CN108078254A - Drawer lockout member - Google Patents

Abstract

A kind of drawer lockout member includes a drawer, two slide guide racks and a linkage part unit.Drawer includes a load-bearing part and two slides, and slide includes at least one and fixes rail member and a carrying rail member, and carrying rail member is slidably connected to fixed rail member, and the both sides of load-bearing part are respectively provided at two carrying rail members of two slides.Linkage part unit includes at least two pinion stands, two linked gears and a connecting rod, and two pinion stands also include two shaft seats and two locating parts.For linked gear also comprising shaft and teeth portion, shaft rotating group is arranged on the shaft seat of pinion stand.Shaft seat is up and down to be mounted on pinion stand.Connecting rod two end connects linked gear, and linked gear is slidably connected two toothrow teeth of slide guide rack.Wherein, the pinion stand of linkage part unit, shaft seat, locating part and linked gear are construed as limiting device.

Description

Drawer lockout member

Technical field

The present invention relates to a kind of lockout members, particularly a kind of drawer lockout member.

Background technology

Drawer is widely used in furniture, slide composition drawer is loaded onto at left and right sides of a load-bearing part, by article storing In drawer to keep space neat and artistic, make drawer be able to it is smooth slide disengaging cabinet, but drawer is in sliding process, because of left and right Slide sliding stroke difference (step) causes drawer to generate swag phenomenon in sliding process, and when drawer width is wider, depth is deeper, high When degree is higher, drawer swag phenomenon is bigger.

The content of the invention

The technical problems to be solved by the invention are to provide a kind of drawer lockout member, so as to solving in the prior art, to take out Drawer, because left and right slide sliding stroke different (steps) causes drawer to generate swag phenomenon in sliding process, works as pumping in sliding process Drawer width is wider, and depth is deeper, when height is higher, the problem of drawer swag phenomenon is bigger.

To achieve these goals, the present invention provides a kind of drawer lockout member, comprising a drawer, two slide guide racks and One linkage part unit.Drawer includes a load-bearing part and two slides, and slide includes at least one and fixes rail member and a carrying rail member, holds Carrier rail part is slidably connected to fixed rail member, and the both sides of load-bearing part are respectively provided at two carrying rail members of two slides.Linkage part unit Including at least two pinion stands, two linked gears and a connecting rod, two pinion stands are also comprising two shaft seats and two locating parts, two locating parts Corresponding to two shaft seats, for linked gear also comprising a shaft and a teeth portion, shaft rotating group is arranged on the shaft of pinion stand Seat.Two shaft seats are up and down to be mounted on two pinion stands.Connecting rod two end connects two linked gears, and two linked gears are slidably connected two Two toothrow teeth of slide guide rack.Wherein, two pinion stands of linkage part unit, two shaft seats, two locating parts and two linked gears A limits device is formed, makes two shaft seats that can be not more than linked gear in the up and down distance of two pinion stands by two locating parts Teeth height, the teeth top radius that the height of the teeth of linked gear is equal to linked gear subtracts the teeth of linked gear Bottom radius departs from two slide guide racks when two linked gears of linkage part unit being avoided to slide whereby.

The technical effects of the invention are that：

According to the drawer lockout member of above-described embodiment, by installing lockout member additional in drawer, drawer is effectively solved in cunning Swag phenomenon is generated during dynamic.Group, which is set, whereby can widen (increasing) drawer, reduce the drawer quantity of multi-drawer cabinet body, reduce The usage quantity of slide (hardware), drawer side and side cabinet substantially reduces total production cost and the assembling of multi-drawer cabinet body Cost is a kind of environmentally friendly drawer hardware being worth promoting.Limiting device is set to avoid in lazy-tongs simultaneously mobile single Member departs from fixed cell.It is further set in one end of two slide guide racks and gradually increases teeth portion, by forcing synchronization device Limiting device generates different meshing resistance effects with respect to two slide guide racks, and a linked gear is made to stop operating, forces another gearing Gear turns to stopping and is set in synchronous regime group, and drawer is made not generate swag phenomenon in pull sliding process.

Below in conjunction with the drawings and specific embodiments, the present invention will be described in detail, but not as a limitation of the invention.

Description of the drawings

Figure 1A is the assembling figure of drawer lockout member；

Figure 1B is the decomposition diagram of drawer lockout member；

Fig. 1 C are the decomposition diagram that shaft seat is assembled in pinion stand and locating part；

Fig. 1 D are the schematic diagram that linked gear is connected to slide guide rack；

Fig. 1 E are the schematic diagram of the teeth of linked gear；

Fig. 1 F are the schematic diagram for gradually increasing teeth portion that linked gear is engaged in slide guide rack one end；

Fig. 1 G are the assembling schematic diagram of the forcing synchronization device of linked gear；

Fig. 2A is the assembling figure of drawer lockout member；

Fig. 2 B are the decomposition diagram of drawer lockout member；

Fig. 2 C are assembled in pinion stand and locating part decomposition diagram for shaft seat；

Fig. 2 D are the schematic diagram that linked gear is connected to slide guide rack；

Fig. 2 E are the schematic diagram of the teeth of linked gear；

Fig. 2 F are the schematic diagram for gradually increasing teeth portion that linked gear is connected to slide guide rack one end；

Fig. 2 G are the assembling schematic diagram of the forcing synchronization device of linked gear；

Fig. 3 A are the assembling figure of drawer lockout member；

Fig. 3 B are the decomposition diagram of drawer lockout member；

Fig. 3 C are the decomposition diagram that shaft seat is assembled in pinion stand and locating part；

Fig. 3 D are the schematic diagram that linked gear is connected to slide guide rack；

Fig. 3 E are the schematic diagram of the teeth of linked gear；

Fig. 3 F are the schematic diagram for gradually increasing teeth portion that linked gear is connected to slide guide rack one end；

Fig. 3 G are the assembling schematic diagram of the forcing synchronization device of linked gear.

Wherein, reference numeral

1a, 2a, 3a drawer lockout member

1st, 2,3 load-bearing part

5 fixed parts

10th, 20,30 slide

11st, 21,31 rail member is fixed

12nd, 22,32 linking rail member

13rd, 23,33 carrying rail member

15th, 25 fixed cell

16th, 26,36 slide guide rack

16 ', 26 ', 36 ' gradually increase teeth portion

161st, 261,363 teeth

162nd, 163,164 gradually increase teeth

165th, 166 teeth are continuously decreased

262nd, 263 gradually increase teeth

362nd, 363 gradually increase teeth

17th, 27,37 linkage part unit

171st, 271,371 pinion stand

172nd, 272,372 shaft seat

173rd, 273,373 locating part

174th, 274,374 connecting rod

175th, 275,375 linked gear

1751st, 2751,3751 shaft

1752nd, 2752,3752 teeth portion

Specific embodiment

The structural principle and operation principle of the present invention are described in detail below in conjunction with the accompanying drawings：

Please refer to Fig.1 A to Fig. 1 G.Figure 1A is the assembling figure of drawer lockout member.Figure 1B is the decomposition of drawer lockout member Schematic diagram.Fig. 1 C are the decomposition diagram that shaft seat is assembled in pinion stand and locating part.Fig. 1 D are connected to slide guide for linked gear The schematic diagram of rack.Fig. 1 E are the schematic diagram of the teeth of linked gear.Fig. 1 F are engaged in slide guide rack one end for linked gear Gradually increase the schematic diagram of teeth portion.Fig. 1 G are the assembling schematic diagram of the forcing synchronization device of linked gear.

The drawer lockout member 1a of the present embodiment includes a drawer, two slide guide racks 16 and a linkage part unit 17.It takes out Drawer includes a load-bearing part 1 and two slides 10, and slide 10 includes at least one and fixes the linking carrying rail member of rail member 12 and one of rail member 11, one 13.Fixed rail member 11 is fixed on two fixed parts 5, and two fixed parts 5 are, for example, the side plate of cabinet.Linking rail member 12 is slidably connected to solid Orbit determination part 11, carrying rail member 13 are slidably connected to linking rail member 12, and the both sides of load-bearing part 1 are respectively provided at two carryings of two slides 10 Rail member 13.In the present embodiment, drawer lockout member 1a uses three-sectional sliding-rail 10, but is not limited thereto, in other implementations In example, drawer lockout member can also use two-part slide.

Linkage part unit 17 includes at least two pinion stands 171, two linked gears 175 and a connecting rod 174, two pinion stands 171 also comprising two shaft seats 172 and two locating parts 173, and two locating parts 173 correspond to two shaft seats 172, and linked gear 175 is also Comprising a shaft 1751 and a teeth portion 1752,1751 rotating group of shaft is arranged on the shaft seat 172 of pinion stand 171.Two turns Axle bed 172 is up and down to be mounted on two pinion stands 171.174 both ends of connecting rod connect two linked gears 175, and two linked gears 175 are slided Two toothrow teeth 161 of two slide guide racks 16 of dynamic connection.

In the present embodiment, two pinion stands 171 of linkage part unit 17, two shaft seats 172, two locating parts 173 and two Linked gear 175 forms a limits device, makes two shaft seats 172 living about 171 in two pinion stands by two locating parts 173 No more than the height d1 of 175 teeth of linked gear, the height d1 of the teeth of linked gear 175 is equal to be interlocked dynamic distance d1 ' The teeth top radius R1 of gear 175 subtracts the teeth bottom radius r1 (d1=R1-r1) of linked gear 175, avoids interlocking whereby Two linked gears 175 of member unit 17 depart from two slide guide racks 16 when sliding.

In the present embodiment, one of two slide guide racks 16 and linkage part unit 17 are located at two fixed cells, another It is located at at least mobile unit that opposite two fixed cells slide.Fixation rail member 11 of the fixed cell comprising slide 10 is connected to The plate fixing piece of fixed rail member 11, side cabinet, the plate fixing piece for being connected to side cabinet, laminate and it is connected to laminate Plate fixing piece, mobile unit include two carrying rail members 13 of 1 and two slide 10 of load-bearing part, and load-bearing part 1 is located at two carrying rail members 13。

In the present embodiment, two locating parts 173 of linkage part unit 17 are two-screws, and two 16 symmetrical groups of slide guide racks are set In two fixed cells 15.Two fixed cells 15 are, for example, two plate fixing pieces, and are mounted on the two of two slides 10 and fix rail member 11 Bottom, two pinion stands 171 of linkage part unit 17 are mounted on the both sides of drawer backboard respectively.

In the present embodiment, teeth portion 16 ' is also gradually increased using same as forcing in one end of two slide guide racks 16 comprising one Walk device.Gradually increase teeth portion 16 ' include it is multiple gradually increase teeth 162,163,164, it is multiple continuously decrease teeth 165, 166.The gradual height h1 for increasing the teeth 161 that teeth portion 16 ' protrudes from slide guide rack is not more than the teeth of linked gear 175 Height d1, when drawer slides outward, one of them linked gear 175 first contacts the gradual of a slide guide rack 16 (on the left of such as Fig. 1 G) It stops operating after increasing teeth portion 16 ', is generated by two slide guide racks 16 of forcing synchronization device compared with two linked gears 175 Different meshing resistance effects, applying an external force, moment hales forward by drawer, and another linked gear 175 is forced to turn (on the right side of Fig. 1 G) It moves to contacting gradually increasing for another slide guide rack 16 and stops operating behind teeth portion 16 ' and a linked gear 175 (on the left of Fig. 1 G) It sets in synchronous regime group, is set by means of synchronization group, drawer is made not generate swag phenomenon in pull sliding process.

Refer to Fig. 2A to Fig. 2 G.Fig. 2A is the assembling figure of drawer lockout member.

Fig. 2 B are the decomposition diagram of drawer lockout member.Fig. 2 C are assembled in pinion stand for shaft seat and locating part decomposition is shown It is intended to.Fig. 2 D are the schematic diagram that linked gear is connected to slide guide rack.Fig. 2 E are the schematic diagram of the teeth of linked gear.Fig. 2 F are Linked gear is connected to the schematic diagram for gradually increasing teeth portion of slide guide rack one end.

Fig. 2 G are the assembling schematic diagram of the forcing synchronization device of linked gear.

The drawer lockout member 2a of the present embodiment includes a drawer, two slide guide racks 26 and a linkage part unit 27.It takes out Drawer includes a load-bearing part 2 and two slides 20, and slide 20 includes at least one and fixes the linking carrying rail member of rail member 22 and one of rail member 21, one 23.Fixed rail member 21 is fixed on two fixed parts 5, and two fixed parts 5 are, for example, the side plate of cabinet.Linking rail member 22 is slidably connected to solid Orbit determination part 21, carrying rail member 23 are slidably connected to linking rail member 22, and the both sides of load-bearing part 2 are respectively provided at two carryings of two slides 20 Rail member 23.In the present embodiment, drawer lockout member 2a uses three-sectional sliding-rail 20, but is not limited thereto, in other implementations In example, drawer lockout member can also use two-part slide.

Linkage part unit 27 includes at least two pinion stands 271, two linked gears 275 and a connecting rod 274, two pinion stands 271 also comprising two shaft seats 272 and two locating parts 273, and two locating parts 273 correspond to two shaft seats 272, and linked gear 275 is also Comprising a shaft 2751 and a teeth portion 2752,2751 rotating group of shaft is arranged on the shaft seat 272 of pinion stand 271.Two turns Axle bed 272 is up and down to be mounted on two pinion stands 271.274 both ends of connecting rod connect two linked gears 275, and two linked gears 275 are slided Two toothrow teeth 261 of two slide guide racks 26 of dynamic connection.

In the present embodiment, two pinion stands 271 of linkage part unit 27, two shaft seats 272, two locating parts 273 and two Linked gear 275 forms a limits device, makes two shaft seats 272 living about 271 in two pinion stands by two locating parts 273 No more than the height d2 of 275 teeth of linked gear, the height d2 of the teeth of linked gear 275 is equal to be interlocked dynamic distance d2 ' The teeth top radius R1 of gear 275 subtracts the teeth bottom radius r2 (d2=R2-r2) of linked gear 275, avoids interlocking whereby Two linked gears 275 of member unit 27 depart from two slide guide racks 26 when sliding.

In the present embodiment, two slide guide racks 26 and linkage part unit 27 therein one are located at two fixed cells, another It is located at at least mobile unit that opposite two fixed cells slide.Fixation rail member 21 of the fixed cell comprising slide 20 is connected to The plate fixing piece of fixed rail member 21, side cabinet, the plate fixing piece for being connected to side cabinet, laminate and it is connected to laminate Plate fixing piece, mobile unit include two carrying rail members 23 of 2 and two slide 20 of load-bearing part, and load-bearing part 2 is located at two carrying rail members 23。

The difference of the present embodiment and above-described embodiment is, two locating parts 273 of the linkage part unit 27 of the present embodiment It is two compression springs, two slide guide racks 26 are symmetrically mounted on drawer bottom both sides, and two pinion stands 271 of linkage part unit 27 divide Two fixed cells 25 are not mounted on.Fixed cell 25 is, for example, two plate fixing pieces, and two plate fixing pieces are mounted on two slides 20 Two front ends for fixing rail member 21 bottoms.

The rear end of two slide guide racks 26, which is equipped with, gradually increases teeth portion 26 ', under linked gear 275 after a mobile distance d2 It stops operating.

Specifically, teeth portion 26 ' is also gradually increased to be filled as forcing synchronization in one end of two slide guide racks 26 comprising one It puts.Gradually increase teeth portion 26 ' and gradually increase teeth 262,263 ... comprising multiple, gradually increase teeth portion 26 ' and protrude from slide guide The height h2 of the teeth 261 of rack no more than the teeth of linked gear 275 height d2, when drawer slides outward, therein one Linked gear 275 (such as Fig. 2 G on the left of) first contact a slide guide rack 26 gradually increase teeth portion 26 ' after stop operating, by strong The two slide guide racks 26 for compeling sychronisation generate different meshing resistances effects compared with two linked gears 275, and applying an external force will Drawer forward hale by moment, and another linked gear 275 is forced to turn to the gradual of another slide guide rack 26 of contact (on the right side of Fig. 2 G) Increase to stop operating behind teeth portion 26 ' and be set with a linked gear 275 (on the left of Fig. 2 G) in synchronous regime group, set by means of synchronization group, order Drawer will not generate swag phenomenon in pull sliding process.

Refer to Fig. 3 A to Fig. 3 G.Fig. 3 A are the assembling figure of drawer lockout member.Fig. 3 B are the decomposition of drawer lockout member Schematic diagram.Fig. 3 C are the decomposition diagram that shaft seat is assembled in pinion stand and locating part.Fig. 3 D are connected to slide guide for linked gear The schematic diagram of rack.Fig. 3 E are the schematic diagram of the teeth of linked gear.Fig. 3 F are connected to slide guide rack one end for linked gear Gradually increase the schematic diagram of teeth portion.Fig. 3 G are the assembling schematic diagram of the forcing synchronization device of linked gear.

The drawer lockout member 3a of the present embodiment includes a drawer, two slide guide racks 36 and a linkage part unit 37.It takes out Drawer includes a load-bearing part 3 and two slides 30, and slide 30 includes at least one and fixes the linking carrying rail member of rail member 32 and one of rail member 31, one 33.Fixed rail member 31 is fixed on two fixed parts 5, and two fixed parts 5 are, for example, the side plate of cabinet.Linking rail member 32 is slidably connected to solid Orbit determination part 31, carrying rail member 33 are slidably connected to linking rail member 32, and the both sides of load-bearing part 3 are respectively provided at two carryings of two slides 30 Rail member 33.In the present embodiment, drawer lockout member 3a uses three-sectional sliding-rail 30, but is not limited thereto, in other implementations In example, drawer lockout member can also use two-part slide.

Linkage part unit 37 includes at least two pinion stands 371, two linked gears 375 and a connecting rod 374, two pinion stands 371 also comprising two shaft seats 372 and two locating parts 373, and two locating parts 373 correspond to two shaft seats 372, and linked gear 375 is also Comprising a shaft 3751 and a teeth portion 3752,3751 rotating group of shaft is arranged on the shaft seat 372 of pinion stand 371.Two turns Axle bed 372 is up and down to be mounted on two pinion stands 371.374 both ends of connecting rod connect two linked gears 375, and two linked gears 375 are slided Two toothrow teeth 361 of two slide guide racks 36 of dynamic connection.

In the present embodiment, two pinion stands 371 of linkage part unit 37, two shaft seats 372, two locating parts 373 and two Linked gear 375 forms a limits device, makes two shaft seats 372 living about 371 in two pinion stands by two locating parts 373 No more than the height d3 of 375 teeth of linked gear, the height d3 of the teeth of linked gear 375 is equal to be interlocked dynamic distance d3 ' The teeth top radius R3 of gear 375 subtracts the teeth bottom radius r3 (d3=R3-r3) of linked gear 375, avoids interlocking whereby Two linked gears 375 of member unit 37 depart from two slide guide racks 36 when sliding.

In the present embodiment, two slide guide racks 36 and linkage part unit 37 therein one are located at two fixed cells, another It is located at at least mobile unit that opposite two fixed cells slide.Fixation rail member 31 of the fixed cell comprising slide 30 is connected to The plate fixing piece of fixed rail member 31, side cabinet, the plate fixing piece for being connected to side cabinet, laminate and it is connected to laminate Plate fixing piece, mobile unit include two carrying rail members 33 of 3 and two slide 30 of load-bearing part, and load-bearing part 3 is located at two carrying rail members 33。

The difference of the present embodiment and above-described embodiment is, two locating parts 373 of the linkage part unit 37 of the present embodiment It is two compression springs, two slide guide racks 36 are symmetrically mounted on the two of two slides 30 and fix rail members 31, and the two of linkage part unit 37 Pinion stand 371 is mounted on the rear end of two carrying rail members 31 of two slides 30 respectively, and two pinion stands 371 also include two elliptical apertures 331, two side rollers, 376 activity is mounted on two elliptical apertures 331, and the teeth of two side rollers 376 are highly identical to linked gear 375 Teeth height d3.Increase the depth of load-bearing part 3 whereby in this mandatory declaration the present embodiment in order to reduce the specification of linked gear So increase a side roller 376, naturally it is also possible to only use a linked gear 375.

In addition, the front end of two slide guide racks 36, which is equipped with, gradually increases teeth portion 36 ', another linked gear (right edge) 375 It stops operating after moving up a distance d3.

Specifically, teeth portion 36 ' is also gradually increased to be filled as forcing synchronization in one end of two slide guide racks 36 comprising one It puts.Gradually increase teeth portion 36 ' and gradually increase teeth 362,363 ... comprising multiple, gradually increase teeth portion 36 ' and protrude from slide guide The height h3 of the teeth 361 of rack no more than the teeth of linked gear 375 height d3, when drawer slides outward, therein one Linked gear 375 (such as Fig. 3 G on the left of) first contact a slide guide rack 36 gradually increase teeth portion 36 ' after stop operating, by strong The two slide guide racks 36 for compeling sychronisation generate different meshing resistances effects compared with two linked gears 375, and applying an external force will Drawer forward hale by moment, and another linked gear 375 is forced to turn to the gradual of another slide guide rack 36 of contact (on the right side of Fig. 3 G) Increase to stop operating behind teeth portion 36 ' and be set with a linked gear 375 (on the left of Fig. 3 G) in synchronous regime group, set by means of synchronization group, order Drawer will not generate swag phenomenon in pull sliding process.

The start principle of the drawer lockout member of the various embodiments described above is that, when drawer slides outward, therein one interlocks tooth Wheel contact slide guide rack gradually increases teeth portion, and can applying an external force, moment hales forward by drawer, by limiting device phase Two slide guide racks of forcing synchronization device are generated with different meshing resistance effects, contact is made gradually to increase the one of teeth portion and interlocks tooth Wheel stops operating, while another linked gear is forced to turn to stopping and is set with a linked gear in synchronous regime group, and group is set whereby, Drawer is made not generate swag phenomenon in pull sliding process.

It should be noted that the height h2 for gradually increasing teeth portion of two slide guide racks is high no more than the teeth of linked gear Spend h1.

According to the drawer lockout member of above-described embodiment, by installing lockout member additional in drawer, drawer is effectively solved in cunning Swag phenomenon is generated during dynamic.Group, which is set, whereby can widen (increasing) drawer, reduce the drawer quantity of multi-drawer cabinet body, reduce The usage quantity of slide (hardware), drawer side and side cabinet substantially reduces total production cost and the assembling of multi-drawer cabinet body Cost is a kind of environmentally friendly drawer hardware being worth promoting.Limiting device is set to avoid in lazy-tongs simultaneously mobile single Member departs from fixed cell.It is further set in one end of two slide guide racks and gradually increases teeth portion, it is relatively strong by limiting device The two slide guide racks for compeling sychronisation generate different meshing resistance effects, and a linked gear is made to stop operating, forces another gearing Gear turns to stopping and is set in synchronous regime group, and drawer is made not generate swag phenomenon in pull sliding process.

Certainly, the present invention can also have other various embodiments, without deviating from the spirit and substance of the present invention, ripe It knows those skilled in the art and makes various corresponding changes and deformation, but these corresponding changes and change in accordance with the present invention Shape should all belong to the protection domain of appended claims of the invention.

Claims (10)

1. a kind of drawer lockout member, which is characterized in that include：

One drawer, comprising a load-bearing part and two slides, each slide includes at least one and fixes rail member and a carrying rail member, this holds Carrier rail part is slidably connected to the fixation rail member, and the both sides of the load-bearing part are respectively provided at the two carryings rail member of two slide；And

Two slide guide racks and a linkage part unit, the linkage part unit include at least two pinion stands, two linked gears and one Connecting rod, the pinion stand is also comprising a shaft seat and a locating part, which corresponds to two shaft seat, and the linked gear is also Comprising a shaft and a teeth portion, which is arranged on the shaft seat of the pinion stand；Two shaft seat is living up and down It is dynamic to be mounted on two pinion stand；The connecting rod two end connects two linked gear, which is slidably connected the two slide guides tooth Two toothrow teeth of item；

Wherein, two pinion stand of the linkage part unit, two shaft seat, two locating part and two linked gear form one Limits device makes two shaft seat that can be not more than the gearing tooth in the up and down distance of two pinion stands by two locating part The height of the teeth of wheel, the teeth top radius for being highly equal to the linked gear of the teeth of the linked gear subtract this The teeth bottom radius of linked gear departs from this when two linked gear of the linkage part unit being avoided to slide whereby and two leads Slip teeth item.

2. drawer lockout member as described in claim 1, which is characterized in that the two slide guides rack and the linkage part unit its One of be located at two fixed cells, another at least mobile unit for being located at opposite two fixed cell and sliding；The fixed cell The fixation rail member comprising the slide, the plate fixing piece for being connected to the fixation rail member, are connected to the cabinet at one side cabinet Plate fixing piece, a laminate and plate fixing piece for being connected to the laminate of side plate, the mobile unit include the load-bearing part and The two carryings rail member of two slide, the load-bearing part are located at the two carryings rail member.

3. drawer lockout member as described in claim 1, which is characterized in that two locating part of the linkage part unit is two Screw, the two slide guides rack are symmetrically mounted on two fixed cells, which is mounted on two retaining rail of two slide The bottom of part, two pinion stand of the linkage part unit are mounted on the both sides of the drawer backboard respectively.

4. drawer lockout member as described in claim 1, which is characterized in that the slide is also comprising a linking rail member, the linking Rail member is slidably connected to the fixation rail member, which is slidably connected to the linking rail member.

5. drawer lockout member as described in claim 1, which is characterized in that two locating part of the linkage part unit is two Spring is compressed, which is symmetrically mounted on the drawer bottom both sides, two pinion stand difference of the linkage part unit Two fixed cell is mounted on, which is mounted on the front end of the two fixation rail members bottom of two slide.

6. drawer lockout member as described in claim 1, which is characterized in that two locating part of the linkage part unit is two Spring is compressed, which is symmetrically mounted on the two fixations rail member of two slide, two tooth of the linkage part unit Wheel seat is mounted on the rear end of the two carryings rail member of two slide respectively, and two pinion stand is also comprising two elliptical apertures, two linkings Wheel activity is mounted on two elliptical aperture, and the teeth of two side roller are highly identical to the teeth height of the linked gear.

7. drawer lockout member as described in claim 1, which is characterized in that the slide is also comprising a linking rail member, the linking Rail member is slidably connected to the fixation rail member, which is slidably connected to the linking rail member.

8. drawer lockout member as described in claim 1, which is characterized in that one end of the two slide guides rack is also gradual comprising one Increase teeth portion, this is gradually increased teeth portion and gradually increases teeth comprising multiple, this is gradually increased teeth portion and protrudes from the slide guide The height of the teeth of rack is no more than the height of the teeth of the linked gear, and when the drawer slides outward, one of them should Linked gear first contact the slide guide rack this gradually increase teeth portion after stop operating, by two linked gear compared with The two slide guides rack generates different meshing resistance effects, and applying an external force, moment hales forward by the drawer, forces another company Moving gear turn to another slide guide rack of contact this gradually increase teeth portion after stop operating with a linked gear in same Step state group is set, and is set by means of the synchronization group, the drawer is made not generate swag phenomenon in pull sliding process.

9. drawer lockout member as claimed in claim 5, which is characterized in that the front end of the two slide guides rack is equipped with this and gradually adds High teeth portion, another linked gear stop operating after moving up a distance.

10. drawer lockout member as described in claim 1, which is characterized in that the rear end of the two slide guides rack, which is equipped with, gradually to be added High teeth portion is stopped operating after a mobile distance under the linked gear.