阅读说明：本技术 一种捆绑带与挂钩的连接结构 (Connecting structure of binding belt and hook ) 是由 阮云波 朱正中 于 2021-08-02 设计创作，主要内容包括：本发明提供了一种捆绑带与挂钩的连接结构,属于物流运输器材技术领域,它解决了现有技术中的捆绑带难以更换挂钩的问题。本捆绑带与挂钩的连接结构包括主带体和挂钩,主带体端部具有封闭的套接环一,主带体上固连有副带体,副带体端部也具有封闭的套接环二,套接环一与套接环二之间通过一个具有缺口的连接环相连接,从而形成一个大环,挂钩穿接于大环上。本发明在保证捆绑安全的基础上使得挂钩便于更换,同时具有制造成本低、实用性强的优点。(The invention provides a connecting structure of a binding belt and a hook, belongs to the technical field of logistics transportation equipment, and solves the problem that the hook is difficult to replace in the binding belt in the prior art. The connecting structure of the binding belt and the hook comprises a main belt body and the hook, wherein the end part of the main belt body is provided with a first sealed sleeving ring, the main belt body is fixedly connected with a second auxiliary belt body, the end part of the second auxiliary belt body is also provided with a second sealed sleeving ring, the first sleeving ring and the second sleeving ring are connected through a connecting ring with a notch, so that a large ring is formed, and the hook is connected to the large ring in a penetrating manner. The invention ensures that the hook is convenient to replace on the basis of ensuring the binding safety, and has the advantages of low manufacturing cost and strong practicability.)

1. The utility model provides a connection structure of binding area and couple, includes the main area body (1) and couple (2), the main area body (1) tip have a confined bell and spigot ring (11), its characterized in that, the main area body (1) on link firmly the auxiliary band body (3), auxiliary band body (3) tip also have a confined bell and spigot ring two (31), foretell bell and spigot ring one (11) and bell and spigot ring two (31) between be connected through a go-between (4) that have breach (41) to form a big ring (5), couple (2) cross-under on big ring (5).

2. The connecting structure of a tying band and a hook according to claim 1, wherein the sub-band body (3) is formed by folding a webbing in two ends and sewing both ends with the main band body (1), and the portion of the webbing not sewn with the main band body (1) forms the second loop (31).

3. The connecting structure of the binding belt and the hook according to claim 1 or 2, wherein the connecting ring (4) is a rectangular metal ring formed integrally, the notch (41) is located in the middle of one long side of the connecting ring (4), the first sleeve ring (11) and the second sleeve ring (31) can be sleeved on the two long sides of the connecting ring (4), respectively, and the length of the inner hole of the connecting ring (4) is equal to or slightly greater than the width of the main belt body (1) and the secondary belt body (3).

4. The tying band and hook coupling structure according to claim 3, wherein the length of the inner hole of the connection ring (4) is 1 to 1.3 times the width of the main band body (1), and the width of the inner hole of the connection ring (4) is greater than the sum of the thickness of the main band body (1) and the thickness of the sub-band body (3).

5. The tying band-to-hook connecting structure according to claim 1 or 2, wherein the connecting ring (4) is a circular metal ring formed integrally.

6. The tying band-to-hook coupling structure according to claim 1 or 2, wherein the opening width of the notch (41) is 1.5 to 3 times the thickness of the main band body (1).

7. The connecting structure of the tying band and the hook according to claim 1 or 2, wherein the end portion of the main band body (1) is folded in half in the length direction and the folded portion is sewn to form the first loop (11), and the hook (2) is brought into contact with the sewn portion of the end portion of the main band body (1) when the tying band is tensioned by the hook (2).

Technical Field

The invention belongs to the technical field of logistics transportation equipment, and relates to a connecting structure of a binding belt and a hook.

Background

During the transportation of goods, the goods often need to be bound to prevent the goods from falling or moving. The binding device is a device capable of firmly binding the goods on the automobile, and is widely popularized and applied in the current logistics field.

The binding device generally comprises a binding belt for binding goods and a hook connected to the end of the binding belt, and at present, the end of the binding belt is folded after passing through a hook hole of the hook, and the end of the binding belt is fixedly connected with the hook by sewing with a suture at the folded position.

For example, a binding device with an improved structure disclosed in Chinese patent document (application No. CN200820180137. X; publication No. CN 201325603). Although the connection mode of the binding belt and the hook is convenient to manufacture, the hook and the binding belt can be firmly connected, and the binding process is safe, the hook cannot be replaced. However, different types of hooks are usually required in different occasions, and the existing connection mode of the binding belt and the hook cannot be changed, so that a user is required to be provided with a plurality of binding devices with different hook types to meet the requirement of fixing goods in different occasions, and the input cost of the user is increased invisibly.

At present, some tying bands capable of realizing replaceable hooks are also available on the market, and the conventional technical means are as follows:

1. the shackle is a connecting device which is very commonly used in the current mechanical engineering, and the binding belt and the hook are connected by adopting the shackle to realize the replacement or detachable connection of the hook. For example, a 20T binding band (application No. CN 201920853346.4; publication No. CN210455842U) disclosed in Chinese patent literature, wherein one end of a tensioner is connected with a rotating hook through the binding band, the other end of the tensioner is connected with a connecting piece through the binding band, and the connecting piece and the binding band are connected through a shackle.

2. The end of the binding band is tied after passing through the hook hole of the hook, so that the binding band is connected with the hook, and meanwhile, the hook can be replaced by unfastening the binding band.

Disclosure of Invention

The invention aims to provide a connecting structure of a binding belt and a hook aiming at the problems in the prior art, and the invention solves the technical problems that: the hook is convenient to replace on the basis of ensuring the binding safety.

The purpose of the invention can be realized by the following technical scheme: a connecting structure of a binding belt and a hook comprises a main belt body and a hook, wherein the end part of the main belt body is provided with a first sealed sleeving ring, and the connecting structure is characterized in that the main belt body is fixedly connected with a second auxiliary belt body, the end part of the second auxiliary belt body is also provided with a second sealed sleeving ring, the first sleeving ring and the second sleeving ring are connected through a connecting ring with a notch, so that a large ring is formed, and the hook is connected to the large ring in a penetrating manner.

In the connecting structure, the first sleeve joint ring and the second sleeve joint ring are connected through the connecting ring to form a large ring, and the hook is connected to the large ring in a penetrating mode, so that the hook cannot be separated from the binding belt in a binding state, and binding work is achieved. When the hook needs to be replaced in a non-binding state, the connecting ring is provided with the notch, so that the connecting ring can be separated from the notch by twisting the socket ring of the main belt body to a certain angle, the hook can be detached, a new hook is installed, and then the socket ring of the main belt body is connected to the connecting ring, and the hook can be replaced.

Because the connecting ring is under the action of binding pulling force in the binding state, if the connecting ring is deformed or damaged due to stress, the binding effect and the binding safety of the binding device are directly influenced. However, the notch is formed in the connecting ring, so that the hook can be conveniently replaced, but the existence of the notch enables the connecting ring not to be in a closed ring shape, and further the tensile strength of the connecting ring can be influenced. Therefore, for the purpose of ensuring the binding safety, it is very important how to achieve the tensile strength of the connection ring to meet the requirements of the binding load and the binding safety.

In view of this, firstly, when the applicant connects the connection rings, the auxiliary belt body is particularly arranged to be connected with the connection rings, and by means of the arrangement, the connection rings only need to bear half of the binding pulling force, for example, when the binding pulling force is a ton, the connection rings only need to bear a/2 ton of force, so that the requirement on the tensile strength of the connection rings can be greatly reduced, the connection rings are protected, the connection rings cannot deform to cause the notches to become larger, the risk that the socket ring I or the socket ring II is separated from the notches due to the larger notches is avoided, and the binding safety is improved. In addition, the main belt body and the auxiliary belt body are respectively connected to the connecting ring through the first sleeving ring and the second sleeving ring, and the first sleeving ring and the second sleeving ring are closed, so that the main belt body and the auxiliary belt body can be stably connected to the connecting ring in the binding process, and the binding safety is guaranteed.

In the connecting structure of the binding belt and the hook, the auxiliary belt body is formed by folding two ends of a woven belt in half and sewing two ends of the woven belt with the main belt body, and the part of the woven belt which is not sewn with the main belt body forms the second sleeving ring. By the aid of the design, the secondary belt body is provided with the second sleeve ring, the three layers of belt bodies are sewn at sewing positions, so that the connection firmness of the secondary belt body and the main belt body and the stability of the second sleeve ring structure are greatly enhanced, the product is guaranteed to have higher binding load, and the binding safety is improved.

In the above-mentioned connection structure of binding band and couple, the go-between is integrated into one piece's rectangle becket, the breach is located the middle part on one of them long limit of go-between, cover ring one and cover ring two can overlap respectively on two long edges of go-between, the length of the hole of go-between equals or slightly is greater than the width of the main area body and the auxiliary area body.

The connecting ring adopts the integrated into one piece's metal ring for the connecting ring has great tensile strength, and is difficult to deform at the binding in-process. The length of the inner hole of the connecting ring is equal to or slightly larger than the width of the main belt body and the auxiliary belt body, so that the main belt body can be conveniently and quickly sleeved on the connecting ring, the hook can be conveniently replaced, meanwhile, the main belt body and the auxiliary belt body are flatly sleeved on the connecting ring, and the phenomenon that the local stress of the contact part of the main belt body and the auxiliary belt body with the connecting ring is overlarge is avoided, and the connecting ring is protected.

The notch is positioned in the middle of one long edge, the length of the inner hole of the connecting ring is equal to or slightly greater than the width of the main belt body and the width of the auxiliary belt body, so that the two short edges of the connecting ring limit the transverse movement of the main belt body and the auxiliary belt body, the notch is always positioned in the middle of the width direction of the main belt body in a binding state, and the situation that the sleeving ring of the main belt body penetrates out of the notch accidentally is avoided. Meanwhile, the first sleeving ring of the main belt body covers the notch, so that when the binding belt is tensioned by the hook to form tension, the first sleeving ring of the main belt body can be tightly pressed on the two end parts at the notch of the connecting ring, and the part of the binding belt, which is opposite to the notch, can be deformed to a certain degree and embedded into the notch to be abutted against the end surfaces of the two end parts, so that the risk of transverse movement of the first sleeving ring of the main belt body can be further reduced. Above design makes in the transportation, even if the goods appear jolting, the condition of rocking, the go-between can't all be deviate from the breach to the main belt body, and then has guaranteed reliability and security that the goods binded most effectively.

Certainly, in the actual use process, the sleeving ring of the auxiliary belt body can be sleeved on the long edge of the connecting ring with the notch. In a similar way, in the using state, the notch is always positioned in the middle position of the auxiliary belt body in the width direction, and the reliability and the safety of cargo binding can be effectively guaranteed.

In the connecting structure of the binding belt and the hook, the length of the inner hole of the connecting ring is 1-1.3 times of the width of the main belt body, and the width of the inner hole of the connecting ring is larger than the sum of the thickness of the main belt body and the thickness of the auxiliary belt body. Preferably, the length of the inner hole of the connecting ring is 1.1 times of the width of the main belt body, the design can facilitate the sleeve ring of the main belt body to be quickly sleeved on the connecting ring, meanwhile, for the rectangular connecting ring, if the rectangular connecting ring deforms, the most easily deformed part is the corner position, and the design enables the two side edges of the main belt body to be close to the corner position of the connecting ring, so that the moment is reduced, and the phenomenon that the connecting ring deforms to influence the binding safety is avoided as far as possible. In addition, the width of the inner hole of the connecting ring is larger than the sum of the thickness of the main belt body and the thickness of the auxiliary belt body, so that when the first sleeve ring of the main belt body and the second sleeve ring of the auxiliary belt body are sequentially sleeved on the connecting ring, the operation is more convenient, and the hook replacement process is further convenient.

In the above connecting structure of the tying band and the hook, the connecting ring is a circular metal ring formed integrally. The go-between is integrated into one piece's circular becket, and it is comparatively convenient to make, can reduce manufacturing cost, and this go-between consequently has great tensile strength owing to integrated into one piece simultaneously, and is difficult for deformation in the binding process.

In the connecting structure of the binding belt and the hook, the opening width of the notch is 1.5 to 3 times of the thickness of the main belt body. Such setting can guarantee under the state of non-binding, through turning round the main band body to a certain angle, enables the cup joint ring of the main band body and smoothly passes the breach, makes the couple change convenient, and simultaneously, the opening width of breach can not be too big again to guarantee to bind the in-process, the main band body or the subband body that are in the tight state that rises can not deviate from the breach, and then guarantee to bind the security of process. Preferably, the opening width of the notch is 2 times the thickness of the main belt body.

In the connecting structure of the binding belt and the hook, the end part of the main belt body is folded in half along the length direction, the folded part is sewn to form the first sleeving ring, and the hook is contacted with the sewn part of the end part of the main belt body when the binding belt is tensioned by the hook to be tensioned. Form the complete set through folding sutural mode and connect the ring one, it is convenient not only to make, guarantees moreover that the main area body is firm in structure here, and then realizes the main area body and the stable connection of go-between, guarantees to bind the security higher. Meanwhile, the sewing part is of a double-layer belt body structure, so that the wear resistance and the structural strength are high, the hook is in contact with the sewing part at the end part of the main belt body, and the binding safety and the service life of a product can be improved.

Compared with the prior art, the connecting structure of the binding belt and the hook has the following advantages:

1. among this connection structure, cup joint ring one and cup joint and form a big ring after being connected through the go-between that has the breach between the ring two, and the couple cross-under connect on big ring, such design not only makes the couple can not break away from the tie under the binding state, and the cup joint ring of the main area body one can penetrate or break away from the go-between by the breach simultaneously for the couple is changed very conveniently.

2. The auxiliary belt body is arranged to be connected with the connecting ring, so that the connecting ring only needs to bear half of binding tension, the requirement on the tensile strength of the connecting ring can be greatly reduced, the connecting ring is protected, and the product has the advantages of high binding load, good safety and long service life.

3. The product also has the advantages of low manufacturing cost and strong practicability, thereby having great market promotion prospect.

Drawings

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

Fig. 2 is a cross-sectional view of the present invention.

Fig. 3 is a top view of the present invention.

Fig. 4 is a schematic structural view of a connection ring in the first embodiment.

Fig. 5 is a schematic view of the change of the hook as soon as the socket ring is removed from the coupling ring.

Fig. 6 is a schematic view of a first structure used in the binding apparatus of the present invention.

FIG. 7 is a schematic view of a second embodiment of the present invention for use with a binding apparatus

Fig. 8 is a schematic view of a third configuration of the present invention for use with a binding apparatus.

Fig. 9 is a schematic structural view of a connection ring in the second embodiment.

In the figure, 1, a main belt body; 11. sleeving a first connecting ring; 2. hooking; 21. a hook hole; 3. a sub-belt body; 31. a second sleeving connection ring; 4. a connecting ring; 41. a notch; 5. a macrocycle; 6. a binding device.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

Example one

As shown in fig. 1 to 3, the connecting structure of the binding band and the hook comprises a main band body 1, a secondary band body 3 and a hook 2, wherein a first closed sleeving ring 11 is arranged at the end part of the main band body 1, the secondary band body 3 is fixedly connected to the main band body 1, a second closed sleeving ring 31 is also arranged at the end part of the secondary band body 3, the first sleeving ring 11 and the second sleeving ring 31 are connected through a connecting ring 4 with a gap 41, so that a large ring 5 is formed, and the hook 2 is connected to the large ring 5 in a penetrating manner.

Specifically, with continued reference to fig. 1 to 3, the end of the main belt body 1 is folded in half along the length direction, and then the folded part is sewn to form the first loop 11, the binding belt is tensioned by the hook 2 to be tensioned, and the hook 2 contacts with the sewn part of the end of the main belt body 1, and the sewn part is of a double-layer belt body structure, so that the wear resistance and the structural strength are high, the hook 2 contacts with the sewn part of the end of the main belt body 1, and the binding safety and the service life of the product can be improved. The secondary belt body 3 is formed by folding two ends of a woven belt in half and sewing both ends with the main belt body 1, and the part of the woven belt which is not sewed with the main belt body 1 forms the second sleeving ring 31. The structure enables the sewing position to be sewn by three layers of belt bodies, thereby greatly enhancing the connection firmness of the auxiliary belt body 3 and the main belt body 1 and the stability of the second sleeve joint ring 31 structure.

As shown in fig. 3 and 4, the connection ring 4 is a rectangular metal ring formed integrally, so that the connection ring 4 has high tensile strength and is not easily deformed during the binding process. The notch 41 is located in the middle of one long edge of the connecting ring 4, the first sleeve ring 11 and the second sleeve ring 31 can be respectively sleeved on the two long edges of the connecting ring 4, the length of the inner hole of the connecting ring 4 is 1.1 times of the width of the main belt body 1, the width of the inner hole of the connecting ring 4 is larger than the sum of the thickness of the main belt body 1 and the thickness of the auxiliary belt body 3, and the opening width of the notch 41 is 2 times of the thickness of the main belt body 1. In actual manufacturing process, the opening width of the notch 41 can be increased or decreased properly, and usually, the opening width of the notch 41 should be 1.5-3 times the thickness of the main belt body 1. The notch 41 is located in the middle of one of the long sides, and the length of the inner hole of the connecting ring 4 is equal to or slightly greater than the width of the main belt body 1 and the width of the auxiliary belt body 3, so that the two short sides of the connecting ring 4 limit the transverse movement of the main belt body 1 and the auxiliary belt body 3, the notch 41 is always located in the middle of the width direction of the main belt body 1 in a binding state, and the first sleeving ring 11 of the main belt body 1 is prevented from accidentally penetrating out of the notch 41. Therefore, in the transportation process, even if the goods bump or shake, the main belt body 1 cannot be separated from the notch 41 to form the connecting ring 4, and the reliability and the safety of goods binding are effectively guaranteed.

In the binding process of the product, the first sleeve joint ring 11 and the second sleeve joint ring 31 are connected through the connecting ring 4 to form the large ring 5, and the hook 2 is connected to the large ring 5 in a penetrating mode, so that the hook 2 cannot be separated from the binding belt in a binding state, and binding work is achieved. And when needing to change couple 2 under the state of non-binding, because the go-between 4 is last to have breach 41, consequently only need to twist a certain angle with a socket ring 11 of the main band body 1, can make socket ring 11 deviate from go-between 4 from breach 41, as shown in fig. 5, afterwards, alright pull out in the hook hole 21 of the main band body 1 from couple 2, install new couple 2, then connect a socket ring 11 of the main band body 1 on go-between 4 again, can accomplish the change of couple 2, consequently, when this connection structure is used for binding the ware, can be convenient for change different couples. Fig. 6 to 8 show schematic diagrams of the connection structure applied to the binding device 6, and as can be seen from fig. 6 to 8, after the binding device 6 adopts the connection structure, the hook 2 can be replaced, so that different hooks 2 can be conveniently connected to the binding device 6, and the requirement of fixing goods on different occasions is met.

Example two

The structure and principle of this embodiment are basically the same as those of the first embodiment, and different points are as follows: as shown in fig. 9, the connection ring 4 is a circular metal ring formed integrally. The connecting ring 4 is a circular metal ring which is integrally formed, the manufacturing is convenient, the manufacturing cost can be reduced, and meanwhile, the connecting ring 4 has high tensile strength due to the integral forming and is not easy to deform in the binding process.

EXAMPLE III

The structure and principle of this embodiment are basically the same as those of the first embodiment, and different points are as follows: the length of the inner hole of the connecting ring 4 is equal to the width of the main belt body 1 and the auxiliary belt body 3.

Example four

The structure and principle of this embodiment are basically the same as those of the first embodiment, and different points are as follows: the length of the inner hole of the connecting ring 4 is 1.3 times of the width of the main belt body 1.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Although more uses are made herein of 1, primary belts; 11. sleeving a first connecting ring; 2. hooking; 21. a hook hole; 3. a sub-belt body; 31. a second sleeving connection ring; 4. a connecting ring; 41. a notch; 5. a macrocycle; 6. binders, etc., but does not exclude the possibility of using other terms. These terms are used merely to more conveniently describe and explain the nature of the present invention; they are to be construed as being without limitation to any additional limitations that may be imposed by the spirit of the present invention.