CN104647923A - Seal - Google Patents

Abstract

The invention discloses a seal. The seal comprises a shell, a handle slidingly mounted in the shell, a connecting shaft mounted on the handle, and a moving piece rotationally mounted on the connecting shaft, wherein the connecting shaft and the moving piece are accommodated in the shell; the moving piece comprises a seal head carrier and a gear; multiple seal heads are arranged on the seal head carrier; the shell comprises multiple transmission plates and multiple keys; each of the transmission plates is provided with a rack; each of the racks can rotate between a first position and a second position under the driving of the keys; when the transmission plates are located in the first position, the gear and the racks are staggered without being engaged; when the transmission plates are located in the second position, the gear and the racks are aligned and engaged; and when the transmission plates with a different number are located in the second position, and the handle slides in the shell, the racks on the corresponding transmission plates can be engaged to the gear, and can enable the gear to rotate so as to move different seal heads of the seal head carrier to a sealing position.

Description

Seal

Technical field

The present invention relates to a kind of office accommodation, particularly relate to a kind of seal apparatus.

Background technology

In routine duties, seal is one of a kind of conventional office accommodation, often uses rendering an account, when signing documents, because existing seal only has one to print head mostly, needing to use multiple seal when covering multiple chapter, being not easy to find and carry, bringing unnecessary trouble to the use of people.

Summary of the invention

In view of above content, be necessary to provide a kind of and there is many print head structures and can the seal of flexible conversion print head.

A kind of seal, comprise a shell, one handle be slidably installed in the housing, one connecting axle and be arranged on described handle is rotatably installed in the movable part on described connecting axle, described connecting axle and the collecting of described movable part are in the housing, described movable part comprises a print head carrier and a gear, described print head carrier is provided with some print heads, described shell includes some driver plates and some buttons, each driver plate is provided with a tooth bar, each tooth bar all can rotate under the drive of described button between a primary importance and a second place, when described driver plate is in described primary importance, described gear staggers with described tooth bar and does not engage, when described driver plate is in the described second place, described gear aligns with described tooth bar and engages, when the driver plate of varying number is in the described second place, when described handle slides in the housing, tooth bar on corresponding driver plate can allow described pinion rotation with described gears meshing, thus the different print head of described print head carrier is moved to one and to affix one's seal position.

Preferably, described tooth bar is positioned at described driver plate lower end and towards described shell, described driver plate upper end is provided with two limiting plates be parallel to each other, and each limiting plate is provided with a spacing hole, and a gag lever post makes described driver plate turning set be located on described gag lever post through described spacing hole.

Preferably, a resettlement section is formed between described two limiting plates, between described two limiting plates, a flexure strip is installed, described flexure strip comprises one first shell fragment, one second shell fragment and a junction, described connecting portion is contained in described resettlement section, described first shell fragment and described second shell fragment elasticity are connected to described connecting portion, and described second shell fragment is resisted against on described driver plate, and described gag lever post makes described flexure strip be set on described gag lever post through described connecting portion.

Preferably, the side plate of described shell is provided with one in order to accommodate the installation portion of described driver plate and described flexure strip, the parallel described side plate direction of described installation portion is provided with one and supports only plate, described first shell fragment is resisted against described supporting and stops on plate, be provided with two through holes be connected with described installation portion along described side plate bearing of trend, described gag lever post two ends are fixed in described through hole.

Preferably, be provided with a projection outside described side plate, described projection is provided with a recess near described side plate direction, and described projection is provided with some jacks, described jack is connected with described recess by a connector, and described button inserts in described jack and described button can slide up and down along described jack.

Preferably, described button comprises a body, a plate and an action bars, described body is housed in described recess, described body lower end can be resisted against on described driver plate, described action bars is housed in described jack, described connecting plate through in described connector and described body and described action bars linked together by described connecting plate.

Preferably, described action bars is provided with a convex closure and a positive stop hook, described action bars elastically deformable makes described projection be contained in described jack, described jack lower end outside described projection is provided with a chute, described positive stop hook to be housed in described chute and can to slide up and down along described chute, and described positive stop hook departs from from described jack in order to prevent described button.

Preferably, described side plate is provided with one for accommodating the opening of described tooth bar below described installation portion, when described driver plate is in described primary importance, described convex closure departs from described jack, described flexure strip because of elastic force make described first shell fragment and described second shell fragment mutually away from, described body is upward sliding under elastic force effect, and described second shell fragment is resisted against on described driver plate and makes described driver plate remain on described primary importance, and described tooth bar departs from described opening; When described driver plate is in the described second place, press described button downwards, described action bars elastic deformation makes described convex closure to be placed in described jack and offsets with described jack inwall, by the frictional force of described convex closure and described jack inwall, described convex closure is positioned in described jack, and prevent described button from moving, described body slide downward also promotes described driver plate and turns to the described second place to described shell direction, thus described tooth bar is contained in described opening.

Preferably, described print head is evenly arranged on described print head carrier, described gear is fixedly connected on described print head carrier lower end, described movable part is provided with the accepting hole of a through described print head carrier and described gear, and described connecting axle is rotatably installed in described accepting hole and described movable part can be rotated around described connecting axle.

Preferably, one end of described handle is provided with two and is arranged above and below and the support chip be parallel to each other, the installation region of the described movable part of a collecting is formed between described two support chips, described support chip is respectively provided with a connecting hole away from described handle one end, and described connecting axle is through described two connecting holes and described connecting axle two ends are fixed in described connecting hole; Described support chip is respectively provided with a fixing hole near described handle one end, and described fixed axis passes and is fixed in described two fixing holes.

Compared to prior art, the print head carrier of described seal has and prints head structure more, and makes many heads that print change and facilitate by coordinating of described gear and described tooth bar, significantly can reduce the quantity of described seal, solve the problem that many seals are difficult to carry.

Accompanying drawing explanation

Fig. 1 is a three-dimensional exploded view of a preferred embodiment of seal of the present invention.

Fig. 2 is a stereogram of the button of seal in Fig. 1, driver plate, flexure strip and a gag lever post.

Fig. 3 is another view stereo figure of a shell of seal in Fig. 1.

Fig. 4 is a three-dimensional assembly diagram of seal in Fig. 1.

Fig. 5 is the sectional view of the seal in Fig. 4 along hatching V-V, and wherein said tooth bar is all in described primary importance.

Fig. 6 is another three-dimensional assembly diagram of the seal of Fig. 1.

Fig. 7 is the schematic diagram of a gear of the seal of Fig. 6 when coordinating with some tooth bars.

Fig. 8 is the sectional view of the seal in Fig. 6 along hatching VIII-VIII, and wherein said tooth bar is all in the described second place.

Fig. 9 is the schematic diagram that the tooth bar of the seal of Fig. 7 arrives when affixing one's seal position when being all in the second place.

Main element symbol description

Handle	10
		Support chip	11
Connecting hole	111
		Installation region	112
Fixing hole	113
		Connecting axle	30
Movable part	40
		Print head carrier	41
Print head	410
		First print head	411
Gear	42
		Accepting hole	43
Button	50
		Body	51
Connecting plate	52
		Action bars	53
Convex closure	531
		Positive stop hook	532
Driver plate	60
		Tooth bar	61
Limiting plate	62
		Spacing hole	621
Resettlement section	64
		Flexure strip	70
First shell fragment	71
		Second shell fragment	72
Connecting portion	73
		Gag lever post	80
Shell	90
		Upper plate	91
First guiding groove	911
		Lower plate	92
Second guiding groove	921
		Side plate	93
Installation portion	931
		Through hole	9311
Support only plate	932
		Projection	933
Recess	9331
		Jack	9332
Connector	9333
		Chute	9334
Opening	934
		Receiving space	94
Seal	100

Following detailed description of the invention will further illustrate the present invention in conjunction with above-mentioned accompanying drawing.

Detailed description of the invention

Refer to Fig. 1, in a better embodiment of the present invention, a kind of seal 100 comprises leader 10, fixed axis 20, connecting axle 30, movable part 40, some buttons 50, some driver plates 60, some flexure strips 70, gag lever post 80 and a shell 90.

One end of described handle 10 is provided with and is arranged above and below and two support chips 11 be parallel to each other, and each support chip 11 is respectively provided with connecting hole 111 and a fixing hole 113, forms an installation region 112 between described two support chips 11.

Described fixed axis 20 can be fixed on this in two fixing holes 113 of support chip 11, and described connecting axle 30 can be fixed on this in two connecting holes 111 of support chip 11.

Described movable part 40 comprises print head carrier 41 and a gear 42, described gear 42 is fixedly connected on the lower end of described print head carrier 41, described print head carrier 41 is a polyhedron, some prints 410 are arranged on each face of described print head carrier 41, and described movable part 40 is provided with an accepting hole 43 of a through described print head carrier 41 and described gear 42.

Refer to Fig. 1 and Fig. 2, each button 50 comprises a body 51, a plate 52 and an action bars 53, and described action bars 53 is provided with convex closure 531 and a positive stop hook 532, and described body 51 is connected by described connecting plate 52 with described action bars 53.Each driver plate 60 lower end is provided with a tooth bar 61, described tooth bar 61 is towards described shell 90 direction, described driver plate 60 upper end is provided with two limiting plates be parallel to each other 62, each limiting plate 62 is provided with a spacing hole 621, a resettlement section 64 is formed between described two limiting plates 62, each flexure strip 70 comprises one first shell fragment 71, one second shell fragment 72 and a junction 73, described connecting portion 73 is contained in described resettlement section 64, described first shell fragment 71 and described second shell fragment 72 elasticity are connected to described connecting portion 73, described second shell fragment 72 is resisted against on described driver plate 60, described gag lever post 80 passes the spacing hole 621 of described connecting portion 73 and described driver plate 60, described driver plate 60 and described flexure strip 70 are set on described gag lever post 80.

Refer to Fig. 1 and Fig. 4, described shell 90 comprises upper plate 91, lower plate 92 and a biside plate 93.Described upper plate 91 and described lower plate 92 are parallel to each other, described biside plate 93 is parallel to each other and perpendicular to described upper plate 91 and described lower plate 92, described upper plate 91, described lower plate 92 and described biside plate 93 surround a receiving space 94 jointly, described upper plate 91 offers one first guiding groove 911, the bearing of trend of described first guiding groove 911 is a straight line, described lower plate 92 is offered one second guiding groove 921, the bearing of trend of described second guiding groove 921 is a straight line, described first guiding groove 911 and described second guiding groove 921 arranged in parallel, described side plate 93 is provided with an installation portion 931, parallel described side plate 93 direction of described installation portion 931 is provided with one and supports only plate 932, two through holes 9311 be connected with described installation portion 931 are provided with along described side plate 93 bearing of trend, described first shell fragment 71 can be resisted against described supporting and stop on plate 932, described side plate 93 is provided with one in order to accommodate the opening 934 of described tooth bar 61 below described installation portion 931, a projection 933 is provided with outside described side plate 93, described projection 933 is provided with a recess 9331 near described side plate 93 direction, described projection 933 is provided with some jacks 9332, each jack 9332 is connected with described recess 9331 by a connector 9333, each jack 9332 lower end outside described projection 933 is provided with a chute 9334.

See also Fig. 1 to Fig. 4, during assembling, described movable part 40 to be positioned in described installation region 112 and the accepting hole 43 of described movable part 40 is alignd with described connecting hole 111, described connecting axle 30 is passed successively from described connecting hole 111 and described accepting hole 43, described connecting axle 30 two ends are fixed in described connecting hole 111, thus are rotatably installed in described connecting axle 30 by described movable part 40; Described handle 10, described connecting axle 30 and described movable part 40 are put into described receiving space 94, described fixing hole 113 is alignd with described first guiding groove 911 and described second guiding groove 921, allow described fixed axis 20 penetrate in described fixing hole 113 and make described fixed axis 20 be fixed in described fixing hole 113, described fixed axis 20 can slide in described first guiding groove 911 and described second guiding groove 921.

The connecting portion 73 of each flexure strip 70 is positioned in the resettlement section 64 of each driver plate 60, described second shell fragment 72 is resisted against on described driver plate 60, described driver plate 60 and described flexure strip 70 to be positioned in described installation portion 931 and described tooth bar 61 towards described shell 90, penetrated successively by described gag lever post 80 until all described driver plates 60 and described flexure strip 70 are all set in described gag lever post 80 in described through hole 9311, described spacing hole 621 and described connecting portion 73, described gag lever post 80 two ends are fixed in described two through hole 9311; The action bars 53 of described button 50 is inserted in described jack 9332, the elastic deformation of described positive stop hook 532 is passed described jack 9332 and is contained in described chute 9334, described body 51 to be contained in described recess 9331 and to offset with described driver plate 60, described body 51 links together with described action bars 53 through described connector 9333 by described connecting plate 52, described button 50 can slide up and down along described jack 9332, described positive stop hook 532 can slide up and down along described chute 9334, and each button 50 is corresponding with each driver plate 60.

Refer to Fig. 4 and Fig. 5, when needs use first prints 411, do not press arbitrary button 50, described flexure strip 70 because of elastic force effect make described first shell fragment 71 and described second shell fragment 72 mutually away from, described second shell fragment 72 is resisted against on described driver plate 60 and makes described driver plate 60 remain on a primary importance, then described tooth bar 61 does not all engage with described gear 42, described handle 10 is promoted in described receiving space 94, described fixed axis 20 is forward slip in described first guiding groove 911 and described second guiding groove 921, thus drive described movable part 40 to move forward, until the first print 411 of described movable part 40 is pushed out described receiving space 94 and arrives one and to affix one's seal position, namely now available described first print 411 is affixed one's seal.

Refer to Fig. 6 to Fig. 9, when needs use other prints 410, the print angle that 410 needs rotate used as required, lower plate 92 direction to described shell 90 promotes the action bars 53 of the button 50 of corresponding number, make described body 51 promote described driver plate 60 and turn to a second place, described flexure strip 70 is elastically compressed simultaneously, the convex closure 531 of described action bars 53 enters in described jack 9332 because of the elastic deformation of described action bars 53, the convex closure 531 of described action bars 53 tightly offsets with the inwall of described jack 9332, by the frictional force between described jack 9332 inwall and described convex closure 531, thus described convex closure 531 is positioned in described jack 9332, and prevent described button 50 because of the elastic force upward sliding of described flexure strip 70, now described tooth bar 61 is contained in described opening 934, described tooth bar 61 aligns with described gear 42.Promote described handle 10, described fixed axis 20 slides in described first guiding groove 911 and described second guiding groove 921, after described handle 10 moves a segment distance, described gear 42 and described tooth bar 61 engage and described gear 42 are rotated thus drives described print head carrier 41 to rotate corresponding angle thus corresponding print 410 is turned to described first to print 411 original position, described gear 42 just in time departs from described tooth bar 61 and allows described print head carrier 41 stop operating, be pushed out described receiving space 94 when certain print 410 of described movable part 40 and affix one's seal described in arriving position time, namely now available described print 410 is affixed one's seal.

Upper plate 91 direction to described shell 90 pulls described action bars 53 until described convex closure 531 departs from described jack 9332, and described flexure strip 70 elasticity is recovered and driver plate 60 and described button 50 are moved to original position.

Compared to prior art, the print head carrier 41 of described seal 100 has many prints 410 structure, and make manyly print 410 and change and facilitate by coordinating of described gear 42 and described tooth bar 61, significantly can reduce the quantity of described seal 100, solve the problem that many seals 100 are difficult to carry.

Claims (10)

1. a seal, comprise the handle that a shell and is slidably installed in the housing, it is characterized in that: described seal also comprises a connecting axle and be arranged on described handle and is rotatably installed in movable part on described connecting axle, described connecting axle and the collecting of described movable part are in the housing, described movable part comprises a print head carrier and a gear, described print head carrier is provided with some print heads, described shell includes some driver plates and some buttons, each driver plate is provided with a tooth bar, each driver plate all can rotate under the drive of described button between a primary importance and a second place, when described driver plate is in described primary importance, described gear staggers with described tooth bar and does not engage, when described driver plate is in the described second place, described gear aligns with described tooth bar and engages, when the driver plate of varying number is in the described second place, when described handle slides in the housing, tooth bar on corresponding driver plate can allow described pinion rotation with described gears meshing, thus the different print head of described print head carrier is moved to one and to affix one's seal position.

2. seal as claimed in claim 1, it is characterized in that: described tooth bar is positioned at described driver plate lower end and towards described shell, described driver plate upper end is provided with two limiting plates be parallel to each other, each limiting plate is provided with a spacing hole, and a gag lever post makes described driver plate turning set be located on described gag lever post through described spacing hole.

3. seal as claimed in claim 2, it is characterized in that: between described two limiting plates, form a resettlement section, between described two limiting plates, a flexure strip is installed, described flexure strip comprises one first shell fragment, one second shell fragment and a junction, described connecting portion is contained in described resettlement section, described first shell fragment and described second shell fragment elasticity are connected to described connecting portion, described second shell fragment is resisted against on described driver plate, and described gag lever post makes described flexure strip be set on described gag lever post through described connecting portion.

4. seal as claimed in claim 3, it is characterized in that: the side plate of described shell is provided with one in order to accommodate the installation portion of described driver plate and described flexure strip, the parallel described side plate direction of described installation portion is provided with one and supports only plate, described first shell fragment is resisted against described supporting and stops on plate, be provided with two through holes be connected with described installation portion along described side plate bearing of trend, described gag lever post two ends are fixed in described through hole.

5. seal as claimed in claim 4, it is characterized in that: outside described side plate, be provided with a projection, described projection is provided with a recess near described side plate direction, described projection is provided with some jacks, described jack is connected with described recess by a connector, and described button inserts in described jack and described button can slide up and down along described jack.

6. seal as claimed in claim 5, it is characterized in that: described button comprises a body, a plate and an action bars, described body is housed in described recess, described body lower end can be resisted against on described driver plate, described action bars is housed in described jack, and described connecting plate passes described connector and described body and described action bars are linked together by described connecting plate.

7. seal as claimed in claim 6, it is characterized in that: each action bars is provided with a convex closure and a positive stop hook, described action bars elastically deformable makes described projection be contained in described jack, described jack lower end outside described projection is provided with a chute, described positive stop hook to be housed in described chute and can to slide up and down along described chute, and described positive stop hook departs from from described jack in order to prevent described button.

8. seal as claimed in claim 7, it is characterized in that: described side plate is provided with one for accommodating the opening of described tooth bar below described installation portion, when described driver plate is in described primary importance, described convex closure departs from described jack, described flexure strip because of elastic force make described first shell fragment and described second shell fragment mutually away from, described body is upward sliding under elastic force effect, described second shell fragment is resisted against on described driver plate and makes described driver plate remain on described primary importance, and described tooth bar departs from described opening; When described driver plate is in the described second place, press described button downwards, described action bars elastic deformation makes described convex closure to be placed in described jack and offsets with described jack inwall, by the frictional force of described convex closure and described jack inwall, described convex closure is positioned in described jack, and prevent described button from moving, described body slide downward also promotes described driver plate and turns to the described second place to described shell direction, thus described tooth bar is contained in described opening.

9. seal as claimed in claim 1, it is characterized in that: described print head is evenly arranged on described print head carrier, described gear is fixedly connected on described print head carrier lower end, described movable part is provided with the accepting hole of a through described print head carrier and described gear, and described connecting axle is rotatably installed in described accepting hole and described movable part can be rotated around described connecting axle.

10. seal as claimed in claim 9, it is characterized in that: one end of described handle is provided with two and is arranged above and below and the support chip be parallel to each other, the installation region of the described movable part of a collecting is formed between described two support chips, described support chip is respectively provided with a connecting hole away from described handle one end, and described connecting axle is through described two connecting holes and described connecting axle two ends are fixed in described connecting hole; Described support chip is respectively provided with a fixing hole near described handle one end, and described fixed axis passes and is fixed in described two fixing holes.