Search

CN-121803126-B - Storing cabinet

CN121803126BCN 121803126 BCN121803126 BCN 121803126BCN-121803126-B

Abstract

The application relates to the technical field of locker door opening, in particular to a locker. According to the locker disclosed by the application, the pedal opening mechanism is arranged on one side, away from the hinge joint, of the locker body, the pedal piece of the pedal opening mechanism is rotationally connected with the base, and when the pedal part of the pedal piece bears pedal force, the connecting shaft drives the door opening piece to rotate forwards relative to the base, so that the door opening piece pushes the door body open. The pedal part is also configured to rotate backwards relative to the base independently of the door opening part, and the pedal part is rotatably connected with the connecting shaft. The pedal part receives unexpected effort in a certain range, and pedal piece can independently rotate along the direction that deviates from the door of opening, perhaps simultaneously along the direction that deviates from the door and towards first side rotation, turns into the rotatory kinetic energy of pedal piece with the part of unexpected effort, reduces the possibility of hard collision between pedal piece and the user, reduces the impact force of directly transmitting the user foot, and then reduces the painful sense when the user bumps pedal piece, improves the security of pedal mechanism of opening the door.

Inventors

  • ZHAO XING
  • YANG CHUN
  • LIU TIEWEI
  • GUO LEI
  • ZHANG YONGTAO
  • LI LONGJUN
  • ZHU JINBAO
  • Pi Jinxiong

Assignees

  • 海信冰箱有限公司

Dates

Publication Date
20260508
Application Date
20260311

Claims (10)

  1. 1. A locker, comprising: The cabinet body is structured to form a storage compartment with a picking and placing opening at the front side; The door body is hinged with the cabinet body at one end in the width direction so as to open or close the storage compartment; The cabinet body is provided with two side faces which are opposite in the width direction, and the side face of the two side faces, which is away from the hinged side of the door body, is a first side face; the pedal door opening mechanism is positioned at one end of the door body, which is away from the hinge joint, and comprises: the base is connected with the cabinet body; the door opening piece is rotationally connected with the base, and part of the door opening piece is positioned between the front side surface of the cabinet body and the rear side surface of the door body; pedal piece is located the cabinet body is along one side of width direction, pedal piece includes: the connecting shaft is rotationally connected with the base; The pedal part is rotationally connected with the connecting shaft; The pedal part structure forms a first limiting surface, and the door opening piece structure forms a second limiting surface; the pedal piece is provided with a pedal position where the first limiting surface and the second limiting surface are abutted; The pedal part is configured to drive the door opening piece to rotate forwards relative to the base through the connecting shaft when the pedal part is subjected to pedal force at the pedal position, so that the door opening piece pushes up the door body; The second limiting surface is higher than the first limiting surface at one end which is close to the first side surface, so that the pedal part is configured to drive the connecting shaft to independently rotate backwards relative to the door opening piece and rotate towards the first side surface relative to the connecting shaft.
  2. 2. The locker of claim 1, wherein said second stop surface has first and second ends opposite in said width direction, said first end of said second stop surface being closer to said first side than said second end; The second end is inclined upward compared with the first end along the width direction and away from the first side surface.
  3. 3. The locker of claim 1, wherein the second limiting surface has third and fourth ends opposite in a depth direction of the locker body, the third end of the second limiting surface being located at a rear side of the fourth end; from back to front in the depth direction, the fourth end is inclined upward as compared to the third end.
  4. 4. The locker of any one of claims 1-3, wherein said foot operated door opening mechanism further comprises a hinge shaft; the door opening member includes: the rod body is positioned between the front side surface of the cabinet body and the rear side surface of the door body; the connecting seat is connected to the bottom end of the rod body part and is rotationally connected with the base through the hinge shaft; The first limiting part is connected to the end part of the connecting seat and positioned below the pedal piece, and the front end of the first limiting part is structured to form the second limiting surface; The hinge shaft is partially matched with the first limiting part and fixedly connected with the connecting shaft so that the pedal piece rotates relative to the base.
  5. 5. The locker of claim 4, wherein said hinge axis comprises: The connecting seat is rotationally connected with the base through the shaft body; The first connecting part is fixedly connected with the connecting shaft so as to enable the pedal piece to rotate relative to the base; the first connecting part is structured to form a third limiting surface, and the rear end of the first limiting part is structured to form a fourth limiting surface; The pedal part rotates backwards relative to the door opening part independently until the fourth limiting surface is abutted with the third limiting surface, so that the axis of rotation of the pedal part relative to the connecting shaft is perpendicular to a horizontal plane.
  6. 6. The locker of claim 5, wherein the pedal configuration forms a fifth limit surface and the first connector configuration forms a sixth limit surface; the pedal surface of the pedal part faces the first side surface and is spaced from the first side surface when the pedal part rotates towards the first side surface relative to the connecting shaft and the fifth limiting surface is abutted to the sixth limiting surface.
  7. 7. The locker of claim 6, wherein said foot rest is configured to form a seventh limit surface and said first connecting portion is configured to form an eighth limit surface, said eighth limit surface intersecting said sixth limit surface; when the pedal part rotates relative to the connecting shaft until the seventh limiting surface is abutted against the eighth limiting surface, the first limiting surface and the second limiting surface are opposite along the circumferential direction of the hinge shaft.
  8. 8. A locker according to any one of claims 1 to 3, characterised in that the door has a second side in the width direction; when the pedal piece drives the door opening piece to rotate forwards, the front end of the pedal piece does not protrude out of the front end of the second side face.
  9. 9. A locker according to any one of claims 1 to 3, wherein said foot operated door opening mechanism further comprises: the hinge shaft is fixedly connected with the connecting shaft so as to enable the pedal piece to rotate relative to the base; the door opening piece is rotationally connected with the base through the hinge shaft; the reset torsion spring is sleeved on the hinge shaft, and two torsion arms of the reset torsion spring are respectively connected with the base and the door opening piece; When the pedal part loses the stepping force, the reset torsion spring recovers the deformation so as to drive the pedal part to reset to the stepping position.
  10. 10. The cabinet of any one of claims 1-3, wherein the foot member is spaced from a bottom surface of a foot of the cabinet when the door is opened by the door opening member, or When the door opening piece pushes the door body open, the front end of the pedal piece is provided with a buffer piece, and the buffer piece is used for being in contact with the placing surface of the storage cabinet.

Description

Storing cabinet Technical Field The application relates to the technical field of locker door opening, in particular to a locker. Background Refrigerator, beverage cabinet, show case etc. with storage function, the door body is usually hinged with the box body so that the door body rotates relative to the box body to open or close the storage space. When a user holds an article with hands, the user has difficulty in manually opening the door in a traditional way, so that a pedal opening mode is generated. In the related art, a pedal portion for pedal-opening a door is generally protruded from an outer surface of a door body or a case body, so that the operation is facilitated. However, the pedal is easily touched by mistake, and the pedal is hard to touch due to the high rigidity of the pedal, which results in a strong pain and poor safety. Disclosure of Invention The application provides a locker for improving the safety of pedal opening. The embodiment of the application provides a storage cabinet, which comprises: The cabinet body is structured to form a storage compartment with a picking and placing opening at the front side; The door body is hinged with the cabinet body at one end in the width direction so as to open or close the storage compartment; The cabinet body is provided with two side faces which are opposite in the width direction, and the side face of the two side faces, which is away from the hinged side of the door body, is a first side face; the pedal door opening mechanism is positioned at one end of the door body, which is away from the hinge joint, and comprises: the base is connected with the cabinet body; the door opening piece is rotationally connected with the base, and part of the door opening piece is positioned between the front side surface of the cabinet body and the rear side surface of the door body; pedal piece is located the cabinet body is along one side of width direction, pedal piece includes: the connecting shaft is rotationally connected with the base; The pedal part is rotationally connected with the connecting shaft; The pedal part structure forms a first limiting surface, and the door opening piece structure forms a second limiting surface; the pedal piece is provided with a pedal position where the first limiting surface and the second limiting surface are abutted; The pedal part is configured to drive the door opening piece to rotate forwards relative to the base through the connecting shaft when the pedal part is subjected to pedal force at the pedal position, so that the door opening piece pushes up the door body; The second limiting surface is higher than the first limiting surface at one end which is close to the first side surface, so that the pedal part is configured to drive the connecting shaft to independently rotate backwards relative to the door opening piece and rotate towards the first side surface relative to the connecting shaft. According to the locker disclosed by the embodiment of the application, the pedal opening mechanism is arranged on one side, away from the hinge joint, of the locker body, and the pedal opening mechanism is utilized to realize pedal opening, so that both hands can be liberated, and the diversity of opening modes can be improved. For manual opening, the pedal type opening door realizes opening the door in a downward stepping mode, accords with the natural force-generating mode of a human body, and is more labor-saving in door opening experience. According to the locker disclosed by the embodiment of the application, the connecting shaft of the pedal piece is rotationally connected with the base, so that when the pedal part of the pedal piece bears pedal force, the connecting shaft drives the door opening piece to rotate forwards relative to the base, and the door opening piece is enabled to prop against the door opening body, so that the pedal opening function is realized. The footrest member is further configured to rotate rearward relative to the base independent of the door opening member. And the pedal part of the pedal piece is rotationally connected with the connecting shaft, and one end of the second limiting surface far away from the first side surface is higher than one end close to the first side surface relative to the horizontal plane, so that the pedal part is configured to rotate towards the first side surface around the connecting shaft. So, receive unexpected effort in certain limit at pedal portion, for example unexpected collision force, pedal piece can be independently along deviating from the direction rotation that opens the door, perhaps simultaneously along deviating from the direction that opens the door and towards first side rotation, turn into the rotatory kinetic energy of pedal piece with the part of unexpected effort, reduce the possibility of hard collision between pedal piece and the user, reduce the impact force of directly transmitting the user foot, and then the painful sense when reducing