CN116044085A - Combined type ice rink movement boundary wall - Google Patents

Abstract

The invention discloses a combined type ice rink movement boundary wall, which comprises a boundary wall main body, a frame body and fixing pieces, wherein the fixing pieces are arranged on the periphery of the frame body; and the inserted link assembly comprises mounting pieces arranged on two sides of the frame body, and a limiting piece and a locking piece arranged inside the mounting pieces. According to the invention, the integrated die design is carried out on the boundary wall and the injection molding production is carried out on the boundary wall on the premise of meeting the use requirement of an event by arranging the boundary wall main body and the inserted link assembly, so that the processing time and the production cost of the boundary wall are greatly reduced, the boundary wall is impacted arbitrarily after being completely installed, the sufficient strength is still maintained, and the ice hockey ball is ensured not to break through the boundary wall in the training and competition process of the ice hockey ball.

Description

Combined type ice rink movement boundary wall

Technical Field

The invention relates to the technical field of ice rink boundary walls, in particular to a combined type ice rink movement boundary wall.

Background

In the ice hockey and roller hockey projects, the boundary wall is used as an important field facility to provide protection for athletes, and the prior products are fixed frames, and the boundary wall is not detachable or the metal frames are combined with PE plate structures. In the prior art, the frame is mainly required to be processed and spliced, holes are formed, and after the PE plate is cut and drilled, screw connection or rivet riveting is used. The production and processing technology is complicated, the time cost and the labor cost are high.

The integrated die design is carried out on the inner plate, the frame and the inserted link of the boundary wall under the premise of meeting the use requirement of an event, and injection molding production is carried out, so that the processing time and the production cost of the boundary wall are greatly reduced, the boundary wall is impacted arbitrarily after being completely installed, the sufficient strength is still maintained (the boundary wall is not deformed and glass is not dropped), and the fact that the ice hockey is not broken through the boundary wall is ensured in the training and competition process of the ice hockey is achieved.

Disclosure of Invention

This section is intended to outline some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. Some simplifications or omissions may be made in this section as well as in the description summary and in the title of the application, to avoid obscuring the purpose of this section, the description summary and the title of the invention, which should not be used to limit the scope of the invention.

The present invention has been made in view of the above and/or existing problems in ice rink motion boundary walls.

Therefore, the invention aims to solve the problems that the existing ice rink boundary wall is mostly undetachable, the production and the processing are complicated, and the installation cost is high.

In order to solve the technical problems, the invention provides the following technical scheme: a combined type ice rink movement boundary wall comprises a boundary wall main body, a frame body and fixing pieces, wherein the frame body comprises a frame body and the fixing pieces are arranged on the periphery of the frame body; and the inserted link assembly comprises mounting pieces arranged on two sides of the frame body, and a limiting piece and a locking piece arranged inside the mounting pieces.

As a preferable scheme of the combined type ice rink movement boundary wall, the invention comprises the following steps: reinforcing ribs are arranged on two sides and one surface of the frame body, special-shaped notches are further formed in the reinforcing ribs on two sides of the frame body, and square notches are further formed in one side of each special-shaped notch.

As a preferable scheme of the combined type ice rink movement boundary wall, the invention comprises the following steps: one side of the frame body is also provided with an inserting block, the other side of the frame body is also provided with a slot, and the inserting block and the slot are integrally connected with the frame body.

As a preferable scheme of the combined type ice rink movement boundary wall, the invention comprises the following steps: the fixing piece comprises a handrail plate arranged at the top of the frame body, and the handrail plate is fixedly connected with the frame body; the fixing piece further comprises fixing rods arranged on two sides and the bottom of the frame body, the fixing rods are in sliding fit with the frame body, threads are arranged at the end parts of the fixing rods, and pressing plates are sleeved outside the fixing rods.

As a preferable scheme of the combined type ice rink movement boundary wall, the invention comprises the following steps: the mounting piece including set up in the convex inserted bar in the dysmorphism notch, convex inserted bar includes arc and straight board, the arc with dysmorphism notch cooperation, straight board with square notch cooperation, the inboard of straight board still is provided with the spacing groove.

As a preferable scheme of the combined type ice rink movement boundary wall, the invention comprises the following steps: the mounting piece further comprises a plug rod arranged in the middle of the straight plate, the plug rod comprises a vertical plate and a horizontal plate, and the vertical plate is in sliding fit with the straight plate.

As a preferable scheme of the combined type ice rink movement boundary wall, the invention comprises the following steps: the limiting piece comprises a first spring arranged in the vertical plate and a wedge block arranged at the end part of the first spring, and the wedge block is matched with the limiting groove;

the limiting piece further comprises a blocking hook arranged at the end part of the straight plate, and the blocking hook is fixedly connected with the straight plate.

As a preferable scheme of the combined type ice rink movement boundary wall, the invention comprises the following steps: the anti-loose piece comprises a retaining plate arranged inside the vertical plate, a supporting rod is further arranged on the inner side of the retaining plate, and a first wedge-shaped surface is further arranged at the end portion of the supporting rod.

As a preferable scheme of the combined type ice rink movement boundary wall, the invention comprises the following steps: the anti-loose piece further comprises a trigger rod arranged in the middle of the abutting plate, a second wedge-shaped surface is arranged at the end part of the trigger rod, the second wedge-shaped surface is matched with the first wedge-shaped surface, and a perforation is further arranged at the other end of the trigger rod.

As a preferable scheme of the combined type ice rink movement boundary wall, the invention comprises the following steps: the locking piece still including set up in locking lever in the perforation, locking lever one end with perforation sliding fit, the other end still is provided with the third wedge one side of locking lever still is provided with the toggle plate, toggle plate with locking lever fixed connection toggle plate one side still is provided with the second spring, the tip of second spring still is provided with the movable plate.

The invention has the beneficial effects that: according to the invention, the integrated die design is carried out on the boundary wall and the injection molding production is carried out on the boundary wall on the premise of meeting the use requirement of an event by arranging the boundary wall main body and the inserted link assembly, so that the processing time and the production cost of the boundary wall are greatly reduced, the boundary wall is impacted arbitrarily after being completely installed, the sufficient strength is still maintained (the boundary wall is not deformed and glass is not dropped), and the ice hockey is ensured not to break through the boundary wall in the process of training and competition of ice hockey.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art. Wherein:

FIG. 1 is an overall block diagram of a modular ice rink motion boundary wall.

Fig. 2 is an exploded view of the construction of the modular ice rink sports interface wall.

FIG. 3 is a block diagram of a modular ice rink motion boundary wall.

Fig. 4 is an enlarged view at a in fig. 3.

Fig. 5 is another view of the frame of the combined ice rink motion boundary wall.

Fig. 6 is an enlarged view at B in fig. 5.

Fig. 7 is a schematic view of a plug assembly of a combined ice rink motion boundary wall.

Fig. 8 is an enlarged view at C in fig. 7.

FIG. 9 is a cross-sectional view of a plunger assembly of a modular ice rink motion threshold wall.

Fig. 10 is an enlarged view of D in fig. 9.

FIG. 11 is a schematic view of the cooperation of the trigger lever and the abutment lever of the combined ice rink motion boundary wall.

Detailed Description

In order that the above-recited objects, features and advantages of the present invention will become more readily apparent, a more particular description of the invention will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present invention is not limited to the specific embodiments disclosed below.

Further, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic can be included in at least one implementation of the invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1 and 9, a first embodiment of the present invention provides a combined type ice rink sports wall, which includes a wall body 100 and a rod assembly 200, wherein a main fence of the periphery of the rink is formed by the wall body 100, and the tempered glass 300 is mounted by the rod assembly 200 and is firmly mounted.

Specifically, the boundary wall main body 100 includes a frame 101, and fixing members 102 disposed around the frame 101. The frame 101 has a square structure of opaque HDPE, the inside of the frame 101 is a front surface, the front surface is a flat plate without chamfer, the periphery and the corners are right angles, and the outside of the frame 101 is a back surface. The fixing member 102 is used to connect and fix the plurality of frames 101, and may also be used for various mounting methods, such as mounting using a bracket or an ice bank.

Preferably, the plunger assembly 200 includes mounting members 201 disposed on both sides of the frame 101, and a stopper 202 and a locking member 203 disposed inside the mounting members 201. The mounting piece 201 is mainly used for mounting the toughened glass 300 on the top of the frame 101, and the limiting piece 202 and the anti-loose piece 203 ensure that the toughened glass 300 is mounted stably and firmly and cannot fall off due to impact.

In use, the frames 101 and the ground are connected and fixed by the fixing pieces 102. After the frame body 101 is installed, the installation piece 201 is installed on the side edge of the frame body 101, then the toughened glass 300 is placed between the installation pieces 201, and the limiting piece 202 and the anti-loose piece 203 inside the installation piece 201 can effectively prevent the installation piece 201 from being separated by impact, so that the installation stability of the toughened glass 300 is ensured.

Example 2

Referring to fig. 2 to 11, a second embodiment of the present invention is based on the previous embodiment.

Specifically, the two sides and one surface of the frame body 101 are provided with reinforcing ribs 101a, the reinforcing ribs 101a on the two sides of the frame body 101 are also provided with special-shaped notches 101a-1, and one side of the special-shaped notches 101a-1 is also provided with square notches 101a-2. The frame body 101 is of a square structure of opaque HDPE, the inner side of the frame body 101 is a front surface, the front surface is of a flat plate chamfering-free structure, the periphery and edges are right angles, seamless connection between the boundary wall and the boundary wall is ensured, the outer side of the frame body 101 is a back surface, reinforcing ribs 101a of hollow structures are arranged on the back surface and two sides, and the reinforcing ribs 101a are used for increasing the strength of the boundary wall and reducing the weight of the boundary wall.

Preferably, an insert 101b is further disposed on one side of the frame 101, a slot 101c is further disposed on the other side of the frame 101, and the insert 101b and the slot 101c are integrally connected with the frame 101. The insert 101b and the slot 101c are sized to fit each other, and when the two housings 101 are connected, the insert 101b of one housing 101 is inserted into the slot 101c of the other housing 101.

Preferably, the fixing member 102 includes a handrail plate 102a disposed on the top of the frame 101, and the handrail plate 102a is fixedly connected to the frame 101. The armrest plate 102a is fixedly connected to the top of the frame 101 by a plurality of bolts, and a special-shaped notch 101a-1 is also provided at the end position of the armrest plate 102 a.

The fixing member 102 further comprises fixing rods 102b arranged at two sides and at the bottom of the frame 101, the fixing rods 102b are in sliding fit with the frame 101, threads are arranged at the end parts of the fixing rods 102b, and a pressing plate 102c is sleeved outside the fixing rods 102 b. After the two frames 101 are initially connected through the inserting block 101b and the inserting groove 101c, the fixing rod 102b penetrates through the two frames 101, and then the pressing plate 102c is pressed on the side edge of the frame 101 through the nut, so that the fixing of the frame 101 is completed.

Preferably, the mounting piece 201 comprises a circular arc-shaped inserting rod 201a arranged in the special-shaped notch 101a-1, the circular arc-shaped inserting rod 201a comprises a circular arc-shaped plate 201a-1 and a straight plate 201a-2, the circular arc-shaped plate 201a-1 is matched with the special-shaped notch 101a-1, the straight plate 201a-2 is matched with the square notch 101a-2, and a limiting groove 201a-3 is further formed in the inner side of the straight plate 201 a-2. After the two frames 101 are connected, the arc-shaped inserting rod 201a can be directly inserted into the special-shaped notch 101a-1, and the installation of the arc-shaped inserting rod 201a is completed.

Preferably, the mounting member 201 further includes a T-shaped insert 201b disposed intermediate the straight plate 201a-2, the T-shaped insert 201b including a vertical plate 201b-1 and a horizontal plate 201b-2, the vertical plate 201b-1 slidably engaging the straight plate 201 a-2. After the circular arc shaped insert rod 201a is mounted, the vertical plate 201b-1 of the T-shaped insert rod 201b is directly pressed between the two straight plates 201a-2 of the circular arc shaped insert rod 201a when the T-shaped insert rod 201b is mounted.

Preferably, the stopper 202 includes a first spring 202a disposed inside the vertical plate 201b-1, and a wedge block 202b disposed at an end of the first spring 202a, the wedge block 202b being engaged with the stopper groove 201a-3. The first spring 202a is a compression spring, and when the vertical plate 201b-1 is pressed between the two straight plates 201a-2, the wedge block 202b after being in place is clamped into the limit groove 201a-3 on the inner side of the straight plate 201a-2 under the action of the first spring 202a, so that the T-shaped insert rod 201b is prevented from withdrawing from the circular arc-shaped insert rod 201a.

The limiting member 202 further comprises a blocking hook 202a arranged at the end part of the straight plate 201a-2, and the blocking hook 202a is fixedly connected with the straight plate 201 a-2. While the wedge block 202b is being caught in the limit groove 201a-3, the catch 202a is simultaneously inserted into the horizontal plate 201b-2 of the T-shaped plunger 201b and the lock lever 203c is released.

Preferably, the anti-loose member 203 comprises a retaining plate 203a disposed inside the vertical plate 201b-1, a retaining rod 203b is disposed on the inner side of the retaining plate 203a, a first wedge surface 203b-1 is disposed on the end of the retaining rod 203b, and when the first wedge surface 203b-1 is pressed, the retaining rod 203b pushes the retaining plate 203a to move to two sides. Thereby the inner side surface of the straight plate 201a-2 is propped against and the T-shaped inserting rod 201b is prevented from being separated.

Further, the anti-loose member 203 further includes a trigger rod 203f disposed in the middle of the abutment plate 203a, a second wedge surface 203f-1 is disposed at an end of the trigger rod 203f, the second wedge surface 203f-1 is matched with the first wedge surface 203b-1, and a perforation 203f-2 is disposed at the other end of the trigger rod 203 f. When the trigger lever 203f moves in the direction of the circular arc shaped insert rod 201a, the second wedge surface 203f-1 at the end thereof presses the first wedge surface 203b-1 of the abutment lever 203b, thereby moving the abutment plate 203a to both sides.

Further, the locking piece 203 further comprises a locking rod 203c disposed in the through hole 203f-2, one end of the locking rod 203c is in sliding fit with the through hole 203f-2, a third wedge-shaped surface 203c-1 is disposed at the other end, a toggle plate 203c-2 is disposed at one side of the locking rod 203c, the toggle plate 203c-2 is fixedly connected with the locking rod 203c, a second spring 203d is disposed at one side of the toggle plate 203c-2, and a moving plate 203e is disposed at the end of the second spring 203 d. When the catch 202a is inserted, its end first presses against the third wedge surface 203c-1 of the end of the lock lever 203c, so that the lock lever 203c moves until the catch 202a passes over the lock lever 203c, preventing the catch 202a from being disengaged. When the T-shaped insert rod 201b has a tendency to disengage from the circular arc-shaped insert rod 201a, the lock rod 203c will drive the trigger rod 203f to move in the direction of the circular arc-shaped insert rod 201a, and the second wedge surface 203f-1 at the end portion will press the first wedge surface 203b-1 of the abutment rod 203b, so that the abutment plate 203a moves to both sides, thereby pushing the inner side surface of the straight plate 201a-2 and preventing the T-shaped insert rod 201b from disengaging.

In use, the initial installation of the frame 101 is first completed through the insert 101b and the slot 101c on the frame 101, and then the frame 101 is further fixed through the fixing rod 102b, the pressing plate 102c and the nut. Then the arc-shaped inserting rod 201a is inserted into the special-shaped notch 101a-1 on the side edge of the frame body 101, then the vertical plate 201b-1 of the T-shaped inserting rod 201b is inserted into the straight plate 201a-2 of the arc-shaped inserting rod 201a until the wedge-shaped block 202b is clamped into the limit groove 201a-3, and finally the toughened glass 300 is inserted into the gap between the arc-shaped inserting rod 201a and the T-shaped inserting rod 201b, so that the installation is completed. If the wall is impacted, when the T-shaped insert rod 201b has a tendency of separating from the circular arc insert rod 201a, the catch 202a at the end of the circular arc insert rod 201a will hook the lock rod 203c to move in the direction of the circular arc insert rod 201a, so as to drive the trigger rod 203f to move in the direction of the circular arc insert rod 201a, and the second wedge surface 203f-1 at the end of the trigger rod 203f will press the first wedge surface 203b-1 of the abutment rod 203b, so that the abutment plate 203a will move to both sides, so that the inner side surface of the straight plate 201a-2 will be propped against, and separation of the T-shaped insert rod 201b is prevented. If it is required to disassemble, only the toggle plate 203c-2 needs to be mutually toggled, so that the lock rod 203c is separated from the catch 202a. In addition, when the vertical plate 201b-1 is inserted between the straight plates 201a-2, a certain distance is provided between the end of the gap formed between the vertical plate 201b-1 and the straight plates 201a-2, so that the wedge block 202b can be pulled out upwards after the wedge block 202b leaves the limit groove 201a-3 by continuing to press the vertical plate 201b-1 inwards.

It should be noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that the technical solution of the present invention may be modified or substituted without departing from the spirit and scope of the technical solution of the present invention, which is intended to be covered in the scope of the claims of the present invention.

Claims (10)

1. A combined type ice rink movement boundary wall is characterized in that: comprising the steps of (a) a step of,

a boundary wall body (100) comprising a frame (101), and fixing members (102) provided around the frame (101); the method comprises the steps of,

the inserted link assembly (200) comprises mounting pieces (201) arranged on two sides of the frame body (101), and limiting pieces (202) and anti-loose pieces (203) arranged inside the mounting pieces (201).

2. The modular ice rink motion boundary wall of claim 1, wherein: reinforcing ribs (101 a) are arranged on two sides and one surface of the frame body (101), special-shaped notches (101 a-1) are further arranged on the reinforcing ribs (101 a) on two sides of the frame body (101), and square notches (101 a-2) are further arranged on one side of the special-shaped notches (101 a-1).

3. The modular ice rink motion boundary wall of claim 2, wherein: one side of the frame body (101) is further provided with an inserting block (101 b), the other side of the frame body (101) is further provided with a slot (101 c), and the inserting block (101 b) and the slot (101 c) are integrally connected with the frame body (101).

4. A modular ice rink motion boundary wall as claimed in claim 2 or claim 3 wherein: the fixing piece (102) comprises a handrail plate (102 a) arranged at the top of the frame body (101), and the handrail plate (102 a) is fixedly connected with the frame body (101);

the fixing piece (102) further comprises fixing rods (102 b) arranged on two sides and the bottom of the frame body (101), the fixing rods (102 b) are in sliding fit with the frame body (101), threads are arranged at the end parts of the fixing rods (102 b), and pressing plates (102 c) are sleeved outside the fixing rods (102 b).

5. The modular ice rink motion boundary wall of claim 4, wherein: the mounting piece (201) comprises a circular arc-shaped inserting rod (201 a) arranged in the special-shaped notch (101 a-1), the circular arc-shaped inserting rod (201 a) comprises an arc-shaped plate (201 a-1) and a straight plate (201 a-2), the arc-shaped plate (201 a-1) is matched with the special-shaped notch (101 a-1), the straight plate (201 a-2) is matched with the square notch (101 a-2), and a limiting groove (201 a-3) is formed in the inner side of the straight plate (201 a-2).

6. The modular ice rink motion boundary wall of claim 5, wherein: the mounting piece (201) further comprises a T-shaped inserting rod (201 b) arranged in the middle of the straight plate (201 a-2), the T-shaped inserting rod (201 b) comprises a vertical plate (201 b-1) and a horizontal plate (201 b-2), and the vertical plate (201 b-1) is in sliding fit with the straight plate (201 a-2).

7. The modular ice rink motion boundary wall of claim 6, wherein: the limiting piece (202) comprises a first spring (202 a) arranged inside the vertical plate (201 b-1) and a wedge-shaped block (202 b) arranged at the end part of the first spring (202 a), and the wedge-shaped block (202 b) is matched with the limiting groove (201 a-3);

the limiting piece (202) further comprises a blocking hook (202 a) arranged at the end part of the straight plate (201 a-2), and the blocking hook (202 a) is fixedly connected with the straight plate (201 a-2).

8. The modular ice rink motion boundary wall of claim 6 or 7, wherein: the anti-loose piece (203) comprises a retaining plate (203 a) arranged inside the vertical plate (201 b-1), a supporting rod (203 b) is further arranged on the inner side of the retaining plate (203 a), and a first wedge-shaped surface (203 b-1) is further arranged at the end of the supporting rod (203 b).

9. The modular ice rink motion boundary wall of claim 8, wherein: the anti-loose piece (203) further comprises a trigger rod (203 f) arranged in the middle of the retaining plate (203 a), a second wedge-shaped surface (203 f-1) is arranged at the end part of the trigger rod (203 f), the second wedge-shaped surface (203 f-1) is matched with the first wedge-shaped surface (203 b-1), and a perforation (203 f-2) is further arranged at the other end of the trigger rod (203 f).

10. The modular ice rink motion boundary wall of claim 9, wherein: the locking piece (203) further comprises a locking rod (203 c) arranged in the through hole (203 f-2), one end of the locking rod (203 c) is in sliding fit with the through hole (203 f-2), a third wedge-shaped surface (203 c-1) is further arranged at the other end of the locking rod, a stirring plate (203 c-2) is further arranged on one side of the locking rod (203 c), the stirring plate (203 c-2) is fixedly connected with the locking rod (203 c), a second spring (203 d) is further arranged on one side of the stirring plate (203 c-2), and a moving plate (203 e) is further arranged at the end part of the second spring (203 d).

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