CN215622932U - Binding device for cargo pile - Google Patents

Abstract

The utility model discloses a binding device for a cargo pile, which comprises: flexible tie and a plurality of rigidity support piece, a plurality of rigidity support piece enclose into accommodation space, the winding of flexible tie sets up in a plurality of rigidity support piece's week portion, a plurality of rigidity support piece and flexible tie carry out the ligature cooperation, put things in good order back in goods like this, relevant personnel can set up a plurality of rigidity support piece in the week portion of goods heap earlier, so that the goods heap is in accommodation space, again at a plurality of rigidity support piece's week portion winding flexible tie, so that a plurality of rigidity support piece and flexible tie cooperate each other, and then the form of putting things in good order of fixed goods heap, this kind of ligature mode convenient and fast, and can reuse, also can reduce the cost of transportation when improving ligature efficiency.

Description

Binding device for cargo pile

Technical Field

The application relates to the field of mechanical equipment, in particular to a binding device for a cargo pile.

Background

For the goods pile that a plurality of goods are constituteed, it will have certain form of putting things in good order after putting things in good order, need use the ligature device to fix the form of putting things in good order of goods pile to carry out whole transportation. But the goods ligature device that uses among the correlation technique, its ligature mode is comparatively loaded down with trivial details, and ligature efficiency is lower.

SUMMERY OF THE UTILITY MODEL

The application discloses ligature device of goods heap to it is comparatively loaded down with trivial details to solve the ligature mode, the lower problem of ligature efficiency.

In order to solve the above problems, the following technical solutions are adopted in the present application:

a lashing device for a cargo stack, comprising: the flexible binding belt and the plurality of rigid supporting pieces enclose an accommodating space for accommodating the cargo stack, the flexible binding belt can be wound on the plurality of rigid supporting pieces, and the plurality of rigid supporting pieces can be matched with the flexible binding belt in a binding mode.

Further, the flexible tying band comprises a flexible band body and a lock catch; the flexible strap has opposite first and second ends; the flexible tying band can be switched between an open-loop state and a closed-loop state; under the condition that the flexible binding belt is in a closed loop state, the first end can be connected with the second end through the lock catch, and the flexible binding belt can be in binding fit with the plurality of rigid supporting pieces; in the case where the flexible tying band is in the open loop state, the first end can be separated from the second end by the lock catch, and the flexible tying band can be released from the tying engagement.

Furthermore, the rigid support piece comprises a hanging plate and a support body, the hanging plate is arranged on the support body, the stopping block is arranged in the supporting direction of the rigid support piece, the support body is positioned on the periphery of the accommodating space, the hanging plate is positioned at the top of the accommodating space, and the flexible binding belt is wound on the support body.

Further, the supporter includes interconnect's first backup pad and second backup pad, and first backup pad and second backup pad all set up along the support direction, have first contained angle between first backup pad and the second backup pad, and the link plate is connected respectively to first backup pad and second backup pad, and the winding of flexible binding area sets up in first backup pad and second backup pad.

Further, the periphery of the rigid support member is provided with a limiting portion, and the flexible binding band and the limiting portion can be in limiting fit in the supporting direction of the plurality of rigid support members under the condition that the flexible binding band is wound on the periphery of the plurality of rigid support members.

Further, the binding device further comprises a fixing band connected between the two adjacent rigid support members.

Further, the binding device further comprises a connecting piece, and the fixing belt is connected with the rigid supporting piece through the connecting piece.

Furthermore, two mutually intersected fixing belts are arranged between two adjacent rigid supporting pieces.

Further, the flexible binding belt is provided in plurality, and the plurality of flexible binding belts are arranged in sequence along the supporting direction of the plurality of rigid supporting members.

Further, the number of the rigid supporting pieces is four, and the four rigid supporting pieces surround the accommodating space.

The technical scheme adopted by the application can achieve the following beneficial effects:

based on the scheme, after goods are stacked and stacked neatly and a goods stack with a certain stacking shape is formed, related personnel can arrange a plurality of rigid supporting pieces on the periphery of the goods stack, so that the goods stack is located in the accommodating space defined by the rigid supporting pieces, and then the flexible binding belts are wound on the rigid supporting pieces, so that the rigid supporting pieces and the flexible binding belts are matched with each other, and the stacking shape of the goods stack is further fixed. The binding mode of the cargo pile is convenient and fast, and can be repeatedly utilized, so that the binding efficiency is improved, and meanwhile, the transportation cost can be reduced.

Drawings

FIG. 1 is a schematic illustration of the lashing of a cargo stack by the lashing device disclosed herein;

FIG. 2 is an enlarged view at I of FIG. 1 as disclosed herein;

fig. 3 is a schematic illustration of the stacking of cargo on a deck board as disclosed herein;

FIG. 4 is a structural view of the ligating device disclosed in the present application.

Description of reference numerals:

100-flexible binding band,

110-flexible belt body, 120-lock catch,

200-rigid supporting member,

210-hanging plate, 220-supporting body, 230-limiting part,

300-fixing band, 400-connecting piece,

500-cargo, 600-deck board.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the technical solutions of the present application will be described in detail and completely with reference to the following specific embodiments of the present application and the accompanying drawings. It is to be understood that the embodiments described are only a few embodiments of the present application and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

Technical solutions disclosed in the embodiments of the present application are described in detail below with reference to the accompanying drawings.

Referring to fig. 1-4, the present application discloses a lashing device for lashing a stack of cargo. Generally speaking, a plurality of goods of same specification or different specifications will be concentrated and put things in good order on the shelf board to put things in good order into certain form and pile in order to form the goods, for example the form of putting things in good order is cuboid, cylindrical goods heap etc. ligature device is used for piling up and fixing the goods, in order to keep the form of putting things in good order of goods heap, the whole transportation of the goods heap of being convenient for. Compared with a binding device in the related art, the binding device has the advantages of high binding efficiency, reusability and the like, and is detailed below.

As shown in fig. 1 and 4, the banding device may include a flexible banding band 100 and a plurality of rigid supports 200. After the stack of goods is formed after stacking, the plurality of rigid supporters 200 may be disposed around the circumference of the stack of goods to form a receiving space surrounding the stack of goods. The supporting direction of the rigid supporting member 200 is the height direction of the stacked goods, and the fixing direction of the rigid supporting member 200 is generally perpendicular to the supporting direction. The rigidity characteristic of the rigid support member 200 can ensure that the rigid support member 200 cannot deviate, bend and the like along the supporting direction, so that the rigid support member 200 can support and shape the binding device, and the stable form of the binding device in the binding state is ensured. The rigid supporting member 200 can be made of hard materials with small mass such as plastic steel and aluminum alloy, so that the load in the transportation process can be reduced while the good supporting and shaping effect is ensured.

The flexible binding belt 100 has a binding effect and can be made of materials such as nylon, canvas and the like, so that the formed nylon belt, canvas belt and the like have better toughness and are not easy to break, and the flexible binding belt 100 is convenient to bear force and be used for a long time.

Specifically, the plurality of rigid supporting members 200 surround the cargo stack and enclose an accommodating space for accommodating the cargo stack, the flexible tying band 100 is wound around the periphery of the plurality of rigid supporting members 200, and the plurality of rigid supporting members 200 are in tying engagement with the flexible tying band 100.

The binding cooperation here is specifically that after the flexible binding belt 100 is wound and set, an operator can apply an external force to gradually reduce the outer diameter of the flexible binding belt 100, and the plurality of rigid supporting members formed by the plurality of rigid supporting members 200 are gradually gathered and tightened, so that the flexible binding belt 100 and the plurality of rigid supporting members are mutually matched to form the integral binding and fixing of the cargo stack. It should be noted here that the rigid support member 200 and the flexible binding band 100 both have a fixing effect on the cargo stack, and the fixing direction is perpendicular to the supporting direction of the rigid support member 200, so that once the cargo has a tendency of dislocation, displacement, etc. during transportation, the relative position between the cargo can be restrained by the fixing effect, and the dislocation between the cargo is prevented, so as to ensure the stability of the stacking state of the cargo stack, and further effectively carry out the overall transportation of the cargo stack.

In conclusion, the binding device with the structure has the advantages of good fixing effect on the stacking shape of the cargo stack, higher binding efficiency and strong reutilization property, and can also perform adaptive adjustment on the self shape according to the change of the stacking shape of the cargo stack. In other words, the rigid supporting members 200 can be adapted to adjust the positions of the stacking shapes of the cargo stacks, so that the accommodating space defined by the rigid supporting members 200 is always matched with the stacking shapes of the cargo stacks, and the cargo stacking device is suitable for popularization and application.

Further, for the particular type of tying of the flexible tying band 100, the folding may be accomplished by conventional knotting of the band. As shown in fig. 4, the flexible tying band 100 includes a flexible band body 110 and a buckle 120. The flexible strap 110 has opposing first and second ends. The flexible tying band 100 is switchable between an open loop state and a closed loop state.

In the case that the flexible tying band 100 is in the closed loop state, the first end can be connected to the second end by the lock catch 120, and at this time, the flexible tying band 100 can be in binding fit with the plurality of rigid supporting members 200, so as to fix the cargo stacking state.

In the case that the flexible tying band 100 is in the open loop state, the first end can be separated from the second end by the lock catch 120, and at this time, the flexible tying band 100 can be released from the tying engagement, so as to achieve the "unbinding" of the cargo pile, and further perform the operation of unloading, etc. The flexible binding belt 100 with the structure is convenient for the binding device to quickly bind and unbind the cargo stack, and further improves the binding efficiency.

For a specific connection relationship between the flexible band 110 and the lock 120, the lock 120 may be a lock disposed at a first end of the flexible band 110, the lock having a lock side facing a second end of the flexible band 110, the second end being detachably connected to the lock side of the lock 120, and the lock 120 is disposed to form the flexible tying band 100 into a structure similar to a "belt" to switch between the closed loop state and the open loop state of the flexible tying band 100.

The lock catch 120 may also be configured to include a first lock body and a second lock body, the first lock body is disposed at the first end of the flexible strap 110, the second lock body is disposed at the second end of the flexible strap 110, and the first lock body and the second lock body may be detachably connected to realize the switching between the closed loop state and the open loop state of the flexible strapping band 100. Other configurations of the latch 120 are not detailed herein, and those skilled in the art can design and select the latch according to actual conditions.

More specifically, as shown in fig. 1 and 2, the rigid supporter 200 may include a peg board 210 and a supporter 220. The hanging plate 210 is disposed on the supporting body 220, and the stopper is disposed in the supporting direction of the rigid supporting member 200. The supporting body 220 is located at the periphery of the accommodating space, the hanging plate 210 is located at the top of the accommodating space, and the flexible binding band 100 is wound around the supporting body 220.

In the in-service use process, the goods is put things in good order and is accomplished the back, and the operator can be through link plate 210 with rigidity support piece 200 articulate on the goods is piled to link plate 210 superposes in the top surface of goods heap, this top surface promptly the goods heap one side that deviates from the goods shelf plate, completion that like this can be comparatively convenient is to the setting of a plurality of rigidity support piece 200, and then improves the efficiency of putting things in good order of goods.

Further, the supporting body 220 may include a first supporting plate and a second supporting plate connected to each other, the first supporting plate and the second supporting plate are both disposed along the supporting direction, a first included angle is formed between the first supporting plate and the second supporting plate, the hanging plate 210 is connected to the first supporting plate and the second supporting plate respectively, and the flexible binding band 100 is wound on the first supporting plate and the second supporting plate. First contained angle and goods are piled the form phase-match of putting things in good order, for example, if the form of putting things in good order of goods heap is the cuboid, then first contained angle can set up to 90, and this kind of setting can set up supporter 220 in the edge position that the goods was piled, and the double-phase adjacent side of goods heap sets up first backup pad and second backup pad respectively.

In this kind of setting, the fixed direction perpendicular to self face of first backup pad to the goods heap, the fixed direction perpendicular to self face of second backup pad to the goods heap is also perpendicular to self face, and every supporter 220 can both be followed two different directions and fixed the goods heap like this. Further, the plurality of rigid supporting members 200 form the plurality of rigid supporting members 200, and thus the stacking state of the cargo pile can be fixed more effectively.

Further, as shown in fig. 1 and 2, the periphery of the rigid support 200 may be provided with a stopper 230. In the case where the flexible tying band 100 is wound around the plurality of rigid supports 200, the flexible tying band 100 can be fit with the stopper 230 in a position-limiting manner in the supporting direction of the plurality of rigid supports 200. The limit fitting of the limit portion 230 can prevent the flexible tying band 100 from moving up and down along the supporting direction, so as to ensure the position of the flexible tying band 100 along the supporting direction to be fixed, thereby enhancing the tying effect of the flexible tying band 100.

More specifically, the flexible binding belt 100 can be arranged in a plurality of, for example three, supporting directions, and the three flexible binding belts 100 are respectively arranged at the upper end, the middle section and the lower end of the rigid supporting member 200, so that the flexible binding belt 100 can achieve a binding effect on the bottom, the middle part and the top of the cargo pile during binding, so as to form multi-point stress on the cargo pile, and the stress mode is more balanced. Accordingly, the position of the position-limiting portion 230 corresponds to the position of the flexible tying band 100, and three position-limiting portions 230 are respectively disposed on each of the rigid supporting members 200.

As for the specific structure of the position-limiting part 230, the position-limiting part 230 may be a position-limiting hole provided on the rigid support 200, through which the flexible tying band 100 passes when it is wound around the rigid support 200; or the limiting parts 230 are limiting blocks arranged in pairs, and a limiting groove is formed between the two limiting blocks, and when the flexible tying band 100 winds the rigid supporting member 200, the flexible tying band 100 is positioned in the limiting groove.

In the specific arrangement method of the present application, as shown in fig. 2, the position-limiting portion 230 is a bent strip, two ends of the bent strip are connected to the rigid support member 200, the bent strip and the rigid support member 200 surround to form a position-limiting passage, and when the flexible tying band 100 winds the rigid support member 200, the flexible tying band 100 is wound through the position-limiting passage to form a position-limiting fit for the flexible tying band 100. In other words, the stopper passage restricts the flexible tying band 100, thereby preventing the flexible tying band 100 from moving up and down in the supporting direction.

Further, as shown in fig. 1 and 4, the ligating device may further include a fixing band 300. The fixing strap 300 is connected between the adjacent two rigid supporting members 200. The setting up of fixed band 300 can make the structure of ligature device more stable on the one hand, and on the other hand can be piled the goods that finishes to the sign indicating number and carry out supplementary fixed, and the form is put in good order of firm goods heap, and then the whole transportation of being convenient for.

Further, the ligating device may further include a link 400. The fixing band 300 is connected to the rigid support 200 by the connecting member 400 to make the connection of the fixing band 300 more firm. For the specific structure of the connector 400, the connector 400 may be a rivet, and the fixing band 300 is riveted to the rigid support member 200 through the connector 400; alternatively, the connecting member 400 may be a connecting bolt so that the fixing band 300 is threadedly coupled to the rigid support member 200 through the connecting member 400, in such a manner that the fixing band 300 can be detachably coupled, further improving portability of the use of the banding device.

Further, a plurality of fixing straps 300 may be disposed between two adjacent rigid supporting members 200 to further enhance the fixing effect of the goods, for example, the fixing straps 300 are disposed in sequence along the supporting direction of the rigid supporting members 200 and are parallel to each other. According to the present application, two mutually intersecting fixing straps 300 are disposed between two adjacent rigid supporting members 200, and the cross arrangement of the two fixing straps 300 can not only ensure the fixing effect of the goods stacking form, but also reduce the number of the fixing straps 300 in the arrangement to save the material cost. For the specific material of the fixing band 300, a nylon band, a canvas band, or the like may be selected to ensure durability, or an elastic band may be selected to allow the fixing band 300 to be adapted to goods piles of different shapes and specifications.

Further, for the cargo stacks with different stacking configurations, the number of the rigid supporting members 200 should be changed accordingly, for example, when the cross section of the cargo stack is triangular, the number of the rigid supporting members 200 is three; when the cross section of the cargo pile is rectangular, the number of the rigid supporting pieces 200 is four; when the stack cross-section is hexagonal, the number of rigid support members 200 is six. And as mentioned above, the rigid supporting members 200 are usually arranged at the edge of the cargo pile, so that the number of the rigid supporting members 200 can be reduced to the minimum and the material cost can be saved while ensuring a better fixing effect.

The banding step of the present application can be performed as follows:

as shown in fig. 3, a plurality of cargos 500 are stacked on the deck boards 600 to form a cargo stack having a stacking shape, which is a rectangular parallelepiped in this embodiment.

A plurality of rigid supporting members 200 are arranged on the periphery of the cargo pile to form accommodating spaces, in the embodiment, the number of the rigid supporting members 200 is four, and four rigid supporting members 200 surround the accommodating spaces and are respectively arranged at the edge positions of the cargo pile. Wherein, rigid support piece 200 can hang the top surface at the goods heap one by one through link plate 210 to make things convenient for one-man operation.

The flexible tying band 100 is wound around the periphery of the rigid supporting pieces 200, the flexible tying band 100 is switched to a closed loop state, external force is applied to tighten the flexible tying band 100, the rigid supporting pieces 200 are gradually gathered along with the tightening of the flexible tying band 100, and the tying device is tightly fixed to the goods stack.

In the embodiments of the present application, the difference between the embodiments is described in detail, and different optimization features between the embodiments can be combined to form a better embodiment as long as the differences are not contradictory, and further description is omitted here in view of brevity of the text.

The above are merely examples of the present application and are not intended to limit the present application. Various modifications and changes may occur to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the scope of the claims of the present application.

Claims (10)

1. A lashing device for a cargo stack, comprising: a flexible tie strap (100) and a plurality of rigid supports (200),

the plurality of rigid supporting pieces (200) enclose a containing space for containing the cargo stack, the flexible tying band (100) can be wound on the plurality of rigid supporting pieces (200), and the plurality of rigid supporting pieces (200) can be in tying fit with the flexible tying band (100).

2. The ligature device of claim 1, wherein the flexible tie strip (100) comprises a flexible strip (110) and a catch (120);

the flexible strap (110) having opposing first and second ends; the flexible tying band (100) is switchable between an open loop state and a closed loop state;

with the flexible tying band (100) in the closed loop state, the first end may be connected to the second end by the lock catch (120), and the flexible tying band (100) may be in a tying fit;

with the flexible tying band (100) in the open loop state, the first end can be separated from the second end by the lock catch (120), and the flexible tying band (100) can be released from the tying engagement.

3. The ligature device of claim 1, wherein the rigid support (200) comprises a peg board (210) and a support body (220),

the hanging plate (210) is arranged on the supporting body (220) and the stopping block is arranged in the supporting direction of the rigid supporting piece (200),

the supporting body (220) is located on the periphery of the accommodating space, the hanging plate (210) is located on the top of the accommodating space, and the flexible binding belt (100) is wound on the supporting body (220).

4. The banding device as claimed in claim 3, characterized in that said support body (220) comprises a first support plate and a second support plate connected to each other, said first support plate and said second support plate being arranged along said support direction, said first support plate and said second support plate having a first angle therebetween,

the first supporting plate and the second supporting plate are respectively connected with the hanging plate (210), and the flexible binding belt (100) is wound on the first supporting plate and the second supporting plate.

5. The ligature device of claim 1, wherein the periphery of the rigid support (200) is provided with a stop (230),

in the case where the flexible tying band (100) is wound around the plurality of rigid supporting members (200), the flexible tying band (100) can be in position-restricting engagement with the position restricting portion (230) in the supporting direction of the plurality of rigid supporting members (200).

6. The ligature device of claim 1, further comprising a retaining strap (300), the retaining strap (300) being connected between two adjacent rigid supports (200).

7. The ligature device of claim 6, further comprising a connector (400), the retaining strap (300) being connected to the rigid support (200) by the connector (400).

8. The banding device as claimed in claim 6, characterized in that two mutually intersecting fixing bands (300) are provided between two adjacent rigid supports (200).

9. The banding device as claimed in claim 1, wherein said flexible banding band (100) is provided in plurality, said plurality of flexible banding bands (100) being arranged in sequence along a supporting direction of said plurality of rigid supports (200).

10. The ligature device of claim 5, wherein the retaining portion (230) is a bent strip connected at both ends to the rigid support member (200), the bent strip and the rigid support member (200) enclosing to form a retaining channel,

the flexible tying band (100) passes through the limiting passage and is in limiting fit with the limiting passage under the condition that the flexible tying band (100) is wound and arranged on the plurality of rigid supporting pieces (200).

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