CN213037006U - Continuous quick loading attachment of plane gauze mask - Google Patents

Abstract

The utility model discloses a continuous and rapid feeding device for a plane mask, which comprises a frame, a storage bin, a mask sending mechanism and a mask transferring mechanism, wherein a storage tank is arranged in the storage bin, the bottom of the storage bin is provided with a discharge port, the discharge port is communicated with the storage tank, and the transverse size or/and the longitudinal size of the discharge port are/is smaller than those of the mask stored in the storage tank of the storage bin; the mask transfer mechanism is located below a discharge port of the bin and the mask sending mechanism and comprises a support arranged on the rack, a vacuum chuck arranged on the support and a vertical driving mechanism used for driving the vacuum chuck to move vertically. The utility model discloses a continuous quick loading attachment of plane gauze mask can not harm the gauze mask in the feed bin at the material loading in-process, and has that the material loading is fast, the advantage that material loading efficiency is high.

Description

Continuous quick loading attachment of plane gauze mask

Technical Field

The utility model relates to a plane gauze mask machine, concretely relates to continuous quick loading attachment of plane gauze mask.

Background

During current epidemic prevention and control, various types of full-automatic plane gauze mask machine has been put into use, but along with the constantly increase of demand volume to the gauze mask in the present world, the gauze mask of the fixed model that relies on the full-automatic gauze mask machine production of large-scale enterprise alone can't satisfy growing gauze mask demand, and because the running cost of full-automatic gauze mask machine is high and the gauze mask model that can produce all is fixed, it is great to carry out the degree of difficulty of secondary transformation, consequently it is not very suitable for middle-size and small-size enterprise, it can adapt to current market demand more to counter-view semi-automatic machine, but need artifical material loading in traditional semi-automatic machine (for example plane gauze mask production facility), this not only leads to inefficiency, but also can lead to manufacturing cost to improve.

Therefore, automatic mask feeding devices appear on the market, for example, the utility model patent with the publication number of CN210682045U discloses a mask feeding and conveying device, which comprises a bin for storing a mask body and a conveying mechanism located at the lower end of the bin, wherein the outlet end of the bin is provided with a baffle seat, the baffle seat is adjustably fixed on a vertical plate of the bin through an adjusting hand wheel, and the baffle seat is provided with a groove for placing a baffle; conveying mechanism includes bottom plate, wallboard, drive roll and fluted roller, and the wallboard passes through bottom plate interconnect fixed, and the both ends of drive roll, fluted roller are installed on the wallboard, and the outside of drive roll and fluted roller is around being equipped with the conveyer belt, and the drive roll is connected with first, motor drive, and drive roll upper portion is equipped with roll complex compression roller, and the fluted roller passes through the shaft joint to be connected with the second motor, and the fluted roller outside is equipped with the tooth. Gauze mask material loading conveyor has solved traditional gauze mask piece beating machine and gauze mask ear area and has welded the strip machine production beat not in good order, inefficiency, send the inaccurate, the low scheduling problem of production quality of piece.

However, the mask feeding and conveying device has the following problems:

(1) the mask is taken out of the bin by the aid of the friction force of the conveyer belt and the mask at the lowermost end of the bin, and the mask is conveyed to the corresponding processing station to be processed. When the conveyer belt skids and leads to the gauze mask body can't come out from the feed bin, the second motor starts to drive the gear roller and rotates the frictional force that utilizes the tooth to provide and pull out the gauze mask body. This kind of get material mode leads to the tooth on the fluted roller to cause the gauze mask fold when taking the gauze mask out of from the feed bin easily, leads to the gauze mask to block up the discharge gate department at the feed bin to influence the normal processing of gauze mask.

(2) The gauze mask is also easily scratched in the process of taking the gauze mask out of the feed bin through the teeth on the toothed roller, and particularly when the gauze mask is blocked at the outlet of the feed bin.

(3) Because the gauze mask that is arranged in the feed bin is through the friction with the tooth on conveyer belt or the fluted roller, and leave the feed bin in the discharge gate of feed bin side horizontally, but because the gauze mask that is arranged in the feed bin bottommost bears its upper portion gauze mask to its pressure, consequently lead to this gauze mask easily and the frictional force between the tooth on its and conveyer belt or the fluted roller rather than the frictional force of last gauze mask, consequently the condition that can not the ejection of compact appears easily to influence the efficiency of gauze mask production.

SUMMERY OF THE UTILITY MODEL

The utility model discloses lie in overcoming prior art's not enough, provide a continuous quick loading attachment of plane gauze mask, the gauze mask in the feed bin is not harmed to the continuous quick loading attachment of plane gauze mask when the material loading, and has that the material loading is fast, advantage that material loading efficiency is high.

The utility model provides a technical scheme of above-mentioned technical problem is:

a continuous and rapid feeding device for a plane mask comprises a frame, a bin arranged on the frame and used for storing masks, a mask sending mechanism used for sending out the masks one by one, and a mask transferring mechanism used for transferring the masks in the bin into the mask sending mechanism one by one, wherein,

a storage groove for storing the mask is arranged in the bin, the storage groove extends vertically, a discharge port is arranged at the bottom of the bin, the discharge port is communicated with the storage groove, and the transverse size or/and the longitudinal size of the discharge port is smaller than the transverse size or/and the longitudinal size of the mask stored in the storage groove of the bin;

gauze mask shifts the mechanism and is located the below of the discharge gate of feed bin, and is located gauze mask sending mechanism's below, this gauze mask shifts the mechanism including setting up support in the frame, setting up the vacuum chuck on the support and being used for driving the vertical actuating mechanism of vacuum chuck vertical motion, wherein, vertical actuating mechanism drives the vertical motion of vacuum chuck and shifts the gauze mask that is located the feed bin bottom to the sending station of gauze mask sending mechanism.

Preferably, vacuum chuck include the sucking disc and with the sucking rod that the sucking disc is connected, wherein, the vertical setting of sucking rod, the support with the position of sucking rod contact is provided with dodges the groove.

Preferably, the vertical driving mechanism comprises an eccentric wheel arranged on the bracket and an eccentric driving mechanism for driving the eccentric wheel to rotate, wherein the suction rod is provided with a mounting seat and a roller at a position contacting with the eccentric wheel, the mounting seat is mounted at the lower end of the suction rod, and the roller is rotatably connected to the mounting seat; the suction rod is further sleeved with a spring, the upper end of the spring is in contact with the support, the lower end of the spring is in contact with the mounting seat, and the elastic force of the spring enables the wheel surface of the roller to be in contact with the wheel surface of the eccentric wheel all the time.

Preferably, the vacuum chucks are divided into two groups, the eccentric wheels are divided into two groups, and the two groups of eccentric wheels are connected through a rotating shaft.

Preferably, the eccentric wheel driving mechanism includes an eccentric driving motor, the eccentric driving motor is mounted on the frame, a main shaft of the eccentric driving motor is connected with the rotating shaft through a transmission mechanism, and the transmission mechanism includes, but is not limited to, one of a synchronous belt transmission mechanism, a chain transmission mechanism and a gear transmission mechanism.

Preferably, the mask sending mechanism comprises a first conveying mechanism and a second conveying mechanism, wherein the first conveying mechanism is arranged above the second conveying mechanism and comprises a first conveying belt and a first conveying driving mechanism for driving the first conveying belt to move, and the first conveying belt horizontally encircles in the vertical direction; the second conveying mechanism comprises a second conveying belt and a second conveying driving mechanism for driving the second conveying belt to move, wherein the second conveying belt horizontally encircles in the vertical direction; and a mask conveying channel for conveying masks is formed between the first conveying belt of the first conveying mechanism and the second conveying belt of the second conveying mechanism.

Preferably, the first conveying driving mechanism comprises a first driving conveying roller, a first driven conveying roller and a first driving mechanism for driving the first driving conveying roller to rotate, wherein the first driving conveying roller and the first driven conveying roller are rotatably connected to the frame and are sequentially arranged along the length direction of the frame; the second conveying mechanism comprises a second driving conveying roller, a second driven conveying roller and a second driving mechanism used for driving the first driving conveying roller to rotate, wherein the second driving conveying roller and the second driven conveying roller are rotatably connected to the rack and are sequentially arranged along the length direction of the rack.

Preferably, the first driving mechanism and the second driving mechanism adopt a respective driving mode or a common driving mode, wherein when the first driving mechanism and the second driving mechanism adopt the common driving mode, the first driving mechanism and the second driving mechanism comprise a driving motor and a gear transmission mechanism which are arranged on a rack, wherein the driving motor is arranged on the rack, the gear transmission mechanism comprises a driving gear and a driven gear which are consistent in size and specification and are mutually meshed, wherein the driving gear is rotationally connected to the rack through a first transmission shaft, and the driven gear is rotationally connected to the rack through a second transmission shaft; the first transmission shaft is connected with the main shaft of the driving motor and the second driving conveying roller through a first synchronous belt transmission mechanism, wherein the first synchronous belt transmission mechanism comprises three groups of first synchronous wheels and a first synchronous belt, the three groups of first synchronous wheels are respectively arranged on the second driving conveying roller, the first transmission shaft and the main shaft of the driving motor, and the first synchronous belt sequentially surrounds the three first synchronous wheels; the second transmission shaft with connect through second synchronous belt drive mechanism between the first initiative conveying roller, second synchronous belt drive mechanism is including setting up the second transmission shaft with second synchronizing wheel on the first initiative conveying roller and encircle the second hold-in range on two sets of second synchronizing wheels.

Preferably, the mask sending mechanism further comprises two groups of third conveying mechanisms arranged below the storage bin, and the two groups of third conveying mechanisms are respectively arranged on two sides of the mask transfer mechanism to form a sending station of the mask sending mechanism; each group of third conveying mechanisms comprises third conveying rollers which are rotatably connected to the rack and are positioned at the same horizontal height with the second driving conveying rollers and the second driven conveying rollers; the third conveying roller is connected with the second driven conveying roller through a third synchronous belt transmission mechanism; and the third synchronous belt transmission mechanism comprises a third synchronous belt which is wound on the second driven conveying roller and the third conveying roller.

Preferably, the first conveying belts are arranged in three groups, and the three groups of first conveying belts are sequentially arranged along the width direction of the rack; the second conveying belts are arranged in three groups in sequence along the width direction of the rack and correspond to the three groups of first conveying belts one to one; wherein, the second conveyer belt that is located the middle part is used for carrying the gauze mask, and the second conveyer belt that is located both sides is used for guaranteeing that second initiative conveying roller and the synchronous rotation of second driven conveying roller.

Compared with the prior art, the utility model following beneficial effect has:

1. the utility model discloses a continuous quick loading attachment of plane gauze mask passes through vertical actuating mechanism and drives the vertical motion of vacuum chuck to shift the gauze mask in the feed bin to the gauze mask sending mechanism send the station, and because vacuum chuck adopts the adsorbed mode of atmospheric pressure, consequently can not produce any damage to the gauze mask, be favorable to guaranteeing the quality of the gauze mask that the processing came out.

2. The utility model discloses a continuous quick loading attachment of plane gauze mask drives vacuum chuck through vertical actuating mechanism and shifts the gauze mask in the feed bin to gauze mask transmission station department, because vacuum chuck takes out the gauze mask from the feed bin through the mode that utilizes atmospheric pressure to adsorb, compare in prior art the mode of taking out the gauze mask from the feed bin through the friction, the effort (then show the adsorption affinity in the invention) to the gauze mask is bigger, therefore the gauze mask is difficult to block up the discharge gate of feed bin to guarantee the normal clear of gauze mask production.

3. The utility model discloses a continuous quick loading attachment of plane gauze mask drives the gauze mask of vacuum chuck in with the feed bin through vertical actuating mechanism and takes out, and it is faster to get the material speed to be favorable to improving the utility model discloses a continuous quick loading attachment's of plane gauze mask material loading speed and material loading efficiency.

Drawings

Fig. 1-3 are schematic diagrams of three different viewing angles of the continuous and rapid feeding device for flat masks according to the present invention.

Fig. 4-6 are schematic diagrams of three different viewing angles of the mask delivery mechanism and the mask transfer mechanism of the continuous and rapid feeding device for flat masks of the present invention.

Fig. 7-8 are schematic diagrams of three-dimensional structures at two different viewing angles of the mask transfer mechanism in the continuous and rapid feeding device for flat masks of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the following examples and drawings, but the present invention is not limited thereto.

Referring to fig. 1-8, the utility model discloses a continuous quick loading attachment of plane gauze mask includes frame 1, sets up the feed bin 2 that is used for depositing the gauze mask in frame 1, is used for sending out the gauze mask sending mechanism 3 of gauze mask one by one and is arranged in shifting the gauze mask in the feed bin 2 to the gauze mask in the gauze mask sending mechanism 3 and shift mechanism 4 one by one.

Referring to fig. 1-8, a storage groove 2-1 for storing the mask is arranged in the bin 2, the storage groove 2-1 extends vertically, a feed port is arranged at the top of the bin 2, a discharge port is arranged at the bottom of the bin, and the discharge port and the feed port are both communicated with the storage groove 2-1, wherein the transverse size or/and the longitudinal size of the discharge port is smaller than the transverse size or/and the longitudinal size of the mask stored in the storage groove 2-1 of the bin 2, so that the mask stored in the storage groove 2-1 can be supported, and meanwhile, an operator can conveniently load the mask in the bin 2.

Referring to fig. 1-8, the mask transfer mechanism 4 is located below the discharge port of the bin 2 and below the mask sending mechanism 3, the mask transfer mechanism 4 includes a support 4-1 disposed on the frame 1, a vacuum chuck disposed on the support 4-1, and a vertical driving mechanism for driving the vacuum chuck to move vertically, wherein the vacuum chuck includes a chuck 4-2 and a suction rod 4-3 connected to the chuck 4-2, the suction rod 4-3 is disposed vertically, and an avoiding groove is disposed at a position of the support 4-1 contacting the suction rod 4-3; the vertical driving mechanism comprises an eccentric wheel 4-5 arranged on the bracket 4-1 and an eccentric driving mechanism for driving the eccentric wheel 4-5 to rotate, wherein the suction rod 4-3 is provided with a mounting seat 4-6 and a roller 4-7 at a position contacted with the eccentric wheel 4-5, the mounting seat 4-6 is mounted at the lower end of the suction rod 4-3, and the roller 4-7 is rotatably connected to the mounting seat 4-6; the suction rod 4-3 is also sleeved with a spring 4-8, the upper end of the spring 4-8 is in contact with the bracket 4-1, the lower end of the spring 4-8 is in contact with the mounting seat 4-6, and the elastic force of the spring 4-8 enables the wheel surface of the roller 4-7 to be in contact with the wheel surface of the eccentric wheel 4-5 all the time. Through the structure, when the mask in the bin 2 needs to be transferred into the mask sending mechanism 3, the eccentric driving mechanism drives the eccentric wheels 4-5 to rotate, thereby driving the vacuum chuck 4-2 to overcome the elasticity of the spring 4-8 to move upwards, when the eccentric wheel 4-5 moves to the highest point, the vacuum sucker 4-2 is contacted with the mask at the bottommost part of the storage groove 2-1 of the storage bin 2, the vacuum sucker 4-2 sucks the mask through the working of the negative pressure device, then the eccentric driving mechanism continues to drive the eccentric wheel 4-5 to rotate, the vacuum sucker 4-2 moves downwards under the action of the elastic force of the spring 4-8, and the wheel surface of the roller 4-7 positioned at the lower end of the suction rod 4-3 is always contacted with the wheel surface of the eccentric wheel 4-5; when the eccentric wheel 4-5 moves to a certain position (for example, the lowest point), the mask is located on the sending station of the mask sending mechanism 3, the negative pressure device drives the vacuum chuck 4-2 to loosen the mask, and the mask sending mechanism 3 sends the mask out, so that the sending work of the mask is completed.

Besides the above manner, the vertical driving mechanism can also adopt a manner of air cylinder driving.

Referring to fig. 1-8, the vacuum chucks in this embodiment are two sets, and correspondingly, the eccentric wheels 4-5 are also two sets, and the two sets of eccentric wheels 4-5 are connected through a rotating shaft 4-9; the eccentric wheel 4-5 driving mechanism comprises an eccentric driving motor 4-10, the eccentric driving motor 4-10 is installed on the frame 1, a main shaft of the eccentric driving motor 4-10 is connected with the rotating shaft 4-9 through a transmission mechanism 4-11, and the eccentric driving motor 4-10 drives the rotating shaft 4-9 and two groups of eccentric wheels 4-5 arranged on the rotating shaft 4-9 to rotate through the transmission mechanism 4-4. And the transmission mechanism 4-4 includes, but is not limited to, one of a synchronous belt transmission mechanism, a chain transmission mechanism, and a gear transmission mechanism.

Referring to fig. 1 to 8, the mask sending mechanism 3 includes a first conveying mechanism and a second conveying mechanism, wherein the first conveying mechanism is disposed above the second conveying mechanism, and includes a first conveying belt 3-1 and a first conveying driving mechanism for driving the first conveying belt 3-1 to move, and the first conveying belt 3-1 horizontally encircles in a vertical direction; the second conveying mechanism comprises a second conveying belt 3-2 and a second conveying driving mechanism for driving the second conveying belt 3-2 to move, wherein the second conveying belt 3-2 horizontally encircles in the vertical direction; a mask conveying channel for conveying the mask is formed between the first conveying belt 3-1 of the first conveying mechanism and the second conveying belt 3-2 of the second conveying mechanism, wherein the first conveying belt 3-1 at the upper end of the mask conveying channel rotates clockwise, the second conveying belt 3-2 at the lower end of the mask conveying channel rotates anticlockwise, and the conveying directions of the part of the first conveying belt 3-1 at the upper end of the mask conveying channel and the part of the second conveying belt 3-2 at the lower end of the mask conveying channel are consistent, so that the mask is conveyed.

Referring to fig. 1 to 8, the first conveying driving mechanism includes a first driving conveying roller 3-3, a first driven conveying roller 3-4, and a first driving mechanism for driving the first driving conveying roller 3-3 to rotate, wherein the first driving conveying roller 3-3 and the first driven conveying roller 3-4 are rotatably connected to the frame 1 and are sequentially arranged along the length direction of the frame 1; the second conveying mechanism comprises a second driving conveying roller 3-5, a second driven conveying roller 3-6 and a second driving mechanism for driving the first driving conveying roller 3-3 to rotate, wherein the second driving conveying roller 3-5 and the second driven conveying roller 3-6 are rotatably connected to the rack 1 and are sequentially arranged along the length direction of the rack 1; the first driving mechanism and the second driving mechanism are driven respectively or jointly, the first driving mechanism and the second driving mechanism of the embodiment are driven jointly, and specifically comprise driving motors 3-7 and gear transmission mechanisms 3-8 which are arranged on a rack 1, wherein the driving motors 3-7 are arranged on the rack 1, the gear transmission mechanisms 3-8 comprise driving gears and driven gears which are consistent in size and specification and meshed with each other, the driving gears are rotationally connected to the rack 1 through a first transmission shaft, and the driven gears are rotationally connected to the rack 1 through a second transmission shaft; the first transmission shaft is connected with a main shaft of the driving motor 3-7 and the second driving conveying roller 3-5 through a first synchronous belt transmission mechanism 3-9, wherein the first synchronous belt transmission mechanism 3-9 comprises three groups of first synchronous wheels and a first synchronous belt, the three groups of first synchronous wheels are respectively arranged on the second driving conveying roller 3-5, the first transmission shaft and the main shaft of the driving motor 3-7, and the first synchronous belt sequentially surrounds the three first synchronous wheels; the second transmission shaft is connected with the first driving conveying roller 3-3 through a second synchronous belt transmission mechanism 3-10, and the second synchronous belt transmission mechanism 3-10 comprises second synchronous wheels arranged on the second transmission shaft and the first driving conveying roller 3-3 and second synchronous belts surrounding the two groups of second synchronous wheels. The driving motor 3-7 drives the first synchronous belt transmission mechanism 3-9 to move, so as to drive the second driving conveying roller 3-5 and the first transmission shaft to rotate, and the driving gear is driven to rotate while the first transmission shaft rotates, so as to drive the driven gear and the second transmission shaft to rotate, and the second synchronous belt transmission mechanism 3-10 drives the first driving conveying roller 3-3 to rotate. Therefore, the first conveying mechanism and the second conveying mechanism can synchronously move to finish the conveying work of the mask.

Referring to fig. 1 to 8, the mask sending mechanism 3 further includes two sets of third conveying mechanisms disposed below the bin 2, and the two sets of third conveying mechanisms are disposed on two sides of the mask transferring mechanism 4 respectively, so as to avoid the mask transferring mechanism 4; each group of third conveying mechanisms comprises third conveying rollers 3-11, and the third conveying rollers 3-11 are rotatably connected to the rack 1 and are at the same horizontal height with the second driving conveying rollers 3-5 and the second driven conveying rollers 3-6; the third conveying roller 3-11 is connected with the second driven conveying roller 3-6 through a third synchronous belt transmission mechanism 3-12; the third synchronous belt transmission mechanism 3-12 comprises a third synchronous belt which is arranged around the second driven conveying roller 3-6 and the third conveying roller 3-11; the third conveying mechanism forms a sending station of the mask sending mechanism 3. After the gauze mask is transferred to the third lazytongs of third conveying mechanism to gauze mask transfer mechanism 4, third conveying mechanism carries the gauze mask among the second conveying mechanism, and sets up third conveying mechanism, is favorable to optimizing the structure of gauze mask sending mechanism 3.

Referring to fig. 1-8, the first conveyor belts 3-1 are in three groups, and the three groups of first conveyor belts 3-1 are sequentially arranged along the width direction of the rack 1; the second conveying belts 3-2 are three groups, the three groups of second conveying belts 3-2 are sequentially arranged along the width direction of the rack 1 and are in one-to-one correspondence with the three groups of first conveying belts 3-1, wherein the second conveying belt 3-2 positioned in the middle is used for conveying the mask, so the width of the second conveying belt 3-2 is larger than the width of the conveying belts positioned on the two sides, and the second conveying belts 3-2 positioned on the two sides are used for ensuring that the second driving conveying rollers 3-5 and the second driven conveying rollers 3-6 synchronously rotate.

The diameters of the first driving conveying roller 3-3, the first driven conveying roller 3-4, the second driving conveying roller 3-5, the second driven conveying roller 3-6 and the third conveying roller 3-11 in the embodiment are equal, so that the speed of the mask at each position in the conveying process is ensured to be consistent; and the specifications of the synchronous wheels in the first synchronous belt transmission mechanism 3-9 and the second synchronous belt transmission mechanism 3-10 are consistent.

Referring to fig. 1 to 8, the mask delivery mechanism 3 further includes a sensor 5, and the sensor 5 is disposed on the frame 1 and close to the first active delivery roller 3-3.

Referring to fig. 1-8, the storage bin 2 is composed of four support frames, a storage groove 2-1 for storing masks is formed by gaps among the four support frames, a vertical or/and horizontal adjusting installation hole is formed in the bottom of each support frame, and the adjusting installation hole is oblong, so that the horizontal position or the vertical position of each support frame when the support frame is installed on the rack 1 can be finely adjusted, the length and the width of the storage bin 2 can be adjusted, and the storage bin is suitable for loading different types of masks, such as children masks, adult masks and the like. In addition, the front end of the stock bin 2 is provided with a fine adjustment baffle 6, and the installation height of the stock bin 2 can be adjusted through the fine adjustment baffle 6.

Referring to fig. 1-8, the continuous and rapid feeding device for the flat mask of the present invention has the following working principle;

first, the operator stacks the mask in the storage tank 2-1 of the bin 2, and then mounts the bin 2 on the frame 1. Then, the mask sending mechanism 3 and the mask transfer mechanism 4 start to work, the mask located at the lowermost end in the storage tank 2-1 of the bin 2 is transferred to a mask sending station through the mask transfer mechanism 4, and the mask sending mechanism 3 sends the mask to a downstream processing station to complete different processing procedures. The specific process is as follows: vertical actuating mechanism drives vacuum chuck upward movement for should inhale and pass behind the discharge gate of 2 bottoms of feed bin with be located the gauze mask contact of 2 bottommost ends of feed bin, the vacuum apparatus starts after that, vacuum chuck will be located the gauze mask of bottommost end and holds. And then, the vertical driving mechanism drives the vacuum chuck to move downwards, and drives the mask sucked by the vacuum chuck to deform, pass through the discharge hole of the storage bin 2 and then move to a sending station of the mask sending mechanism 3. In the process, the mask positioned in the storage groove 2-1 of the storage bin 2 can move downwards under the action of the gravity of the mask, so that the mask positioned above the lowest end mask replaces the original position of the lowest end mask. Subsequently, the negative pressure device drives the vacuum chuck to loosen the mask, and the mask moves to a downstream processing station under the driving of the mask sending mechanism 3 to complete different processing procedures.

The above is the preferred embodiment of the present invention, but the embodiment of the present invention is not limited by the above, and any other changes, modifications, substitutions, blocks, and simplifications which do not depart from the spirit and principle of the present invention should be equivalent replacement modes, and all are included in the scope of the present invention.

Claims (10)

1. A continuous and rapid feeding device for a plane mask is characterized by comprising a frame, a bin arranged on the frame and used for storing masks, a mask sending mechanism used for sending out the masks one by one and a mask transferring mechanism used for transferring the masks in the bin into the mask sending mechanism one by one, wherein,

a storage groove for storing the mask is arranged in the bin, the storage groove extends vertically, a discharge port is arranged at the bottom of the bin, the discharge port is communicated with the storage groove, and the transverse size or/and the longitudinal size of the discharge port is smaller than the transverse size or/and the longitudinal size of the mask stored in the storage groove of the bin;

gauze mask shifts the mechanism and is located the below of the discharge gate of feed bin, and is located gauze mask sending mechanism's below, this gauze mask shifts the mechanism including setting up support in the frame, setting up the vacuum chuck on the support and being used for driving the vertical actuating mechanism of vacuum chuck vertical motion, wherein, vertical actuating mechanism drives the vertical motion of vacuum chuck and shifts the gauze mask that is located the feed bin bottom to the sending station of gauze mask sending mechanism.

2. The continuous and rapid feeding device for the plane masks according to claim 1, wherein the vacuum chuck comprises a suction cup and a suction rod connected with the suction cup, wherein the suction rod is vertically arranged, and the support is provided with an avoiding groove at the position contacted with the suction rod.

3. The continuous and rapid feeding device for the flat mask according to claim 2, wherein the vertical driving mechanism comprises an eccentric wheel arranged on a bracket and an eccentric driving mechanism for driving the eccentric wheel to rotate, wherein the suction rod is provided with a mounting seat and a roller at a position contacting with the eccentric wheel, wherein the mounting seat is mounted at the lower end of the suction rod, and the roller is rotatably connected to the mounting seat; the suction rod is further sleeved with a spring, the upper end of the spring is in contact with the support, the lower end of the spring is in contact with the mounting seat, and the elastic force of the spring enables the wheel surface of the roller to be in contact with the wheel surface of the eccentric wheel all the time.

4. The continuous and rapid feeding device for flat masks according to claim 3, wherein the vacuum suction cups are divided into two groups, the eccentric wheels are divided into two groups, and the two groups of eccentric wheels are connected through a rotating shaft.

5. The continuous and rapid feeding device for flat masks according to claim 4, wherein the eccentric driving mechanism comprises an eccentric driving motor, the eccentric driving motor is mounted on the frame, the main shaft of the eccentric driving motor is connected with the rotating shaft through a transmission mechanism, and the transmission mechanism comprises but is not limited to one of a synchronous belt transmission mechanism, a chain transmission mechanism and a gear transmission mechanism.

6. The continuous and rapid feeding device for the flat masks according to claim 1, wherein the mask sending mechanism comprises a first conveying mechanism and a second conveying mechanism, wherein the first conveying mechanism is arranged above the second conveying mechanism and comprises a first conveying belt and a first conveying driving mechanism for driving the first conveying belt to move, wherein the first conveying belt horizontally encircles in the vertical direction; the second conveying mechanism comprises a second conveying belt and a second conveying driving mechanism for driving the second conveying belt to move, wherein the second conveying belt horizontally encircles in the vertical direction; and a mask conveying channel for conveying masks is formed between the first conveying belt of the first conveying mechanism and the second conveying belt of the second conveying mechanism.

7. The continuous and rapid feeding device for the flat masks according to claim 6, wherein the first conveying driving mechanism comprises a first driving conveying roller, a first driven conveying roller and a first driving mechanism for driving the first driving conveying roller to rotate, wherein the first driving conveying roller and the first driven conveying roller are rotatably connected to the frame and are sequentially arranged along the length direction of the frame; the second conveying mechanism comprises a second driving conveying roller, a second driven conveying roller and a second driving mechanism used for driving the first driving conveying roller to rotate, wherein the second driving conveying roller and the second driven conveying roller are rotatably connected to the rack and are sequentially arranged along the length direction of the rack.

8. The continuous and rapid feeding device for a flat mask according to claim 7, wherein the first driving mechanism and the second driving mechanism are driven separately or jointly, wherein when the first driving mechanism and the second driving mechanism are driven jointly, the device comprises a driving motor and a gear transmission mechanism arranged on the frame, wherein the driving motor is mounted on the frame, and the gear transmission mechanism comprises a driving gear and a driven gear which are consistent in size and specification and meshed with each other, wherein the driving gear is rotatably connected to the frame through a first transmission shaft, and the driven gear is rotatably connected to the frame through a second transmission shaft; the first transmission shaft is connected with the main shaft of the driving motor and the second driving conveying roller through a first synchronous belt transmission mechanism, wherein the first synchronous belt transmission mechanism comprises three groups of first synchronous wheels and a first synchronous belt, the three groups of first synchronous wheels are respectively arranged on the second driving conveying roller, the first transmission shaft and the main shaft of the driving motor, and the first synchronous belt sequentially surrounds the three first synchronous wheels; the second transmission shaft with connect through second synchronous belt drive mechanism between the first initiative conveying roller, second synchronous belt drive mechanism is including setting up the second transmission shaft with second synchronizing wheel on the first initiative conveying roller and encircle the second hold-in range on two sets of second synchronizing wheels.

9. The continuous and rapid feeding device for the flat masks according to claim 8, wherein the mask sending mechanism further comprises two groups of third conveying mechanisms arranged below the storage bin, the two groups of third conveying mechanisms are respectively arranged at two sides of the mask transferring mechanism, each group of third conveying mechanisms comprises third conveying rollers, and the third conveying rollers are rotatably connected to the frame and are positioned at the same level with the second driving conveying rollers and the second driven conveying rollers; the third conveying roller is connected with the second driven conveying roller through a third synchronous belt transmission mechanism; and the third synchronous belt transmission mechanism comprises a third synchronous belt which is wound on the second driven conveying roller and the third conveying roller.

10. The continuous and rapid feeding device for the flat masks according to claim 1, wherein the bin consists of four support frames, and a storage groove for storing the masks is formed by gaps among the four support frames; the bottom of each support frame is provided with a longitudinal or/and transverse adjusting installation hole position, and the adjusting installation hole position comprises but is not limited to one of an oblong shape and a long strip shape.

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