CN211284149U - Glass bottleneck processing equipment convenient to operation - Google Patents

Abstract

The utility model relates to a glass bottle mouth processing device convenient to operate, belonging to the technical field of glass bottle mouth processing devices, which comprises a workbench, wherein two parallel rotating rods are rotatably arranged on the workbench, the length direction of the rotating rods is arranged along the horizontal direction, the workbench is provided with a rotating part for driving the two rotating rods to synchronously rotate, the two rotating rods are coaxially provided with two discs, the discs on the rotating rods are respectively tangent with the discs on the other rotating rod, a clamping rod is arranged between the two rotating rods, the clamping rods are positioned at the tangent position of the circular discs, the workbench is provided with a heating pipe which is vertically upward, the heating pipe is located one side of the length direction of the rotating rod, a control switch for controlling the heating pipe is arranged on the workbench, and a shaping table is arranged on one side of the workbench. The utility model discloses have the effect of being convenient for improve staff work efficiency.

Description

Glass bottleneck processing equipment convenient to operation

Technical Field

The utility model belongs to the technical field of the technique of glass bottleneck processing equipment and specifically relates to a glass bottleneck processing equipment convenient to operation is related to.

Background

The glass bottle is a main packaging container in food, medicine and chemical industries, has the advantages of easy sealing, good air tightness and transparency, and can observe the condition of the contained objects from the outside; the storage performance is good; the appearance is beautiful, and the decoration is rich and colorful; has certain mechanical strength, can bear the internal pressure of the bottle and the external force action in the transportation process, and the like.

In practical application of glass bottles, the shapes of bottle mouths of glass bottles with different purposes are different, in order to meet corresponding use requirements, the bottle mouth of a basically-formed glass bottle is generally processed independently, and when the formed glass bottle is processed, the position of the bottle mouth of the glass bottle needs to be softened at high temperature, so that the bottle mouth of the glass bottle is easy to shape.

As shown in fig. 6, the existing glass bottle opening processing equipment comprises a machine table 1, a support 2 is arranged on the machine table 1, a clamp 3 is arranged on the support 2 in a rotating mode, a motor 4 is arranged on the support, the clamp 3 is parallel to the surface of the machine table 1, a glass bottle is clamped in the clamp 3, the bottle opening of the glass bottle is located outside the clamp 3, a high-temperature heating pipe 5 is arranged on the machine table 1, the high-temperature heating pipe 5 is located right below the bottle opening of the glass bottle, a switch 6 for adding natural gas into the high-temperature heating pipe 5 is arranged on the machine table 1, when the equipment is used for processing the glass bottle opening, the motor 4 drives the clamp 3 to rotate at the same speed, then the high-temperature heating pipe 5 is used for uniformly softening the glass bottle opening at high temperature, then the switch 6 and the motor 4 are turned off, the glass bottle is taken down.

However, the existing processing equipment has a disadvantage that after the glass bottle is softened each time, because the clamping port of the clamp is right opposite to the heating pipe, if the clamped glass bottle is directly taken under the condition that the heating pipe generates naked flame, the hand of a worker can contact the naked flame to cause potential safety hazard, in order to protect the personal safety of the worker, the high-temperature heating pipe needs to be closed firstly, then the glass bottle is taken down to process the bottle port, so that in the continuous processing process, the worker needs to continuously and repeatedly start and close the switch for controlling the high-temperature heating pipe, the workload of the worker is increased, and the improvement of the working efficiency of the worker is not facilitated.

SUMMERY OF THE UTILITY MODEL

Not enough to prior art exists, the utility model aims at providing a glass bottleneck processing equipment convenient to operation has the effect of being convenient for improve staff work efficiency.

The above utility model discloses an above-mentioned utility model purpose can realize through following technical scheme:

the utility model provides a glass bottleneck processing equipment convenient to operation, includes the workstation, it is provided with two dwangs that are parallel to each other to rotate on the workstation, the length direction of dwang sets up along the horizontal direction, be provided with on the workstation and be used for driving two synchronous pivoted rotation pieces of dwang, two equal coaxial two discs that are provided with on the dwang, disc on the dwang is with another disc on the dwang is tangent respectively, two the supporting rod has been placed between the dwang, the supporting rod is located the tangent position of disc, be provided with vertical ascending heating pipe on the workstation, the heating pipe sets up in one side along the length direction of dwang, be provided with the control switch of control heating pipe on the workstation, just one side of workstation is provided with moulding platform.

By adopting the technical scheme, when the bottle mouth of the glass bottle needs to be machined, firstly, natural gas is introduced into the heating pipe, then the control switch is started, the natural gas at the pipe mouth of the heating pipe is ignited, the heating pipe generates open fire for heating the glass bottle, then, the two rotating rods synchronously rotate at a constant speed towards the same direction by utilizing the rotating part, then, the clamping rods clamping the glass bottle are placed at the positions tangent to the circular disc, the bottle mouth is positioned above the heating pipe, and the clamping rods can rotate relatively in the rotating process of the circular disc, so that the bottle mouth can be heated more uniformly; after the heating is finished, taking the clamping rods out of the position between the circular discs, immediately placing the softened glass bottle on a shaping table for shaping, and simultaneously placing the other clamping rod for clamping the glass bottle at a position tangent to the circular discs; the supporting rod only erects between the disc, consequently makes things convenient for putting of supporting rod to get, and the switch that starts repeatedly and close the heating pipe for prior art changes the glass bottle and heats, the utility model discloses the effect of heating is carried out to the bottleneck of glass bottle conveniently continuously, has the effect of being convenient for improve staff work efficiency.

The present invention may be further configured in a preferred embodiment as: the rotation piece includes gear, chain and motor, the coaxial setting of gear is in on the dwang, chain and two gear intermeshing, the axis of rotation of motor with the coaxial setting of dwang.

Through adopting above-mentioned technical scheme, starter motor, when motor drive dwang rotated, the gear on the dwang rotated thereupon, and then made the chain rotate and drive another dwang that is provided with the gear and begin to rotate to have and make two dwangs synchronous emergence pivoted effect, then make the supporting rod of erectting at the tangent position of disc can rotate steadily at the uniform velocity, have the effect that makes the even heating of bottleneck circumference of glass bottle.

The present invention may be further configured in a preferred embodiment as: two convex rings are coaxially arranged on the clamping rod, and the distance between the circle centers of the two convex rings is consistent with the thickness of the disc.

Through adopting above-mentioned technical scheme, when the clamping rod was placed in the tangent position department of disc, the disc was located between two bulge loops for the clamping rod can not take place the displacement along the length direction of rotating lever at the pivoted in-process because of the restriction of two rings, thereby makes the bottleneck of glass bottle be located the top of heating pipe all the time.

The present invention may be further configured in a preferred embodiment as: the surface slope of moulding platform sets up, and one side that is close to the workstation is the slope highest end, and one side of keeping away from the workstation is the slope lowest end, moulding bench is provided with the support rail of two sets of parallels, the length direction of support rail sets up along the incline direction of moulding platform.

Through adopting above-mentioned technical scheme, take off the back with the supporting rod from the tangent position of disc, can place at the moulding bench of slope, then staff's a hand can be along the length direction who supports the rail roll the supporting rod repeatedly, and the plastic instrument is held to another hand and is moulded to the bottleneck of glass bottle to can be immediately to processing of softening back glass bottle, and slide the supporting rod along supporting the rail, have and make things convenient for the staff to carry out moulding effect to the bottleneck uniformly.

The present invention may be further configured in a preferred embodiment as: and a rubber pad is arranged on the support rail.

Through adopting above-mentioned technical scheme, be provided with the rubber pad on supporting the rail, the rubber pad increases the clamping rod and supports the frictional force between the rail, and then makes things convenient for the staff to roll the clamping rod along the length direction who supports the rail repeatedly, has the effect that reduces the clamping rod and skid on supporting the rail to a certain extent.

The present invention may be further configured in a preferred embodiment as: the worktable is provided with a containing groove, and a plurality of shaping tools are placed in the containing groove.

Through adopting above-mentioned technical scheme, because the bottleneck that the demand is different needs different shapes, therefore moulding instrument diverse makes things convenient for the staff to select moulding instrument, places moulding instrument in accomodating the inslot to have the effect of conveniently taking moulding instrument.

The present invention may be further configured in a preferred embodiment as: the storage tank is divided into a plurality of compartments.

Through adopting above-mentioned technical scheme, will accomodate the groove and divide into a plurality of cabins, can classify to the moulding instrument of different shapes and place, have the effect that improves work efficiency.

To sum up, the utility model discloses a following at least one useful technological effect:

1. the clamping rods are arranged at the tangent positions of the circular discs, so that the clamping rods are convenient to take, a plurality of clamping rods can be used for processing in succession, and the effect of improving the working efficiency of workers is facilitated;

2. the shaping table is arranged to immediately shape the glass bottle which is just softened at high temperature, so that the working efficiency is improved, and the glass bottle is shaped in time;

3. the clamping rod is located between the two convex rings in the rotating process, so that the clamping rod does not enable the heating position of the glass bottle to deviate from the bottle opening due to movement.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention.

Fig. 2 is a partially enlarged schematic view of a portion a in fig. 1.

Fig. 3 is a partially enlarged schematic view of a portion B in fig. 1.

Fig. 4 is a schematic structural diagram of an embodiment of the present invention.

Fig. 5 is a partially enlarged schematic view of a portion C in fig. 4.

Fig. 6 is a schematic diagram of a prior art structure.

Reference numerals: 1. a work table; 11. rotating the rod; 111. a disc; 12. a rotating member; 121. a gear; 122. a chain; 123. a motor; 13. a clamping rod; 131. a convex ring; 14. heating a tube; 141. a control switch; 1411. a foot control switch; 15. a shaping table; 151. a support rail; 1511. a rubber pad; 16. accommodating grooves; 17. a receiving groove; 171. a cabin.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

Referring to fig. 1 and 2, in order to provide the glass bottle mouth processing equipment convenient to operate, the glass bottle mouth processing equipment comprises a workbench 1, two rotating rods 11 parallel to each other are rotatably arranged on the workbench 1, the length direction of the rotating rods 11 is arranged along the horizontal direction, two discs 111 are coaxially arranged on the two rotating rods 11, and the discs 111 on the rotating rods 11 are respectively tangent to the discs 111 on the other rotating rod 11; placed clamping rod 13 between two dwang 11, clamping rod 13's length is greater than the length of dwang 11, and clamping rod 13 is located the tangent position of disc 111, and the coaxial two bulge loops 131 that are provided with on clamping rod 13, and the distance size between the centre of a circle of two bulge loops 131 is unanimous with the thickness size of disc 111.

Referring to fig. 1 and 5, a rotating member 12 for driving two rotating rods 11 to rotate synchronously is arranged on a workbench 1, the rotating member 12 includes a gear 121, a chain 122 and a motor 123, the gear 121 is coaxially arranged on the rotating rods 11, the chain 122 is meshed with the two gears 121, and a rotating shaft of the motor 123 is coaxially arranged with the rotating rods 11; when the motor 123 drives the rotating rods 11 to rotate at a constant speed, the two rotating rods 11 rotate synchronously by using the mutual engagement of the two gears 121 and the chains 122, and the rotating directions of the two rotating rods 11 are consistent, so that the rotating directions of the disks 111 on both sides of the clamping rod 13 are consistent, so that the clamping rod 13 rotates relatively, and the clamping rod 13 also keeps rotating at a constant speed and the rotating direction is opposite to the rotating direction of the disks 111, i.e. the rotating rods 11; and in the rotation process of clamping rod 13, disc 111 is located between two bulge loops 131 all the time to play spacing effect to clamping rod 13, can not make the skew heating source in bottleneck position because clamping rod 13 takes place the displacement when rotating, and then lead to the softening effect of glass bottle to reduce.

Referring to fig. 1 and 2, a heating pipe 14 facing upward is vertically arranged on the worktable 1, the heating pipe 14 is positioned at one side of the rotating rod 11 in the length direction, and can heat and soften the mouth of the glass bottle clamped on the clamping rod 13, and the mouth of the glass bottle on the clamping rod 13 is always positioned above the heating pipe 14 under the limitation of the convex ring 131; be provided with the control switch 141 of control heating pipe 14 on workstation 1, when needing to carry out high temperature softening to the glass bottle, at first let in the natural gas in heating pipe 14, then start control switch 141, ignite the natural gas of heating pipe 14 mouth, adopt foot control switch 1411 in this embodiment, and seted up holding tank 16 on the lateral wall of workstation 1, foot control switch 1411 is located holding tank 16, because foot control switch 1411 has been ripe prior art, this embodiment is only to foot control switch 1411's application, does not change its structure.

When the bottle mouth of the glass bottle needs to be processed, natural gas is firstly added into the heating pipe 14, then the foot control switch 1411 is stepped on, the natural gas at the opening of the heating pipe 14 is ignited by an electric pulse ignition mode, so that the opening of the heating pipe 14 generates open fire, the motor 123 is then activated, causing the discs 111 to start rotating and clamping the glass bottles on the clamping bars 13, placing the clamping bars 13 between the discs 111, and causing the flanges to catch between the two collars 131, after a certain time of high temperature softening, the clamping rod 13 is removed from the rotating disc 111 for shaping, meanwhile, another clamping rod 13 clamping the glass bottle is placed on the disc 111, after the shaping of the previous glass bottle is finished, the glass bottle on the disc 111 can be softened, thereby can be in succession to the bottleneck processing of glass bottle, have the effect of being convenient for improve staff work efficiency.

Referring to fig. 1 and 3, a shaping table 15 is arranged on one side of a workbench 1, the surface of the shaping table 15 is obliquely arranged, one side close to the workbench 1 is an oblique highest end, one side far away from the workbench 1 is an oblique lowest end, two groups of parallel support rails 151 are arranged on the shaping table 15, the length direction of the support rails 151 is arranged along the oblique direction of the shaping table 15, and rubber pads 1511 are arranged on the support rails 151; and the working table 1 is provided with a storage groove 17, the storage groove 17 and the shaping table 15 are positioned on the same side of the working table 1, and a plurality of cabins 171 are arranged in the storage groove 17.

A plurality of shaping tools are placed in the accommodating groove 17, each shaping tool generally consists of two shaping rods which are hinged in a crossed manner, corresponding shaping dies are arranged at one ends of the two shaping rods, and a handheld part is arranged at the other end of each shaping rod; during moulding, make the glass bottle press from both sides the one end that is provided with moulding mould at two moulding poles, then pinch the handheld portion for moulding mould closely contradicts with the bottleneck of glass bottle, thereby carries out moulding to the bottleneck of the glass bottle after softening.

Mould and accomplish the back that softens when the bottleneck to the glass bottle, take off clamping rod 13 from disc 111, then the staff holds clamping rod 13 in one hand, the other hand holds the moulding instrument corresponding with required bottleneck shape, place the shape instrument at the bottleneck of glass bottle, then along the length direction of support rail 151 clamping rod 13 that rolls repeatedly, in order to prevent clamping rod 13 and support rail 151 to take place relative slip to a certain extent, be provided with rubber pad 1511 on support rail 151, the effect that has increase frictional force, and then make the glass bottle rotate along with clamping rod 13, in the rotation process, can carry out even moulding to the bottleneck.

After the processing is accomplished, place moulding instrument and accomodate groove 17, have the effect that makes things convenient for the staff to accomodate moulding instrument because different glass bottles have the bottleneck of different shapes to the shape of each moulding instrument differs, therefore moulding instrument number is more, if use after accomplishing to place moulding instrument at will, probably spend more time when needs use next time and go to look for moulding instrument, thereby waste time and reduce staff's work efficiency.

The implementation process of the embodiment is as follows: when the bottle mouth of the glass bottle needs to be machined, firstly, the motor 123 is started to enable the two disks 111 to start to synchronously rotate at a constant speed, then natural gas is added into the heating pipe 14, the pedal control switch 1411 is trampled for ignition, then, the glass bottle is clamped on the clamping rod 13, the clamping rod 13 is placed at the tangent position of the disks 111, and high-temperature softening is carried out on the bottle mouth of the glass bottle.

After the glass bottle is softened, the clamping rods 13 are taken down, the other clamping rod 13 clamping the glass bottle is placed at the tangent position of the two circular discs 111, the taken-down clamping rod 13 is placed on the supporting rail 151, a shaping tool is clamped at the bottle opening of the glass bottle, and then the clamping rods 13 repeatedly roll back and forth along the length direction of the supporting rail 151, so that the bottle opening can be shaped uniformly.

After the shaping is finished, take off the glass bottle from clamping rod 13 and accomodate, place new glass bottle on clamping rod 13 next, then will place another clamping rod 13 on disc 111 and take off and shape to place the clamping rod 13 that will clamp new glass bottle again in the tangent position of disc 111, repeated foretell operation process next for the staff can continuously carry out work, has the effect of being convenient for improve staff work efficiency.

After the work is finished or the machining needs to be stopped, the foot control switch 1411 is stepped down, natural gas is stopped being added into the heating pipe 14, then the motor 123 is turned off, the clamping rods 13 are stopped working, and the shaping tool is placed into the accommodating groove 17 to be accommodated.

The embodiment of this specific implementation mode is the preferred embodiment of the present invention, not limit according to this the utility model discloses a protection scope, so: all equivalent changes made according to the structure, shape and principle of the utility model are covered within the protection scope of the utility model.

Claims (7)

1. The utility model provides a glass bottleneck processing equipment convenient to operation which characterized in that: comprises a workbench (1), two rotating rods (11) which are parallel to each other are arranged on the workbench (1) in a rotating manner, the length direction of the rotating rods (11) is arranged along the horizontal direction, the workbench (1) is provided with a rotating piece (12) which is used for driving the two rotating rods (11) to synchronously rotate, the two rotating rods (11) are coaxially provided with two disks (111), the disks (111) on the rotating rods (11) are respectively tangent to the disks (111) on the rotating rods (11), two clamping rods (13) are placed between the rotating rods (11), the clamping rods (13) are positioned at the tangent positions of the disks (111), the workbench (1) is provided with a vertical upward heating pipe (14), the heating pipe (14) is arranged at one side along the length direction of the rotating rods (11), the workbench heating pipe (1) is provided with a control switch (141) for controlling the heating pipe (14), and one side of the workbench (1) is provided with a shaping table (15).

2. A glass finish forming apparatus as in claim 1 wherein the glass finish forming apparatus further comprises: rotate piece (12) including gear (121), chain (122) and motor (123), gear (121) coaxial setting is in on dwang (11), chain (122) and two gear (121) intermeshing, the axis of rotation of motor (123) with dwang (11) coaxial setting.

3. A glass finish forming apparatus as in claim 1 wherein the glass finish forming apparatus further comprises: two convex rings (131) are coaxially arranged on the clamping rod (13), and the distance between the circle centers of the two convex rings (131) is consistent with the thickness of the disc (111).

4. A glass finish forming apparatus as in claim 1 wherein the glass finish forming apparatus further comprises: the surface slope of moulding platform (15) sets up, and one side that is close to workstation (1) is the slope highest end, and one side of keeping away from workstation (1) is the slope lowest end, be provided with support rail (151) of two sets of parallels on moulding platform (15), the length direction of support rail (151) sets up along the incline direction of moulding platform (15).

5. A glass finish forming apparatus as in claim 4 wherein: and a rubber pad (1511) is arranged on the support rail (151).

6. A glass finish forming apparatus as in claim 1 wherein the glass finish forming apparatus further comprises: be provided with on workstation (1) and accomodate groove (17), a plurality of moulding instruments have been placed in accomodating groove (17).

7. A glass finish forming apparatus as in claim 6 wherein: the storage tank (17) is divided into a plurality of chambers (171).

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