CN220616866U - Buffer structure for effectively protecting large-sized outdoor particle furnace - Google Patents

Abstract

The utility model provides a buffer structure for effectively protecting a large outdoor particle furnace, which comprises a bottom bracket, a semi-box, a base support card, a first accessory box, a second accessory box, a first separation card, a second separation card, a third separation card, a reinforcing card, a first fixing card, a second fixing card, a first panel support card, a second panel support card, a top separation card, four vertical corner protectors, two vertical pipe sleeves, two transverse first corner protectors and two transverse second corner protectors, wherein the bottom bracket, the semi-box, the base support card, the first accessory box, the second accessory box, the first separation card, the second separation card, the third separation card, the reinforcing card, the first fixing card, the second fixing card, the first panel support card, the second panel support card and the top separation card are all made of corrugated paper; the half-side cover is arranged above the bottom bracket to form a storage space; the base support card, the first accessory box, the first panel support card, the second panel support card and the support card are surrounded to form a main body storage space of the particle furnace; the structure is firm, and bearing capacity is strong, and interior space utilization is high, environmental protection.

Description

Buffer structure for effectively protecting large-sized outdoor particle furnace

Technical Field

The utility model relates to the technical field of packaging, in particular to a buffer structure for effectively protecting a large-sized outdoor particle furnace.

Background

The Chinese authorized bulletin number CN 217261621U, the authorized bulletin day is 2022, month 08 and 23, discloses an anti-collision heavy packaging carton, which comprises a base and a limiting mechanism; the top of base detachably is provided with the box that the top is open vertically. This anticollision's heavy packing carton carries out joint installation through carrying out backup pad and fixed block, the bottom of stabilizer bar contacts with the top of below backup pad, promote the push-and-pull board and make the interval that runs through between the groove and make two grip blocks for suitable size to press from both sides tight fixedly to article to the inner chamber direction motion of box, then install the shutoff board and make it carry out the shutoff to the top of box, it is fixed to run through the position of board and backup pad to run through the board through the limiting plate, thereby fix the position of board, carry out the centre of support to article, avoid the goods to rock the striking box inner wall in the transportation, avoid making the carton focus unstable at article rocks simultaneously, protect the goods, the result of use is better. The prior art has the following defects: the structure is complex, the utilization rate of the internal space is low, and the environment is not protected. In view of this, improvements are needed.

Disclosure of Invention

Based on the above, the utility model aims to provide the buffer structure for effectively protecting the large-sized outdoor particle furnace, which has the advantages of stable structure, strong bearing capacity, high utilization rate of internal space and environmental protection.

The utility model provides a buffer structure for effectively protecting a large outdoor particle furnace, which comprises a bottom support, a semi-box, a base support card, a first accessory box, a second accessory box, a first separation card, a second separation card, a third separation card, a reinforcing card, a first fixing card, a second fixing card, a first panel support card, a second panel support card, a top separation card, four vertical corner protectors, two vertical pipe sleeves, two transverse first corner protectors and two transverse second corner protectors, wherein the bottom support, the semi-box, the base support card, the first accessory box, the second accessory box, the first separation card, the second separation card, the third separation card, the reinforcing card, the first fixing card, the second fixing card, the first panel support card, the second panel support card and the top separation card are all made of corrugated paper;

the half-box cover is arranged above the bottom support to form a storage space;

the base support card is arranged at the bottom of the inner cavity of the collet in the middle, and the support card is arranged at the bottom of the inner cavity of the collet and is positioned at one side of the base support card; the first accessory box is arranged on one side above the bottom bracket; the first panel supporting card and the second panel supporting card are respectively arranged on two opposite sides above the bottom bracket; the base support card, the first accessory box, the first panel support card, the second panel support card and the support card are enclosed to form a main body storage space of the particle furnace;

the reinforcing card is arranged above the supporting card; the reinforcing card is provided with a feed box accommodating space;

the top partition card is arranged above the storage space of the main body of the grain furnace; a door plate accommodating space is formed between the top partition card and the particle furnace main body accommodating space;

the four vertical corner protectors are respectively arranged at four side corner positions of the inner cavity of the bottom bracket; the top of the vertical corner protector contacts with the lower surface of the isolation card in a contact manner;

the two vertical pipe sleeves are respectively arranged on two opposite sides of the length direction of the inner cavity of the bottom bracket in the middle;

the two transverse first protection angles are correspondingly arranged on two opposite sides of the width direction of the top isolation card, and the two transverse second protection angles are correspondingly arranged on two opposite sides of the length direction of the top isolation card; when the half-side box cover is arranged above the bottom support, the two transverse first corner protectors and the two transverse second corner protectors are in contact with the top and the side wall of the inner cavity of the half-side box in a pasting mode;

after the particle furnace main body is placed in the particle furnace main body accommodating space, a second accessory box is arranged at the bottom of the inner cavity of the particle furnace main body, and the first partition card and the second partition card are respectively arranged on two opposite sides of the upper surface of the second accessory box in parallel in the length direction; the first fixing card and the second fixing card are respectively arranged on two opposite sides of the width direction of the upper surface of the first separating card and the second separating card; and a third separation card is arranged between the first fixing card and the second fixing card.

Preferably, a fourth partition card for partitioning the reinforcing card is arranged at the bottom of the bin accommodating space.

Preferably, the four side walls of the bottom support are provided with buckling holes A, the lower parts of the four side walls of the half-box are provided with buckling holes B corresponding to the buckling holes A, and square box buckles are arranged on the buckling holes B.

Preferably, the base support card comprises a first bottom plate, one side of the first bottom plate in the length direction is provided with a hollow buffer part, and two opposite side surfaces of the other side of the first bottom plate in the length direction are respectively provided with a first limit buffer part and a second limit buffer part; a hollow cushion pad lifting part is formed between the first limiting buffer part and the second limiting buffer part of the first bottom plate; a first limiting baffle is formed between the first limiting buffer part and the hollow buffer part on the first bottom plate; a second limiting baffle is formed between the second limiting buffer part and the hollow buffer part; the hollow buffer part, the first limiting baffle plate, the first limiting buffer part, the hollow buffer cushion starting part, the second limiting buffer part and the second limiting baffle plate are surrounded to form a limiting storage space corresponding to the shape of the bottom of the main body of the particle furnace.

Preferably, the reinforcing card comprises a U-shaped supporting part, a first supporting part and a second supporting part, clamping grooves are cut on two opposite sides of the bottom of the U-shaped supporting part in the length direction, and clamping holes matched with the clamping grooves are formed on the upper surfaces of the first supporting part and the second supporting part; the first supporting part and the second supporting part are respectively clamped at the bottom of the U-shaped supporting part in parallel; the inner cavity of the U-shaped supporting part forms the bin accommodating space under the partition of the first supporting part and the second supporting part.

Preferably, the third partition card comprises a second bottom plate, and the upper surface of the second bottom plate is folded to form a containing part with a triangular section; the storage part is provided with an outer turnover surface along the length direction; and a window is formed at a position of the containing part corresponding to the outer turnover surface.

Preferably, the first partition card and the second partition card are hollow partition cards with trapezoid cross sections; the length of the first partition card is greater than that of the second partition card.

Preferably, a relief groove corresponding to the side shape of the main body of the particle furnace is formed on one side of the first panel support clamp, which is close to the storage space of the main body of the particle furnace; and a yielding groove corresponding to the side surface shape of the main body of the grain furnace is formed on one side of the second panel support clamp, which is close to the storage space of the main body of the grain furnace.

Preferably, the two vertical sleeves are arranged as hollow pipe bodies with the cross section of an 8 shape.

The beneficial effects of the utility model are as follows: the grain furnace main body can be stably placed in the storage space without displacement, the four vertical corner protectors are respectively arranged at the four side corner positions of the inner cavity of the bottom support, the transverse first corner protector and the two transverse second corner protectors are in contact with the top and the side wall of the inner cavity of the semi-enclosed box, the four sides and the top of the structure are reinforced, deformation is avoided, the structure is stable, and the bearing capacity is strong; the second accessory box, the first partition card, the second partition card, the third partition card, the first fixing card and the second fixing card are sequentially arranged in the cavity of the main body of the particle furnace, so that the idle space inside the main body of the particle furnace in a packaging state is effectively utilized, the space utilization rate is improved, the second accessory box, the first partition card, the second partition card and the third partition card are effectively avoided under the cooperation of the first fixing card and the second fixing card, the shaking of the cavity of the main body of the particle furnace is generated, and the particle furnace is manufactured by corrugated paper, so that the particle furnace accords with the concept of environmental protection.

Drawings

Fig. 1 is an exploded view of the present utility model.

Fig. 2 is a perspective view of the present utility model after placement of the product.

Fig. 3 is a schematic structural view of an inner cavity of a main body of the particle furnace.

Fig. 4 is a schematic structural view of the base support card.

Fig. 5 is a schematic structural view of the reinforcement card.

Fig. 6 is a schematic structural view of a third separator.

The reference numerals are: the base support 26, the semi-box 10, the base support card 25, the support card 23, the first accessory box 22, the second accessory box 20, the first spacing card 19, the second spacing card 18, the third spacing card 17, the reinforcing card 15, the first fixing card 16, the second fixing card 32, the first panel support card 14, the second panel support card 33, the top spacing card 13, the vertical corner protector 24, the vertical pipe sleeve 27, the horizontal first corner protector 12, the two horizontal second corner protectors 11, the fourth spacing card 21, the particle furnace main body 28, the door panel 29, the box 30, the buckling hole B31, the limiting and accommodating space 34, the first limiting and buffering part 35, the second limiting and buffering part 37, the hollow cushion lifting part 36, the second limiting and buffering part 38, the hollow buffering part 39, the first limiting and buffering part 40, the first bottom plate 41, the U-shaped supporting part 42, the first supporting part 43, the second supporting part 44, the clamping groove 45, the buckling hole 46, the box accommodating space 47, the outer surface 48, the accommodating part 49, the window 50, the second bottom plate 51 and the buckling hole a52.

Detailed Description

The utility model will be further described in detail with reference to the following detailed description and the accompanying drawings, in order to further understand the features and technical means of the utility model and the specific objects and functions achieved.

In the present utility model, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and include, for example, either permanently connected, removably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

Referring to fig. 1-6, the present utility model provides a buffering structure for effectively protecting a large outdoor granule furnace, which comprises a base 26, a semi-box 10, a base support card 25, a support card 23, a first accessory box 22, a second accessory box 20, a first partition card 19, a second partition card 18, a third partition card 17, a reinforcing card 15, a first fixing card 16, a second fixing card 32, a first panel support card 14, a second panel support card 33, a top partition card 13, four vertical corner protectors 24, two vertical pipe sleeves 27, two horizontal first corner protectors 12, and two horizontal second corner protectors 11, all of which are made of corrugated paper;

the half-box 10 is covered and arranged above the bottom support 26 to form a storage space;

the base support card 25 is centrally arranged at the bottom of the inner cavity of the bottom bracket 26, and the support card 23 is arranged at the bottom of the inner cavity of the bottom bracket 26 and is positioned at one side of the base support card 25; the first accessory box 22 is arranged on one side above the shoe 26; the first panel support card 14 and the second panel support card 33 are respectively arranged on two opposite sides above the bottom bracket 26; the base support card 25, the first accessory box 22, the first panel support card 14, the second panel support card 33 and the support card 23 are surrounded to form a main body storage space of the grain furnace; the pellet furnace body 28 is correspondingly placed in the pellet furnace body accommodation space. A thermal insulation mesh may be positioned within the first cartridge 22.

The reinforcing card 15 is disposed above the supporting card 23; the reinforcing card 15 is provided with a bin accommodating space. The reinforcing card 15 comprises a U-shaped supporting part 42, a first supporting part 43 and a second supporting part 44, wherein clamping grooves 45 are cut on two opposite sides of the bottom of the U-shaped supporting part 42 in the length direction, and clamping holes 46 matched with the clamping grooves 45 are formed on the upper surfaces of the first supporting part 43 and the second supporting part 44; the first supporting part 43 and the second supporting part 44 are respectively clamped at the bottom of the U-shaped supporting part 42 in parallel; the inner cavity of the U-shaped support 42 forms a bin receiving space 47 under the separation of the first support 43 and the second support 44. The bin 30 is correspondingly accommodated in the bin accommodating space 47.

The top partition 13 is arranged above the storage space of the main body of the grain furnace; a door plate accommodating space is formed between the top partition 13 and the accommodating space of the main body of the grain furnace; the door panel 29 is correspondingly accommodated in the door panel accommodating space.

The four vertical corner protectors 24 are respectively arranged at four side corner positions of the inner cavity of the bottom bracket 26; the top of the four vertical corner protectors 24 are in contact with the lower surface of the isolation card 13;

the two vertical pipe sleeves 27 are respectively arranged on two opposite sides of the inner cavity of the bottom bracket 26 in the middle in the length direction; the two vertical sleeves 27 are provided as hollow tubes with a cross section of "8" shape.

The two transverse first corner protectors 12 are correspondingly arranged on two opposite sides of the top isolation card 13 in the width direction, and the two transverse second corner protectors 11 are correspondingly arranged on two opposite sides of the top isolation card 13 in the length direction; when the half-box 10 is covered and arranged above the bottom support 26, the two transverse first corner protectors 12 and the two transverse second corner protectors 11 are in contact with the top and the side wall of the inner cavity of the half-box 10;

after the particle furnace main body 28 is placed in the particle furnace main body accommodating space, a second accessory box 20 is arranged at the bottom of the inner cavity of the particle furnace main body 28, and a first separating card 19 and a second separating card 18 are respectively arranged on two opposite sides of the upper surface of the second accessory box 20 in the length direction in parallel; the first fixing card 16 and the second fixing card 32 are respectively provided on opposite sides of the upper surface of the first barrier 19 and the second barrier 18 in the width direction; a third spacer 17 is provided between the first 16 and second 32 fixing cards. In actual operation, the oil receiving disc can be correspondingly placed on the upper surfaces of the first baffle 19 and the second baffle 18, and the oil receiving disc is pressed by the third baffle 17.

A fourth partition card 21 for partitioning the reinforcing card 15 is provided at the bottom of the bin accommodating space.

The four side walls of the bottom support 26 are provided with buckling holes A52, the lower parts of the four side walls of the half-box 10 are provided with buckling holes B31 corresponding to the buckling holes A52, and the buckling holes B31 are provided with square box buckles. When in a sealing state, the half-box 10 is sleeved outside the bottom support 26, and the buckling holes B31 and the buckling holes A52 are buckled through square box buckles, so that the half-box 10 is prevented from being separated from the bottom support 26.

The base support card 25 comprises a first bottom plate 41, wherein one side of the first bottom plate 41 in the length direction is provided with a hollow buffer part 39, and two opposite side surfaces of the other side of the first bottom plate 41 in the length direction are respectively provided with a first limit buffer part 35 and a second limit buffer part 37; the first bottom plate 41 is positioned between the first limit buffer part 35 and the second limit buffer part 37 to form a hollow buffer pad rising part 36; a first limiting baffle 40 is formed between the first limiting buffer part 35 and the hollow buffer part 39 of the first bottom plate 41; a second limit baffle 38 is formed between the second limit buffer part 37 and the hollow buffer part 39; the hollow buffer part 39, the first limit baffle 40, the first limit buffer part 35, the hollow buffer cushion lifting part 36, the second limit buffer part 37 and the second limit baffle 38 are surrounded to form a limit storage space 34 corresponding to the bottom shape of the particle furnace main body 28.

The third partition 17 includes a second bottom plate 51, and a receiving portion 49 having a triangular cross section is formed by folding an upper surface of the second bottom plate 51; the receiving portions 49 are each cut with an outer fold surface 48 along the length direction thereof; the receiving portion 49 has a window 50 formed at a position corresponding to the outer fold surface 48.

The first barrier 19 and the second barrier 18 are each provided as a hollow barrier having a trapezoidal cross section; the length of the first barrier 19 is greater than the length of the second barrier 18. The furnace feet are arranged in the first partition card 19 and the second partition card 18.

A relief groove corresponding to the side shape of the grain furnace main body 28 is formed on one side of the first panel support card 14, which is close to the grain furnace main body accommodating space; the second panel support card 33 has a recess corresponding to the shape of the side surface of the pellet furnace body 28 formed on the side thereof facing the pellet furnace body accommodation space.

According to the utility model, the main body of the particle furnace, the door plate and the material box can be stably placed in the storage space without displacement, the four vertical corner protectors are respectively arranged at the four side corner positions of the inner cavity of the bottom support, and the transverse first corner protector and the two transverse second corner protectors are respectively in contact with the top and the side wall of the inner cavity of the semi-solid box, so that the four sides and the top of the structure are reinforced, deformation is avoided, the structure is stable, and the bearing capacity is strong; the second accessory box, the first partition card, the second partition card, the third partition card, the first fixing card and the second fixing card are sequentially arranged in the cavity of the main body of the particle furnace, so that the idle space inside the main body of the particle furnace in a packaging state is effectively utilized, the space utilization rate is improved, the second accessory box, the first partition card, the second partition card and the third partition card are effectively avoided under the cooperation of the first fixing card and the second fixing card, the shaking of the cavity of the main body of the particle furnace is generated, and the particle furnace is manufactured by corrugated paper, so that the particle furnace accords with the concept of environmental protection.

The above examples illustrate only one embodiment of the utility model, which is described in more detail and is not to be construed as limiting the scope of the utility model. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the utility model, which are all within the scope of the utility model. Accordingly, the scope of protection of the present utility model is to be determined by the appended claims.

Claims (9)

1. The utility model provides an effectively protect buffer structure of large-scale outdoor granule stove which characterized in that: the novel corrugated board comprises a bottom bracket (26), a semi-solid box (10), a base support card (25), a support card (23), a first accessory box (22), a second accessory box (20), a first separation card (19), a second separation card (18), a third separation card (17), a reinforcing card (15), a first fixing card (16), a second fixing card (32), a first panel support card (14), a second panel support card (33), a top separation card (13), four vertical corner protectors (24), two vertical pipe sleeves (27), two transverse first corner protectors (12) and two transverse second corner protectors (11);

the semi-solid box (10) is arranged above the bottom support (26) in a covering way to form a storage space;

the base support card (25) is arranged at the bottom of the inner cavity of the bottom bracket (26) in the middle, and the support card (23) is arranged at the bottom of the inner cavity of the bottom bracket (26) and is positioned at one side of the base support card (25); the first accessory box (22) is arranged on one side above the bottom bracket (26); the first panel supporting card (14) and the second panel supporting card (33) are respectively arranged on two opposite sides above the bottom bracket (26); the base support card (25), the first accessory box (22), the first panel support card (14), the second panel support card (33) and the support card (23) are surrounded to form a main body storage space of the particle furnace;

the reinforcing card (15) is arranged above the supporting card (23); a feed box accommodating space is formed in the reinforcing card (15);

the top partition card (13) is arranged above the storage space of the main body of the grain furnace; a door plate accommodating space is formed between the top partition card (13) and the particle furnace main body accommodating space;

the four vertical corner protectors (24) are respectively arranged at four side corner positions of the inner cavity of the bottom bracket (26); the top of the four vertical corner protectors (24) is in contact with the lower surface of the top partition card (13);

the two vertical pipe sleeves (27) are respectively arranged at two opposite sides of the inner cavity of the bottom support (26) in the length direction in the middle;

the two transverse first corner protectors (12) are correspondingly arranged on two opposite sides of the width direction of the top partition card (13), and the two transverse second corner protectors (11) are correspondingly arranged on two opposite sides of the length direction of the top partition card (13); when the semi-enclosed box (10) is covered and arranged above the bottom support (26), the two transverse first corner protectors (12) and the two transverse second corner protectors (11) are in contact with the top and the side wall of the inner cavity of the semi-enclosed box (10);

after the particle furnace main body (28) is placed in the particle furnace main body accommodating space, a second accessory box (20) is arranged at the bottom of an inner cavity of the particle furnace main body (28), and the first partition card (19) and the second partition card (18) are respectively arranged on two opposite sides of the upper surface of the second accessory box (20) in the length direction in parallel; the first fixing card (16) and the second fixing card (32) are respectively arranged on two opposite sides of the width direction of the upper surface of the first separating card (19) and the second separating card (18); a third separating card (17) is arranged between the first fixing card (16) and the second fixing card (32).

2. The buffer structure for effectively protecting a large-sized outdoor pellet furnace according to claim 1, wherein: a fourth separating card (21) for separating the reinforcing card (15) is arranged at the bottom of the storage space of the material box.

3. The buffer structure for effectively protecting a large-sized outdoor pellet furnace according to claim 1, wherein: the four side walls of the bottom support (26) are provided with buckling holes A (52), the lower parts of the four side walls of the half-side box (10) are provided with buckling holes B (31) corresponding to the buckling holes A (52), and square box buckles are arranged on the buckling holes B (31).

4. The buffer structure for effectively protecting a large-sized outdoor pellet furnace according to claim 1, wherein: the base support card (25) comprises a first bottom plate (41), one side of the first bottom plate (41) in the length direction is provided with a hollow buffer part (39), and two opposite side surfaces of the other side of the first bottom plate (41) in the length direction are respectively provided with a first limit buffer part (35) and a second limit buffer part (37); a hollow cushion rising part (36) is formed between the first limit buffer part (35) and the second limit buffer part (37) by the first bottom plate (41); a first limiting baffle (40) is formed between the first limiting buffer part (35) and the hollow buffer part (39) by the first bottom plate (41); a second limiting baffle (38) is formed between the second limiting buffer part (37) and the hollow buffer part (39); the hollow buffer part (39), the first limiting baffle plate (40), the first limiting buffer part (35), the hollow buffer cushion lifting part (36), the second limiting buffer part (37) and the second limiting baffle plate (38) are surrounded to form a limiting storage space (34) corresponding to the bottom shape of the particle furnace main body (28).

5. The buffer structure for effectively protecting a large-sized outdoor pellet furnace according to claim 1, wherein: the reinforcing card (15) comprises a U-shaped supporting part (42), a first supporting part (43) and a second supporting part (44), clamping grooves (45) are cut on two opposite sides of the bottom of the U-shaped supporting part (42) in the length direction, and clamping holes (46) matched with the clamping grooves (45) are formed in the upper surfaces of the first supporting part (43) and the second supporting part (44); the first supporting part (43) and the second supporting part (44) are respectively connected with the bottom of the U-shaped supporting part (42) in a parallel and clamping mode; the inner cavity of the U-shaped supporting part (42) forms the bin accommodating space (47) under the partition of the first supporting part (43) and the second supporting part (44).

6. The buffer structure for effectively protecting a large-sized outdoor pellet furnace according to claim 1, wherein: the third separation card (17) comprises a second bottom plate (51), and a containing part (49) with a triangular section is formed on the upper surface of the second bottom plate (51); the containing part (49) is provided with an outer turnover surface (48) along the length direction; a window (50) is formed at a position of the receiving portion (49) corresponding to the outer fold surface (48).

7. The buffer structure for effectively protecting a large-sized outdoor pellet furnace according to claim 1, wherein: the first isolation card (19) and the second isolation card (18) are hollow isolation cards with trapezoid cross sections; the length of the first barrier (19) is greater than the length of the second barrier (18).

8. The buffer structure for effectively protecting a large-sized outdoor pellet furnace according to claim 1, wherein: a relief groove corresponding to the side shape of the grain furnace main body (28) is formed on one side of the first panel support card (14) close to the grain furnace main body accommodating space; and a relief groove corresponding to the side surface shape of the particle furnace main body (28) is formed on one side of the second panel support card (33) close to the particle furnace main body accommodating space.

9. The buffer structure for effectively protecting a large-sized outdoor pellet furnace according to claim 1, wherein: the two vertical pipe sleeves (27) are hollow pipe bodies with the cross sections of 8.