CN217995389U - Rolling membrane material storage frame - Google Patents

Abstract

The utility model discloses a film material winding storage rack, which comprises a bottom frame and rollers arranged on the bottom frame, wherein the bottom frame is also provided with a rotating rack which rotates between a material storage position and a material taking and placing position and the axis of rotation extends along the horizontal direction, and a locking component which locks the rotating rack at the material storage position; the rotating frame is provided with a supporting assembly, the supporting assembly comprises two supporting grooves which are distributed side by side along the direction parallel to the rotating shaft axis and the notches of the supporting grooves are opposite to the rotating shaft axis, and the two supporting grooves under the material storage position are used for erecting a supporting shaft. This rolling membrane material storage frame is taken out or is rolled to supporting the inslot from supporting the pivot mount convenience of putting the material position through getting, then rotates the pivot mount to the stock position and through locking Assembly latched position, erects the back shaft by supporting the groove and realizes the membrane material storage, and convenient operation alleviates the workman and gets the work burden with the blowing.

Description

Rolling membrane material storage frame

Technical Field

The utility model belongs to the technical field of the membrane material wind-up roll storage technique and specifically relates to a rolling membrane material storage frame is related to.

Background

With the increasing market demand of various industries for film materials (generally, various plastic films), the film material production industry is in a vigorous development stage.

In the production process of membrane material, in order to store the material so as to provide the material or collect the material for convenience, membrane material before and after will processing is usually coiled on the winding cylinder that hard board or other hard materials made, wear to locate the winding cylinder inboard with the back shaft that the metal was made, then establish the back shaft clamp on the storage rack, as shown in fig. 1 and fig. 2, the storage rack of prior art has storage assembly, storage assembly includes two unanimous support grooves of length direction, the both ends of back shaft are placed respectively on the tank bottoms of two support grooves, carry on spacingly to the back shaft through the lateral wall of support groove, thereby realize carrying out the function of saving the membrane material of rolling.

However, when the storage rack is used for storing the film materials, an operator needs to convey the support shaft with the winding drum and the film materials on the winding drum to the position right above the support groove and then place the support shaft at the bottom of the support groove, when the film materials are taken, the support groove needs to be lifted upwards to a position higher than the notch of the support groove, and then the support shaft is conveyed to the separation storage rack.

Therefore, there is a need for an improvement of the prior art wind film material storage rack.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome the defect that exists among the prior art, provide a convenient operation and alleviate the material loading and get rolling membrane material storage frame of material work burden.

In order to realize the technical effect, the utility model adopts the technical scheme that: a film material winding storage rack comprises an underframe and rollers arranged on the underframe, wherein the underframe is also provided with a rotating rack which rotates between a material storage position and a material taking and placing position and a rotating shaft axis extends along the horizontal direction, and a locking assembly which locks the rotating rack at the material storage position; the rotating frame is provided with a supporting assembly, the supporting assembly comprises two supporting grooves which are parallel to the direction of the rotating axis and distributed side by side, notches of the two supporting grooves face back to the rotating axis, and the two supporting grooves under the material storage position are used for erecting supporting shafts.

Preferably, in order to conveniently get material and blowing, the rotating turret includes along being on a parallel with axis of rotation axis direction distributes side by side and with two dwangs, two that the support groove corresponds the length direction homogeneous perpendicular to of the dwang axis of rotation axis line gets two under the material blowing position the dwang is used for erectting the back shaft.

Preferably, in order to further conveniently take materials and discharge materials, the two rotating rods below the material taking and discharging position are horizontally arranged.

Preferably, in order to lock the rotating frame in the material storage position, two all be provided with the jack on the dwang, be provided with the lockhole on the chassis, the locking subassembly includes the bolt, and the material storage position is down, the jack on the rotating frame passes through the bolt with the cooperation of pegging graft of lockhole.

Preferably, in order to ensure that the two rotating rods rotate synchronously, the rotating frame further comprises a connecting frame fixed between the two rotating rods.

Preferably, for the convenience of being located when getting material stock position at the rotating turret and supporting the dwang, the link include the connecting rod with set up in the connecting rod both ends and with the bracing piece that the dwang corresponds the connection gets under the material stock position, the bracing piece is used for supporting rather than the dwang that corresponds.

Preferably, in order to increase the storage capacity of the storage rack, at least two support assemblies are arranged and are distributed at intervals along the length direction of the rotating rod.

Preferably, in order to reduce the workload when the operation rotating rod rotates, the two supporting grooves are slidably connected with the corresponding rotating rod, and the sliding direction of the two supporting grooves is consistent with the length direction of the rotating rod.

Preferably, in order to facilitate an operator to accurately rotate the rotating frame to the material storage position, a limiting frame used for limiting the rotating range of the rotating frame is further arranged on the bottom frame, and the limiting frame is abutted to the rotating frame at the material storage position.

Preferably, in order to support the support grooves through a limiting frame when the rotating frame is located at the material storage position, the limiting frame comprises a vertical arm connected with the underframe and a horizontal arm connected with the vertical arm, the support grooves of the support assemblies adjacent to the rotating shaft axis are bottom support grooves in the plurality of support assemblies, and the horizontal arm abuts against the lower side of the bottom support grooves under the material storage position.

To sum up, the utility model discloses rolling membrane material storage frame compares with prior art, and the rotating turret through getting material blowing position conveniently takes out the back shaft from supporting the inslot or rolls to supporting the inslot, then rotates the rotating turret to stock position and through locking Assembly latched position, erects the back shaft by supporting the groove and realizes the membrane material storage, and convenient operation alleviates the workman and gets the work burden of material and blowing.

Drawings

FIG. 1 is a schematic view of a prior art film material winding storage rack;

FIG. 2 is an exploded view of FIG. 1;

FIG. 3 is a schematic structural view of the rotating turret in the material taking and placing position in the embodiment 1;

FIG. 4 is a schematic view showing the construction of the rotary turret in the stock position in embodiment 1;

FIG. 5 is a schematic view of the structure of FIG. 4 with the film material and the support shaft omitted;

FIG. 6 is an exploded schematic view of FIG. 5;

FIG. 7 is an enlarged view of portion A of FIG. 6;

FIG. 8 is a schematic view showing a structure of a rotating turret according to embodiment 1;

FIG. 9 is a schematic structural view of the rotating turret in the material taking and placing position in the embodiment 2;

FIG. 10 is a schematic view of the structure of FIG. 9 with the membrane material and the support shaft omitted;

FIG. 11 is a schematic view showing the construction of the rotary turret in the stock position in accordance with embodiment 2;

FIG. 12 is a schematic view of FIG. 11 with the membrane material and the support shaft omitted;

FIG. 13 is a schematic view showing a structure of a rotating turret according to embodiment 2;

FIG. 14 is an exploded schematic view of FIG. 13;

in the figure: 100. the device comprises a base frame, 101, a convex plate, 1011, a lock hole, 1012, a first rotating hole, 200, a roller, 300, a rotating frame, 301, a rotating rod, 3011, an inserting hole, 3012, a second rotating hole, 302, a connecting rod, 303, a supporting rod, 400, a supporting groove, 500, a bolt, 600, a limiting frame, 601, a vertical arm, 602, a horizontal arm, 700, a pin shaft, 800, a hook, 900, a sliding frame, 110, a film material, 120, a winding drum, 130, a supporting shaft, 140, a cross rod, 150, a vertical rod and 160.U-shaped frames.

Detailed Description

The following description will further describe embodiments of the present invention with reference to the accompanying drawings and examples. The following examples are only used to illustrate the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1 and 2, the storage rack for winding film materials in the prior art comprises a square bottom frame 100, wherein rollers 200 are arranged below the bottom frame 100, and the storage rack is convenient to move through the rollers 200; the fixed montant 150 that is provided with four along the vertical direction extension in four corners department top of chassis 100, four montants 150 two liang constitute one set ofly, the conformal two sets of montants that form, two montants 150 in every group montant are through two horizontal poles 140 fixed connection along the vertical direction side by side distribution, the top fixedly connected with U-shaped frame 160 of horizontal pole 140 center department, the opening of same high position U-shaped frame 160 is just to setting up in two sets of montants, two lateral walls and the horizontal pole 140 combination formation of U-shaped frame 160 support groove 400, two of same high position support groove 400 mutually support the mutual cooperation, be used for setting up back shaft 130.

In the production and processing process of the film material 110, the through groove winds the film material 110 on the winding drum 120, then the supporting shaft 130 penetrates through the winding drum 120, two ends of the supporting shaft 130 are respectively placed into the two supporting grooves 400 at the same height position on the storage rack, the supporting shaft 130 is erected through the mutual matching of the two supporting grooves 400, and the storage function of the film material 110 in the winding state is realized, as shown in fig. 1. After using the storage rack, an operator usually needs to move the support shaft 130 to a position right above the support groove 400, and then place the support shaft 130 into the support groove 400 to complete the material placing operation; when the film material is taken out, the supporting shaft 130 and the film material 110 are required to be lifted upwards to be separated from the notch of the supporting groove 400, and the supporting shaft 130 and the film material 110 can be carried and taken out from the storage rack, because the film material 110 is densely distributed on the winding drum 120, the weight is heavy, the burden of an operator is large, the film material 110 at a high position is inconvenient to store, and the workload of the operator is further increased.

Therefore, the utility model discloses a rolling membrane material storage frame of following two embodiments.

Example 1

As shown in fig. 3 to 8, the film winding storage rack of embodiment 1 comprises a bottom rack 100, wherein the bottom rack 100 is square, and rollers 200 are fixedly arranged below the bottom rack 100 to facilitate the movement of the storage rack; the rotating frame 300 is rotatably arranged on the underframe 100, a rotating shaft axis of the rotating frame 300 extends along the horizontal direction, the rotating frame 300 is rotatably arranged between a material storing position and a material taking and placing position, a supporting component is further arranged on the rotating frame 300, the supporting component comprises two supporting grooves 400, the two supporting grooves 400 are distributed side by side along the direction parallel to the rotating shaft axis (hereinafter referred to as the rotating shaft axis) of the rotating frame 300, notches of the supporting grooves 400 are opposite to the rotating shaft axis, when the rotating frame 300 moves to the material taking and placing position, the rotating frame 300 is used for erecting the supporting shaft 130, the supporting shaft 130 is convenient to roll into the supporting grooves 400, and when the rotating frame 300 moves to the material storing position, the two supporting grooves 400 are mutually matched to respectively support two end parts of the supporting shaft 130 so as to erect the supporting shaft 130; the bottom frame 100 is further provided with a locking assembly for locking the rotating frame 300 at the material storage position so as to realize the stable support of the support shaft 130, the winding drum 120 sleeved outside the support shaft 130 and the film material 110 wound on the winding drum 120 by the support groove 400 on the rotating frame 300 at the material storage position, thereby completing the storage work.

When materials need to be stored, the rotating frame 300 is rotated downwards to a material taking and placing position, the height position of the rotating frame 300 is lowered, the rotating frame 300 can be provided with the supporting shaft 130, the supporting shaft 130 with the film materials 110 and the winding drum 120 is placed on the rotating frame 300, then the supporting shaft 130 rolls into the supporting groove 400, then workers rotate the rotating frame 300 upwards to a material storing position, the position of the rotating frame 300 is locked through the locking assembly, the rotating frame 300 is prevented from continuing to rotate, the supporting shaft 130 is supported by the supporting groove 400 in the fixed rotating frame 300, and the storage function of the film materials 110 is achieved.

When the material needs to be taken, the locking assembly is unlocked to the rotating frame 300, so that the rotating frame 300 rotates downwards to the material taking and placing position, the rotating frame 300 is rotated to erect the support shaft 130, the support shaft 130 is rolled out of the support groove 400, and the operation worker can take out the support shaft 130, the winding drum 120 and the film material 110 conveniently.

Compared with the prior art, the operation worker directly takes the support shaft 130 out of the support groove 400 or places the support shaft 130 in the support groove 400 to finish the material taking and placing work of the film material 110, when the storage rack of the embodiment is used for storing and taking the film material 110, the position of the rotating rack 300 is adjusted, the rotating rack 300 is used as a support of the support shaft 130 during material taking and placing, the height of the rotating rack 300 during material taking and placing is lower than that of the support groove 400 of the rotating rack 300 during material storing, the film material 110 is convenient to store and take, and the working strength of the operation worker is reduced.

Specifically, as shown in fig. 5 to 8, the rotating frame 300 includes two rotating rods 301 distributed side by side along the rotation axis thereof, the length direction of the rotating rods 301 is perpendicular to the rotation axis, and the ends of the two rotating rods 301 far away from the fixing frame 100 are fixedly connected through a connecting frame. Be provided with the second on dwang 301 and change hole 3012, all be fixed with the flange 101 that sets up in pairs on the both sides limit 101 of chassis 100, two pairs of flanges 101 and two dwang 301 one-to-one, dwang 301 is located between the flange 101 that sets up in pairs, be provided with first dwang 1012 on the flange 101, the inboard of first dwang 1012 and the inboard of second dwang 3012 run through there is round pin axle 700, it is connected with the rotation of flange 101 to realize dwang 301 through round pin axle 700, and then realize the fixed connection between rolling stock 300 and chassis 100. The one end that the linking bridge was kept away from to dwang 301 is provided with the jack 3011 that the axial lead is parallel with second commentaries on classics hole 3012 axial lead, is provided with the lockhole 1011 on the flange 101, and the locking subassembly includes bolt 500, and after the rotating turret 300 rotated to the stock position, the axial lead of jack 3011 was unanimous with the axial lead of lockhole 1011, and the jack 3011 on the moving turret 300 passed through bolt 500 and the cooperation of pegging graft of lockhole 1011 this moment to the angle of locking rotating turret 300. The lock hole 1011, the first rotary hole 1012, the plug hole 3011, and the second rotary hole 3012 are all through holes, and when the rotary rack 300 rotates to the material storage position, the rotary rod 301 is disposed along the vertical direction.

After the rotating frame 300 adopts the structure, the rotating frame 300 can be connected with the base frame 100 in a rotating mode through the pin shaft 700, the connecting frame can control two rotating rods 301 to rotate synchronously, when the rotating frame 300 rotates downwards to a material taking and placing position, the supporting shaft 130 can be conveniently erected through the two rotating rods 301, the supporting shaft 130 can roll to the supporting groove 400 along the length direction of the rotating rods 301, after the rotating frame 300 rotates to the material storing position, the bolt 500 penetrates through the insertion hole 3011 and the locking hole 1011, and therefore the position of the rotating frame 300 can be locked.

As shown in fig. 5 and 8, an L-shaped hook 800 is fixedly connected to the rotating rod 301, the supporting groove 400 is formed by combining the hook 800 and the rotating rod 301, one end of the hook 800 is fixedly connected to the rotating rod 301, and the other end faces the connecting frame, so that the notch of the supporting groove 400 faces away from the rotating axis; when the rotating frame 300 rotates to a material taking and placing position, the hook 800 is positioned right above the rotating rod 301; when the rotating frame 300 rotates to the material storage position, the hook 800 is located on one side of the rotating rod 301, the notch of the supporting groove 400 is upward, the supporting grooves 400 on the two rotating rods 301 interact with each other conveniently, the two ends of the supporting shaft 130 are supported, and the effect of erecting the supporting shaft 130 is achieved.

When the operation rotating frame 300 rotates, an operator can hold the connecting frame by hand, the connecting frame is pushed to rotate, the rotating rod 301 is driven to rotate, and the connecting frame is positioned at one end, far away from the underframe 100, of the rotating rod 301, so that the torque when the operation rotating frame 300 rotates is increased, and the rotating operation is more labor-saving.

The specific structure of the connecting frame is shown in fig. 3 and 8, and comprises a horizontal connecting rod 302, the length direction of the connecting rod 302 is parallel to the axis of rotation, the two ends of the connecting rod 302 are fixedly connected with supporting rods 303, the supporting rods 303 correspond to the rotating rods 301 one by one, and the connecting rod 302 is fixedly connected with the rotating rods 301 through the supporting rods 303; when the rotating frame 300 is located at a material taking and placing position, the rotating rod 301 is horizontally arranged, and the supporting rod 303 is used for supporting the rotating rod 301 to be kept horizontal.

After the connecting frame adopts the above positions, when the rotating frame 300 rotates to the material taking and placing position, the rotating rod 301 is supported by the supporting rod 303, so that the rotating rod 301 keeps a horizontal angle position, the supporting shaft 130 is clamped on the two rotating rods 301, and then the two ends of the supporting shaft 130 are respectively rolled into the two supporting grooves 400 (or the supporting shaft 130 in the supporting groove 400 is rolled out of the supporting groove 400); when an operator holds the connecting rod 302 and rotates the connecting rod upwards to the material storage position, the supporting shaft 130 abuts against the bottom of the supporting groove 400, the supporting shaft 130 is supported through the supporting grooves 400 on the two rotating rods 301, and the material storage operation is completed.

The hooks 800 on the rotating rod 301 are arranged two and distributed at intervals along the length direction of the rotating rod 301, and by adopting the structure, the whole storage rack is provided with two support assemblies, the support shaft 130 is erected through two support grooves 400 in the support assemblies, and the storage capacity of the storage rack is enlarged.

As shown in fig. 4 and 5, two limiting frames 600 are further fixedly disposed on the bottom chassis 100, the limiting frames 600 correspond to the rotating rods 301 on the rotating frame 300 one by one, each limiting frame 600 is L-shaped, one end of each limiting frame 600 is fixedly connected to the bottom chassis 100, and the other end of each limiting frame 600 abuts against the rotating rod 301 on the rotating frame 300 at the material storage position, so as to limit the rotating range of the rotating frame 300.

Spacing 600 through the L shape, can restrict the rotation range of rotating turret 300, drive rotating turret 300 through control link 302 and upwards rotate by getting material blowing position when the operation workman, dwang 301 and spacing 600 on the rotating turret 300 support with the one end of keeping away from mount 100 and lean on, rotating turret 300 is located the stock position this moment, jack 3011 on the dwang 100 aligns with lockhole 1011 on the flange 101, pass lockhole 1011 and jack 3011 with bolt 500, can lock rotating turret 300 in the stock position, and convenient operation.

Example 2

As shown in fig. 9 to 14, the storage rack for a film winding material according to embodiment 2 is different from embodiment 1 in that three hooks 800 are provided on the rotating rod 301, the hooks 800 are distributed at intervals along the length direction of the rotating rod 301 and are slidably connected with the rotating rod 301, and the sliding direction is the same as the length direction of the rotating rod 301; the limiting frame 600 comprises a vertical arm 601 fixed right above the underframe 100 and a horizontal arm 602 vertically and fixedly connected with the vertical arm 601, three hooks 800 on the rotating frame 301 are combined with the rotating rod 301 to form three support grooves 400, the support groove 400 adjacent to the axis of rotation is a bottom support groove, when the rotating frame 300 rotates to the material storage position, the bottom support groove slides downwards to be in contact with the horizontal arm 602, and the horizontal arm 602 abuts against the lower side of the bottom support groove.

Specifically, the carriage 900 of the equal fixedly connected with U-shaped of three couple 800 on dwang 301, dwang 301 enclose with carriage 900 and close and form square through-hole, and the circumference inner wall of through-hole is laminated mutually with the circumference outer fringe of dwang 301 for dwang 301 and carriage 900 can be along the length direction and dwang 301 sliding connection of dwang 301.

After the structure is adopted, because the hook 800 and the sliding frame 900 are matched with each other, the support groove 400 can slide along the length direction of the rotating rod 301, when the rotating frame 300 is upwards rotated to the material storage position, the support groove 400 can downwards slide along the rotating rod 301 until the bottom support groove 400 is abutted against the horizontal arm 602 of the limiting frame 600, and the film materials 110 outside the two support shafts 130 supported and erected by the adjacent support assemblies (two support grooves 400) are abutted against each other, so the height position of the film materials 110 is reduced, on one hand, because the distance between the support shafts 130 and the rotating axis is reduced, the resistance for overcoming the upward rotation of the rotating frame 300 is reduced, even if the rotating frame 300 is more labor-saving when rotating upwards, the operation is more convenient, on the other hand, under the material storage position, the film materials 110 outside the two support shafts 130 are more compactly distributed, so that more hooks 800 of the rotating rods 301 with limited length can be arranged on the rotating rod 301, the number of the support assemblies formed by combining the support grooves 400 on the two support frames 301 is increased, the convenience is brought to store more film materials, and the storage capacity of the storage frame is increased. In this embodiment, the number of the hooks 800 on the rotating rod 301 is three, and of course, the number of the hooks 800 may be four or other numbers according to the length of the rotating rod 301 and the overall outer diameter of the film 110 wound on the winding drum 120.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of improvements and decorations can be made without departing from the technical principle of the present invention, and these improvements and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. A rolling film material storage rack comprises a bottom frame (100) and rollers (200) arranged on the bottom frame (100), and is characterized in that:

the underframe (100) is also provided with a rotating frame (300) which rotates between a material storing position and a material taking and placing position and has a rotating shaft axis extending along the horizontal direction and a locking assembly which locks the rotating frame (300) at the material storing position;

the rotating frame (300) is provided with a supporting assembly, the supporting assembly comprises two supporting grooves (400) which are parallel to the direction of the rotating axis and distributed side by side, notches of the two supporting grooves are back to the rotating axis, and the two supporting grooves (400) under the material storage position are used for erecting a supporting shaft (130).

2. The take-up film stock storage rack of claim 1, wherein: the rotating turret (300) is including following parallel to rotation axis line direction distributes side by side and with two dwang (301), two that support groove (400) correspond the length direction homogeneous perpendicular to of dwang (301) the rotation axis line is got two under the material blowing position dwang (301) are used for erectting back shaft (130).

3. The take-up film stock storage rack of claim 2, wherein: two of the rotating rods (301) below the material taking and discharging positions are horizontally arranged.

4. The take-up film stock storage rack of claim 2, wherein: two all be provided with jack (3011) on dwang (301), be provided with lockhole (1011) on chassis (100), locking Assembly includes bolt (500), and the material stock is down put, jack (3011) on rotating turret (300) are passed through bolt (500) with lockhole (1011) cooperation of pegging graft.

5. The wrapping film material storage rack of claim 2, wherein: the rotating frame (300) further comprises a connecting frame fixed between the two rotating rods (301).

6. The wound film material storage rack of claim 5, wherein: the link includes connecting rod (302) and set up in connecting rod (302) both ends and with bracing piece (303) that dwang (301) correspond and connect get under the material discharge position, bracing piece (303) are used for supporting dwang (301) rather than corresponding.

7. The take-up film stock storage rack of claim 2, wherein: the supporting component is provided with at least two, and the length direction interval distribution of following dwang (301).

8. The take-up film stock storage rack of claim 2, wherein: two support groove (400) and its dwang (301) sliding connection that corresponds and the direction of sliding with the length direction of dwang (301) is unanimous.

9. The wound film material storage rack according to any one of claims 1 to 8, wherein: the chassis (100) is further provided with a limiting frame (600) used for limiting the rotating range of the rotating frame (300), and the limiting frame (600) is connected with the rotating frame (300) at the material storage position in an abutting mode.

10. The wrapping film material storage rack of claim 9, wherein: the limiting frame (600) comprises a vertical arm (601) connected with the underframe (100) and a horizontal arm (602) connected with the vertical arm (601), in the plurality of supporting assemblies, a supporting groove (400) of the supporting assembly adjacent to the rotating axis is a bottom supporting groove, and the horizontal arm (602) is abutted to the lower part of the bottom supporting groove under the storage position.

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