CN219341725U - Full-automatic glass cement filling device - Google Patents

Abstract

The utility model provides a full-automatic glass cement filling device, which relates to the technical field of filling equipment and comprises a filling mechanism and a dredging mechanism, wherein the filling mechanism comprises a fixed base, a storage tank is arranged at the top of the fixed base, a discharge chute is arranged on one side of the storage tank, a conveying pipe is connected to one side of the discharge chute, a connecting cylinder is connected to the inside of the conveying pipe in a sliding manner, an arc-shaped plate is arranged on one side of the connecting cylinder, a first inclined edge and a second inclined edge are respectively arranged on one side of the arc-shaped plate and one side of the connecting cylinder, the diameter of the connecting cylinder is consistent with the inner diameter of the conveying pipe, the first inclined edge and the second inclined edge can be attached to the inner wall of the conveying pipe, and an air sucking pump is arranged at the top of the storage tank. According to the glass cement dredging device, the connecting cylinder moves in the conveying pipe through the operation of the air pump, so that glass cement attached to the conveying pipe is scraped, and the dredging of the conveying pipe can be completed under the condition that the conveying pipe is not completely blocked by the glass cement.

Description

Full-automatic glass cement filling device

Technical Field

The utility model belongs to the technical field of filling equipment, and particularly relates to a full-automatic glass cement filling device.

Background

Filling equipment, mainly be the one kind product among the packagine machine, can divide into liquid filling machine, lotion filling machine, powder filling machine, granule filling machine from the packing angle to the material, wherein, glass glues at the in-process of producing the packing, needs to use corresponding filling equipment, to the filling of glass glues, because glass glues self possesses the viscidity, consequently very easy adhesion is on the inner wall of discharging pipe, if not clear up it for a long time, glass glues will become hard to influence the normal ejection of compact of discharging pipe.

The Chinese utility model patent with publication number of CN218142280U discloses a pressure filling device for glass cement production, which is disclosed in 12/27 of 2022,

including workstation and liquid filling machine body, the gum storage jar is installed on the workstation top, the gum storage jar bottom is connected with the pipe, the workstation is run through to the one end of pipe to be connected with the input of liquid filling machine body, liquid filling machine body output is connected with the conveying pipeline, the saddle is installed to conveying pipeline outer wall one side, the saddle top is connected with and reserves a section of thick bamboo, the bottom of reserving a section of thick bamboo runs through the saddle to extend to the inside of conveying pipeline, reserve a section of thick bamboo top and install the cylinder, the output of cylinder extends to the inside of reserving a section of thick bamboo, and is connected with the piston block, the outer wall of piston block laminates with the inner wall of reserving a section of thick bamboo mutually. The glass glue dripping device is simple and reasonable in structure, novel in design, simple and convenient to operate, capable of avoiding glass glue dripping, and high in practical value;

according to the technical scheme, the air pressure in the conveying pipe is changed through the operation of the air cylinder, so that glass cement attached to the conveying pipe moves backwards in the conveying pipe, and the situation that the glass cement drops is avoided; however, this scheme can only be used under the condition that glass glues and blocks up the conveying pipeline completely, because the conveying pipeline is not blocked up completely, and the work of cylinder just can not make the atmospheric pressure in the conveying pipeline reduce, just can't make glass glue remove in the conveying pipeline yet, therefore this technical scheme is higher to the clearance of conveying pipeline limitation.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a full-automatic glass cement filling device to solve the problems in the background art.

The purpose and the efficacy of the full-automatic glass cement filling device are achieved by the following specific technical means:

the utility model provides a full-automatic glass glues filling device, includes filling mechanism and mediation mechanism, filling mechanism includes unable adjustment base, the storage tank is installed at unable adjustment base's top, the blown down tank has been seted up to one side of storage tank, the blown down tank, one side of blown down tank is connected with the conveying pipeline, but the inside sliding connection of conveying pipeline has a connecting cylinder, the arc is installed to one side of connecting cylinder, just first hypotenuse and second hypotenuse have been seted up respectively to one side of arc and connecting cylinder, the diameter of connecting cylinder is unanimous with the internal diameter of conveying pipe, first hypotenuse and second hypotenuse all can laminate mutually with the inner wall of conveying pipeline, the aspiration pump is installed at the top of storage tank, the pump is installed to one side of storage tank.

Further, a pair of limiting strips are arranged on the inner wall of the storage tank, the limiting strips are located on two sides of the discharge chute, and the limiting strips can be extruded with one side of the connecting cylinder.

Further, the back of the connecting cylinder is provided with a motor, the inside of the connecting cylinder is provided with a rotating shaft, the output end of the motor is in transmission connection with the rotating shaft, the outer side of the rotating shaft is provided with a first scraping plate and a second scraping plate, and one ends of the first scraping plate and the second scraping plate are respectively attached to the first inclined edge and the second inclined edge.

Further, one end of the material conveying pipe is connected with a material guiding pipe through a flange plate, the material guiding pipe is L-shaped, and a booster pump is arranged at the top of the material storage tank.

Furthermore, one side of unable adjustment base is equipped with the support base, the graduated disk is installed at the top of support base, four groups of recesses have been seted up at the top of graduated disk, and all block is connected with the filling bottle in the recess.

Further, the feed chute is arranged on one side of the storage tank, the feed chute is connected with the feed pipe, and one end of the feed pipe is connected with the valve body.

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

the diameter of the connecting cylinder is consistent with the inner diameter of the conveying pipe, so that the sealing of the conveying pipe can be completed after the connecting cylinder is plugged into the conveying pipe, in this case, after the air pump is started, negative pressure can be formed in the conveying pipe, so that the connecting cylinder moves in the conveying pipe, at the moment, the first inclined edge and the second inclined edge can scrape glass cement attached to the inner wall of the conveying pipe, part of glass cement scraped by the second inclined edge can fall on the arc plate, glass cement scraped by the first inclined edge can be pushed on the arc plate by the glass cement at the back, and finally, the situation that most glass cement on the inner wall of the conveying pipe is scraped can occur.

Drawings

Fig. 1 is a perspective view of the present utility model.

Fig. 2 is a cross-sectional view of the storage tank of the present utility model.

Fig. 3 is an enlarged schematic view of the structure of fig. 2 a in accordance with the present utility model.

Fig. 4 is a perspective view of the connecting cylinder of the present utility model.

In the figure, the correspondence between the component names and the drawing numbers is:

100. a filling mechanism; 1001. a fixed base; 1002. a storage tank; 1003. a material conveying pipe; 1004. a material guiding pipe; 1005. a booster pump; 1006. a feed pipe; 1007. a support base; 1008. an index plate; 1009. filling a bottle; 1010. a discharge chute; 200. a dredging mechanism; 2001. an air extracting pump; 2002. a limit bar; 2003. a connecting cylinder; 2004. an arc-shaped plate; 2005. a first oblique side; 2006. a rotating shaft; 2007. a first scraper; 2008. a second oblique side; 2009. and a second scraper.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the utility model but are not intended to limit the scope of the utility model.

Examples:

as shown in fig. 1 to 4:

the utility model provides a full-automatic glass cement filling device, which comprises a filling mechanism 100 and a dredging mechanism 200, wherein the filling mechanism 100 comprises a fixed base 1001, a storage tank 1002 is arranged at the top of the fixed base 1001, a discharging groove 1010 is arranged at one side of the storage tank 1002, a conveying pipe 1003 is connected at one side of the discharging groove 1010, a connecting cylinder 2003 is slidably connected inside the conveying pipe 1003, an arc plate 2004 is arranged at one side of the connecting cylinder 2003, a first bevel edge 2005 and a second bevel edge 2008 are respectively arranged at one side of the arc plate 2004 and the connecting cylinder 2003, the diameter of the connecting cylinder 2003 is consistent with the inner diameter of the conveying pipe 1003, the first bevel edge 2005 and the second bevel edge 2008 can be attached to the inner wall of the conveying pipe 1003, an air sucking pump 2001 is arranged at the top of the storage tank 1002, an air pump is arranged at one side of the storage tank 1002, the diameter of the connecting cylinder 2003 is consistent with the inner diameter of the conveying pipe 1003, therefore, after the connecting cylinder 2003 is plugged into the interior of the conveying pipe 1003, sealing of the conveying pipe 1003 can be completed, in this case, after the suction pump 2001 is started, negative pressure can be formed in the interior of the conveying pipe 1003, so that the connecting cylinder 2003 moves in the conveying pipe 1003, at this time, the first inclined edge 2005 and the second inclined edge 2007 can scrape glass cement attached to the inner wall of the conveying pipe 1003, a part of glass cement scraped by the second inclined edge 2007 can fall onto the arc plate 2004, glass cement scraped by the first inclined edge 2005 can be pushed onto the arc plate 2004 by the glass cement at the back, and finally, the situation that glass cement is attached to the arc plate 2004, the first inclined edge 2005 and the second inclined edge 2007, and most glass cement on the inner wall of the conveying pipe 1003 is scraped can be completed in this way under the condition that the conveying pipe 1003 is not completely blocked by the glass cement.

Wherein, a pair of spacing 2002 is installed to the inner wall of storage tank 1002, and a pair of spacing 2002 is located the both sides of blown down tank 1010, and a pair of spacing 2002 can extrude with one side of connecting cylinder 2003, and spacing 2002 can block connecting cylinder 2003, prevents that connecting cylinder 2003 from moving excessively and falling the inside condition of storage tank 1002 from appearing.

The motor is mounted on the back of the connecting cylinder 2003, the rotating shaft 2006 is mounted in the connecting cylinder 2003, the output end of the motor is in transmission connection with the rotating shaft 2006, the first scraping plate 2007 and the second scraping plate 2009 are mounted on the outer side of the rotating shaft 2006, one ends of the first scraping plate 2007 and the second scraping plate 2009 are respectively attached to the first inclined edge 2005 and the second inclined edge 2008, after the limiting strip 2002 blocks the connecting cylinder 2003, the motor can be started, the first scraping plate 2007 and the second scraping plate 2009 are enabled to rotate, so that glass cement on the first inclined edge 2005 and the second inclined edge 2008 is scraped off, at the moment, the arc-shaped plate 2004 is located in the storage tank 1002, one end of the connecting cylinder 2003 is almost flush with the discharging groove 1010, glass cement on the first scraping plate 2007 is thrown into the storage tank 1002 due to centrifugal force generated by rotation of the first scraping plate 2007, and glass cement on the second scraping plate 2009 is thrown into the arc-shaped plate 2004 due to centrifugal force generated by rotation of the second scraping plate 2009, accordingly, the glass cement on the first scraping plate 2007 and the second scraping plate 2009 is thrown down, and then the inflating pump is started, the inside of the storage tank 1002 can be increased, and accordingly the glass cement on the first inclined edge and the second inclined edge is removed from the connecting cylinder and the glass cement can be dropped down.

Wherein, the conveying pipeline 1003 has a guide pipe 1004 through the ring flange connection at one end, and the guide pipe 1004 is "L" shape, and booster pump 1005 is installed at the top of storage tank 1002, and booster pump 1005 can increase the pressure of air to the glass cement in the storage tank 1002 to make glass cement flow out in the guide pipe 1004.

Wherein, one side of unable adjustment base 1001 is equipped with the support base 1007, and the graduated disk 1008 is installed at the top of support base 1007, and four groups of recesses have been seted up at the top of graduated disk 1008, and all block is connected with filling bottle 1009 in the recess, and the graduated disk 1008 can make each filling bottle 1009 all stop in proper order in the below of passage 1004 to in order that glass glues is carried to filling bottle 1009.

Wherein, the feed chute has been seted up to one side of storage tank 1002, and feed chute department is connected with inlet pipe 1006, and the one end of inlet pipe 1006 is connected with the valve body, and when the valve body was opened, can glue glass and glue in carrying storage tank 1002, after the valve body was closed, can make the storage tank 1002 in form the confined environment.

Specific use and action of the embodiment:

when the product is used, firstly, whether the connection part of the product is fastened is detected, the product is placed at a designated position after the product is ensured to be intact, when one-time filling is finished, after glass cement is not contained in the storage tank 1002, the guide pipe 1004 can be removed, the connecting cylinder 2003 is plugged into the interior of the conveying pipe 1003, so that the sealing of the conveying pipe 1003 is finished, in this case, after the suction pump 2001 is started, the interior of the conveying pipe 1003 can form negative pressure, so that the connecting cylinder 2003 moves in the conveying pipe 1003, at the moment, the first bevel edge 2005 and the second bevel edge 2007 can scrape glass cement attached to the inner wall of the conveying pipe 1003, a part of glass cement scraped by the second bevel edge 2007 can fall onto the arc 2004, glass cement scraped by the first bevel edge 2005 can be pushed onto the arc 2004, glass cement can be attached to the arc 2004, and finally the arc 2004, the first bevel edge 2005 and the second bevel edge 2007 can be attached with glass cement, when most of the glass cement on the inner wall of the conveying pipe 1003 is scraped, after the limit bar 2002 blocks the connecting cylinder 2003, a motor can be started to enable the first scraping plate 2007 and the second scraping plate 2009 to rotate, so that the glass cement on the first inclined edge 2005 and the second inclined edge 2008 is scraped, at the moment, the arc plate 2004 is positioned in the storage tank 1002, one end of the connecting cylinder 2003 is almost flush with the discharge chute 1010, the glass cement on the first scraping plate 2007 is thrown into the storage tank 1002 due to the centrifugal force generated by the rotation of the first scraping plate 2007, the glass cement on the second scraping plate 2009 is thrown onto the arc plate 2004 due to the centrifugal force generated by the rotation of the second scraping plate 2009, so that the glass cement on the first scraping plate 2007 and the second scraping plate 2009 is thrown down, then an inflator pump is started, the internal air pressure of the storage tank 1002 can be increased, and the connecting cylinder 2003 is removed from the conveying pipe 1003 at the moment, since the glass cement remaining on the first bevel 2005 and the second bevel 2008 is small, the amount of the glass cement dropping onto the feed conveyor pipe 1003 can be reduced.

The embodiments of the utility model have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (6)

1. A full-automatic glass cement filling device is characterized in that: including filling mechanism (100) and mediation mechanism (200), filling mechanism (100) include unable adjustment base (1001), storage tank (1002) are installed at the top of unable adjustment base (1001), blown down tank (1010) have been seted up to one side of storage tank (1002), blown down tank (1010), one side of blown down tank (1010) is connected with conveying pipeline (1003), but inside sliding connection of conveying pipeline (1003) has connecting cylinder (2003), arc (2004) are installed to one side of connecting cylinder (2003), just first hypotenuse (2005) and second hypotenuse (2008) have been seted up respectively to one side of arc (2004) and connecting cylinder (2003), the diameter of connecting cylinder (2003) is unanimous with the internal diameter of conveying pipeline (1003), first hypotenuse (2005) and second hypotenuse (2008) all can laminate with the inner wall of conveying pipeline (1003), aspiration pump (2001) are installed at the top of storage tank (1002), the aspiration pump is installed to one side of storage tank (1002).

2. The fully automatic glass cement filling device according to claim 1, wherein: a pair of limit strips (2002) are arranged on the inner wall of the storage tank (1002), the pair of limit strips (2002) are positioned on two sides of the discharge chute (1010), and the pair of limit strips (2002) can be extruded with one side of the connecting cylinder (2003).

3. The fully automatic glass cement filling device according to claim 1, wherein: the motor is installed on the back of the connecting cylinder (2003), a rotating shaft (2006) is installed in the connecting cylinder (2003), the output end of the motor is in transmission connection with the rotating shaft (2006), a first scraping plate (2007) and a second scraping plate (2009) are installed on the outer side of the rotating shaft (2006), and one ends of the first scraping plate (2007) and the second scraping plate (2009) are respectively attached to the first bevel edge (2005) and the second bevel edge (2008).

4. The fully automatic glass cement filling device according to claim 1, wherein: one end of the conveying pipe (1003) is connected with a material guiding pipe (1004) through a flange plate, the material guiding pipe (1004) is L-shaped, and a booster pump (1005) is arranged at the top of the material storage tank (1002).

5. The fully automatic glass cement filling device according to claim 1, wherein: one side of unable adjustment base (1001) is equipped with support base (1007), graduated disk (1008) are installed at the top of support base (1007), four groups of recesses have been seted up at the top of graduated disk (1008), and all block is connected with filling bottle (1009) in the recess.

6. The fully automatic glass cement filling device according to claim 1, wherein: one side of storage tank (1002) has seted up the feed chute, and feed chute department is connected with inlet pipe (1006), the one end of inlet pipe (1006) is connected with the valve body.

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