CN214983108U

CN214983108U - Production facility of floater

Info

Publication number: CN214983108U
Application number: CN202121369865.7U
Authority: CN
Inventors: 顾雄峰
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-06-19
Filing date: 2021-06-19
Publication date: 2021-12-03
Anticipated expiration: 2031-06-19

Abstract

The utility model provides a production facility of floater belongs to blowing production facility technical field. The automatic bottle blowing and pressurizing device comprises a base frame, more than two transverse sliding rails which are parallel to each other are transversely arranged in the base frame, a front mold and a rear mold are arranged below the transverse sliding rails, a bottle blowing mechanism and a sealed pressurizing mechanism are arranged on the transverse sliding rails in a sliding mode, the sealed pressurizing mechanism comprises a first sliding seat which is arranged on the transverse sliding rails in a sliding mode, a bottom plate is arranged at the lower end of the first sliding seat through a plurality of screws, a hot rotary motor is arranged at the upper end of the first sliding seat, an output shaft of the hot rotary motor penetrates through the bottom plate, a hot rotary cover is fixed to the bottom of the output shaft, a sleeve is arranged at the lower end of the bottom plate, a pressurizing cavity is formed by the sleeve and the lower end face of the bottom plate, the output shaft of the hot rotary motor penetrates through the top of the pressurizing cavity, the hot rotary cover is located in the pressurizing cavity, an air inlet pressurizing pipe communicated with the pressurizing cavity is arranged on the side wall of the sleeve, and the transverse cross section area of the sleeve is larger than the bottom face area of the hot rotary cover. The utility model has the advantages of high production efficiency, manpower and material resource saving, etc.

Description

Production facility of floater

Technical Field

The utility model belongs to the technical field of the blowing production facility, refer in particular to a production facility of floater.

Background

At present, floating balls exist in the market and are widely applied to various industries, such as aquaculture, lifesaving equipment, navigation buoys, swimming aids and the like. For products such as inflatable floating balls. The floating ball is usually formed by a floating body and an inflation inlet, the floating body is formed by a floating bottle through blow molding, the formed floating body is pressurized through the inflation inlet, and then the inflation inlet is filled through a sealing cover, so that the floating ball is produced. The traditional floating ball production and processing equipment usually needs three steps of advanced blow molding, pressurization and final sealing, and the process is complicated and the production efficiency is low.

Disclosure of Invention

The utility model aims at solving the above problem, and provide a production facility of floater, it can optimize the production step, promotes the efficiency of producing by oneself.

The purpose of the utility model is realized like this:

a production device of a floating ball comprises a base frame, more than two parallel transverse sliding rails are transversely arranged in the base frame, a front die and a rear die which move back and forth through a guide rail and are matched with each other are arranged below the transverse sliding rails, a bottle blowing mechanism and a sealing supercharging mechanism are arranged on the transverse sliding rails in a sliding manner, the sealing supercharging mechanism comprises a first sliding seat arranged on the transverse sliding rails in a sliding manner, the lower end of the first sliding seat is provided with a bottom plate through a plurality of screw rods, the upper end of the first sliding seat is provided with a heat rotary motor, an output shaft of the heat rotary motor penetrates through the bottom plate, a heat rotary cover is fixed at the bottom of the output shaft, the lower end of the bottom plate is provided with a sleeve, a supercharging cavity with a lower opening is formed by the sleeve and the lower end surface of the bottom plate, the output shaft of the heat rotary motor penetrates through the top of the supercharging cavity, the heat rotary cover is positioned in the supercharging cavity, and the side wall of the sleeve is provided with an air inlet supercharging pipe communicated with the supercharging cavity, the transverse cross-sectional area of the sleeve is larger than the bottom surface area of the hot screw cap.

The utility model discloses further set up to, be provided with the dog between first slide and the bottom plate, the dog cover is located on the output shaft of heat revolves the motor, the dog reciprocates along with the output shaft.

The utility model discloses further set up to, the both ends of transverse sliding rail are fixed with left side board and right side board respectively, left side board and right side board with bed frame fixed connection, be fixed with on the left side board and be used for bottle blowing mechanism is fixed with on the right side board along the first cylinder of transverse sliding rail horizontal slip and is used for sealed booster mechanism is along the second cylinder of transverse sliding rail horizontal slip.

The utility model discloses further set up to, bottle blowing mechanism is fixed with vertical decurrent blowing needle including smooth second slide of locating on the transverse sliding rail on the second slide.

The utility model discloses further set up to, form the bottle chamber that the upper end has the bayonet socket between the front mould of looks adaptation and the back mould, the center of bayonet socket with blow the needle and the center of hot spiral cover is located same vertical plane.

The utility model discloses further set up to, both sides are fixed with the side bearer around the first slide, are fixed with the cylinder on the side bearer, the piston rod of cylinder with both sides fixed connection around the bottom plate.

The utility model discloses further set up as, the bottom of hot spiral cover upwards the shaping has the lid groove.

The utility model discloses further set up to, the front end of vertical slide rail is fixed with the front bezel, is provided with gliding back plate around can through driving motor on the vertical slide rail, the front mould is fixed in the rear side of front bezel, and the back mould is fixed in the front side of back plate.

Compared with the prior art, the utility model outstanding and profitable technological effect is:

1. the utility model discloses in the sealed booster mechanism that provides, can carry out pressure boost and sealed operation simultaneously with the bottleneck position of bottle after the bottle blowing is accomplished, promote production efficiency, optimize production step.

2. The utility model discloses a when the dog that further sets up can reciprocate for the output shaft of hot rotating electrical machines, carries out the injecing of removing, the stable work of guarantee hot sealed operation soon.

3. The utility model discloses the curb plate about with horizontal slide rail both sides that set up to and first, second cylinder, can carry out the horizontal slip for bottle blowing mechanism and sealed booster mechanism, carry out the pressure boost automatically after accomplishing the bottle blowing and seal, avoid carrying out follow-up processing operation through the mould removal, promote into production efficiency.

4. The utility model discloses further both sides are provided with the side bearer around first slide to set up the side bearer cylinder on the side bearer, with the form of side bearer cylinder, push down the bottom plate lets the pressure boost chamber can firmly be checked with the bottleneck of bottle, guarantee pressure boost effect.

Drawings

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

FIG. 2 is an enlarged schematic view of detail A of FIG. 1;

fig. 3 is a schematic structural diagram of the seal pressurization mechanism of the present invention;

fig. 4 is a schematic cross-sectional view of the sealed plenum of the present invention;

fig. 5 is a schematic structural view of the front mold and the rear mold of the present invention;

reference numerals:

1-a base frame;

2-transverse sliding rails; 20-left side plate; 200-a first cylinder; 21-right side plate; 210-a second cylinder;

3-a guide rail; 30-a front plate; 31-a back plate; 4-front mould; 40-bottle cavity; 41-bayonet;

5-rear mould: 6-a bottle blowing mechanism; 60-a second slide; 61-blowing needle;

7-a sealed pressurization mechanism; 70-a first slide; 71-screw rod; 72-a base plate; 73-a thermal rotating machine; 730-an output shaft; 74-hot screw cap; 740-cover slots; 75-a sleeve; 750-a pressurizing cavity; 751-an inlet plenum duct; 76-a stop; 77-sideframe; 78-sideframe cylinder; 780-piston rod.

Detailed Description

The invention will be further described in the following with reference to specific embodiments thereof, with reference to the accompanying drawings, in which fig. 1-5:

a floating ball production device comprises a base frame 1, more than two parallel transverse sliding rails 2 are transversely arranged in the base frame 1, a front die 4 and a rear die 5 which move back and forth through a guide rail 3 and are matched with each other are arranged below the transverse sliding rails 2, a bottle blowing mechanism 6 and a sealing supercharging mechanism 7 are arranged on the transverse sliding rails 2 in a sliding manner, the sealing supercharging mechanism 7 comprises a first sliding seat 70 arranged on the transverse sliding rails 2 in a sliding manner, the lower end of the first sliding seat 70 is provided with a bottom plate 72 through a plurality of screw rods 71, the upper end of the first sliding seat 70 is provided with a heat rotary motor 73, an output shaft 730 of the heat rotary motor 73 penetrates through the bottom plate 72, a heat rotary cover 74 is fixed at the bottom of the output shaft 730, the lower end of the bottom plate 72 is provided with a sleeve 75, a supercharging cavity 750 with a lower opening is formed by the sleeve 75 and the lower end surface of the bottom plate 72, the output shaft 730 of the heat rotary motor 73 penetrates through the top of the supercharging cavity 750, the hot screw cover 74 is positioned in the pressurizing cavity 750, the side wall of the sleeve 75 is provided with an air inlet pressurizing pipe 751 communicated with the pressurizing cavity 750, and the transverse cross-sectional area of the sleeve 75 is larger than the bottom surface area of the hot screw cover 74.

The processing sequence is that the floating ball bottle blank is placed at the bayonet 41 of the front mould 4, the bottle blank is blown by the bottle blowing mechanism 6, after the bottle blowing is finished, the sealing pressurization mechanism performs sealing operation, the sleeve 75 performs downward pressing on the edge of the bottle blank at the bayonet 41, the lower opening of the sleeve 75 is sealed, the pressurization cavity 750 can only be communicated through the air inlet pressurization pipe 751, the bottle body is filled with gas through continuous pressurization, then the hot rotary cover 74 connected with the lower end of the output shaft 730 of the hot rotary motor penetrating through the sleeve 75 rotates at high speed, the lower end of the hot rotary cover 74 is placed with a bottle cover for sealing the bottle body before use, the bottle cover is clamped below the hot rotary cover 74, the bottom edge of the bottle cover is connected with the upper end of the bottle body in a hot rotary manner, after the bottle cover is rotated and hot melted, the sleeve 75 is not pressed down any more, the sealing of the bottle mouth and the increase of the air pressure in the bottle body are realized after the separation, and the normal use of the floating ball is ensured.

In addition, the transverse cross-sectional area of the sleeve 75 is larger than the bottom surface area of the hot screw cap 74, so that the hot screw cap 74 can move up and down in the sleeve, and cannot be abutted against the inner wall of the sleeve 75 during hot melting rotation, and the pressurization operation is guaranteed.

Preferably, a stopper 76 is disposed between the first sliding seat 70 and the bottom plate 75, the stopper 76 is sleeved on an output shaft 730 of the thermal rotating motor 73, and the stopper 76 moves up and down along with the output shaft 730.

The stop 76 can provide a certain range for the output shaft 730 to slide up and down, so that the hot screw cap is prevented from being pressed down too much to cause damage to the bayonet 41.

Preferably, a left side plate 20 and a right side plate 21 are respectively fixed at two ends of the transverse slide rail 2, the left side plate 20 and the right side plate 21 are fixedly connected with the base frame 1, a first cylinder 200 for the bottle blowing mechanism 6 to slide left and right along the transverse slide rail 2 is fixed on the left side plate 20, and a second cylinder 210 for the sealed pressurization mechanism 7 to slide left and right along the transverse slide rail 2 is fixed on the right side plate 21.

Preferably, the bottle blowing mechanism 6 includes a second sliding seat 60 slidably disposed on the transverse sliding rail 2, and a vertically downward blowing needle 61 is fixed on the second sliding seat 60.

Preferably, the bottle cavity 40 with the bayonet 41 at the upper end is formed between the front mold 4 and the rear mold 5, and the center of the bayonet 41 and the centers of the blowing needle 61 and the hot screw cap 74 are located on the same vertical plane.

The first air cylinder 200 controls the bottle blowing mechanism 6 to slide left and right, and the second air cylinder 210 controls the sealed pressurization mechanism 7 to slide left and right.

Preferably, side frames 77 are fixed to the front and rear sides of the first slider 70, side frame cylinders 78 are fixed to the side frames 77, and piston rods 780 of the side frame cylinders 78 are fixedly connected to the front and rear sides of the base plate 72. The downward pressing of the sleeve 75 is controlled by the side frame cylinders 78 on both sides, and the downward pressing is realized by the downward pressing of the side frame cylinders 78 on the bottom plate 72 and the fixation of the sleeve 75 on the lower end surface of the bottom plate. In addition, the side frame cylinders are fixed on two sides, so that the two sides are stressed more uniformly when being pressed down, the sealing effect is better, and the boosting operation is guaranteed.

Preferably, the bottom of the hot screw cap 74 is formed with a cap groove 740 upward. The setting of lid groove 740 can provide mounted position, convenience very for predetermineeing sealed lid.

Preferably, a front plate 30 is fixed to a front end of the guide rail 3, a rear plate 31 capable of sliding back and forth is provided to a rear side of the guide rail 3 by a driving motor, the front mold 4 is fixed to a rear side of the front plate 30, and the rear mold 5 is fixed to a front side of the rear plate 31. The arrangement of the front plate 30 and the rear plate 31 can facilitate the installation of different mold sets.

The working principle is as follows:

the utility model provides a production facility of floater provides bottle blowing mechanism and can carry out the bottle blowing operation to the floater, utilizes sealed booster mechanism to carry out pressure boost and sealed operation to the floater after the bottle blowing, promotes production efficiency by a wide margin, the material resources of using manpower sparingly.

The above-mentioned embodiment is only the preferred embodiment of the present invention, and does not limit the protection scope of the present invention according to this, 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

1. The floating ball production equipment is characterized by comprising a base frame (1), more than two parallel transverse sliding rails (2) are transversely arranged in the base frame (1), a front die (4) and a rear die (5) which move back and forth through a guide rail (3) and are matched are arranged below the transverse sliding rails (2), a bottle blowing mechanism (6) and a sealing supercharging mechanism (7) are arranged on the transverse sliding rails (2) in a sliding manner, the sealing supercharging mechanism (7) comprises a first sliding seat (70) which is arranged on the transverse sliding rails (2) in a sliding manner, the lower end of the first sliding seat (70) is provided with a bottom plate (72) through a plurality of screws (71), the upper end of the first sliding seat (70) is provided with a hot-spinning motor (73), an output shaft (730) of the hot-spinning motor (73) penetrates through the bottom plate (72), the bottom of the output shaft (730) is fixedly provided with a hot-spinning cover (74), and the lower end of the bottom plate (72) is provided with a sleeve (75), the lower end face of the sleeve (75) and the lower end face of the bottom plate (72) form a pressurizing cavity (750) with a lower opening, an output shaft (730) of the hot-rotating motor (73) penetrates through the top of the pressurizing cavity (750), the hot rotating cover (74) is located in the pressurizing cavity (750), an air inlet pressurizing pipe (751) communicated with the pressurizing cavity (750) is formed in the side wall of the sleeve (75), and the transverse cross-sectional area of the sleeve (75) is larger than the bottom face area of the hot rotating cover (74).

2. The floating ball production equipment according to claim 1, wherein a stop block (76) is arranged between the first sliding base (70) and the bottom plate (72), the stop block (76) is sleeved on an output shaft (730) of the thermal rotating motor (73), and the stop block (76) moves up and down along with the output shaft (730).

3. The floating ball production equipment according to claim 1, wherein a left side plate (20) and a right side plate (21) are respectively fixed to two ends of the transverse slide rail (2), the left side plate (20) and the right side plate (21) are fixedly connected with the base frame (1), a first air cylinder (200) used for the bottle blowing mechanism (6) to slide left and right along the transverse slide rail (2) is fixed to the left side plate (20), and a second air cylinder (210) used for the sealing pressurization mechanism (7) to slide left and right along the transverse slide rail (2) is fixed to the right side plate (21).

4. The floating ball production equipment according to claim 1, wherein the bottle blowing mechanism (6) comprises a second slide (60) slidably mounted on the transverse slide (2), and a vertically downward blowing needle (61) is fixed on the second slide (60).

5. A floating ball production device as claimed in claim 4, characterized in that a bottle cavity (40) with a bayonet (41) at the upper end is formed between the front mold (4) and the rear mold (5), and the center of the bayonet (41) is located on the same vertical plane with the blowing needle (61) and the hot screw cap (74).

6. The floating ball production equipment according to claim 1, wherein side frames (77) are fixed to the front side and the rear side of the first sliding seat (70), side frame cylinders (78) are fixed to the side frames (77), and piston rods (780) of the side frame cylinders (78) are fixedly connected to the front side and the rear side of the bottom plate (72).

7. The floating ball production equipment according to claim 1, wherein a cover groove (740) is formed upwards at the bottom of the hot screw cover (74).

8. Production equipment for floating balls according to claim 1, characterized in that the front end of the guide rail (3) is fixed with a front plate (30), the rear side of the guide rail (3) is provided with a rear plate (31) capable of sliding back and forth through a driving motor, the front mold (4) is fixed on the rear side of the front plate (30), and the rear mold (5) is fixed on the front side of the rear plate (31).