CN2923323Y - Seal moving device for remote network signature machine - Google Patents

Abstract

The utility model discloses a stamp shift device of a remote network specimen signature machine and aims at providing with a stamp shift device of a specimen remote network signature machine which can be moved forward, back, left or right to adjust the stamp position and may be conveniently operated. The utility model comprises of a fixed frame (1), a longitudinal drive mechanism which is connected with the fixed frame (1) and concludes a longitudinal motor (6), a transverse drive mechanism which concludes a transverse motor (10), a traversing frame (12) and a stamp holding device (13) which is fixed on the traversing frame (12). The utility model can be extensively applied to the stamp administration field in all walks of life.

Description

The seal moving device of remote-network signature apparatus

Technical field

The utility model relates to a kind of seal moving device of remote-network signature apparatus.

Background technology

In daily socio-economic activity, files such as a lot of contracts, bill need be added a cover various seals.At present, mostly process with an official seal affixed is the method that the traditional craft of employing is firmly added a cover, this traditional method of affixing one's seal easily causes seal unintelligible because of uneven and ink paste skewness firmly, and the discriminating of seal is bothered, and often needs again with an official seal affixed or makes the file calcellation of affixing one's seal; In addition, affix one's seal by hand control and management to seal are bothered, seal is held and the custodian need carry seal or with seal be locked in oneself control the zone, like this, in case seal is held and the custodian not on seal next door, but when need be on file with an official seal affixed as early as possible, can cause temporal delay, even cause loss economically; And if seal is held and the custodian gives other personnel in advance with seal, be difficult to again seal is control effectively, in case some file can cause heavy economic losses to the seal owner without permission by with an official seal affixed privately.

At present, when also having occurred affixing one's seal on the market firmly evenly, the seal image machine of affixing one's seal clearly, Chinese patent notification number CN 2351283Y, the day for announcing is on December 1st, 1999, the title of innovation and creation is that " check signing machine " discloses a kind of such machine of affixing one's seal, its weak point is: the process of affixing one's seal is still manual operations, can not add a cover authority and operating position is effectively managed and controlled to seal; Its seal can only vertically move up and down, position at horizontal plane can not be moved adjustment all around, therefore can only affix one's seal to the file of fixed size and seal fixed-site, can not add a cover the different file in position to multiple file and seal affixes one's seal, its range of application is little, many for seal, add a cover file many enterprise and department, need a plurality of machines of affixing one's seal.

So existing technology has the following disadvantages: can not all around move and adjust seal position, inconvenient operation.

The utility model content

Technical problem to be solved in the utility model is the deficiency that overcomes on the prior art, provides a kind of and can move the seal moving device of adjusting seal position, easy to operate remote-network signature apparatus all around.

First kind of technical scheme that the utility model adopted is: the utility model comprises fixed support, vertical driving mechanism, transversal driving mechanism, traversing carriage, seal holder is fixed on the described traversing carriage, described vertical driving mechanism is connected with described fixed support, described vertical driving mechanism comprises vertical motor, and described transversal driving mechanism comprises cross motor.

Described vertical driving mechanism also comprises the I longitudinal rail, the II longitudinal rail, described I longitudinal rail, described II longitudinal rail is parallel to each other and is connected with described fixed support, the fixedly connected I gear of described vertical motor output shaft, described I longitudinal rail is smooth cylindrical, described II longitudinal rail is provided with guide-track groove and I tooth bar, described transversal driving mechanism also comprises two cross slide waies that are parallel to each other, the termination of two described cross slide waies respectively with the I end plate, the II end plate is fixedly connected, described I end plate is slidingly connected with described I longitudinal rail mutually by sliding sleeve, described II end plate is slidingly connected with described II longitudinal rail mutually by guide-track groove, described traversing carriage is slidingly connected with described cross slide way mutually by sliding sleeve, described vertical motor is fixedly connected on the described II end plate, described cross motor is fixedly connected on the described traversing carriage, described cross motor output shaft connects the II gear, described I end plate, be fixedly connected with the II tooth bar that parallels with described cross slide way on the described II end plate, described I gear is meshed with described I tooth bar, and described II gear is meshed with described II tooth bar.

The two ends of described I longitudinal rail, described II longitudinal rail are connected with described fixed support by the self adaptation guiding mechanism respectively, and described self adaptation guiding mechanism comprises bolt, spring.

Second kind of technical scheme that the utility model adopted is: the utility model comprises fixed support, vertical driving mechanism, transversal driving mechanism, traversing carriage, seal holder is fixed on the described traversing carriage, described vertical driving mechanism is connected with described fixed support, described vertical driving mechanism comprises vertical motor, and described transversal driving mechanism comprises cross motor.

Described vertical driving mechanism also comprises the I longitudinal rail, longitudinal leadscrew, described I longitudinal rail, described longitudinal leadscrew is parallel to each other and is connected with described fixed support, described vertical motor is fixedly connected on the described fixed support, described vertical motor output shaft and described longitudinal leadscrew are fixedly connected, described transversal driving mechanism also comprises cross slide way, horizontal leading screw, described I longitudinal rail, described cross slide way is smooth cylindrical, described cross slide way, described horizontal leading screw be parallel to each other and the termination respectively with the I end plate, the III end plate is connected, described cross motor is fixedly connected on the described III end plate, described cross motor output shaft and described horizontal leading screw are fixedly connected, described I end plate is slidingly connected with described I longitudinal rail mutually by sliding sleeve, described III end plate is by the thread bush transmission that matches with described longitudinal leadscrew, and described traversing carriage one side is slidingly connected with described cross slide way mutually by sliding sleeve, opposite side is by the thread bush transmission that matches with described horizontal leading screw.

The third technical scheme that the utility model adopted is: the utility model comprises fixed support, vertical driving mechanism, transversal driving mechanism, traversing carriage, seal holder is fixed on the described traversing carriage, described vertical driving mechanism is connected with described fixed support, described vertical driving mechanism comprises vertical motor, and described transversal driving mechanism comprises cross motor.

Described fixed support comprises two longerons, two crossbeams, described vertical driving mechanism also comprises two and described longeron parallel annular tooth belt, four III gears, two main shafts, four countershafts, described III rotary gear shaft is fixed in the two ends of described crossbeam, described vertical motor is fixedly connected on the described fixed support, described vertical motor output shaft and a described III gear are fixedly connected, two described main shafts be arranged in parallel, respectively there is a notch at the two ends of each described main shaft, be provided with in the described notch and the suitable tooth bar of described tooth belt, each described main shaft, each fixedly connected rolling bearing of the two ends of each described countershaft, at described main shaft, in the both sides of described bearing an extension spring is set respectively on the described countershaft, described main shaft, the described longeron of the corresponding clamping of described bearing that is provided with in pairs on the described countershaft, described transversal driving mechanism also comprises the III tooth bar, the IV gear, described traversing carriage is slidingly connected mutually with described main shaft, described cross motor is fixedly connected on the described main shaft, described III tooth bar is fixedly set on the described traversing carriage, described cross motor output shaft connects the IV gear, and described IV gear is meshed with described III tooth bar.

The beneficial effects of the utility model are: because the utility model comprises fixed support, vertical driving mechanism, transversal driving mechanism, traversing carriage, seal holder is fixed on the described traversing carriage, described vertical driving mechanism is connected with described fixed support, therefore no matter adopt vertical driving mechanism of which kind of structure, transversal driving mechanism all can drive seal holder and vertically and laterally move in level together with seal, the physical location that can affix one's seal is as required adjusted the position of seal freely, adjusts seal position so the utility model can move all around, easy to operate;

Because the two ends of I longitudinal rail described in the utility model, described II longitudinal rail are connected with described fixed support by the self adaptation guiding mechanism respectively, described self adaptation guiding mechanism comprises bolt, spring, the process of affixing one's seal downwards, the self adaptation guiding mechanism can be according to the stressed variation of all directions, adjust stress balance, reach flexible operation, thus the utlity model has the self-protection effect;

Because no matter the utility model is to adopt gear-tooth bar transmission, still lead screw transmission, or be the tooth belt transmission all can satisfy the accuracy requirement of seal shift position, thus the utility model adjustment seal position accurate, be difficult for makeing mistakes.

Description of drawings

Fig. 1 is the structural representation of the utility model embodiment one;

Fig. 2 is the structural representation at the utility model embodiment one another visual angle;

Fig. 3 is the local structure for amplifying schematic diagram in the A place of the utility model embodiment one shown in Figure 1;

Fig. 4 is the structural representation of the utility model embodiment two;

Fig. 5 is the structural representation at the utility model embodiment two another visual angles;

Fig. 6 is the structural representation of the utility model embodiment three;

Fig. 7 is the structural representation at the utility model embodiment three another visual angles;

Fig. 8 is the structural representation that the utility model embodiment three looks up the visual angle.

The specific embodiment

Embodiment one:

As Fig. 1, Fig. 2, shown in Figure 3, the utility model comprises fixed support 1, vertical driving mechanism, transversal driving mechanism, traversing carriage 12, seal holder 13 is fixed on the described traversing carriage 12, described vertical driving mechanism is connected with described fixed support 1, described vertical driving mechanism comprises vertical motor 6, I longitudinal rail 2, II longitudinal rail 4, described I longitudinal rail 2, described II longitudinal rail 4 is parallel to each other and is connected with described fixed support 1, the fixedly connected I gear 7 of described vertical motor 6 output shafts, described I longitudinal rail 2 is smooth cylindrical, and described II longitudinal rail 4 is provided with guide-track groove and I tooth bar 5.

Described transversal driving mechanism comprises cross motor 10, two smooth cylindrical cross slide waies 8 that are parallel to each other, the termination of two described cross slide waies 8 respectively with I end plate 3, II end plate 14 is fixedly connected, described I end plate 3 is slidingly connected with described I longitudinal rail 2 mutually by sliding sleeve, described II end plate 14 is slidingly connected with described II longitudinal rail 4 mutually by guide-track groove, described traversing carriage 12 is slidingly connected with described cross slide way 8 mutually by sliding sleeve, described vertical motor 6 is fixedly connected on the described II end plate 14, described cross motor 10 is fixedly connected on the described traversing carriage 12, described cross motor 10 output shafts connect II gear 11, described I end plate 3, be fixedly connected with the II tooth bar 9 that parallels with described cross slide way 8 on the described II end plate 14, described I gear 7 is meshed with described I tooth bar 5, and described II gear 11 is meshed with described II tooth bar 9.

The two ends of described I longitudinal rail 2, described II longitudinal rail 4 are connected with described fixed support 1 by the self adaptation guiding mechanism respectively, described self adaptation guiding mechanism comprises bolt 15, spring 16, stress balance when affixing one's seal in order to adjusting, buffering is affixed one's seal to the impulsive force of the utility model device.

Present embodiment comes down to adjust by gear-tooth bar transmission the position of seal, can satisfy the accuracy requirement of seal shift position, and seal moves adjustment fast, conveniently, reliably.

Embodiment two:

As Fig. 4, shown in Figure 5, present embodiment comprises fixed support 1, vertical driving mechanism, transversal driving mechanism, traversing carriage 12, seal holder 13 is fixed on the described traversing carriage 12, described vertical driving mechanism is connected with described fixed support 1, described vertical driving mechanism comprises vertical motor 6, I longitudinal rail 2, longitudinal leadscrew 17, described I longitudinal rail 2, described longitudinal leadscrew 17 is parallel to each other and is connected with described fixed support 1, described vertical motor 6 is fixedly connected on the described fixed support 1, and described vertical motor 6 output shafts and described longitudinal leadscrew 17 are fixedly connected.

Described transversal driving mechanism comprises cross motor 10, cross slide way 8, horizontal leading screw 19, described I longitudinal rail 2, described cross slide way 8 is smooth cylindrical, described cross slide way 8, described horizontal leading screw 19 be parallel to each other and the termination respectively with I end plate 3, III end plate 18 is connected, described cross motor 10 is fixedly connected on the described III end plate 18, described cross motor 10 output shafts and described horizontal leading screw 19 are fixedly connected, described I end plate 3 is slidingly connected with described I longitudinal rail 2 mutually by sliding sleeve, described III end plate 18 is by the thread bush transmission that matches with described longitudinal leadscrew 17, and described traversing carriage 12 1 sides are slidingly connected with described cross slide way 8 mutually by sliding sleeve, opposite side is by the thread bush transmission that matches with described horizontal leading screw 19.

Present embodiment comes down to adjust by lead screw transmission the position of seal, can satisfy the accuracy requirement of seal shift position, and seal moves adjustment fast, conveniently, reliably.

Embodiment three:

As Fig. 6, Fig. 7, shown in Figure 8, present embodiment comprises fixed support 1, vertical driving mechanism, transversal driving mechanism, traversing carriage 12, seal holder 13 is fixed on the described traversing carriage 12, described vertical driving mechanism is connected with described fixed support 1, described fixed support 1 comprises two longerons 20, two crossbeams 21, described vertical driving mechanism comprises vertical motor 6, article two, with described longeron 20 parallel annular tooth belts 23, four III gears 22, two main shafts 25, four countershafts 26, the two ends of described crossbeam 21 are fixed in described III gear 22 rotating shafts, described vertical motor 6 is fixedly connected on the described fixed support 1, described vertical motor 6 output shafts and a described III gear 22 are fixedly connected, two described main shafts 25 be arranged in parallel, respectively there is a notch at the two ends of each described main shaft 25, be provided with the tooth bar suitable in the described notch with described tooth belt 23, each described main shaft 25, each fixedly connected rolling bearing 24 of the two ends of each described countershaft 26, at described main shaft 25, in the both sides of described bearing 24 extension spring 27 is set respectively on the described countershaft 26, described main shaft 25, the described longeron 20 of described bearing 24 corresponding clampings that is provided with in pairs on the described countershaft 26.

Described transversal driving mechanism comprises cross motor 10, III tooth bar 28, IV gear 29, described traversing carriage 12 is slidingly connected mutually with described main shaft 25, described cross motor 10 is fixedly connected on the described main shaft 25, described III tooth bar 28 is fixedly set on the described traversing carriage 12, described cross motor 10 output shafts connect IV gear 29, and described IV gear 29 is meshed with described III tooth bar 28.

Present embodiment comes down to adjust by tooth belt transmission and gear one tooth bar transmission the position of seal, can satisfy the accuracy requirement of seal shift position, and seal moves adjustment fast, conveniently, reliably.

Vertical driving mechanism, described transversal driving mechanism all can have various variation structures described in the utility model, are not limited only to the particular case among the embodiment.

The utility model can be widely used in every profession and trade seal management domain.

Under the situation that does not break away from the present utility model thought, all application the utility model specifications and accompanying drawing content and the various equivalences of being done change, and all reason is with being contained in the claim scope of the present utility model.

Claims (5)

1, a kind of seal moving device of remote-network signature apparatus, comprise fixed support (1), it is characterized in that: it also comprises vertical driving mechanism, transversal driving mechanism, traversing carriage (12), seal holder (13) is fixed on the described traversing carriage (12), described vertical driving mechanism is connected with described fixed support (1), described vertical driving mechanism comprises vertical motor (6), and described transversal driving mechanism comprises cross motor (10).

2, the seal moving device of remote-network signature apparatus according to claim 1, it is characterized in that: described vertical driving mechanism also comprises I longitudinal rail (2), II longitudinal rail (4), described I longitudinal rail (2), described II longitudinal rail (4) is parallel to each other and is connected with described fixed support (1), the fixedly connected I gear of described vertical motor (6) output shaft (7), described I longitudinal rail (2) is smooth cylindrical, described II longitudinal rail (4) is provided with guide-track groove and I tooth bar (5), described transversal driving mechanism also comprises two cross slide waies that are parallel to each other (8), the termination of two described cross slide waies (8) respectively with I end plate (3), II end plate (14) is fixedly connected, described I end plate (3) is slidingly connected with described I longitudinal rail (2) mutually by sliding sleeve, described II end plate (14) is slidingly connected with described II longitudinal rail (4) mutually by guide-track groove, described traversing carriage (12) is slidingly connected with described cross slide way (8) mutually by sliding sleeve, described vertical motor (6) is fixedly connected on the described II end plate (14), described cross motor (10) is fixedly connected on the described traversing carriage (12), described cross motor (10) output shaft connects II gear (11), described I end plate (3), be fixedly connected with the II tooth bar (9) that parallels with described cross slide way (8) on the described II end plate (14), described I gear (7) is meshed with described I tooth bar (5), and described II gear (11) is meshed with described II tooth bar (9).

3, the seal moving device of remote-network signature apparatus according to claim 2, it is characterized in that: the two ends of described I longitudinal rail (2), described II longitudinal rail (4) are connected with described fixed support (1) by the self adaptation guiding mechanism respectively, and described self adaptation guiding mechanism comprises bolt (15), spring (16).

4, the seal moving device of remote-network signature apparatus according to claim 1, it is characterized in that: described vertical driving mechanism also comprises I longitudinal rail (2), longitudinal leadscrew (17), described I longitudinal rail (2), described longitudinal leadscrew (17) is parallel to each other and is connected with described fixed support (1), described vertical motor (6) is fixedly connected on the described fixed support (1), described vertical motor (6) output shaft and described longitudinal leadscrew (17) are fixedly connected, described transversal driving mechanism also comprises cross slide way (8), horizontal leading screw (19), described I longitudinal rail (2), described cross slide way (8) is smooth cylindrical, described cross slide way (8), described horizontal leading screw (19) be parallel to each other and the termination respectively with I end plate (3), III end plate (18) is connected, described cross motor (10) is fixedly connected on the described III end plate (18), described cross motor (10) output shaft and described horizontal leading screw (19) are fixedly connected, described I end plate (3) is slidingly connected with described I longitudinal rail (2) mutually by sliding sleeve, described III end plate (18) is by the thread bush transmission that matches with described longitudinal leadscrew (17), and described traversing carriage (12) one sides are slidingly connected with described cross slide way (8) mutually by sliding sleeve, opposite side is by the thread bush transmission that matches with described horizontal leading screw (19).

5, the seal moving device of remote-network signature apparatus according to claim 1, it is characterized in that: described fixed support (1) comprises two longerons (20), two crossbeams (21), described vertical driving mechanism also comprises two and described longeron (20) parallel annular tooth belt (23), four III gears (22), two main shafts (25), four countershafts (26), the two ends of described crossbeam (21) are fixed in described III gear (22) rotating shaft, described vertical motor (6) is fixedly connected on the described fixed support (1), described vertical motor (a 6) output shaft and a described III gear (22) are fixedly connected, two described main shafts (25) be arranged in parallel, respectively there is a notch at the two ends of each described main shaft (25), be provided with in the described notch and the suitable tooth bar of described tooth belt (23), each described main shaft (25), each fixedly connected rolling bearing (24) of the two ends of each described countershaft (26), in described main shaft (25), described countershaft (26) is gone up and in the both sides of described bearing (24) extension spring (27) is set respectively, described main shaft (25), described countershaft (26) is gone up the described longeron of the corresponding clamping of described bearing (24) (20) that is provided with in pairs, described transversal driving mechanism also comprises III tooth bar (28), IV gear (29), described traversing carriage (12) is slidingly connected mutually with described main shaft (25), described cross motor (10) is fixedly connected on the described main shaft (25), described III tooth bar (28) is fixedly set on the described traversing carriage (12), described cross motor (10) output shaft connects IV gear (29), and described IV gear (29) is meshed with described III tooth bar (28).

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