Disclosure of Invention
The utility model aims at providing an ink horn turning device through the setting of centre gripping and upset action, can realize the upset action of ink horn subassembly, and control process is comparatively simple, is favorable to the long-term use of equipment.
The utility model provides a technical scheme as follows:
an ink box turnover device comprises a base, wherein a placement component for placing an ink box component is arranged on the base; the placing assembly comprises a fixed baffle, a sliding baffle and a plurality of rolling shafts, wherein one end of each rolling shaft is arranged on the fixed baffle, and the other end of each rolling shaft penetrates through the sliding baffle; the sliding baffle is arranged on the rolling shaft in a sliding manner along the axial direction of the rolling shaft; the base is provided with a sliding driving assembly, and the sliding driving assembly is connected to the sliding baffle and is used for driving the sliding baffle to slide along the axial direction of the rolling shaft so as to clamp the ink box assembly; the base is provided with a turnover driving assembly, and the turnover driving assembly is connected to the fixed baffle and used for driving the placing assembly to turn over.
In the technical scheme, the clamping and the loosening of the ink box assembly are realized through the arrangement of the sliding baffle and the arrangement of the sliding driving assembly for driving the sliding baffle to move; the turnover driving component is arranged to realize the turnover of the clamped ink box component; through the setting of centre gripping and upset action, can realize the upset action of ink horn subassembly, control process is comparatively simple, is favorable to the long-term use of equipment.
Further, the sliding driving assembly comprises a mounting plate and a sliding cylinder; the mounting plate is arranged on the overturning driving assembly, and the overturning driving assembly is used for driving the mounting plate to overturn; a sliding rod penetrates through the mounting plate, the axis of the sliding rod is parallel to the axis of the rolling shaft, one end of the sliding rod is fixedly arranged on the sliding baffle, and the other end of the sliding rod is used for being connected with the sliding cylinder; an elastic piece is sleeved on the sliding rod, one end of the elastic piece is connected to the mounting plate, the other end of the elastic piece is connected to the sliding rod, and the elastic piece is used for driving the sliding rod to be pressed to one side close to the fixed baffle; the sliding cylinder is used for abutting against the sliding rod and driving the sliding rod to move towards one side far away from the fixed baffle.
In the technical scheme, the opening of the placing component can be realized through the arrangement of the sliding cylinder; and the pressing state of the placing component can be realized through the arrangement of the elastic piece on the sliding rod.
Further, the one end that the pole that slides was kept away from the baffle that slides wears to locate fixed stop, the pole that slides along its axis direction connect in fixed stop slides.
Among this technical scheme, the pole that slides can run through and place the subassembly, and the pole that slides also can be spacing to it when the ink horn subassembly slides along the length direction who places the subassembly, has increased the restraint that the ink horn subassembly received when the transmission, has reduced the possibility of placing the subassembly and dropping, has increased the reliability when the transmission of ink horn subassembly.
Further, the fixed baffle is connected to the turnover driving assembly through the mounting plate.
Among this technical scheme, through installing fixed stop on the mounting panel, increased and placed the subassembly, slided the restraint between drive assembly and the upset drive assembly, reduced and placed the subassembly, slided the possibility that slides between drive assembly and the upset drive assembly relatively, increased ink horn turning device's reliability.
Further, the overturning driving assembly comprises an overturning motor and an overturning shaft; the axis of the turnover shaft is parallel to the axis of the rolling shaft, one end of the turnover shaft is fixedly arranged on the fixed baffle, and the other end of the turnover shaft is arranged on the turnover motor; the overturning motor is used for driving the overturning shaft to rotate along the axis direction of the overturning shaft.
In the technical scheme, the overturning of the placement component can be realized through the arrangement of the overturning motor and the overturning shaft, the structure of the overturning driving component is simpler, and the reliability of the equipment is improved.
Furthermore, the trip shaft is arranged in the sliding baffle plate in a penetrating mode, and the sliding baffle plate is connected to the trip shaft in a sliding mode along the axis direction of the trip shaft.
Among this technical scheme, the trip shaft can be spacing to the ink horn subassembly when sliding along the length direction who places the subassembly, has increased the restraint that the ink horn subassembly received when transmitting, has reduced the possibility of placing the subassembly and dropping, has increased the reliability when the transmission of ink horn subassembly.
Furthermore, one side of placing the subassembly and keeping away from the upset drive assembly is equipped with the limiting plate, the trip shaft is kept away from the one end of upset motor rotates along its axis direction connect in the limiting plate.
Among this technical scheme, through the setting of limiting plate, increased the restraint that the trip shaft received, reduced the possibility that the trip shaft rocked, increased the stability when upset motor drives and places the subassembly upset.
Further, the sliding baffle is arranged on one side close to the limiting plate, and the limiting plate is used for abutting against the sliding baffle.
In the technical scheme, the sliding baffle can be abutted against the limiting plate through the limitation of the direction of the sliding baffle, so that the position of the sliding baffle can be controlled conveniently when the sliding baffle slides, and the reliability of the sliding baffle when the sliding baffle slides is improved.
Further, the fixed baffle comprises a side baffle and a bottom plate; the side baffle is arranged at one side close to the turnover driving component and is used for abutting against the ink box component; the bottom plate is arranged at one end close to the rolling shaft.
In this technical scheme, in this embodiment, through the setting of bottom plate, increased the restraint that the ink horn subassembly received when placing the subassembly and slide, reduced the possibility that the ink horn subassembly slope dropped, increased the reliability in the ink horn subassembly transmission course.
Furthermore, a turnover groove is formed in the base; the placing component is positioned in the overturning groove along the projection in the direction vertical to the base.
Among this technical scheme, place the subassembly and can pass the upset groove downwards at the upset in-process, place the subassembly and can set up in the one side that is close to the base, need not to place the subassembly setting in higher position, consequently, higher level is gone up originally and also need not to transmit ink horn subassembly to higher position, has shortened the required time of ink horn subassembly in transmission process, has increased ink horn subassembly's transmission efficiency.
Compared with the prior art, the utility model provides a pair of ink horn turning device has following beneficial effect:
1. the clamping and the loosening of the ink box assembly are realized through the arrangement of the sliding baffle and the arrangement of a sliding driving assembly for driving the sliding baffle to move; the turnover driving component is arranged to realize the turnover of the clamped ink box component; through the setting of centre gripping and upset action, can realize the upset action of ink horn subassembly, control process is comparatively simple, is favorable to the long-term use of equipment.
2. The sliding rod can run through the placement component, and the sliding rod can also limit the ink box component along the length direction of the placement component when sliding, so that the restraint of the ink box component when transmitting is increased, the possibility of dropping the placement component is reduced, and the reliability of the ink box component during transmission is increased.
3. Through installing fixed stop on the mounting panel, increased and placed the restraint between subassembly, the drive assembly that slides and the upset drive assembly, reduced and placed the subassembly, the drive assembly that slides and the relative possibility of sliding between the drive assembly that overturns, increased ink horn turning device's reliability.
4. Through the spacing of the baffle direction that slides, the baffle that slides can the butt on the limiting plate, is convenient for to the control of the position when the baffle that slides, has increased the reliability when the baffle that slides.
Detailed Description
In order to more clearly illustrate embodiments of the present invention or technical solutions in the prior art, specific embodiments of the present invention will be described below with reference to the accompanying drawings. It is obvious that the drawings in the following description are only examples of the invention, and that for a person skilled in the art, other drawings and embodiments can be obtained from these drawings without inventive effort.
For the sake of simplicity, only the parts related to the utility model are schematically shown in the drawings, and they do not represent the actual structure as a product. In addition, in order to make the drawings concise and understandable, components having the same structure or function in some of the drawings are only schematically illustrated or only labeled. In this document, "one" means not only "only one" but also a case of "more than one".
According to an embodiment of the present invention, as shown in fig. 1 and 2, an ink cartridge turning device includes a base 10, the base 10 can be disposed on a production line or directly disposed on a bottom surface; the base 10 is provided with a placing component 20 for placing the ink box components, and the upper-level equipment can transmit the ink box components to the placing component 20 from the left side and the right side of the ink box turnover device.
The placing assembly 20 comprises a fixed baffle 21, a sliding baffle 22 and a plurality of rolling shafts 23, wherein one ends of the rolling shafts 23 are arranged on the fixed baffle 21, and the other ends of the rolling shafts 23 penetrate through the sliding baffle 22; the sliding baffle 22 is arranged on the rolling shaft 23 in a sliding way along the axial direction of the rolling shaft 23; that is, the ink cartridge assembly can slide on the rolling shaft 23, and after the superior equipment can transmit the ink cartridge assembly to the placing assembly 20, the ink cartridge assembly can also slide along the length direction of the placing assembly 20 on the rolling shaft 23, that is, the ink cartridge assembly can slide left and right.
Be equipped with the drive assembly 30 that slides on the base 10, the drive assembly 30 that slides is connected in the baffle 22 that slides for the drive slides the baffle 22 and slides along the axis direction of roll shaft 23, with centre gripping ink horn subassembly, after the drive assembly 30 action that slides promptly, the baffle 22 that slides can be to the direction motion of fixed stop 21, and the interval between fixed stop 21 and the baffle 22 that slides reduces, consequently, place subassembly 20 and can grasp the ink horn subassembly, realized the fixed of ink horn subassembly.
The base 10 is provided with a turnover driving component 40, and the turnover driving component 40 is connected to the fixed baffle 21 and used for driving the placing component 20 to turn over; after the sliding driving component 30 acts, the ink cartridge component can be fixed on the placing component 20, and after the overturning driving component 40 acts again, the overturning driving component 40 can drive the placing component 20 to overturn, so that the overturning of the ink cartridge component is realized.
In the embodiment, the clamping and the loosening of the ink box assembly are realized through the arrangement of the sliding baffle plate 22 and the arrangement of the sliding driving assembly 30 for driving the sliding baffle plate 22 to move; the turnover driving component 40 is arranged to realize the turnover of the clamped ink box component; through the setting of centre gripping and upset action, can realize the upset action of ink horn subassembly, control process is comparatively simple, is favorable to the long-term use of equipment.
Specifically, in the present embodiment, the placing assembly 20 is horizontally disposed on the base 10, and the overturning driving assembly 40 and the sliding driving assembly 30 can be disposed on both front and rear sides of the placing assembly 20.
Preferably, the fixed barrier 21 includes a side barrier 211 and a bottom barrier 212; the side shutter 211 is disposed on a side close to the inversion driving unit 40, in this embodiment, the side shutter 211 is disposed on a rear side, and the bottom plate 212 is disposed in front of the side shutter 211, and the side shutter 211 is used for the ink cartridge assembly abutment, that is, the rear side of the ink cartridge assembly can abut on the side shutter 211.
The bottom plate 212 is disposed near one end of the rolling shaft 23, i.e., the bottom plate 212 can be disposed at a lower end.
In this embodiment, the bottom plate 212 increases the restriction on the sliding of the cartridge assembly on the placement assembly 20, reduces the possibility of the cartridge assembly falling off in an inclined manner, and increases the reliability of the cartridge assembly during the transportation process.
Specifically, the rollers 24 can be arranged on the bottom plate 212 and the sliding baffle 22, so that the possibility that the ink box assembly abuts against the bottom plate 212 is reduced, the possibility that the ink box assembly is abraded is reduced, and the service life of the ink box assembly is prolonged; in addition, in the embodiment, the bottom plate 212 and the side baffle 211 are separately arranged, so that the manufacturing of the fixed baffle 21 is facilitated, and the manufacturing cost of the fixed baffle 21 is also reduced.
According to the improvement of the above-mentioned embodiment, in this embodiment, turnover groove 11 has been seted up on base 10, it is located turnover groove 11 to place subassembly 20 along the projection in the direction of perpendicular to base 10, the area of turnover groove 11 horizontal direction is greater than the area of placing subassembly 20 promptly, therefore, it can pass turnover groove 11 downwards at the upset in-process to place subassembly 20, it can set up the one side that is close to base 10 to place subassembly 20, it sets up at higher position to need not to place subassembly 20, consequently, higher level's equipment also need not to transmit the ink horn subassembly to higher position, the required time of ink horn subassembly in transmission process has been shortened, the transmission efficiency of ink horn subassembly has been increased.
According to another embodiment of the present invention, as shown in fig. 1, an ink cartridge turning device, which is different from the first embodiment in the specific structure of the sliding driving assembly 30, is provided.
On the basis of the first embodiment, in the present embodiment, the sliding driving assembly 30 includes a mounting plate 31 and a sliding cylinder 32; the mounting plate 31 is arranged on the turnover driving component 40, the turnover driving component 40 is used for driving the mounting plate 31 to turn over, and the sliding cylinder 32 can be arranged on the base 10.
A sliding rod 33 penetrates through the mounting plate 31, the axis of the sliding rod 33 is parallel to the axis of the rolling shaft 23, namely, the sliding rod 33 can horizontally penetrate through the mounting plate 31; one end of the sliding rod 33 is fixedly arranged on the sliding baffle 22, and the other end of the sliding rod 33 is connected to the sliding cylinder 32.
An elastic member (not shown) is sleeved on the sliding rod 33, the elastic member includes, but is not limited to, an elastic component such as a spring or an elastic pad, one end of the elastic member is connected to the mounting plate 31, the other end of the elastic member is connected to the sliding rod 33, and the elastic member is used for driving the sliding rod 33 to press towards the side close to the fixed baffle 21, that is, the elastic member can press the sliding rod 33 towards the rear side.
In this embodiment, when the sliding cylinder 32 acts, the sliding cylinder 32 is used to abut against the sliding rod 33, and drive the sliding rod 33 to move to a side away from the fixed baffle 21, that is, drive the sliding rod 33 to move to the front side, and overcome the elastic force of the elastic member, the placing component 20 can be opened, and the ink cartridge component can be transferred into the placing component 20.
After the ink box assembly is placed in the placing assembly 20, the sliding cylinder 32 retracts, a piston rod of the sliding cylinder 32 is separated from the sliding rod 33, the elastic piece recovers elastic deformation, the sliding rod 33 is driven to move towards the rear side, the placing assembly 20 is controlled to clamp the ink box assembly, and then the clamping action of the ink box assembly is realized.
In this embodiment, the opening of the placing assembly 20 can be realized by the arrangement of the sliding cylinder 32; and the pressing state of the placing component 20 can be realized through the arrangement of the elastic piece on the sliding rod 33.
Specifically, in the present embodiment, the overturning driving assembly 40 and the sliding driving assembly 30 can be disposed at both front and rear sides of the placing assembly 20.
Preferably, one end of the sliding rod 33, which is far away from the sliding baffle 22, is inserted into the fixed baffle 21, and the sliding rod 33 is connected to the fixed baffle 21 in a sliding manner along the axial direction thereof; in this embodiment, the sliding rod 33 can penetrate the placing component 20, and therefore, the sliding rod 33 can also limit the ink cartridge component when the ink cartridge component slides along the length direction of the placing component 20, so that the restriction of the ink cartridge component during transmission is increased, the possibility of dropping the placing component 20 is reduced, and the reliability of the ink cartridge component during transmission is increased.
According to the modification of the above embodiment, in the present embodiment, the fixed baffle 21 is connected to the tumble drive assembly 40 through the mounting plate 31; by installing the fixed baffle 21 on the installation plate 31, the constraint among the placing component 20, the sliding driving component 30 and the overturning driving component 40 is increased, the possibility of relative sliding among the placing component 20, the sliding driving component 30 and the overturning driving component 40 is reduced, and the reliability of the ink box overturning device is increased.
In this embodiment, the turnover driving assembly 40 directly drives the mounting plate 31 to rotate, so as to drive the placing assembly 20 and the sliding driving assembly 30 to turn over, the control structure is simple, and the ink cartridge turnover device is convenient to maintain and replace.
According to another embodiment of the present invention, as shown in fig. 1, an ink cartridge turning device, which is different from the first embodiment in the specific structure of the turning driving assembly 40, is provided.
On the basis of the first embodiment, in the present embodiment, the turnover driving assembly 40 includes a turnover motor 41 and a turnover shaft 42; the axis of the turning shaft 42 is parallel to the axis of the rolling shaft 23, namely the turning shaft 42 is horizontally arranged; one end of the turning shaft 42 is fixedly arranged on the fixed baffle 21, and the other end of the turning shaft 42 is arranged on the turning motor 41; the reversing motor 41 is used for driving the reversing shaft 42 to rotate along the axial direction thereof.
In this embodiment, the turnover motor 41 and the turnover shaft 42 are included, so that the placement component 20 can be turned over, the turnover driving component 40 has a simpler structure, and the reliability of the device is improved.
Preferably, the turning shaft 42 is inserted through the slide baffle 22, and the slide baffle 22 is connected to the turning shaft 42 in a sliding manner along the axial direction of the turning shaft 42; the turnover shaft 42 can limit the ink box assembly when the ink box assembly slides along the length direction of the placing assembly 20, so that the constraint of the ink box assembly during transmission is increased, the possibility that the placing assembly 20 falls off is reduced, and the reliability of the ink box assembly during transmission is increased.
One side of the placing assembly 20 far away from the overturning driving assembly 40 is provided with a limiting plate 12, that is, the limiting plate 12 is arranged at the front side of the placing assembly 20, and one end of the overturning shaft 42 far away from the overturning motor 41 is rotatably connected to the limiting plate 12 along the axis direction thereof. Through the setting of limiting plate 12, the restraint that upset axle 42 received has been increased, has reduced the possibility that upset axle 42 rocked, has increased the stability when upset motor 41 drives and places subassembly 20 upset.
Preferably, the sliding baffle 22 is disposed at a side close to the limiting plate 12, that is, the sliding baffle 22 can be located at the front side, the fixed baffle 21 is located at the rear side, and the limiting plate 12 is used for abutting against the sliding baffle 22, that is, when the sliding driving assembly 30 drives the sliding baffle 22 to move towards the front side, the sliding baffle 22 can abut against the limiting plate 12; in this embodiment, through the spacing of the baffle 22 direction that slides, the baffle 22 that slides can butt on limiting plate 12, is convenient for to the control of the position when the baffle 22 that slides, has increased the reliability when the baffle 22 that slides.
It should be noted that the above embodiments can be freely combined as necessary. The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.