CN219970297U - Sliding guide rod limiting mechanism and tray thereof - Google Patents

Abstract

The utility model provides a sliding guide rod limiting mechanism and a tray thereof, wherein the sliding guide rod limiting mechanism comprises a first glass fiber guide rod, a first partition plate, a second partition plate and end plates, and the end plates are arranged oppositely; the first partition plate and the second partition plate are arranged between the two end plates, and the end parts of the first partition plate and the second partition plate are fixedly connected with the end plates; the first partition plates are arranged between the second partition plates and are parallel to each other; the side of first baffle is equipped with a plurality of locating holes, and the top of second baffle is equipped with a plurality of openings ascending constant head tank along its length direction, and first glass fiber guide arm is a plurality of, passes from the locating hole on the first baffle in proper order according to certain interval, and in the constant head tank at second baffle top was blocked respectively at both ends after first glass fiber guide arm both ends passed the locating hole, in the whole rectangle frame of putting into after the assembly to press into the guide arm inslot with first glass fiber guide arm both ends, constitute the tray. The mechanism is more convenient and quick to assemble and disassemble, and can be compatible with products of different sizes.

Description

Sliding guide rod limiting mechanism and tray thereof

Technical Field

The utility model relates to the technical field of logistics turnover, in particular to a sliding guide rod limiting mechanism and a tray thereof.

Background

The shell of the battery is generally in an aluminum plastic flexible package, and the battery needs to be loaded and positioned by adopting a turnover box, a tray and other carriers in the turnover process. The utility model patent with the prior carrier, such as the grant bulletin number CN 211870061U, discloses a polymer lithium ion battery turnover box, which comprises a rectangular box body and a plurality of detachable partition boards inserted in the rectangular box body, wherein vertical clamping grooves which are distributed at equal intervals and are used for inserting the detachable partition boards are formed in the inner surfaces of four side walls of the rectangular box body, the number and the size of independent spaces which are formed in the rectangular box body and are used for accommodating the polymer lithium ion batteries can be changed by changing the distribution number and the distribution direction of the detachable partition boards, the turnover box can be applied to turnover of polymer lithium ion batteries with various specifications, and is convenient to assemble and disassemble and high in turnover efficiency. Above-mentioned structure is through dismouting baffle in order to adapt to different products, but realize separating all adoption baffle in this structure, when the baffle is installed to the vertical clamping inslot of rectangle box lateral wall, needs the one-to-one to insert down, when dismantling, needs the one-to-one to dismantle, and is more loaded down with trivial details. In addition, the width of vertical clamping groove can not be too much than baffle thickness, otherwise can make the baffle rock unstably, can't guarantee the location to the battery, consequently, when inserting, baffle and vertical clamping groove still appear the jamming easily.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: in order to overcome the defects in the prior art, the utility model provides a sliding guide rod limiting mechanism and a tray thereof.

The technical scheme adopted for solving the technical problems is as follows: the utility model provides a sliding guide rod stop gear and tray thereof, includes first glass fiber guide arm, first baffle, second baffle and end plate, the end plate is two, and set up relatively, first baffle and second baffle set up between the both ends board, and tip and end plate link firmly, and first baffle and second baffle are mutually perpendicular with the end plate of both sides; the first baffle sets up between the second baffle, and first baffle and second baffle are parallel to each other, the side of first baffle is equipped with a plurality of locating holes, the top of second baffle is equipped with a plurality of ascending constant head tanks of opening along its length direction, first glass fiber guide arm is a plurality of, passes from the locating hole on the first baffle in proper order according to certain interval, just interval and the size phase-match of waiting to fix a position the product, in the constant head tank at second baffle top was blocked respectively at first glass fiber guide arm both ends after passing the locating hole to separate through first baffle, second baffle and first glass fiber guide arm and be a plurality of rectangle spaces that are used for carrying out the location to the product. Simultaneously, the position between first baffle, second baffle and the fine guide arm of first glass all can carry out sliding adjustment to make in two directions of length and width all can be applicable to the location of different products.

During assembly, the end part of the first glass fiber guide rod needs to be embedded into the guide rod groove on the side plate of the rectangular outer frame through pressing, is in interference connection with the guide rod groove, and can be bent downwards or even broken through pressing if too much force is applied when the first glass fiber guide rod is pressed downwards, so that the glass fiber guide rod assembly device further comprises two second glass fiber guide rods, wherein the two second glass fiber guide rods are respectively arranged below the end parts of the two sides of the first glass fiber guide rod, and the two ends of the second glass fiber guide rod are respectively fixed on the end plates of the two sides. Preferably, the extending direction of the second glass fiber guide rod is kept perpendicular to the surface of the end plate as much as possible. The second glass fiber guide rod is used for supporting the end part of the first glass fiber guide rod, so that transitional downward pressing is avoided when the first glass fiber guide rod is pressed into the guide rod groove on the rectangular outer frame.

Preferably, the first separator and the second separator are both injection molded.

In order to adapt to the size of different products, need adjust the position of first glass fiber guide arm, and first glass fiber guide arm card is in the constant head tank of second baffle, can dismantle with the constant head tank and be connected, if the degree of depth of constant head tank is too big, when dismantling, more hard, and easily damage or break the guide arm, consequently, in order to be convenient for install and dismantle, the height of second baffle is less than the height of first baffle. The height of the second partition plate is reduced, so that the positioning groove at the top of the second partition plate is prevented from being too deep, and the first glass fiber guide rod can be stably clamped and simultaneously is convenient to detach during adjustment.

Further, the positioning holes on the first partition plate are provided with a plurality of different heights, and the second partition plates with different heights can be replaced according to the heights of the positioning holes.

The tray comprises the sliding guide rod limiting mechanism and further comprises a rectangular outer frame, a plurality of guide rod grooves are formed in the inner walls of two opposite side plates of the rectangular outer frame, the sliding guide rod limiting mechanism is integrally installed in the rectangular outer frame, and two ends of a first glass fiber guide rod are respectively pressed into the guide rod grooves on the two side plates and are in interference connection with the guide rod grooves.

Furthermore, in order to protect the product, the rectangular outer frame is made of EPP materials. EPP material is a soft material, can play certain cushioning effect, and the material is softer, can not cause the damage to the product surface, plays certain guard action.

Specifically, the rectangle frame includes bottom plate and curb plate, the curb plate is four, and the head and the tail is connected gradually and is enclosed to establish on the bottom plate, forms and holds the chamber.

The beneficial effects of the utility model are as follows: (1) The sliding guide rod limiting mechanism is separated from the rectangular outer frame of the tray, is independently assembled and then integrally arranged in the rectangular frame, and has a simple assembly relationship with the rectangular outer frame, namely, the end part of the first glass fiber guide rod is in interference connection with the guide rod groove on the side plate, so that the assembly and the disassembly are more convenient and quick; (2) The glass fiber guide rod is adopted to replace a baffle plate to separate the accommodating cavity, and only the glass fiber guide rod is in line contact with the surface of a product, so that the possibility of damage to the surface of the product due to friction in circulation is reduced; (3) The width of the clamping space is changed by adjusting the connection positions of the first glass fiber guide rod and the first and second partition plates, the length of the clamping space is changed by adjusting the distance between the first and second partition plates, and the adjustment of the height of the clamping space is realized by changing the connection of the first glass fiber guide rod at the positioning holes with different heights and changing the second partition plates with different heights, so that the adjustment of the three directions is mutually matched, the clamping space is suitable for products with different sizes, and the compatibility is improved; (4) The rectangular outer frame is made of EPP materials, damage to the surface of a product is avoided, and a protective effect is achieved.

Drawings

The utility model is further described below with reference to the drawings and examples.

Fig. 1 is a schematic structural view of a sliding guide bar limiting mechanism of the present utility model.

Fig. 2 is a schematic structural view of an embodiment of the first separator.

Fig. 3 is a schematic structural view of another embodiment of the first separator.

Fig. 4 is a schematic structural view of a rectangular outer frame.

Fig. 5 is a schematic structural view of the tray.

Fig. 6 is a schematic cross-sectional view of fig. 5 along the first glass fiber guide rod.

Fig. 7 is an enlarged schematic view of the structure at a in fig. 6.

Fig. 8 is a schematic view showing a state in which a first product is placed in the tray.

Fig. 9 is a schematic view showing a state in which the second product is placed in the tray.

In the figure: 1. the first glass fiber guide rod, 2, the second glass fiber guide rod, 3, a first baffle, 3.1, a locating hole, 4, a second baffle, 4.1, a locating groove, 5, an end plate, 6, a rectangular outer frame, 6.1, a bottom plate, 6.2, a side plate, 6.3, a guide rod groove, 7, a first product, 8 and a second product.

Detailed Description

The utility model will now be described in further detail with reference to the accompanying drawings. The drawings are simplified schematic representations which merely illustrate the basic structure of the utility model and therefore show only those features which are relevant to the utility model, and orientation and reference (e.g., up, down, left, right, etc.) may be used solely to aid in the description of the features in the drawings. The following detailed description is, therefore, not to be taken in a limiting sense, and the scope of the claimed subject matter is defined only by the appended claims and equivalents thereof.

As shown in fig. 1, the sliding guide rod limiting mechanism comprises a first glass fiber guide rod 1, a first partition plate 3, a second partition plate 4 and end plates 5, wherein the number of the end plates 5 is two, the two end plates are oppositely arranged, the first partition plate 3 and the second partition plate 4 are arranged between the two end plates 5, the end parts of the first partition plate and the second partition plate are fixedly connected with the end plates 5, and the first partition plate 3 and the second partition plate 4 are mutually perpendicular to the end plates 5 at two sides; the quantity of first baffle 3 and second baffle 4 can set up according to holistic size, all can set up to a plurality ofly, and first baffle 3 is two in this embodiment, second baffle 4, first baffle 3 sets up between second baffle 4, and first baffle 3 is parallel to each other with second baffle 4, the side of first baffle 3 is equipped with a plurality of locating holes 3.1, the top of second baffle 4 is equipped with a plurality of ascending constant head tanks 4.1 of opening along its length direction, first glass fiber guide arm 1 is a plurality of, pass from the locating hole 3.1 on the first baffle 3 in proper order according to certain interval, just the interval is with wait to fix a position the size phase-match of product, the constant head tank 4.1 at second baffle 4 top is blocked respectively at both ends after first glass fiber guide arm 1 both ends pass the locating hole 3.1 to separate through first baffle 3, second baffle 4 and first glass fiber guide arm 1 and be a plurality of rectangular spaces that are used for carrying out the location to the product. During assembly, the end part of the first glass fiber guide rod 1 needs to be embedded into the guide rod groove 6.3 on the side plate 6.2 of the rectangular outer frame 6 through pressing, is in interference connection with the guide rod groove 6.3, and if the force is excessively large during downward pressing, the first glass fiber guide rod 1 is downwards bent or even broken, so that the assembly machine further comprises two second glass fiber guide rods 2, wherein the two second glass fiber guide rods 2 are respectively arranged below the two side end parts of the first glass fiber guide rod 1, and the two ends of the second glass fiber guide rod 2 are respectively fixed on the end plates 5 on the two sides. Preferably, the extending direction of the second glass fiber guide rod 2 is kept as perpendicular as possible to the surface of the end plate 5. By supporting the end part of the first glass fiber guide rod 1 by the second glass fiber guide rod 2, transitional downward pressing is avoided when the first glass fiber guide rod 1 is pressed into the guide rod groove 6.3 on the rectangular outer frame 6. Preferably, the first separator 3 and the second separator 4 are both injection molded. Preferably, the first glass fiber guide rod 1 adopts a cylindrical rod-shaped structure, so that the contact area between the first glass fiber guide rod and a product is as small as possible, and the damage to the surface of the product due to friction in circulation is reduced. The first glass fiber guide rod 1 and the second glass fiber guide rod 2 are made of glass fiber materials, have certain flexibility and toughness, can bear bending shearing force in a certain range, and can directly press the first glass fiber guide rod 1 into the guide rod groove 6.3 through deformation.

As shown in fig. 6, the height of the second separator 4 is smaller than the height of the first separator 3. The height of the second partition board 4 is reduced, so that the positioning groove 4.1 at the top of the second partition board 4 is prevented from being too deep, and the first glass fiber guide rod 1 can be stably clamped and conveniently detached during adjustment.

As shown in fig. 2 and 3, the positioning holes 3.1 on the first partition plate 3 have a plurality of different heights, and the second partition plates 4 having different heights can be replaced according to the heights of the positioning holes 3.1. The positioning holes 3.1 on the first partition plate 3 can be arranged in a plurality of modes, and the heights of products can be positioned according to actual needs, so that the first partition plates 3 with different specifications can be prepared for replacement; meanwhile, the second partition plates 4 with various different heights can be prepared to be matched with the positioning holes 3.1 with different heights on the first partition plate 3, so that the universality and compatibility of the tray are improved, and the preparation cost of the carrier is saved.

As shown in fig. 5, a tray comprises the sliding guide rod limiting mechanism and further comprises a rectangular outer frame 6, as shown in fig. 4, the rectangular outer frame 6 comprises a bottom plate 6.1 and side plates 6.2, the side plates 6.2 are four, and the four side plates are sequentially connected end to end and are enclosed on the bottom plate 6.1 to form an accommodating cavity. The inner walls of the two opposite side plates 6.2 of the rectangular outer frame 6 are provided with a plurality of guide rod grooves 6.3, the whole sliding guide rod limiting mechanism is arranged in the rectangular outer frame 6, as shown in fig. 6 and 7, two ends of the first glass fiber guide rod 1 are respectively pressed into the guide rod grooves 6.3 on the two side plates 6.2 and are in interference connection with the guide rod grooves 6.3, so that the stability of connection is ensured, the depth of the guide rod grooves 6.3 is preferably shallow grooves, and the depth is preferably 1.5-5mm, so that the end part of the guide rod can be clamped, and the installation and the disassembly are inconvenient due to excessive depth. The rectangular outer frame 6 is made of EPP material, has a certain protection effect on products, and can facilitate the end part of the first glass fiber guide rod 1 to be pressed into the guide rod groove 6.3.

As shown in fig. 8, the positioning of the first product 7 is schematically shown, and the width of the first product 7 is about twice the width between the positioning grooves 4.1, so that the first glass fiber guiding rod 1 is provided with one positioning groove 4.1 at each interval. As shown in fig. 9, the second product 8 is shown in a positioning schematic view, and the width of the second product 8 is about three times the width between the positioning grooves 4.1, so that the first glass fiber guiding rod 1 is provided with one positioning groove 4.1 at every two positioning grooves. In this embodiment, the product in fig. 8 and 9 is merely taken as an example, and the product actually positioned includes, but is not limited to, the two dimensions described above.

While the foregoing is directed to the preferred embodiment of the present utility model, other and further embodiments of the utility model may be devised without departing from the basic scope thereof, and the scope thereof is determined by the claims that follow. The technical scope of the present utility model is not limited to the description, but must be determined according to the scope of claims.

Claims (8)

1. A sliding guide rod limiting mechanism is characterized in that: including first glass fiber guide arm (1), first baffle (3), second baffle (4) and end plate (5), end plate (5) are two, and set up relatively, first baffle (3) and second baffle (4) set up between both ends board (5), and tip and end plate (5) link firmly, first baffle (3) set up between second baffle (4), and first baffle (3) are parallel to each other with second baffle (4), the side of first baffle (3) is equipped with a plurality of locating holes (3.1), the top of second baffle (4) is equipped with a plurality of ascending constant head tanks (4.1) of opening along its length direction, first glass fiber guide arm (1) are a plurality of, pass according to locating hole (3.1) on certain interval follow first baffle (3) in proper order, in first glass fiber guide arm (1) both ends are worn locating hole (3.1) rear both ends and are blocked respectively in constant head tank (4.1) at second baffle (4) top.

2. The sliding guide bar limiting mechanism of claim 1, wherein: the glass fiber reinforced plastic composite structure is characterized by further comprising two second glass fiber guide rods (2), wherein the two second glass fiber guide rods (2) are respectively arranged below the two side end parts of the first glass fiber guide rods (1), and two ends of the second glass fiber guide rods (2) are respectively fixed on end plates (5) on two sides.

3. The slide guide bar limiting mechanism as recited in claim 2, wherein: the first partition plate (3) and the second partition plate (4) are formed by injection molding.

4. The slide guide bar limiting mechanism as recited in claim 2, wherein: the height of the second partition board (4) is smaller than that of the first partition board (3).

5. The slide guide bar limiting mechanism as recited in claim 2, wherein: the positioning holes (3.1) on the first partition plate (3) have a plurality of different heights, and the second partition plates (4) with different heights can be replaced according to the heights of the positioning holes (3.1).

6. A pallet, characterized in that: the sliding guide rod limiting mechanism comprises the sliding guide rod limiting mechanism as claimed in any one of claims 1 to 5, and further comprises a rectangular outer frame (6), wherein a plurality of guide rod grooves (6.3) are formed in the inner walls of two opposite side plates (6.2) of the rectangular outer frame (6), the sliding guide rod limiting mechanism is integrally arranged in the rectangular outer frame (6), and two ends of the first glass fiber guide rod (1) are respectively pressed into the guide rod grooves (6.3) in the two side plates (6.2) and are in interference connection with the guide rod grooves (6.3).

7. The tray of claim 6, wherein: the rectangular outer frame (6) is made of EPP materials.

8. The tray of claim 6, wherein: the rectangular outer frame (6) comprises a bottom plate (6.1) and side plates (6.2), wherein the number of the side plates (6.2) is four, and the side plates are sequentially connected end to end and are arranged on the bottom plate (6.1) in a surrounding mode to form a containing cavity.