CN110002060B - Filling and can sealing machine material cylinder with heating function - Google Patents

Abstract

The invention provides a material cylinder of a filling and can sealing machine with a heating function, and belongs to the technical field of filling and can sealing machines. The material storage cavity is formed in the material cylinder body, a discharge pipe is connected to the bottom of the side wall of the material cylinder body, the heating cover is wrapped on the outer side wall of the material cylinder body, the heating cover and the outer side wall of the material cylinder body enclose a heating cavity, an air inlet pipe is connected to the bottom of the side wall of the heating cover, an air outlet pipe is connected to the top of the heating cover, the steam generator is arranged on the outer side of the heating cover, steam generated by the steam generator flows into the heating cavity through the air inlet pipe, the rotating body is vertically and rotatably arranged on the upper side face of the material cylinder body, the lower end of the rotating body penetrates through the material cylinder body and extends into the material storage cavity, a plurality of first rotating blade plates are arranged at the lower end of the rotating body, and the driving mechanism can drive the rotating body to rotate by. The invention can rapidly and uniformly heat the material liquid in the material storage cavity.

Description

Filling and can sealing machine material cylinder with heating function

Technical Field

The invention belongs to the technical field of filling and can sealing machines, and relates to a material cylinder of a filling and can sealing machine with a heating function.

Background

A filling and sealing machine is a machine for sealing a tank opening, and a material cylinder is a container for storing material liquid.

In the filling process, if some equipment on the production line breaks down, need close the filling can seamer, the feed liquid temperature in the material jar can reduce gradually, after the filling can seamer restarts, the feed liquid temperature in the material jar has not reached the requirement of filling, and current material jar does not possess the heating function, consequently need to discharge the feed liquid in the material jar and go, preheats the back again through auxiliary assembly and fills, wastes time and energy, influences filling efficiency.

Disclosure of Invention

The invention aims to solve the problems in the prior art, and provides a material cylinder of a filling and can sealing machine with a heating function, which can quickly and uniformly heat material liquid in a material cylinder body and is simple to operate.

The purpose of the invention can be realized by the following technical scheme: the utility model provides a take filling can seamer material jar of heating function, includes: the material jar body, the material jar body is cylindricly, the material jar body has: the material storage cavity is positioned in the material cylinder body; the discharge pipe is arranged at the bottom of the side wall of the material cylinder body and communicated with the material storage cavity;

the heating cover wraps up on the lateral wall of material jar body, the heating cover has: the heating cavity is formed by a heating cover and the outer side wall of the material cylinder body in a surrounding mode; the air inlet pipe is arranged at the bottom of the side wall of the heating cover and communicated with the heating cavity; the air outlet pipe is arranged at the top of the heating cover and communicated with the heating cavity;

the steam generator is arranged on the outer side of the heating cover through the base, and steam generated by the steam generator flows into the heating cavity through the air inlet pipe;

the rotor, the rotor is cylindricly, the rotor vertical rotation sets up on the last side of material jar body, the lower extreme of rotor passes the material jar body and extends to the stockpile intracavity, the rotor has: the first rotating vane plates are uniformly arranged at the lower end of the rotating body along the circumferential direction;

the feeding pipe rotates and is coaxially arranged in the rotating body, the lower end of the feeding pipe extends out of the lower end of the rotating body and is communicated with the material storage cavity, and the feeding pipe is fixedly arranged on the material cylinder body through a fixing frame;

and the driving mechanism is arranged at the top of the air outlet pipe and can drive the rotating body to rotate by utilizing the steam discharged by the air outlet pipe.

In the above-mentioned can seamer material jar with heating function, the driving mechanism includes:

the gas collecting tank is arranged at the top of the gas outlet pipe, a gas collecting cavity is arranged in the gas collecting tank, the gas outlet pipe is communicated with the gas collecting cavity, and an exhaust pipe is arranged on the upper side surface of the gas collecting tank and is communicated with the gas collecting cavity;

the rotating shaft is horizontally and rotatably arranged in the gas collecting cavity, a plurality of second rotating blade plates are arranged on the rotating shaft along the circumferential direction, one end of the rotating shaft penetrates out of the gas collecting cavity and extends to the outside of the gas collecting box, and the end part of the rotating shaft is in transmission connection with the rotating body.

In the material cylinder of the filling and can sealing machine with the heating function, the end part of the rotating shaft extending out of the gas collecting box is coaxially and fixedly provided with the second bevel gear, the rotating body positioned on the outer side of the material cylinder body is coaxially and fixedly provided with the first bevel gear, and the first bevel gear is meshed with the second bevel gear.

In foretell filling can seamer material jar of area heating function, the heating mantle includes ring plate, lower ring plate and pipe, go up ring plate and the equal coaxial outside that sets firmly at the material jar body of ring plate down, the coaxial outside that sets up at the material jar body of pipe, the upper end of pipe links firmly with the downside of last ring plate, the lower extreme of pipe links firmly with the side of going up of ring plate down, the length direction of heating intracavity edge pipe is equipped with the annular baffle of a plurality of, the inboard circular arc limit of baffle links firmly with the lateral wall of material jar body, the circular arc limit in the baffle outside links firmly with the inside wall of pipe, be equipped with a plurality of bleeder vent on the baffle.

In foretell filling can seamer material jar of taking heating function, the bottom of heating cover is connected with the condenser pipe, the one end and the heating chamber of condenser pipe are linked together, the other end of condenser pipe links to each other with steam generator's water inlet.

In the material cylinder of the filling and can sealing machine with the heating function, the bottom of the material storage cavity is coaxially provided with a cone frustum, and the cone frustum is positioned under the feeding pipe.

In the material cylinder of the filling and can sealing machine with the heating function, a thermometer is arranged on the material cylinder body, and the lower end of the thermometer extends into the material storage cavity and is positioned above the first rotating blade plate.

Compared with the prior art, the invention has the following advantages:

1. when part of equipment on a production line breaks down and the filling and can sealing machine is closed, a steam generator is started, generated steam flows into a heating cavity through an air inlet pipe, the steam transfers heat to feed liquid in a material storage cavity through heat conduction in the heating cavity to heat the feed liquid, the steam rises in the heating cavity and is discharged into a gas collection cavity through an air outlet pipe to drive a second rotating blade plate in the gas collection cavity to rotate, so that a rotating shaft and a second rotating gear rotate to drive a first bevel gear and a rotating body to rotate, the first rotating blade plate at the lower end of the rotating body rotates to stir the feed liquid in the material storage cavity, and the feed liquid is uniformly heated;

2. after steam enters the heating cavity from the air inlet pipe, the steam passes through the baffles layer by layer, so that the rising speed of the steam is reduced, the retention time of the steam in the heating cavity is prolonged, more heat is transferred to the material liquid in the material storage cavity, and the heating efficiency is improved; in addition, condensed water cooled by steam is gathered at the bottom of the heating cavity and is discharged to the steam generator through a condensed water pipe, so that cyclic utilization is realized;

3. because rotor and inlet pipe rotate the setting, when the rotor rotated, do not influence the feeding of inlet pipe, simple structure.

Drawings

FIG. 1 is a schematic structural diagram of a material cylinder of the filling and sealing machine with a heating function;

FIG. 2 is a cross-sectional view taken at A-A of FIG. 1;

FIG. 3 is a cross-sectional view taken at B-B of FIG. 1;

fig. 4 is a cross-sectional view at C-C in fig. 1.

In the figure, 1, a material cylinder body; 11. a storage cavity; 12. a discharge pipe; 13. a truncated cone; 14. a thermometer; 2. a heating mantle; 21. an upper circular plate; 22. a lower annular plate; 23. a circular tube; 24. a heating cavity; 25. a baffle plate; 251. air holes are formed; 26. an air outlet pipe; 27. a water condensation pipe; 3. a steam generator; 31. an air inlet pipe; 4. a gas collection tank; 41. a gas collection cavity; 42. an exhaust pipe; 5. a feed pipe; 51. a fixed mount; 6. a rotating body; 61. a first vane plate; 62. a first bevel gear; 7. a rotating shaft; 71. a second bevel gear; 72. a bearing seat; 73. a second rotating blade plate.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 4, a material cylinder of a filling and can sealing machine with a heating function comprises a material cylinder body 1, a heating cover 2, a steam generator 3, a rotor 6, a feeding pipe 5 and a driving mechanism.

The material jar body 1 is cylindric, be equipped with in the material jar body 1 and deposit material chamber 11, the bottom of the material jar body 1 lateral wall is connected with discharging pipe 12, discharging pipe 12 is linked together with material chamber 11.

Heating mantle 2 parcel is on the lateral wall of material jar body 1, heating mantle 2 has heating chamber 24, intake pipe 31 and outlet duct 26, heating mantle 2 encloses into heating chamber 24 with the lateral wall of material jar body 1, the bottom of heating mantle 2 lateral wall is connected with intake pipe 31, intake pipe 31 is linked together with heating chamber 24, the top of heating mantle 2 is provided with outlet duct 26, outlet duct 26 is linked together with heating chamber 24.

The steam generator 3 is arranged outside the heating cover 2 through a base, and steam generated by the steam generator 3 flows into the heating cavity 24 through an air inlet pipe 31.

Rotor 6 is cylindricly, rotor 6 vertical rotation sets up on the last side of material jar body 1, the lower extreme of rotor 6 passes material jar body 1 and extends to in depositing material chamber 11, rotor 6 has the first rotor plate 61 of a plurality of, a plurality of first rotor plate 61 evenly sets up the lower extreme at rotor 6 along circumference.

The inlet pipe 5 rotates and coaxial setting is in rotor 6, the lower extreme of inlet pipe 5 stretches out rotor 6's lower extreme and is linked together with material storage cavity 11, inlet pipe 5 sets firmly on feed cylinder body 1 through mount 51.

Because rotor 6 and inlet pipe 5 rotate the setting, when rotor 6 rotated, do not influence the feeding of inlet pipe 5, simple structure.

The driving mechanism is arranged at the top of the air outlet pipe 26, and the driving mechanism can drive the rotating body 6 to rotate by utilizing the steam discharged by the air outlet pipe 26.

When the partial equipment on the production line breaks down, close the filling can seamer after, start steam generator 3, the steam of production passes through intake pipe 31 and flows into in heating chamber 24, and steam is in heating chamber 24 through heat-conduction with heat transfer for the feed liquid of depositing in the material chamber 11, heats the feed liquid, and steam rises in heating chamber 24, discharges through outlet duct 26, actuating mechanism can utilize outlet duct 26 exhaust steam drive rotor 6 to take place to rotate, makes the first rotor plate 61 of rotor 6 lower extreme rotate, stirs the feed liquid of depositing in the material chamber 11, makes its thermally equivalent.

Particularly, actuating mechanism includes gas collecting tank 4 and pivot 7, gas collecting tank 4 sets up the top at outlet duct 26, be equipped with gas collecting cavity 41 in the gas collecting tank 4, outlet duct 26 is linked together with gas collecting cavity 41, the side of going up of gas collecting tank 4 is equipped with blast pipe 42, blast pipe 42 is linked together with gas collecting cavity 41, pivot 7 horizontal rotation sets up in gas collecting cavity 41, be equipped with a plurality of second rotating blade plate 73 along circumference on the pivot 7, the one end of pivot 7 is worn out gas collecting cavity 41 and is extended to the gas collecting tank 4 outside and the tip is connected with rotor 6 transmission.

The steam rises in the heating cavity 24 and is discharged into the gas collecting cavity 41 through the gas outlet pipe 26 at the top of the heating cover 2, so that the second rotating blade plate 73 in the gas collecting cavity 41 is driven to rotate, the rotating shaft 7 drives the rotating body 6 to rotate, and meanwhile, the first rotating blade plate 61 at the lower end of the rotating body 6 rotates, and the feed liquid in the material storage cavity 11 is stirred; in addition, kinetic energy of steam rising in the heating cavity 24 is converted into mechanical energy of rotation of the rotating body 6, so that a stirring function is realized while heating is performed, and heating efficiency is improved.

Preferably, the outlet pipe 26 is in a funnel shape with a large bottom and a small top, the end with the larger caliber of the outlet pipe 26 is communicated with the heating cavity 24, and the end with the smaller caliber of the outlet pipe 26 is communicated with the gas collecting cavity 41. The speed of the steam discharged from the upper end of the funnel-shaped air outlet pipe 26 can be increased, the rotating speed of the second rotating blade plate 73 is increased, and further the rotating speed of the rotating body 6 is increased, so that the stirring is more sufficient, and the heating is more uniform.

Specifically, a second bevel gear 71 is coaxially and fixedly arranged at the end part of the rotating shaft 7 extending out of the gas collecting box 4, a first bevel gear 62 is coaxially and fixedly arranged on the rotating body 6 positioned outside the material cylinder body 1, and the first bevel gear 62 and the second bevel gear 71 are meshed and connected.

When the second rotating vane plate 73 of the exhaust steam promotion of outlet duct 26 rotated, pivot 7 and the epaxial second bevel gear 71 of pivot 7 followed and rotated, driven rotor 6 and first rotating vane plate 61 through first bevel gear 62 and rotated, realized stirring function, simple and practical.

Particularly, the heating mantle 2 includes ring plate 21, lower ring plate 22 and pipe 23, go up ring plate 21 and the equal coaxial outside that sets firmly at material jar body 1 of ring plate 22 down, the coaxial outside that sets up at material jar body 1 of pipe 23, the upper end of pipe 23 links firmly with the downside of last ring plate 21, the lower extreme of pipe 23 links firmly with the side of going up of lower ring plate 22, be equipped with the annular baffle 25 of a plurality of along the length direction of pipe 23 in the heating chamber 24, the inboard circular arc limit of baffle 25 links firmly with the lateral wall of material jar body 1, the circular arc limit in the baffle 25 outside links firmly with the inside wall of pipe 23, be equipped with a plurality of bleeder vent 251 on the baffle 25.

After steam enters the heating cavity 24 from the air inlet pipe 31, the steam passes through the baffle plates 25 layer by layer, the rising speed of the steam is reduced, the retention time of the steam in the heating cavity 24 is prolonged, more heat is transferred to the material liquid in the material storage cavity 11, and the heating efficiency is improved.

Specifically, the bottom of the heating cover 2 is connected with a water condensation pipe 27, one end of the water condensation pipe 27 is communicated with the heating cavity 24, and the other end of the water condensation pipe 27 is connected with the water inlet of the steam generator 3.

Due to the fact that the staying time of the steam in the heating cavity 24 is increased, part of the steam forms condensed water, the condensed water is gathered at the bottom of the heating cavity 24 and then is discharged into the steam generator 3 through the condensed water pipe 27, and recycling is achieved.

Specifically, the bottom of the storage cavity 11 is coaxially provided with a truncated cone 13, and the truncated cone 13 is located right below the feeding pipe 5.

The cone frustum 13 is arranged right below the feeding pipe 5, when the feeding pipe 5 feeds, the feed liquid falls on the cone surface of the cone frustum 13 and is quickly guided into the material storage cavity 11 by the cone surface, so that bubbles generated by impact of the feed liquid are reduced, and the filling quality is improved; in addition, when the material liquid in the material storage cavity 11 is small, the material liquid is guided to the bottom edge of the material storage cavity 11 by the conical frustum 13, so that the material liquid can be discharged through the material discharge pipe 12, and the material liquid residue in the material storage cavity 11 is reduced.

Preferably, discharge pipe 12 has two, sets up respectively in the relative both sides of material jar body 1 lateral wall bottom, can discharge the feed liquid in depositing material chamber 11 fast under the guide effect of circular truncated cone 13, improves filling efficiency.

Specifically, a thermometer 14 is arranged on the material cylinder body 1, and the lower end of the thermometer 14 extends into the bottom of the material storage cavity 11 and is located above the first rotating blade plate 61.

The thermometer 14 is convenient for the outside to observe the temperature of the feed liquid in the storage cavity 11, when the feed liquid is heated to a set temperature, the steam generator 3 can be closed in time to stop heating, and the condition that the temperature of the feed liquid is higher than the set value to influence the filling quality is avoided; in addition, the thermometer 14 is located above the first louver 61, and the first louver 61 is prevented from colliding with the thermometer 14 when rotating and damaging it.

In the description of this patent, it is to be understood that the terms "upper", "lower", "inner", "outer", and the like, as used herein, refer to an orientation or positional relationship based on that shown in the drawings, which is for convenience in describing the patent and to simplify the description, and do not indicate or imply that the referenced device or element must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be considered limiting of the patent.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the invention as defined in the appended claims.

Claims (6)

1. The utility model provides a take filling can seamer material jar of heating function which characterized in that includes: expect jar body (1), expect jar body (1) and be cylindricly, expect jar body (1) and have: the material storage cavity (11), the material storage cavity (11) is positioned in the material cylinder body (1); the discharge pipe (12), the discharge pipe (12) is arranged at the bottom of the side wall of the material cylinder body (1) and is communicated with the material storage cavity (11);

heating cover (2), heating cover (2) parcel is on the lateral wall of material jar body (1), heating cover (2) have: the heating cavity (24) is defined by a heating cover (2) and the outer side wall of the material cylinder body (1); the air inlet pipe (31), the air inlet pipe (31) is arranged at the bottom of the side wall of the heating cover (2) and communicated with the heating cavity (24); the air outlet pipe (26) is arranged at the top of the heating cover (2) and communicated with the heating cavity (24);

the steam generator (3) is arranged on the outer side of the heating cover (2) through a base, and steam generated by the steam generator (3) flows into the heating cavity (24) through an air inlet pipe (31);

rotor (6), rotor (6) are cylindricly, rotor (6) vertical rotation sets up on the last side of material jar body (1), the lower extreme of rotor (6) passes in material jar body (1) extends to deposit material chamber (11), rotor (6) have: the first rotating vane plates (61), the first rotating vane plates (61) are uniformly arranged at the lower end of the rotating body (6) along the circumferential direction;

the feeding pipe (5) rotates and is coaxially arranged in the rotating body (6), the lower end of the feeding pipe (5) extends out of the lower end of the rotating body (6) and is communicated with the material storage cavity (11), and the feeding pipe (5) is fixedly arranged on the material cylinder body (1) through a fixing frame (51);

the driving mechanism is arranged at the top of the air outlet pipe (26), and can drive the rotating body (6) to rotate by utilizing the steam discharged by the air outlet pipe (26);

the drive mechanism includes:

the gas collection box (4) is arranged at the top of the gas outlet pipe (26), a gas collection cavity (41) is arranged in the gas collection box (4), the gas outlet pipe (26) is communicated with the gas collection cavity (41), an exhaust pipe (42) is arranged on the upper side surface of the gas collection box (4), and the exhaust pipe (42) is communicated with the gas collection cavity (41);

the gas collecting device comprises a rotating shaft (7), wherein the rotating shaft (7) is horizontally and rotatably arranged in a gas collecting cavity (41), a plurality of second rotating blade plates (73) are arranged on the rotating shaft (7) along the circumferential direction, one end of the rotating shaft (7) penetrates out of the gas collecting cavity (41) and extends to the outside of the gas collecting box (4), and the end part of the rotating shaft is in transmission connection with a rotating body (6).

2. The material cylinder of the filling and sealing machine with the heating function as claimed in claim 1, wherein the end of the rotating shaft (7) extending out of the gas collecting box (4) is coaxially and fixedly provided with a second bevel gear (71), the rotating body (6) positioned outside the material cylinder body (1) is coaxially and fixedly provided with a first bevel gear (62), and the first bevel gear (62) and the second bevel gear (71) are in meshed connection.

3. The material cylinder of the filling and can sealing machine with the heating function according to claim 2, wherein the heating cover (2) comprises an upper circular plate (21), a lower circular plate (22) and a circular tube (23), the upper circular plate (21) and the lower circular plate (22) are both coaxially fixed on the outer side of the material cylinder body (1), the circular tube (23) is coaxially arranged on the outer side of the material cylinder body (1), the upper end of the circular tube (23) is fixedly connected with the lower side surface of the upper circular plate (21), the lower end of the circular tube (23) is fixedly connected with the upper side surface of the lower circular plate (22), a plurality of annular baffles (25) are arranged in the heating cavity (24) along the length direction of the circular tube (23), the arc edge on the inner side of the baffles (25) is fixedly connected with the outer side wall of the material cylinder body (1), the arc edge on the outer side of the baffles (25) is fixedly connected with the inner side wall of the circular tube (23), the baffle (25) is provided with a plurality of air holes (251).

4. The filling and sealing machine material cylinder with the heating function according to claim 3, characterized in that a water condensation pipe (27) is connected to the bottom of the heating cover (2), one end of the water condensation pipe (27) is communicated with the heating cavity (24), and the other end of the water condensation pipe (27) is connected with a water inlet of the steam generator (3).

5. The filling and sealing machine material cylinder with the heating function according to claim 4, characterized in that a conical frustum (13) is coaxially arranged at the bottom of the material storage cavity (11), and the conical frustum (13) is positioned right below the feeding pipe (5).

6. The filling and sealing machine material cylinder with the heating function according to claim 5, characterized in that a thermometer (14) is arranged on the material cylinder body (1), and the lower end of the thermometer (14) extends into the material storage cavity (11) and is positioned above the first rotating blade (61).

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