CN109519063B - Bidirectional synchronous switch lock and automobile glove box comprising same - Google Patents

Abstract

The invention discloses a bidirectional synchronous switch lock and an automobile glove box comprising the same, which have the technical scheme that an outer sleeve can rotate but the linear motion of the lock is limited, a first lock rod and a second lock rod are respectively inserted at two ends of the outer sleeve and can slide in the outer sleeve, a reset spring is positioned in the outer sleeve, the two ends of the reset spring are respectively abutted with the first lock rod and the second lock rod, guide grooves are formed in the outer wall of the first lock rod and the outer wall of the second lock rod, two guide posts are respectively positioned in the guide grooves on the first lock rod and the guide grooves on the second lock rod, the first lock rod and the second lock rod are mutually limited with a fixed seat, and the first lock rod and the second lock rod can do linear motion along the axial direction of the outer sleeve but rotate and are limited, so that the purposes of simple structure, simplicity and convenience in installation and high reliability in long-time use are achieved.

Description

Bidirectional synchronous switch lock and automobile glove box comprising same

Technical Field

The invention relates to the technical field of double-point locks, in particular to a bidirectional synchronous switch lock and an automobile glove box comprising the same.

Background

With the wide spread and wide spread of automobiles in the chinese market, automobile manufacturers and automobile users have increasingly high requirements on automobiles. The automobile glove box lock is a bidirectional synchronous switch lock, and the function of synchronous motion of double lock rods is realized through the internal structure of the lock. Most of the existing bidirectional synchronous switch locks, especially the bidirectional synchronous switch locks for automobile glove boxes, have complex structures, complex installation and insufficient reliability for long-time use.

Disclosure of Invention

The technical problem to be solved by the invention is that the existing bidirectional synchronous switch lock is complex in structure, complex in installation and insufficient in reliability in long-time use.

The first object of the invention is to provide a bidirectional synchronous switch lock, which achieves the purposes of simple structure, simple installation and high reliability in long-time use.

The first technical object of the present invention is achieved by the following technical scheme: a bidirectional synchronous switch lock is characterized in that: the self-locking device comprises a fixed seat, a jacket, a first locking rod, a second locking rod and a reset spring, wherein the jacket is arranged on the fixed seat, the jacket can rotate but the linear motion of the jacket is limited, the first locking rod and the second locking rod are respectively inserted into two ends of the jacket and can slide in the jacket, the reset spring is arranged in the jacket, two ends of the reset spring are respectively abutted against the first locking rod and the second locking rod, the outer wall of the first locking rod and the outer wall of the second locking rod are respectively provided with a guide groove, two guide posts are arranged in the jacket and are respectively arranged in the guide grooves on the first locking rod and the guide grooves on the second locking rod, the first locking rod and the second locking rod are mutually limited with the fixed seat, and the first locking rod and the second locking rod can do linear motion but rotate in the axial direction of the jacket;

when one of the first lock rod and the second lock rod is pushed towards the inside of the outer sleeve and moves linearly towards the inside of the outer sleeve, the outer sleeve is pushed to rotate through the cooperation of the corresponding guide posts and the guide grooves, the other lock rod is pushed to synchronously move linearly towards the inside of the outer sleeve through the cooperation of the guide grooves of the corresponding guide posts, and the reset spring generates elastic deformation; when the pushing force applied to the lock rod towards the inside of the outer sleeve is withdrawn, the elastic force generated by the elastic deformation of the reset spring can drive the first lock rod and the second lock rod to synchronously move linearly towards the outside of the outer sleeve, and the outer sleeve is reset by autorotation.

As a further optimization, the first lock rod and the second lock rod both comprise a columnar part and a square part which are fixedly connected together, the columnar part is inserted into the outer sleeve from the end part of the outer sleeve, the square part penetrates through the side wall of the fixing seat and extends to the outer wall of the side wall of the fixing seat, and the fixing seat limits the rotation of the square part.

As a further optimization, the columnar parts of the first lock rod and the second lock rod are respectively provided with an inlet groove, the inlet grooves are parallel to the axial direction of the jacket, one end of each inlet groove is flush with the corresponding end part of the first lock rod/the second lock rod, and the other end of each inlet groove is communicated with one end, close to the square part, of the corresponding guide groove.

As a further optimization, the outer sleeve is provided with two observation windows, and the two guide posts are respectively positioned at one ends of the two observation windows.

As further optimization, the first lock rod and the second lock rod are respectively sleeved with a sealing ring at one end of the columnar part close to the square part.

As further optimization, the bottom of the fixing seat, which is opposite to the outer sleeve, is uniformly provided with a plurality of supporting bulges, and the supporting bulges are contacted with the outer sleeve.

As further optimization, the middle of the outer sleeve is a limiting section, the inner diameter of the limiting section is smaller than the inner diameters of the two sides of the limiting section, and the inner diameter of the limiting section is equal to the outer diameter of the reset spring.

As further optimization, the first lock rod and the second lock rod are respectively provided with a concave cavity at one end of the columnar part far away from the square part, and two ends of the reset spring are respectively positioned in the concave cavity of the first lock rod and the concave cavity of the second lock rod.

The second object of the invention is to provide a bidirectional synchronous switch lock, which achieves the purposes of simple structure, simple installation and high reliability in long-time use.

The second technical purpose of the invention is realized by the following technical proposal: a bidirectional synchronous switch lock is characterized in that: the self-locking device comprises a fixed seat, a jacket, a first locking rod, a second locking rod and a reset spring, wherein the jacket is arranged on the fixed seat, the jacket can rotate but the linear motion of the jacket is limited, the first locking rod and the second locking rod are respectively inserted into two ends of the jacket and can slide in the jacket outwards, the reset spring is arranged in the jacket, two ends of the reset spring are respectively abutted against the first locking rod and the second locking rod, two guide posts are respectively arranged on the outer wall of the first locking rod and the outer wall of the second locking rod, two guide grooves are formed in the inner wall of the jacket, the guide posts on the first locking rod and the guide posts on the second locking rod are respectively arranged in the two guide grooves, the first locking rod and the second locking rod are mutually limited with the fixed seat, and the first locking rod and the second locking rod can do linear motion but rotate in the axial direction of the jacket;

when one of the first lock rod and the second lock rod is pushed towards the inside of the outer sleeve and moves linearly towards the inside of the outer sleeve, the outer sleeve is pushed to rotate through the cooperation of the corresponding guide posts and the guide grooves, the other lock rod is pushed to synchronously move linearly towards the inside of the outer sleeve through the cooperation of the guide grooves of the corresponding guide posts, and the reset spring generates elastic deformation; when the pushing force applied to the lock rod towards the inside of the outer sleeve is withdrawn, the elastic force generated by the elastic deformation of the reset spring can drive the first lock rod and the second lock rod to synchronously move linearly towards the outside of the outer sleeve, and the outer sleeve is reset by autorotation.

The third object of the invention is to provide an automobile glove box, which achieves the purposes of simple structure, simple installation and high reliability in long-time use of the bidirectional synchronous switch lock.

The third technical object of the present invention is achieved by the following technical scheme: an automobile glove box, characterized in that: comprising a bidirectional synchronous switch lock according to any one of the above technical solutions.

In summary, the invention has the following beneficial effects: because the cooperation of guide post and guide way, when one of first locking lever and second locking lever receives the thrust in the overcoat to the overcoat rectilinear motion, promotes the overcoat rotation through the cooperation of corresponding guide post and guide way, and the overcoat rotation is through the cooperation promotion of the guide way of corresponding guide post in the middle of the other rectilinear motion in the overcoat, has realized the synchronous motion of first locking lever and second locking lever, simple structure, simple installation, and the long-time reliability of using is high.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a two-way synchronous switch lock;

fig. 2 is an exploded view of a two-way synchronous switch lock.

In the figure: 1. a fixing seat; 11. a receiving chamber; 111. a supporting protrusion; 12. a first square hole; 13. a second square hole; 2. a jacket; 21. a first viewing window; 22. a second viewing window; 23. a limiting section; 3. a first lock lever; 31. a first columnar portion; 311. a first guide groove; 312. a first inlet slot; 32. a first square portion; 4. a second lock lever; 41. a second cylindrical portion; 411. a second guide groove; 412. a second inlet slot; 413. a second cavity; 41. a second square portion; 5. a return spring; 61. a first guide post; 62. a second guide post; 7. a first seal ring; 8. and a second sealing ring.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Fig. 1 shows the overall structure of a two-way synchronous switch lock after assembly, which can be applied to any place where a door assembly has the requirement of a two-point lock, and particularly can be applied to an automobile glove box. The lock comprises a fixed seat 1, a jacket 2, a first lock rod 3, a second lock rod 4 and a return spring 5. The fixing seat 1 is provided with a containing cavity 11, the outer sleeve 2 is positioned in the containing cavity 11, the outer sleeve 2 is columnar, and the outer sleeve 2 can rotate in the containing cavity 11 but the linear motion of the outer sleeve 2 is limited, namely, the outer sleeve cannot do linear motion along the axial direction of the outer sleeve. The first lock rod 3 and the second lock rod 4 are respectively movably inserted at two ends of the outer sleeve 2 and can slide in the outer sleeve 2.

Fig. 2 shows an explosion structure of the bidirectional synchronous switch lock, the first lock lever 3 comprises a first columnar portion 31 and a first square portion 32 which are fixedly connected together, the first columnar portion 31 is inserted into the inside of the outer sleeve 2 from one end of the outer sleeve 2, the first square portion 32 penetrates through the side wall of one side of the fixing seat 1 and extends to the outer side of the side wall of the fixing seat 1, and a first square hole 12 with the size matched with that of the first square portion 32 is formed in the side wall of the fixing seat 1. The diameter of the first columnar portion 31 is larger than the length and width of the first square hole 12, so that the first columnar portion 31 can be prevented from sliding out of the first square hole 12 to the outside of the fixing base 1. The outer circumferential wall of the first columnar portion 31 is provided with a first guide groove 311, and the first guide groove 311 is arranged in a three-dimensional curve. The inner wall of the outer jacket 2 is provided with a first guide post 61, and the first guide post 61 is positioned in the first guide groove 311. In other embodiments, the first guide groove 311 may be formed in the inner wall of the outer sleeve 2, and the first guide post 61 may be provided on the outer circumference of the first cylindrical portion 31.

The second lock lever 4 includes a second cylindrical portion 41 and a second square portion 41 fixedly connected together, the second cylindrical portion 41 is inserted into the interior of the outer sleeve 2 from the other end of the outer sleeve 2, the second square portion 41 penetrates through the side wall of the other side of the fixing seat 1 and extends to the outer side of the side wall of the fixing seat 1, and a second square hole 13 with a size matched with that of the second square portion 41 is formed in the side wall of the fixing seat 1. The diameter of the second cylindrical portion 41 is larger than the length and width of the second square hole 13, so that the second cylindrical portion 41 can be prevented from sliding out of the second square hole 13 to the outside of the fixing base 1. The outer circumferential wall of the second cylindrical portion 41 is provided with a second guide slot 411, and the second guide slot 411 is provided in a three-dimensional curve. The inner wall of the outer jacket 2 is provided with a second guide post 62, and the second guide post 62 is positioned in the second guide slot 411. In other embodiments, the second guide slot 411 may be formed on the inner wall of the outer casing 2, and the second guide post 62 may be formed on the outer circumference of the second cylindrical portion 41.

The working principle of the lock is described below by taking the first lock rod 3 as an active force-giving end and the second lock rod 4 as a passive force-giving end as an example. When a pushing force towards the inside of the outer sleeve 2 is applied to the first lock rod 3, namely when the first lock rod 3 is pressed inwards, the first lock rod 3 moves linearly towards the inside of the outer sleeve 2 along the axial direction of the outer sleeve 2, the first lock rod 3 pushes the outer sleeve 2 to rotate in a straight line due to the cooperation of the first guide groove 311 on the first lock rod 3 and the first guide post 61 on the outer sleeve 2, and the second lock rod 4 pushes the second lock rod 4 to move linearly towards the inside of the outer sleeve 2 along the axial direction of the outer sleeve 2 due to the cooperation of the second guide groove 411 on the second lock rod 4 and the second guide post 62 on the outer sleeve 2 in a straight line due to the cooperation of the first guide groove 311 on the first lock rod 3 and the first guide post 61 on the outer sleeve 2, and the return spring 5 deforms elastically, so that synchronous movement of the first lock rod 3 and the second lock rod 4 is realized; after the pushing force to the first lock rod 3 is removed, the elastic force generated by the elastic deformation of the reset spring 5 drives the first lock rod 3 and the second lock rod 4 to synchronously move away from the outer sleeve 2 in a straight line, and the outer sleeve 2 is reset by autorotation. When the second lock rod 4 is an active force-giving end and the first lock rod 3 is a passive force-receiving end, the synchronous movement of the first lock rod 3 and the second lock rod 4 is realized by the same principle as described above, and the description is omitted here.

As an optimization, the first lock rod 3 is provided with a first inlet groove 312, the first inlet groove 312 is parallel to the axial direction of the outer sleeve 2, one end of the first inlet groove 312 is flush with the end of the first columnar portion 31 away from the first square portion 32, and the other end of the first inlet groove 312 is communicated with one end of the first guide groove 311 close to the first square portion 32. The first inlet slot 312 serves to facilitate the assembly between the first locking bar 3 and the outer jacket 2. When assembled, the first guide post 61 on the outer sleeve 2 slides into the first guide slot 311 along the first inlet slot 312. The first observation window 21 that runs through has been seted up to overcoat 2, and first guide post 61 is located the one end of first observation window 21, is convenient for look over the position of first guide post 61 through first observation window 21, further is convenient for the assembly between first locking lever 3 and the overcoat 2. In this embodiment, the first columnar portion 31 is symmetrically provided with two sets of the first guide grooves 311 and the first inlet grooves 312, and the outer jacket 2 is correspondingly symmetrically provided with two sets of the first guide posts 61 and the first observation windows 21, so that the linkage is smoother and the use is more reliable. The first sealing ring 7 is sleeved on one end of the first columnar portion 31, which is close to the first columnar portion 32.

The second lock lever 4 is provided with a second inlet groove 412, the second inlet groove 412 is parallel to the axial direction of the outer sleeve 2, one end of the second inlet groove 412 is flush with the end of the second cylindrical portion 41 away from the second square portion 41, and the other end of the second inlet groove 412 is communicated with one end of the second guide groove 411 close to the second square portion 42. The second inlet groove 412 functions to facilitate the assembly between the second locking lever 4 and the outer jacket 2. The second guide post 62 on the outer jacket 2 slides into the second guide slot 411 along the second inlet slot 412 when assembled. The second observation window 22 that runs through has been seted up to overcoat 2, and second guide post 62 is located the one end of second observation window 22, is convenient for look over the position of second guide post 62 through second observation window 22, further is convenient for the assembly between second locking lever 4 and the overcoat 2. In this embodiment, the second cylindrical portion 41 is symmetrically provided with two sets of second guide slots 411 and second inlet slots 412, and correspondingly, the outer sleeve 2 is symmetrically provided with two sets of second guide posts 62 and second observation windows 22, so that the linkage is smoother and the use is more reliable. The second sealing ring 8 is sleeved at one end of the second cylindrical portion 41, which is close to the second square portion 41.

Four supporting protrusions 111 are uniformly arranged at the bottom of the accommodating cavity 11 of the fixing base 1, which is opposite to the outer sleeve 2, the supporting protrusions 111 are in contact with the outer sleeve 2, on one hand, the supporting effect on the outer sleeve 2 is achieved, and on the other hand, the contact area between the outer sleeve 2 and the fixing base 1 is reduced. The middle of the outer sleeve 2 is provided with a limiting section 23, the inner diameter and the outer diameter of the limiting section 23 are smaller than those of the two sides of the limiting section 23, and the inner diameter of the limiting section 23 is approximately equal to the outer diameter of the return spring 5, so that the return spring 5 is limited to a certain extent. The first cylindrical portion 31 of the first lock lever 3 has a first concave cavity inwardly opened at one end thereof far from the first square portion 32, which is not visible in the figure due to the view angle, the second cylindrical portion 41 of the second lock lever 4 has a second concave cavity 413 inwardly opened at one end thereof far from the second square portion 41, and both ends of the return spring 5 are respectively located in the first concave cavity and the second concave cavity 413.

The above specific embodiments are provided for illustrative purposes only and are not intended to limit the invention, and modifications, no inventive contribution, to the above embodiments, may be made by those skilled in the art after having read the present specification, as long as they are within the scope of the claims of the present invention.

Claims (10)

1. A bidirectional synchronous switch lock is characterized in that: the self-locking device comprises a fixed seat, a jacket, a first locking rod, a second locking rod and a reset spring, wherein the jacket is arranged on the fixed seat, the jacket can rotate but the linear motion of the jacket is limited, the first locking rod and the second locking rod are respectively inserted into two ends of the jacket and can slide in the jacket, the reset spring is arranged in the jacket, two ends of the reset spring are respectively abutted against the first locking rod and the second locking rod, the outer wall of the first locking rod and the outer wall of the second locking rod are respectively provided with a guide groove, two guide posts are arranged in the jacket and are respectively arranged in the guide grooves on the first locking rod and the guide grooves on the second locking rod, the first locking rod and the second locking rod are mutually limited with the fixed seat, and the first locking rod and the second locking rod can do linear motion but rotate in the axial direction of the jacket;

when one of the first lock rod and the second lock rod is pushed towards the inside of the outer sleeve and moves linearly towards the inside of the outer sleeve, the outer sleeve is pushed to rotate through the cooperation of the corresponding guide posts and the guide grooves, the other lock rod is pushed to synchronously move linearly towards the inside of the outer sleeve through the cooperation of the guide grooves of the corresponding guide posts, and the reset spring generates elastic deformation; when the pushing force applied to the lock rod towards the inside of the outer sleeve is withdrawn, the elastic force generated by the elastic deformation of the reset spring can drive the first lock rod and the second lock rod to synchronously move linearly towards the outside of the outer sleeve, and the outer sleeve is reset by autorotation.

2. The bi-directional synchronization switch lock of claim 1 wherein: the first lock rod and the second lock rod both comprise a columnar part and a square part which are fixedly connected together, the columnar part is inserted into the outer sleeve from the end part of the outer sleeve, the square part penetrates through the side wall of the fixing seat and extends to the outer wall of the side wall of the fixing seat, and the fixing seat limits the rotation of the square part.

3. The bi-directional synchronization switch lock of claim 2 wherein: the columnar parts of the first lock rod and the second lock rod are respectively provided with an inlet groove, the inlet grooves are parallel to the axial direction of the jacket, one end of each inlet groove is flush with the corresponding end part of the first lock rod/the second lock rod, and the other end of each inlet groove is communicated with one end, close to the square part, of the corresponding guide groove.

4. A two-way synchronous switch lock as claimed in claim 3, wherein: the overcoat has seted up two observation windows of observing, and two guide posts are located the one end of two observation windows respectively.

5. The bi-directional synchronization switch lock of claim 2 wherein: and one ends of the columnar parts of the first lock rod and the second lock rod, which are close to the square parts, are sleeved with sealing rings.

6. The bi-directional synchronization switch lock of claim 1 wherein: the bottom of the fixing seat, which is opposite to the outer sleeve, is uniformly provided with a plurality of supporting bulges which are contacted with the outer sleeve.

7. The bi-directional synchronization switch lock of claim 1 wherein: the middle of the outer sleeve is a limiting section, the inner diameter of the limiting section is smaller than the inner diameters of the two sides of the limiting section, and the inner diameter of the limiting section is equal to the outer diameter of the reset spring.

8. The bi-directional synchronization switch lock of claim 2 wherein: the two ends of the reset spring are respectively positioned in the concave cavity of the first lock rod and the concave cavity of the second lock rod.

9. A bidirectional synchronous switch lock is characterized in that: the self-locking device comprises a fixed seat, a jacket, a first locking rod, a second locking rod and a reset spring, wherein the jacket is arranged on the fixed seat, the jacket can rotate but the linear motion of the jacket is limited, the first locking rod and the second locking rod are respectively inserted into two ends of the jacket and can slide in the jacket outwards, the reset spring is arranged in the jacket, two ends of the reset spring are respectively abutted against the first locking rod and the second locking rod, two guide posts are respectively arranged on the outer wall of the first locking rod and the outer wall of the second locking rod, two guide grooves are formed in the inner wall of the jacket, the guide posts on the first locking rod and the guide posts on the second locking rod are respectively arranged in the two guide grooves, the first locking rod and the second locking rod are mutually limited with the fixed seat, and the first locking rod and the second locking rod can do linear motion but rotate in the axial direction of the jacket;

when one of the first lock rod and the second lock rod is pushed towards the inside of the outer sleeve and moves linearly towards the inside of the outer sleeve, the outer sleeve is pushed to rotate through the cooperation of the corresponding guide posts and the guide grooves, the other lock rod is pushed to synchronously move linearly towards the inside of the outer sleeve through the cooperation of the guide grooves of the corresponding guide posts, and the reset spring generates elastic deformation; when the pushing force applied to the lock rod towards the inside of the outer sleeve is withdrawn, the elastic force generated by the elastic deformation of the reset spring can drive the first lock rod and the second lock rod to synchronously move linearly towards the outside of the outer sleeve, and the outer sleeve is reset by autorotation.

10. An automobile glove box, characterized in that: a bi-directional synchronous switch lock comprising a device according to any one of claims 1-9.