CN220716484U - Gluing equipment for kettles - Google Patents

Abstract

The application relates to a gluing device for a kettle, which comprises a frame, a mounting seat, a glue outlet head, a glue supply assembly, a first driving assembly, a lifting driving assembly and a second driving assembly, wherein the mounting seat is mounted on the frame and used for placing a spout ring piece; the first driving component drives the moving direction of the glue outlet head to be perpendicular to the moving direction of the mounting seat driven by the second driving component. This application has the effect that reduces the manpower consumption, improves work efficiency.

Description

Gluing equipment for kettles

Technical Field

The present application relates to glue coating devices, and in particular to a glue coating apparatus for a kettle.

Background

The kettle body of the thermos comprises a spout ring piece and a kettle seat arranged at the lower end of the spout ring piece. The lower end of the kettle mouth ring piece is provided with an arrangement groove for the top end of the kettle seat to be inserted, a circle of glue is generally coated in the arrangement groove, and the kettle mouth ring piece is fixedly connected with the top end of the kettle seat through the glue.

In the process of applying glue to the spout ring arrangement, a glue applicator is typically used. The existing gluing device comprises a glue water tank for storing glue, a glue outlet head for being held by an operator, a glue outlet pipe for connecting the glue water tank with the glue outlet head, a control valve which is arranged on the glue outlet pipe and used for controlling glue outlet of the glue, and a glue outlet pump for pumping the glue in the glue water tank to the glue outlet head.

Because the operator needs to hold out the gluey head and coat glue in the kettle mouth ring spare, need follow the circumferential direction of arranging the groove in the in-process of coating glue, when the kettle mouth ring spare that needs to coat is more, the intensity of labour of operator is great.

Disclosure of Invention

In order to reduce manpower consumption and improve work efficiency, the application provides a gluing device for a kettle.

The application provides a rubber coating equipment for kettle adopts following technical scheme:

the gluing equipment for the kettle comprises a frame, a mounting seat, a glue outlet head and a glue supply assembly, wherein the mounting seat is arranged on the frame and used for placing a spout ring piece; the device also comprises a first driving component for driving the glue outlet head to horizontally and linearly move, a lifting driving component for driving the glue outlet head to lift and a second driving component which is arranged on the frame and is used for driving the mounting seat to horizontally and linearly move; the first driving component drives the moving direction of the glue outlet head to be perpendicular to the moving direction of the mounting seat driven by the second driving component.

By adopting the technical scheme, when the kettle mouth ring piece gluing device is used for gluing, an operator places the kettle mouth ring piece on the mounting seat, and the lifting driving assembly drives the glue outlet head to descend so as to enable the glue outlet head to be close to the arrangement groove of the kettle mouth ring piece to be glued; and the glue outlet head and the mounting seat are subjected to the action of the first driving assembly and the second driving assembly, the glue outlet head can be used for drawing circles along the circumference of the arrangement groove relative to the spout replacement piece on the mounting seat, and glue is coated in the arrangement groove by the glue outlet head in the process of drawing circles, so that the step of coating glue by the spout ring piece gluing device is realized. Compared with the mode that an operator holds the glue outlet head to coat glue in the arrangement groove of the spout ring piece, the mode that the glue coating device of the spout ring piece coats glue is higher in production efficiency, and labor intensity of the operator is reduced.

Optionally, the first drive assembly includes install in first frame in the frame, horizontal rotation install in first lead screw on the first frame, horizontal slip install in first slip table on the first frame, install in first slip table and with first lead screw complex first nut and drive first lead screw pivoted first motor, lift drive assembly install in on the first slip table.

By adopting the technical scheme, the structure of the first driving component is specifically disclosed. The first driving assembly adopts the form of the screw pair, so that the precision of the first driving assembly is ideal, the displacement precision of the glue outlet head in the driving direction of the first driving assembly is guaranteed, and the probability that the glue outlet head is used for coating glue out of the arrangement groove in the glue coating process is reduced.

Optionally, the lift drive assembly include install in vertical bottom plate on the first slip table, vertical rotation install in vertical lead screw on the vertical bottom plate, vertical slip install in vertical slip table on the vertical bottom plate, install in vertical slip table and with vertical lead screw complex vertical nut and drive vertical lead screw pivoted vertical motor.

By adopting the technical scheme, the structure of the vertical driving assembly is specifically disclosed. The vertical driving assembly adopts a lead screw pair mode, so that the precision of the vertical driving assembly is ideal, and the precision of displacement of the glue outlet head in the driving direction of the vertical driving assembly is ensured.

Optionally, the second driving component is a linear motor, and the mounting seat is arranged on a sliding table of the linear motor.

By adopting the technical scheme, the form of the second driving assembly is specifically disclosed. The second driving assembly adopts a linear motor mode, so that the second driving assembly drives the mounting seat to have higher displacement precision.

Optionally, the glue supply assembly includes a glue tank for storing glue, a glue outlet pipe connecting the glue tank and the glue outlet head, a control valve installed on the glue outlet pipe and used for controlling glue outlet of the glue, and a glue outlet pump used for pumping the glue in the glue tank to the glue outlet head; the control valve is arranged on the vertical sliding table, and the glue outlet head is connected to the outlet end of the control valve.

By adopting the technical scheme, the concrete structure of the glue supply assembly is disclosed. When the glue outlet head supplies glue into the arrangement groove of the spout ring piece, the control valve is in an opened state, and the glue outlet pump conveys the glue to the glue outlet head; when the glue outlet head does not need glue supply, the control valve is in a closed state.

Optionally, an electric heating wire is arranged in the rubber outlet pipe along the length direction.

Through adopting above-mentioned technical scheme, the electric heater strip in the play rubber tube can keep warm the glue in the play rubber tube, has reduced the probability that the glue takes place to solidify in the play rubber tube.

Optionally, a clamp for fixing the rubber outlet pipe is arranged on the vertical sliding table.

Through adopting above-mentioned technical scheme, the clamp can lock the one end that is close to out the rubber head in the play rubber tube for it is smaller to go out the shake range that is close to out the one end of rubber head in the rubber tube and go out the rubber tube in the drive process of first drive assembly and lift drive assembly, makes the probability that the one end that is close to out the rubber head in the rubber tube takes place to drop to reduce.

Optionally, the mounting seat is provided with a positioning ring groove for inserting the top of the spout ring piece and an arrangement notch for arranging the spout part of the spout ring piece.

Through adopting above-mentioned technical scheme, hu zui ring spare can peg graft in the locating ring groove department of mount pad, and huzui portion in the urgent case of huzui ring can arrange breach department, not only make the mount pad can carry out horizontal direction and circumferential location to huzui ring spare, and make the mount pad drive the in-process that huzui ring spare removed, huzui ring spare breaks away from the probability of being lower on the mount pad.

Optionally, at least two mounting seats are arranged on the sliding table of the linear motor.

Through adopting above-mentioned technical scheme, can place the hu zui ring spare that corresponds with mount pad quantity, after one of them huzui ring spare coating glue is accomplished, operating personnel can carry out the unloading to it, goes out the gluey head and can coat glue to other huzui ring spare this moment to help promoting the efficiency of whole coating glue.

Optionally, a supporting cushion block supported at the bottom of the mounting seat is arranged on the sliding table of the linear motor.

By adopting the technical scheme, the supporting cushion block is beneficial to enabling the spout ring to be at a height convenient for operators to operate.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the glue coating device for the kettle comprises a first driving assembly, a second driving assembly, a first glue spraying device, a second glue spraying device, a first glue spraying device, a second glue spraying device and a second glue spraying device, wherein the first glue spraying device and the second glue spraying device are arranged on the kettle body;

2. by arranging the electric heating wire in the rubber outlet pipe, the glue in the rubber outlet pipe can be insulated, and the solidification probability of the glue in the rubber outlet pipe is reduced;

3. the first driving assembly adopts a lead screw pair mode and the second driving assembly adopts a linear motor mode, so that the displacement precision of the glue outlet head in the driving direction of the first driving assembly is guaranteed, the displacement precision of the spout ring piece in the driving direction of the second driving assembly is guaranteed, and the probability that the glue outlet head is used for coating glue from the arrangement groove in the glue coating process is reduced.

Drawings

Fig. 1 is a schematic structural view of a spout ring gumming device.

Fig. 2 is a schematic structural view of the mounting base.

Fig. 3 is an internal schematic view of the first drive assembly.

Fig. 4 is a schematic cross-sectional view of the first drive assembly.

Fig. 5 is an external view of the first driving assembly.

Fig. 6 is a schematic structural view of the elevation driving assembly.

Fig. 7 is a schematic cross-sectional view of a lift drive assembly.

Fig. 8 is a schematic cross-sectional view of the clip.

Reference numerals illustrate: 1. a frame; 11. a mounting platform; 12. installing a side plate; 2. a mounting base; 21. a tray body; 22. supporting cushion blocks; 23. a rubber pad; 231. positioning ring grooves; 232. arranging a notch; 3. a second drive assembly; 4. a glue outlet head; 5. a glue supply assembly; 51. a glue tank; 52. a rubber outlet pipe; 53. a control valve; 54. a glue outlet pump; 521. an electric heating wire; 6. a first drive assembly; 61. a first frame; 62. a first sliding table; 63. a first lead screw; 64. a first nut; 65. a first motor; 611. a sliding port; 66. a first support; 612. a first slide rail; 621. a first slider; 622. a first slide plate; 623. a first mounting plate; 624. a first connection plate; 7. a lifting driving assembly; 71. a vertical base plate; 72. a vertical sliding table; 73. a vertical screw; 74. a vertical nut; 75. a vertical motor; 76. a vertical support; 711. a vertical slide rail; 721. a vertical slider; 8. placing a plate; 9. a clamp; 91. a fixing part; 92. a movable part; 921. locking the through hole; 911. locking the screw hole; 93. a locking bolt.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-8.

In the drawings of the embodiments of the present application, a coordinate system XYZ is provided, in which a forward direction of an X axis represents a front side, a reverse direction of the X axis represents a rear side, a forward direction of a Y axis represents a right side, a reverse direction of the Y axis represents a left side, a forward direction of a Z axis represents an upper side, and a reverse direction of the Z axis represents a lower side.

The embodiment of the application discloses a gluing device for a kettle. Referring to fig. 1, the spout ring gluing device comprises a frame 1, a mounting seat 2 for placing the spout ring, a second driving assembly 3 which is arranged on the frame 1 and used for driving the mounting seat 2 to move along the front-back direction, a glue outlet head 4 for coating glue into an arrangement groove of the spout ring on the mounting seat 2, a glue supply assembly 5 which is connected with the glue outlet head 4 and used for supplying glue to the glue outlet head 4, a first driving assembly 6 for driving the glue outlet head 4 to move left and right, and a lifting driving assembly 7 for driving the glue outlet head 4 to vertically lift. The first driving assembly 6 drives the moving direction of the glue outlet head 4 to be perpendicular to the moving direction of the second driving assembly 3 drives the mounting seat 2, so that the glue outlet head 4 can circumferentially draw circles along the arrangement groove of the spout ring corresponding to the mounting seat 2, and glue coating operation of the spout ring is completed.

Referring to fig. 1, a rack 1 includes a mounting platform 11 and two mounting side plates 12. The mounting platform 11 is a square box structure. The two mounting side plates 12 are arranged on the mounting platform 11 in a bilateral symmetry manner. Wherein the second drive assembly 3 is mounted on the top surface of the mounting platform 11. The second driving assembly 3 is a linear motor, and in this embodiment, the second driving assembly 3 is a totally enclosed dust-free linear motor. The second driving component 3 is arranged on the top surface of the mounting platform 11 along the front-back direction, namely, the sliding direction of the sliding table of the second driving component 3 is the front-back direction. The second driving assembly 3 is disposed on the middle of the mounting platform 11 in the left-right direction.

Referring to fig. 1, a placing plate 8 is mounted on the slide table of the second driving assembly 3. The placement plate 8 is a square metal plate and is arranged horizontally. The mount 2 is provided on the top surface of the placement plate 8. In the present embodiment, four mounting seats 2 are provided on the placement plate 8, and the four mounting seats 2 are arranged in an array form of two rows and two columns.

Referring to fig. 1 and 2, the mounting base 2 includes a metal plate 21, a supporting pad 22 provided between the metal plate 21 and the placement plate 8, and a rubber pad 23 mounted on the top surface of the metal plate 21. The mounting seat 2 is provided with four supporting cushion blocks 22, and the four supporting cushion blocks 22 are welded and fixed on the placing plate 8. The four supporting pads 22 are uniformly arranged along the circumferential direction of the metal disc body 21. Wherein, metal disk body 21 and supporting cushion 22 are fixed through bolted connection.

Referring to fig. 2, the rubber pad 23 has a positioning ring groove 231 for inserting the top of the spout ring and an arrangement notch 232 for arranging the spout part of the spout ring, so that the mounting seat 2 can position the spout ring in the horizontal direction and the circumferential direction, and the probability that the spout ring is separated from the mounting seat 2 is low when the mounting seat 2 drives the spout ring to move in the process of driving the spout ring.

Referring to fig. 3 and 4, the first driving assembly 6 is mounted on two mounting side plates 12, and forms a gantry structure with the two mounting side plates 12. The first driving assembly 6 includes a first hollow frame 61 mounted on the two mounting side plates 12, a first sliding table 62 slidingly mounted on the first frame 61 in a left-right direction, a first screw 63 rotatably mounted in the first frame 61, a first nut 64 mounted on the first sliding table 62 and engaged with the first screw 63, a first motor 65 driving the first screw 63 to rotate, and a first support 66 for rotatably mounting the first screw 63.

Referring to fig. 5, the first frame 61 is a hollow rectangular parallelepiped frame, and the first frame 61 is provided with slide openings 611 arranged in the left-right direction on the front side surface.

Referring to fig. 3 and 4, the first frame 61 is provided at an inner wall with a first slide rail 612 parallel to the first screw 63, and the first slide table 62 has a first slider 621 engaged with the first slide rail 612, so that the first slide table 62 can slide in the direction of the first slide rail 612. In the present embodiment, the first frame 61 is provided with two first slide rails 612, and the two first slide rails 612 are symmetrically disposed on both sides of the first screw 63.

Referring to fig. 1 and 4, the first slide table 62 further includes a first slide plate 622 disposed within the first frame 61, a first mounting plate 623 disposed outside the first frame 61 and vertically disposed, and a first connecting plate 624 connecting the first slide plate 622 and the first mounting plate 623 and horizontally disposed. The first nut 64 and the first slider 621 are both mounted on the first slide plate 622, and the lifting driving assembly 7 is mounted on the outer side surface of the first mounting plate 623, and the first connecting plate 624 can slide horizontally and leftwards at the sliding port 611 of the first frame 61.

Referring to fig. 6 and 7, the elevation driving assembly 7 includes a vertical base plate 71 mounted to the first slide table 62, a vertical slide table 72 vertically slidably mounted on the vertical base plate 71, a vertical screw 73 rotatably mounted on the vertical base plate 71, a vertical nut 74 mounted on the vertical slide table 72 and engaged with the vertical screw 73, and a vertical motor 75 driving the vertical screw 73 to rotate. The vertical base plate 71 is provided with a vertical support 76 for the rotational mounting of the vertical screw 73. The vertical bottom plate 71 is provided with a vertical slide rail 711 parallel to the vertical screw 73, and the vertical slide table 72 is provided with a vertical slide block 721 fitted with the vertical slide rail 711, so that the vertical slide table 72 can slide in the vertical direction. In the present embodiment, the vertical base plate 71 is provided with two vertical slide rails 711, and the two vertical slide rails 711 are arranged on both sides of the vertical screw 73 in bilateral symmetry.

Referring to fig. 1 and 8, the glue supply assembly 5 includes a glue tank 51 for storing glue, a glue outlet pipe 52 connecting the glue tank 51 and the glue outlet head 4, a control valve 53 mounted to the glue outlet pipe 52 for controlling glue outlet, and a glue outlet pump 54 for pumping the glue in the glue tank 51 to the glue outlet head 4. The rubber outlet pipe 52 is a strip hollow braided pipe, a plurality of electric heating wires 521 are arranged in the pipe along the length direction of the rubber outlet pipe 52, and when the power is turned on, the electric heating wires 521 play a role in heat preservation of glue in the rubber outlet pipe 52. The control valve 53 is a shut-off valve and is mounted on the vertical slide 72. The rubber outlet head 4 is connected to the outlet end of the control valve 53, and one end of the rubber outlet pipe 52 far away from the rubber water tank 51 is connected to the inlet end of the control valve 53.

Referring to fig. 8, a clamp 9 for fixing the hose 52 is provided on the vertical sliding table 72. The clip 9 includes a fixed portion 91 mounted on the vertical slide 72, a movable portion 92 connected to the fixed portion 91 for engagement with the fixed portion 91, and a lock bolt 93 connecting an end of the fixed portion 91 and an end of the movable portion 92. The movable portion 92 is provided with a locking through hole 921 through which a bolt rod of the locking bolt 93 passes, and the fixed portion 91 is provided with a locking screw hole 911 which is opposite to the locking through hole 921 and is in threaded engagement with the locking bolt 93.

The implementation principle of the gluing equipment for the kettle in the embodiment of the application is as follows: an operator places the spout ring pieces one by one on four mounting seats 2 arranged in an array form of two rows and two columns; the lifting driving assembly 7 drives the glue outlet head 4 to descend so that the glue outlet head 4 is close to the arrangement groove of one of the spout ring pieces to be glued; the glue outlet head 4 and the mounting seat 2 are subjected to the action of the first driving assembly 6 and the second driving assembly 3, the glue outlet head 4 can be used for carrying out circumferential circling along the arrangement groove relative to the spout replacement piece on the mounting seat 2, and glue is coated in the arrangement groove by the glue outlet head 4 in the circling process, so that the step of coating glue on one spout ring piece is completed by the spout ring piece gluing device; an operator can take down the spout ring coated with the glue and replace the new spout ring to be coated with the glue.

The foregoing are all preferred embodiments of the present application, and are not intended to limit the scope of the present application in any way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (10)

1. The gluing equipment for the kettle comprises a frame (1), a mounting seat (2) which is arranged on the frame (1) and used for placing a spout ring piece, a glue outlet head (4) and a glue supply assembly (5) used for supplying glue to the glue outlet head (4); the automatic glue discharging device is characterized by further comprising a first driving assembly (6) for driving the glue discharging head (4) to move horizontally and linearly, a lifting driving assembly (7) for driving the glue discharging head (4) to lift and a second driving assembly (3) which is arranged on the frame (1) and is used for driving the mounting seat (2) to move horizontally and linearly; the first driving component (6) drives the moving direction of the glue outlet head (4) to be perpendicular to the moving direction of the second driving component (3) drives the mounting seat (2).

2. A gluing device for kettles according to claim 1, characterised in that said first driving assembly (6) comprises a first frame (61) mounted on said machine frame (1), a first screw (63) mounted on said first frame (61) in a horizontal rotation, a first sliding table (62) mounted on said first frame (61) in a horizontal sliding manner, a first nut (64) mounted on said first sliding table (62) and cooperating with said first screw (63) and a first motor (65) driving said first screw (63) in rotation, said lifting driving assembly (7) being mounted on said first sliding table (62).

3. A gluing device for kettles according to claim 2, characterized in that said lifting drive assembly (7) comprises a vertical base plate (71) mounted on said first slide table (62), a vertical screw (73) mounted on said vertical base plate (71) in a vertical rotation, a vertical slide table (72) mounted on said vertical base plate (71) in a vertical sliding manner, a vertical nut (74) mounted on said vertical slide table (72) and cooperating with said vertical screw (73), and a vertical motor (75) driving said vertical screw (73) in rotation.

4. A gluing device for kettles according to claim 1, characterised in that said second driving assembly (3) is a linear motor, and said mounting (2) is arranged on a sliding table of said linear motor.

5. A gluing device for kettles according to claim 3, characterized in that said glue supply assembly (5) comprises a glue tank (51) for storing glue, a glue outlet pipe (52) connecting said glue tank (51) and said glue outlet head (4), a control valve (53) mounted to said glue outlet pipe (52) for controlling the glue outlet and a glue outlet pump (54) for pumping glue from said glue tank (51) to said glue outlet head (4); the control valve (53) is arranged on the vertical sliding table (72), and the glue outlet head (4) is connected to the outlet end of the control valve (53).

6. A gluing device for kettles according to claim 5, characterized in that an electric heating wire (521) is arranged in the length direction in the outlet tube (52).

7. A gluing device for kettles according to claim 5, characterized in that said vertical sliding table (72) is provided with a clamp (9) for fixing said outlet tube (52).

8. A gluing device for kettles according to claim 4, characterised in that the mounting base (2) has a positioning ring groove (231) for the top of the spout ring to be inserted and an arrangement indentation (232) for the spout part arrangement of the spout ring.

9. Gluing device for kettles according to claim 8, characterized in that said linear motor is provided with at least two of said mounting seats (2) on its sliding table.

10. A gluing device for kettles according to claim 4, characterised in that a supporting pad (22) supported at the bottom of the mounting base (2) is arranged on the sliding table of the linear motor.