CN220014834U - Anti-shaking door holder with spring supporting structure - Google Patents

Abstract

The utility model discloses an anti-shaking door holder with a spring supporting structure, which comprises a first fixing seat, a first mounting block, a second fixing seat and a second mounting block, wherein the first mounting block is fixed on the front side of the first fixing seat, the second fixing seat is fixed on the front side of the second mounting block, the second fixing seat is positioned on the right side of the first fixing seat, the two horizontal mounting heights are mutually parallel, a locking groove is formed in the left side of the second mounting block, and a buckle plate is connected in the locking groove. This prevent rocking knocker with spring supporting structure fixes a position the door body through the connection of hasp groove and buckle, and the buckle can keep under reset spring's effect under the default state and accomodate the state, avoids colluding the foreign object, and can make the buckle stretch into the hasp inslot voluntarily through the mutual appeal between the magnet when the buckle removes hasp groove department, need not manual control, and follow-up use is more convenient, has better stability simultaneously.

Description

Anti-shaking door holder with spring supporting structure

Technical Field

The utility model relates to the technical field of door buckles, in particular to an anti-shaking door buckle with a spring supporting structure.

Background

The door catch is a common door plate positioning mechanism, can be arranged on the surface of a door plate to position the door plate at a certain use position, such as the door catch disclosed by the application number CN201721889831.4, 2018, 9 and 4, the lock catch seat is a sheet-shaped structure with an outwards arched hollow groove in the middle, a lock catch groove is arranged on the groove body wall of the arched structure of the arched hollow groove, and the lock catch piece passes through the lock catch groove and is clamped in the arched hollow groove;

above-mentioned knocker and current partial knocker rely on the gravity of part self to connect the location when using, need manual with the relevant part of knocker remove the card go into, the connection of knocker also can not normally go on when the door body misalignment, and the knocker is because movable, receives wind-force or shakes the condition that appears rocking very easily, influences its whole stability in use and convenience.

Disclosure of Invention

The utility model aims to provide an anti-shaking door holder with a spring supporting structure, which solves the problems that the existing part of door holders provided by the background art are connected and positioned by means of the gravity of a part per se, related parts of the door holder need to be manually moved and clamped in, the door holder cannot be normally connected when a door body is not aligned, and the door holder is movable, so that shaking is easily caused under the influence of wind power or vibration.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a prevent rocking knocker with spring bearing structure, includes first fixing base, first installation piece, second fixing base and second installation piece, the front side at first fixing base is fixed to first installation piece, the front side at the second installation piece is fixed to the second fixing base, and the right side that the second fixing base is located first fixing base, and the two horizontal installation height is parallel and level each other, the hasp groove has been seted up in the left side of second installation piece, and the internal connection in hasp groove has the buckle to constitute left and right sliding structure between buckle and the hasp groove, the left end of buckle is located the inside of first installation piece and constitutes left and right sliding structure between the first installation piece, and the left end of buckle is fixed with the connecting plate, the right side of connecting plate is connected with reset spring, provides left thrust for the connecting plate through reset spring, makes the inside that the buckle can be received first installation piece keep stable, the right side of buckle is provided with magnetic force adsorption mechanism, moves to the hasp groove department and attracts the buckle, makes its and the hasp groove connect, the left side be connected with manual control mechanism between buckle and the manual control groove.

Further optimize this technical scheme, the inboard bonding of hasp groove has annular laminating circle, and the laminating circle constitutes for the rubber material, increases the connection stability of hasp groove and buckle.

Further optimizing the technical scheme, the magnetic force adsorption mechanism comprises a first magnet and a second magnet;

the first magnet is fixed on the right side of the pinch plate;

the second magnet is positioned in the lock catch groove, different-name magnetic poles are arranged between the second magnet and the first magnet oppositely, and the magnetic attraction between the second magnet and the first magnet is larger than the elastic force of the reset spring, so that the pinch plate can automatically stretch out under the action of the attraction between the first magnet and the second magnet when moving to the lock catch groove.

Further optimize this technical scheme, the right side of first magnet is fixed with the guide head, and the right side of guide head is slope form structural design, guides the connection of first magnet and hasp groove.

According to the technical scheme, the right side of the second magnet is rotatably provided with the adjusting rod, the right end of the adjusting rod penetrates through the right side surface of the second mounting block and is in threaded connection with the second mounting block, the second magnet is located in the locking groove and forms a left-right sliding structure with the locking groove, the position of the second magnet can be adjusted, and the attractive force of the second magnet to the first magnet is adjusted.

Further optimizing the technical scheme, the manual control mechanism comprises a traction rope, a winding shaft, an auxiliary handle and a torsion spring;

the traction rope is fixed on the left side of the connecting plate to control the movement of the connecting plate;

the winding shaft is rotatably arranged in the first mounting block, the surface of the winding shaft is fixedly connected with the left end of the traction rope, and the traction rope can be pulled to move when the winding shaft rotates;

an auxiliary handle fixed at the front side of the winding shaft for controlling the rotation of the winding shaft;

and the torsion spring is arranged at the rear end of the winding shaft and provides rotary reset force for the winding shaft, so that the winding shaft can be kept stable.

Compared with the prior art, the utility model has the beneficial effects that:

(1) The anti-shaking door holder with the spring supporting structure is used for positioning the door body through the connection of the locking groove and the buckle plate, the buckle plate can be kept in a storage state under the action of the reset spring under the default state, so that an external object is prevented from being hooked, the buckle plate can automatically extend into the locking groove through the mutual attractive force between the magnets when the buckle plate moves to the locking groove, manual control is not needed, the subsequent use is more convenient, and meanwhile, the anti-shaking door holder has better stability;

(2) This prevent rocking knocker with spring supporting structure can change its appeal size to first magnet through the adjustment to second magnet in hasp inslot position, conveniently keeps the appeal of second magnet to first magnet after the installation interval of adjustment first fixing base and second fixing base, also can adjust the appeal and the extension length that the buckle board received to the adaptation is different installation needs.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic perspective view of a second mounting block according to the present utility model;

FIG. 3 is a schematic perspective view of a first mounting block according to the present utility model;

FIG. 4 is a schematic view of the internal structure of the second mounting block and the first mounting block of the present utility model;

fig. 5 is a schematic view showing a top-down structure of a first mounting block according to the present utility model.

In the figure: 1. a first fixing seat; 2. a first mounting block; 3. the second fixing seat; 4. a second mounting block; 5. a latch groove; 6. a fitting ring; 7. a buckle plate; 8. a connecting plate; 9. a return spring; 10. a first magnet; 11. a second magnet; 12. an adjusting rod; 13. a guide head; 14. a traction rope; 15. a winding shaft; 16. an auxiliary handle; 17. and a torsion spring.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-5, the present utility model provides a technical solution: the utility model provides an anti-shake door holder with spring supporting structure, including first fixing base 1, first installation piece 2, second fixing base 3 and second installation piece 4, first installation piece 2 is fixed in the front side of first fixing base 1, second fixing base 3 is fixed in the front side of second installation piece 4, and second fixing base 3 is located the right side of first fixing base 1, the two horizontal installation height is parallel and level each other, latch groove 5 has been seted up in the left side of second installation piece 4, and the internal connection of latch groove 5 has buckle 7, and constitute left and right sliding structure between buckle 7 and the latch groove 5, constitute left and right sliding structure between buckle 7 and the first installation piece 2, and the left end of buckle 7 is located inside and the first installation piece 8 of connecting plate 7, the right side of connecting plate 8 is connected with reset spring 9, through reset spring 9 provides left thrust for connecting plate 8, make buckle 7 can be received to the inside of first installation piece 2 keep stable, the right side of buckle 7 is provided with magnetic force adsorption mechanism, move to the latch groove 5 department to carry out the hasp 7, make it carry out the hasp with the hasp 5, make it carry out the manual connection of control ring 6 to connect between buckle groove and the annular groove 5, the connection 6 is the annular connection groove 6, the connection is made for the manual connection of the annular connection groove is made, the connection of the annular connection groove is 6;

when the door is used, the first fixing seat 1 and the second fixing seat 3 can be respectively arranged on the door body and the connecting frame outside the door body, the buckle plate 7 is kept in a storage state under the action of the reset spring 9 in a default state, when the buckle plate 7 moves to the locking groove 5, the buckle plate automatically stretches out and is connected with the locking groove 5 under the action of the magnetic force adsorption mechanism, the positioning of the door body is completed, and the joint ring 6 can keep stable joint between the buckle plate 7 and the locking groove 5, so that the integral use stability of the door is improved.

The magnetic force adsorption mechanism comprises a first magnet 10 and a second magnet 11, wherein the first magnet 10 is fixed on the right side of the buckle plate 7, the second magnet 11 is positioned in the lock catch groove 5, the second magnet 11 and the first magnet 10 are oppositely arranged with different-name magnetic poles, the magnetic attraction between the second magnet 11 and the first magnet 10 is larger than the elastic force of a return spring 9, when the buckle plate 7 moves to the lock catch groove 5, the attraction between the first magnet 10 and the second magnet 11 can automatically extend out, the right side of the first magnet 10 is fixed with a guide head 13, the right side of the guide head 13 is in an inclined structure design, the connection between the first magnet 10 and the lock catch groove 5 is guided, an adjusting rod 12 is rotatably arranged on the right side of the second magnet 11, the right end of the adjusting rod 12 penetrates through the right side surface of the second mounting block 4 and forms threaded connection with the second mounting block 4, the second magnet 11 is positioned in the lock catch groove 5 and forms a left-right sliding structure between the lock catch groove 5, so that the position of the second magnet 11 can be adjusted, the attractive force of the second magnet 11 to the first magnet 10 is adjusted, the manual control mechanism comprises a traction rope 14, a winding shaft 15, an auxiliary handle 16 and a torsion spring 17, the traction rope 14 is fixed at the left side of the connecting plate 8 to control the movement of the connecting plate 8, the winding shaft 15 is rotatably arranged in the first mounting block 2, the surface of the winding shaft 15 is fixedly connected with the left end of the traction rope 14, the traction rope 14 can be pulled to move when the winding shaft 15 rotates, the auxiliary handle 16 is fixed at the front side of the winding shaft 15 to control the rotation of the winding shaft 15, and the torsion spring 17 is arranged at the rear end of the winding shaft 15 to provide rotary reset force for the winding shaft 15, so that the winding shaft 15 can keep stable;

when the buckle plate 7 moves to the relative position of the locking groove 5, the second magnet 11 attracts the first magnet 10, the buckle plate 7 is pulled to move, the buckle plate 7 stretches into the locking groove 5, the attractive force between the second magnet 11 and the first magnet 10 can be adjusted according to the use requirement, the adjusting rod 12 can be rotated during adjustment, the adjusting rod 12 drives the second magnet 11 to move through threaded connection with the second installation block 4, the distance between the second magnet 11 and the first magnet 10 is changed, the adjustment of the attractive force is realized, when the connection between the buckle plate 7 and the locking groove 5 is required to be released later, the auxiliary handle 16 can be rotated, the auxiliary handle 16 drives the winding shaft 15 to rotate, the winding shaft 15 winds the pulling rope 14 during rotation, the pulling rope 14 pulls the buckle plate 7 to move through the connecting plate 8, the connection between the buckle plate 7 and the locking groove 5 is released, the door plate can be changed into a movable state, and the buckle plate 7 can be kept in a storage state under the action of the reset spring 9 after the positions of the buckle plate 7 and the locking groove 5 are staggered.

What is not described in detail in this specification is prior art known to those skilled in the art.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (6)

1. The utility model provides an anti-shake door holder with spring bearing structure, includes first fixing base (1), first installation piece (2), second fixing base (3) and second installation piece (4), first installation piece (2) are fixed in the front side of first fixing base (1), second fixing base (3) are fixed in the front side of second installation piece (4), and second fixing base (3) are located the right side of first fixing base (1), and two horizontal installation height are parallel and level each other;

the method is characterized in that: the left side of the second installation block (4) is provided with a locking groove (5), the inside of the locking groove (5) is connected with a buckle plate (7), a left-right sliding structure is formed between the buckle plate (7) and the locking groove (5), the left end of the buckle plate (7) is positioned in the first installation block (2) and forms a left-right sliding structure with the first installation block (2), the left end of the buckle plate (7) is fixed with a connecting plate (8), the right side of the connecting plate (8) is connected with a reset spring (9), the connecting plate (8) is provided with left thrust through the reset spring (9), so that the buckle plate (7) can be received into the first installation block (2) to be kept stable, a magnetic adsorption mechanism is arranged on the right side of the buckle plate (7), the buckle plate (7) is moved to the locking groove (5) to attract the buckle plate (7), the buckle plate is connected with the locking groove (5), a manual control mechanism is connected to the left side of the connecting plate (8), and manual control is carried out on connection between the buckle plate (7) and the locking groove (5).

2. The anti-sloshing door latch with spring support structure according to claim 1, wherein: the inside of hasp groove (5) bonds has annular laminating circle (6), and laminating circle (6) are the rubber material constitution, increase the connection stability of hasp groove (5) and buckle (7).

3. An anti-sloshing door latch with spring support structure according to claim 1 or 2, characterized in that: the magnetic force adsorption mechanism comprises a first magnet (10) and a second magnet (11);

the first magnet (10) is fixed on the right side of the pinch plate (7);

the second magnet (11) is positioned in the locking groove (5), the second magnet (11) and the first magnet (10) are arranged opposite to each other in terms of different-name magnetic poles, and the magnetic attraction between the second magnet (11) and the first magnet (10) is larger than the elastic force of the return spring (9).

4. A sway prevention door latch provided with a spring support structure according to claim 3, wherein: the right side of the first magnet (10) is fixedly provided with a guide head (13), and the right side of the guide head (13) is of an inclined structural design and guides the connection of the first magnet (10) and the locking groove (5).

5. A sway prevention door latch provided with a spring support structure according to claim 3, wherein: the right side of second magnet (11) rotates and installs regulation pole (12), and adjusts the right-hand member of pole (12) and run through and constitute threaded connection between the right side surface of second installation piece (4) and second installation piece (4), second magnet (11) are located the inside of hasp groove (5) and constitute left and right sliding construction between hasp groove (5).

6. The anti-sloshing door latch with spring support structure according to claim 1, wherein: the manual control mechanism comprises a traction rope (14), a winding shaft (15), an auxiliary handle (16) and a torsion spring (17);

a traction rope (14) fixed on the left side of the connecting plate (8) to control the movement of the connecting plate (8);

the winding shaft (15) is rotatably arranged in the first mounting block (2), the surface of the winding shaft (15) is fixedly connected with the left end of the traction rope (14), and the traction rope (14) can be pulled to move when the winding shaft (15) rotates;

an auxiliary handle (16) fixed to the front side of the winding shaft (15) to control the rotation of the winding shaft (15);

and the torsion spring (17) is arranged at the rear end of the winding shaft (15) and provides rotary reset force for the winding shaft (15), so that the winding shaft (15) can be kept stable.