocket (51) and first sprocket (53) adopt the mounting means of rotation/fixing.

3. The automatic compressed towel caching and storing device according to claim 2, wherein: chain (4) are including last chain (41) and lower chain (42), the transmission is connected with down chain (42) between third sprocket (51) and fourth sprocket (54), be connected with between second sprocket (52) and first sprocket (53) chain (41), each other independently rotates between last chain (41) and lower chain (42), go up chain (41) and install interval evenly distributed's transition mould on lower chain (42), the last fixed surface of bed plate (1) is connected with circular orbit (3) for transition mould plays supporting role.

4. The automatic compressed towel caching and storing device according to claim 3, wherein: the transition die comprises a plurality of first dies (6) fixedly mounted on the upper chain (41) and a plurality of second dies (7) fixedly mounted on the lower chain (42), wherein the first dies (6) and the second dies (7) are alternately and uniformly distributed at intervals on the rotating tracks of the upper chain (41) and the lower chain (42).

5. The automatic compressed towel caching and storing device according to claim 4, wherein the automatic compressed towel caching and storing device comprises: be provided with first coupling mechanism (11) between first mould (6) and upper chain (41), first coupling mechanism (11) include dismantled and assembled install first mounting panel (111) and first riser (115) on first mould (6) are close to the side of third sprocket (51) direction, first riser (115) are close to side fixedly connected with first connecting plate (113) of third sprocket (51) direction, one of them chain link fixed connection of first connecting plate (113) and upper chain (41), the bottom surface of first mounting panel (111) is rotated and is connected with two sets of first gyro wheel (112) and second gyro wheel (114) rolling relatively with circular orbit (3), first gyro wheel (112) and second gyro wheel (114) are located the both sides of circular orbit (3) respectively.

6. The automatic compressed towel caching and storing device according to claim 4, wherein the automatic compressed towel caching and storing device comprises: a second connecting mechanism (12) is arranged between the second mold (7) and the lower chain (42), the second connecting mechanism (12) comprises a second mounting plate (122) and a second vertical plate (124) which are detachably mounted on the side face, close to the third chain wheel (51), of the second mold (7), the second mounting plate (122) is fixedly connected with one chain link of the lower chain (42), the bottom face of the second mounting plate (122) is rotatably connected with a third roller (121) and a fourth roller (123) which roll relatively to the annular rail (3), and the third roller (121) and the fourth roller (123) are respectively located on two sides of the annular rail (3).

7. The automatic compressed towel caching and storing device according to any one of claims 1 to 6, wherein: the upper surface of the base plate (1) is provided with a yielding opening (8) capable of accommodating the transition mold.

8. The automatic compressed towel caching and storing device according to claim 4, wherein the automatic compressed towel caching and storing device comprises: a plurality of hole sites are arranged in the first die (6) and the second die (7) and are uniformly arranged in a matrix shape, and the number of the ejector rods (9) is matched with the number of the hole sites.

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