CN111119630A

CN111119630A - Guiding synchronizer

Info

Publication number: CN111119630A
Application number: CN202010026056.XA
Authority: CN
Inventors: 陈解元
Original assignee: Guangdong Tutti Household Science & Technology Co ltd
Current assignee: Guangdong Tutti Household Science & Technology Co ltd
Priority date: 2020-01-10
Filing date: 2020-01-10
Publication date: 2020-05-08
Anticipated expiration: 2040-01-10

Abstract

A guiding synchronization device comprises a first supporting mechanism, a first connecting mechanism, a second supporting mechanism, a second connecting mechanism and a bearing mechanism; the first supporting mechanism comprises a first fixing piece and a first supporting piece; the first fixing piece is used for fixing the substrate of the storage piece; the first support part is connected with the first moving part of the storage part; the first connecting mechanism comprises a first connecting piece and a first linkage piece; two ends of the first connecting piece are respectively hinged with the first fixing piece and the first supporting piece; two ends of the first linkage part are respectively hinged with the first fixing part and the first supporting part; the second supporting mechanism and the first supporting mechanism, and the second connecting mechanism and the first connecting mechanism are respectively in mirror symmetry along the bearing mechanism; the two ends of the bearing mechanism are respectively connected with the first connecting mechanism and the second connecting mechanism. The first supporting mechanism and the second supporting mechanism of the device both fix the base plate, and the bearing mechanism is connected with the first connecting mechanism and the second connecting mechanism, so that the first moving member can move synchronously, and the first moving member is guaranteed not to shake in the moving process.

Description

Guiding synchronizer

Technical Field

The invention relates to the technical field of hardware accessories, in particular to a guide synchronizing device.

Background

Among the door opening modes of various household cabinet doors, the flat sliding door is a more common mode with higher space utilization rate and is favored greatly. When the plurality of door panels are closed, all the door panels are positioned on the same plane, the cabinet body is good in tightness, and the appearance is neat and attractive. When the parallel sliding door is opened, the door plates can be staggered, so that the track of the door plate needs to have specific requirements when the door is opened.

Currently, there are two general types of lying doors: one is an upper guide and lower guide structure, and the other is an upper guide and side guide structure. When the upper and lower guide structure is actually used, the lower guide structure can be leaked outside and seen, and the appearance is not good enough. The scheme of the upper guide and side guide structure is that the side guide structure is installed on the back of the door plate, and the lower end of the cabinet body needs to be guided by a lower guide rail. The lower guide rail is arranged in the milling groove, does not obstruct the placement of articles in the cabinet body, but is easy to hide foreign matters and dust. In addition, the upper and lower fixed boxes in the side guide structure are arranged behind the door plate, and one end of each fixed box is connected with a guide connecting rod; because the connection of fixed box and guide connecting rod is movable, when consequently the door plant was opened, the door plant lower extreme rocked easily, influences the stability of using experience and structure.

Disclosure of Invention

In view of the above, it is necessary to provide a guide synchronization device with simple structure, stability and reliability.

A guiding synchronization device comprises a first supporting mechanism, a first connecting mechanism, a second supporting mechanism, a second connecting mechanism and a bearing mechanism; the first supporting mechanism comprises a first fixing piece and a first supporting piece; the first fixing piece is used for fixedly connecting the base plate of the storage piece; the first support part is used for connecting a first moving part of the storage part; the first connecting mechanism comprises a first connecting piece and a first linkage piece; two ends of the first connecting piece are respectively hinged with the first fixing piece and the first supporting piece; two ends of the first linkage part are respectively hinged with the first fixing part and the first supporting part; the second supporting mechanism and the first supporting mechanism, and the second connecting mechanism and the first connecting mechanism are respectively arranged along the bearing mechanism in a mirror symmetry manner; and two ends of the bearing mechanism are respectively connected with the first connecting mechanism and the second connecting mechanism.

The guide synchronization device is respectively and fixedly connected with the base plate through the first supporting mechanism and the second supporting mechanism, and the bearing mechanism is respectively connected with the first connecting mechanism and the second connecting mechanism, so that the first moving piece can synchronously move; the first moving piece drives the first supporting piece to move so that the first connecting piece and the first linkage piece move, and therefore the first moving piece is vertical in the moving process and is not prone to shaking.

In one embodiment, the first connecting member is arranged in parallel with the first linkage member.

In one embodiment, a first power storage mechanism is also included; the first force accumulating mechanism comprises a first mounting part, a second mounting part and a first force accumulating part; the first mounting piece is mounted on the first fixing piece; the second mounting piece is mounted on the first connecting piece; and two ends of the first power accumulating piece are respectively connected with the first mounting piece and the second mounting piece.

In one embodiment, the first connecting mechanism further includes a first limiting member and a first positioning member; the first limiting piece is connected to one end of the first supporting piece, which is connected with the first connecting piece; the first positioning piece is connected to one side of the first linkage piece.

In one embodiment, the receiving mechanism comprises a first synchronizing rod and a second synchronizing rod; the first limiting piece is connected with the first synchronizing rod; the first positioning piece is connected with the second synchronous rod.

In one embodiment, the first position limiting member and the first positioning member are disposed on the same plane.

In one embodiment, the first connecting mechanism further comprises a first bump; the first lug is connected with one end of the first linkage piece close to the first fixing piece; the first lug is matched with the first fixed piece to limit the movement of the first linkage piece.

In one embodiment, the device further comprises a first sliding mechanism; the first sliding mechanism comprises a first bracket and a first sliding piece connected with the first bracket; the first support is arranged at one end of the first support piece, which is far away from the first connecting piece; the first sliding part is arranged on the first moving part in a sliding mode.

In one embodiment, the first sliding mechanism further includes a first connecting pin and a first elastic member sleeved on the first connecting pin; the first connecting pin penetrates through the first supporting piece and the first bracket; one end of the first elastic piece is abutted against the first supporting piece, and the other end of the first elastic piece is abutted against the first connecting pin.

In one embodiment, the second supporting mechanism comprises a second fixing part and a second supporting part; the second fixing piece is used for fixedly connecting the base plate of the storage piece; the second supporting piece is used for connecting a first moving piece of the storage piece; the second connecting mechanism comprises a second connecting piece and a second linkage piece; two ends of the second connecting piece are respectively hinged with the second fixing piece and the second supporting piece; and two ends of the second linkage part are respectively hinged with the second fixing part and the second supporting part.

Drawings

FIG. 1 is a schematic structural diagram of a guiding synchronization device according to an embodiment of the present invention;

FIG. 2 is a diagram of an example of the guiding synchronization device shown in FIG. 1;

FIG. 3 is a schematic structural view of the guiding synchronization apparatus shown in FIG. 1, wherein the second supporting mechanism, the second connecting mechanism and the second sliding mechanism are not shown;

FIG. 4 is a schematic structural view of the guiding synchronization apparatus shown in FIG. 3, wherein the second supporting mechanism, the second connecting mechanism, the second sliding mechanism and the first sliding mechanism are not shown;

FIG. 5 is a schematic view of the guiding synchronization device of FIG. 2 with the first moving member in an open position;

FIG. 6 is a schematic view of the first moving member of the guided synchronization apparatus of FIG. 2 during a folding process;

fig. 7 is a schematic view of the guide synchronizing device shown in fig. 2 with the first moving member in a folded state.

Reference is made to the accompanying drawings in which:

a guide synchronization device 100;

the first support mechanism 10, the first fixing member 11, the first fixing portion 111, the second fixing portion 112, the first support member 12, the first support portion 121, the second support portion 122, the third support portion 123, the first connection mechanism 20, the first connection member 21, the first connection portion 211, the second connection portion 212, the third connection portion 213, the first linkage member 22, the first linkage portion 221, the second linkage portion 222, the third linkage portion 223, the first protrusion 23, the first limiting member 24, and the first positioning member 25;

the second supporting mechanism 30, the second fixing member 31, the second supporting member 32, the second connecting mechanism 40, the second connecting member 41, the second linking member 42, the second protrusion 43, the second limiting member 44, the second positioning member 45, the receiving mechanism 50, the first synchronizing rod 51, and the second synchronizing rod 52;

the first power storage mechanism 60, the first mounting part 61, the second mounting part 62, the first power storage member 63, the first sliding mechanism 70, the first bracket 71, the first sliding member 72, the first connecting pin 73, the second sliding mechanism 80, the second bracket 81, the second sliding member 82, the storage member 90, the base plate 91, the first moving member 92, and the second moving member 93.

Detailed Description

In order that the invention may be more fully understood, reference will now be made to the following description. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

Referring to fig. 1 to 7, a guiding synchronization apparatus 100 according to an embodiment of the present invention includes a first supporting mechanism 10, a first connecting mechanism 20, a second supporting mechanism 30, a second connecting mechanism 40, and a receiving mechanism 50; the first supporting mechanism 10 includes a first fixing member 11 and a first supporting member 12; the first fixing member 11 is used for fixing and connecting the substrate 91 of the storage member 90; the first support 12 is used for connecting the first moving part 92 of the storage part 90; the first connecting mechanism 20 comprises a first connecting piece 21 and a first linkage piece 22; two ends of the first connecting piece 21 are respectively hinged with the first fixing piece 11 and the first supporting piece 12; two ends of the first linkage part 22 are respectively hinged with the first fixed part 11 and the first supporting part 12; the second supporting mechanism 30 and the first supporting mechanism 10, and the second connecting mechanism 40 and the first connecting mechanism 20 are respectively arranged along the receiving mechanism 50 in a mirror symmetry manner. The guiding synchronization device 100 of the present invention is respectively and fixedly connected to the substrate 91 through the first supporting mechanism 10 and the second supporting mechanism 30, and the receiving mechanism 50 is respectively connected to the first connecting mechanism 20 and the second connecting mechanism 40, so as to realize the synchronous movement of the first moving member 92; the first moving part 92 drives the first supporting part 12 to move, so that the first connecting part 21 and the first linking part 22 move, and the first moving part 92 is vertical in the moving process and is not easy to shake. The storage part 90 includes a base plate 91, a first moving part 92 and a second moving part 93; optionally, stoppers (not shown) are arranged at both ends of the first moving part 92; further, the storage member 90 is a cabinet, the substrate 91 is a middle partition plate, the first moving member 92 is a first door panel, and the second moving member 93 is a second door panel.

As shown in fig. 1 to 3, in the present embodiment, in order to fix the first moving member 92, the first supporting mechanism 10 includes a first fixing member 11 and a first supporting member 12; the first fixing member 11 is used for fixing and connecting the substrate 91 of the storage member 90; the first support 12 is used for connecting the first moving part 92 of the storage part 90; optionally, the first fixing member 11 includes a first fixing portion 111 and a second fixing portion 112 connected to the first fixing portion 111; the first fixing portion 111 is used for connecting the substrate 91 of the storage member 90; one side of the second fixing portion 112 is provided with a notch (not shown). Further, the first fixing portion 111 and the second fixing portion 112 are disposed in an inverted L-shape. The first support 12 includes a first support 121, a second support 122 and a third support 123; the first supporting portion 121 and the third supporting portion 123 are respectively reversely protruded at two ends of the second supporting portion 122; the third support portion 123 is used to connect the first moving member 92. Optionally, the first supporting portion 121 is disposed on a side of the second supporting portion 122 facing the first fixing member 11; the third supporting portion 123 is disposed on a side of the second supporting portion 122 away from the first fixing element 11. Further, the third supporting portion 123 is provided with a relief hole (not shown).

Referring to fig. 4, the first connecting mechanism 20 includes a first connecting member 21 and a first linking member 22; two ends of the first connecting piece 21 are respectively hinged with the first fixing piece 11 and the first supporting piece 12; the two ends of the first linking member 22 are respectively hinged to the first fixing member 11 and the first supporting member 12. Optionally, the first connecting member 21 is pivoted to the first supporting portion 121; the first linkage 22 is pivotally connected to the second supporting portion 122; further, the first link 21 is disposed in parallel with the first link 22 so as to be moved synchronously. In order to enhance the reliability of the connection, the first connection member 21 includes a first connection portion 211, a second connection portion 212, and a third connection portion 213; two sides of the second connection portion 212 are respectively and vertically connected with the first connection portion 211 and the third connection portion 213; the first linkage 22 includes a first linkage portion 221, a second linkage portion 222, and a third linkage portion 223; both sides of the second linkage portion 222 are respectively vertically connected to the first linkage portion 221 and the third linkage portion 223. Alternatively, the first connecting member 21 is of an inverted C-shape, and the first link member 22 is of an inverted C-shape; two ends of the first connecting portion 211 are respectively hinged to the first fixing member 11 and the first supporting member 12; the two ends of the third connecting portion 213 are hinged to the first fixing member 11 and the first supporting member 12, respectively; two ends of the first linkage part 221 are respectively hinged with the first fixing part 11 and the first supporting part 12; the third linking part 223 is hinged to the first fixing member 11 and the first supporting member 12 at two ends thereof. Further, the first connection portion 211, the third connection portion 213 and the first support portion 121 are inserted through the rotation shaft, and the first connection portion 211, the third connection portion 213 and the second fixing portion 112 are inserted through the rotation shaft. The first and third linking

portions

221 and 223 and the first support portion 121 are inserted through the rotation shaft, and the first and third linking

portions

221 and 223 and the second fixing portion 112 are inserted through the rotation shaft. When the first moving member 92 is in the open state, a vertical pressure is applied to the first moving member 92, and under the action of the first connecting member 21 and the first linking member 22, there are two support points, and when the transmitted pressure is received, the first connecting mechanism 20 will not rotate.

To limit the movement of the first linkage member 22, the first linkage mechanism 20 further comprises a first cam 23; the first lug 23 is connected with one end of the first linkage piece 22 close to the first fixed piece 11; the first projection 23 cooperates with the first fixed member 11 to limit the movement of the first linkage member 22. As shown in fig. 5, when the first moving part 92 is in the open state, one end of the first linking part 22 is disposed perpendicular to the first supporting part 12, and the other end of the first linking part 22 is disposed perpendicular to the side of the second fixing part 112 with the notch, at this time, the first protrusion 23 abuts against the side of the second fixing part 112 with the notch; as shown in fig. 7, when the first moving part 92 is in the closed state, one end of the first linking part 22 is parallel to the first supporting part 12, the other end of the first linking part 22 is parallel to the side of the second fixing part 112 with the notch, and at this time, the first protrusion 23 abuts against the side of the second fixing part 112 with the notch. In one embodiment, the first connecting mechanism 20 further includes a first limiting member 24 and a first positioning member 25; the first limiting member 24 is connected to one end of the first supporting member 12 connected to the first connecting member 21; the first positioning member 25 is connected to one side of the first linkage member 22. In order to fully utilize the space, the first limiting member 24 is connected to one end of the second supporting portion 122 connected to the first supporting portion 121; the first limiting member 24 and the third supporting portion 123 are convexly disposed on the same side of the second supporting portion 122; the first positioning member 25 is connected to a side of the third coupling portion 223 away from the second coupling portion 222; the first limiting member 24 and the first positioning member 25 are disposed on the same plane. When the first moving member 92 is in the open state, the first position-limiting member 24 is perpendicular to the first position-limiting member 25; when the first moving member 92 is in the closed state, the first position-limiting member 24 is disposed parallel to the first position-limiting member 25. In other embodiments, the first positioning member 25 is connected to one side of the first linkage portion 221.

In order to fix the first moving member 92, the second supporting mechanism 30 and the first supporting mechanism 10, and the second connecting mechanism 40 and the first connecting mechanism 20 are respectively arranged in mirror symmetry along the receiving mechanism 50. The second supporting mechanism 30 includes a second fixing member 31 and a second supporting member 32; the second fixing member 31 is used for fixing and connecting the substrate 91 of the storage member 90; the second support member 32 is used for connecting the first moving member 92 of the storage member 90; the second connecting mechanism 40 includes a second connecting member 41 and a second linkage member 42; the two ends of the second connecting piece 41 are respectively hinged with the second fixing piece 31 and the second supporting piece 32; the two ends of the second linkage member 42 are respectively hinged to the second fixed member 31 and the second supporting member 32. The second connection mechanism 40 further comprises a second tab 43; the second lug 43 is connected with one end of the second linkage member 42 close to the second fixed member 31; the second protrusion 43 cooperates with the second stationary member 31 to limit movement of the second linkage member 42. The second connecting mechanism further includes a second stopper 44 and a second positioning member 45; the second limiting member 44 is connected to one end of the second supporting member 32 connected to the second connecting member 41; the second positioning member 45 is coupled to one side of the second linkage member 42. The second supporting mechanism 30 and the first supporting mechanism 10, and the second connecting mechanism 40 and the first connecting mechanism 20 are similar in structure, and will not be described in detail below. In order to synchronously move the first connecting mechanism 20 and the second connecting mechanism 40, two ends of the bearing mechanism 50 are respectively connected with the first connecting mechanism 20 and the second connecting mechanism 40; optionally, the receiving mechanism 50 includes a first synchronizing rod 51 and a second synchronizing rod 52; two ends of the first synchronization rod 51 are respectively connected with the first limiting member 24 and the second limiting member 44; the two ends of the second synchronizing rod 52 are connected to the first positioning element 25 and the second positioning element 45, respectively.

Referring to fig. 5 to 7, the guiding synchronization device 100 further includes a first power accumulating mechanism 60; the first power storage mechanism 60 comprises a first mounting part 61, a second mounting part 62 and a first power storage part 63; the first mounting member 61 is mounted on the first fixing member 11; the second mounting member 62 is mounted on the first connecting member 21; the first power accumulating member 63 has both ends connected to the first mounting member 61 and the second mounting member 62, respectively. Alternatively, the first power accumulating member 63 is a tension spring. In use, when the first moving part 92 is opened, the first power accumulating part 63 can prevent the first moving part 92 from moving to cause the first connecting mechanism 20 to rotate under the counterclockwise moment; at this time, a vertical pressure is applied to the first moving member 92, and the first connecting mechanism 20 is not rotated by the counterclockwise moment generated by the first power accumulating member 63. Meanwhile, in the closing process of the first moving part 92, the first power accumulating part 63 contracts to provide a pulling force for the first connecting part 21, so as to provide a closing pulling force for the first supporting part 12 and the first moving part 92, and the first moving part 92 is closed more tightly. As shown in FIG. 6, the first support member 12 is moved by moving the first moving member 92 to generate a clockwise moment and overcome the moment of the first power accumulating member 63, so that the first connecting mechanism 20 rotates clockwise and continues to move as the first moving member 92 is closed. In one embodiment, the present guided synchronization apparatus 100 further comprises a second power accumulating mechanism (not shown); the second force accumulating mechanism comprises a third mounting part, a fourth mounting part and a second force accumulating part; the third mounting member is mounted on the second fixing member 31; the fourth mounting member is mounted on the second connecting member 41; and two ends of the second power accumulating piece are respectively connected with the third installation piece and the fourth installation piece. The second power storage mechanism has a structure similar to that of the first power storage mechanism 60 and will not be described in detail below.

To effect movement of the first moving member 92, the present guide synchronization device 100 further includes a first sliding mechanism 70; the first sliding mechanism 70 includes a first bracket 71 and a first sliding member 72 connected to the first bracket 71; the first bracket 71 is mounted at one end of the first support 12 away from the first connector 21; the first slider 72 is slidably provided on the first moving member 92, and reduces drag and noise by rolling friction. Alternatively, the first bracket 71 is mounted to the third support part 123; further, the first slider 72 is a pulley; the number of the first sliding members 72 is four, and the four first sliding members 72 are mounted on both sides of the first bracket 71 in pairs. The first sliding mechanism 70 further includes a first connecting pin 73 and a first elastic member (not shown) sleeved on the first connecting pin 73; the first connecting pin 73 penetrates through the first support 12 and the first bracket 71; one end of the first elastic member abuts against the first supporting member 12, and the other end abuts against the first connecting pin 73, so that the first bracket 71 is slidably disposed on the third supporting portion 123 of the first supporting member 12. Optionally, the first connecting pin 73 penetrates through the yielding hole of the third supporting portion 123; the first elastic member is received in the yielding hole of the third supporting portion 123. During the closing of the first moving member 92, the first connecting pin 73 can slide in the abdicating hole of the third supporting part 123, which provides more freedom for the first moving member 92 not to be jammed during the movement. Although the first connecting pin 73 can have a space for movement in the yielding hole of the third supporting portion 123, under the action of the first elastic member, the first moving member 92 does not shake when being subjected to a tensile force, so that the first bracket 71 can move in the yielding hole and return to the initial position under the action of the resilience force of the first elastic member. When in use, the first moving part 92 is moved until the stopper of the first moving part 92 abuts against the first support 71 and drives the first support 71 to move, so as to drive the first support 12 to move; the first supporting member 12 drives the first connecting member 21 and the first linking member 22 to rotate around the first fixed member 11, so as to realize the movement of the first moving member 92. In one embodiment, the present guide synchronization device 100 further comprises a second sliding mechanism 80; the second sliding mechanism 80 includes a second bracket 81 and a second sliding member 82 connected to the second bracket 81; the second bracket 81 is mounted at one end of the second support member 32 away from the second connecting member 41; the second slider 82 is slidably disposed on the first moving member 91. The second sliding mechanism 80 further includes a second connecting pin (not shown) and a second elastic member (not shown) sleeved on the second connecting pin; the second connecting pin penetrates through the second support member 32 and the second bracket 81; one end of the second elastic member abuts against the second support member 32 and the other end abuts against the second connecting pin. The second slide mechanism 80 is similar in construction to the first slide mechanism 70 and will not be described in detail below.

When the guiding synchronization device 100 is used, as shown in fig. 5, when the first moving member 92 is in an open state, one end of the first linking member 22 is perpendicular to the first supporting member 12, and the other end of the first linking member 22 is perpendicular to the side of the second fixing portion 112 with the notch, at this time, the first limiting member 24 is perpendicular to the first positioning member 25, the first limiting member 24 is located on the back of the first moving member 92, and the first positioning member 25 is located on one side of the second moving member 93, so as to save space; under the action of the receiving mechanism 50, the second supporting mechanism 30 and the second connecting mechanism 40 move synchronously, and the first moving member 92 freely moves linearly in the horizontal direction; as shown in fig. 6, the first moving part 92 is moved to drive the first supporting part 12 to move, so that the first connecting part 21 and the first linking part 22 rotate around the first fixing part 11 until one end of the first linking part 22 is parallel to the first supporting part 12, and the other end of the first linking part 22 is parallel to the side of the second fixing part 112 with the gap, as shown in fig. 7, at this time, the first limiting part 24 is parallel to the first positioning part 25, the first limiting part 24 and the first positioning part 25 are both located on the back of the first moving part 92, so that no more space is occupied, and the first moving part 92 is in a closed state; under the action of the receiving mechanism 50, the second supporting mechanism 30 and the second connecting mechanism 40 move synchronously, so that the first moving member 92 is vertical in the moving process, and cannot shake or incline. With the guiding synchronization device 100, when the first moving member 92 is opened, the first moving member 92 is not easy to shake under the supporting action of the first connecting mechanism 20 and the second connecting mechanism 40; when the first moving member 92 is closed, the first connecting mechanism 20 and the second connecting mechanism 40 are in the folded state, so that the space is not occupied, the space utilization rate of the storage member 90 is improved, and the appearance is not influenced due to the absence of a lower guide rail; the first fixed member 11 and the second fixed member 31 are respectively mounted on the base plate 91, and the guide synchronizing device 100 is not visible when the first moving member 92 is opened or closed.

The guiding synchronization device 100 of the invention is respectively fixedly connected with the substrate 91 through the first supporting mechanism 10 and the second supporting mechanism 20, and the receiving mechanism 50 is respectively connected with the first connecting mechanism 20 and the second connecting mechanism 40, so as to realize the synchronous movement of the first moving part 92; the first moving part 92 drives the first supporting part 12 to move, so that the first connecting part 21 and the first linking part 22 move, and the first moving part 92 is vertical in the moving process and is not easy to shake.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims

1. A guide synchronization device is characterized by comprising a first supporting mechanism, a first connecting mechanism, a second supporting mechanism, a second connecting mechanism and a bearing mechanism; the first supporting mechanism comprises a first fixing piece and a first supporting piece; the first fixing piece is used for fixedly connecting the base plate of the storage piece; the first support part is used for connecting a first moving part of the storage part; the first connecting mechanism comprises a first connecting piece and a first linkage piece; two ends of the first connecting piece are respectively hinged with the first fixing piece and the first supporting piece; two ends of the first linkage part are respectively hinged with the first fixing part and the first supporting part; the second supporting mechanism and the first supporting mechanism, and the second connecting mechanism and the first connecting mechanism are respectively arranged along the bearing mechanism in a mirror symmetry manner; and two ends of the bearing mechanism are respectively connected with the first connecting mechanism and the second connecting mechanism.

2. The guide synchronization device of claim 1, wherein the first link is disposed in parallel with the first linkage.

3. The directional synchronization device of claim 1, further comprising a first power accumulating mechanism; the first force accumulating mechanism comprises a first mounting part, a second mounting part and a first force accumulating part; the first mounting piece is mounted on the first fixing piece; the second mounting piece is mounted on the first connecting piece; and two ends of the first power accumulating piece are respectively connected with the first mounting piece and the second mounting piece.

4. The guide synchronization device according to claim 1, wherein the first connection mechanism further comprises a first stopper and a first positioning member; the first limiting piece is connected to one end of the first supporting piece, which is connected with the first connecting piece; the first positioning piece is connected to one side of the first linkage piece.

5. The guided synchronization device of claim 4, wherein the take-up mechanism comprises a first synchronization rod and a second synchronization rod; the first limiting piece is connected with the first synchronizing rod; the first positioning piece is connected with the second synchronous rod.

6. The guiding synchronization device of claim 4, wherein the first limiting member and the first positioning member are disposed on the same plane.

7. The directional synchronization device of claim 1, wherein the first connection mechanism further comprises a first tab; the first lug is connected with one end of the first linkage piece close to the first fixing piece; the first lug is matched with the first fixed piece to limit the movement of the first linkage piece.

8. The guided synchronization apparatus of claim 1, further comprising a first sliding mechanism; the first sliding mechanism comprises a first bracket and a first sliding piece connected with the first bracket; the first support is arranged at one end of the first support piece, which is far away from the first connecting piece; the first sliding part is arranged on the first moving part in a sliding mode.

9. The guiding synchronization device as claimed in claim 8, wherein the first sliding mechanism further comprises a first connecting pin and a first elastic member sleeved on the first connecting pin; the first connecting pin penetrates through the first supporting piece and the first bracket; one end of the first elastic piece is abutted against the first supporting piece, and the other end of the first elastic piece is abutted against the first connecting pin.

10. The guide synchronization device of claim 1, wherein the second support mechanism comprises a second fixed member and a second support member; the second fixing piece is used for fixedly connecting the base plate of the storage piece; the second supporting piece is used for connecting a first moving piece of the storage piece; the second connecting mechanism comprises a second connecting piece and a second linkage piece; two ends of the second connecting piece are respectively hinged with the second fixing piece and the second supporting piece; and two ends of the second linkage part are respectively hinged with the second fixing part and the second supporting part.