CN110860445A - Drying equipment after glue injection of lamp - Google Patents

Abstract

The invention relates to drying equipment, in particular to drying equipment after lamp glue injection, which comprises a reciprocating pushing mechanism, a drying seat mechanism, a drying mechanism and a smell filtering plate driving mechanism, wherein the equipment can intermittently push materials to be dried into a drying box body, can dry the materials, can remove smell, can pull out and clean the smell filtering plate, is connected with the drying seat mechanism, and is connected with the drying mechanism which is connected with the smell filtering plate driving mechanism.

Description

Drying equipment after glue injection of lamp

Technical Field

The invention relates to drying equipment, in particular to drying equipment for a lamp after glue injection.

Background

In lamp processing, drying is carried out after glue injection, the traditional drying is carried out by airing, and the efficiency is low, so that the drying equipment for the lamp after glue injection is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing the drying equipment for the lamp after glue injection, the equipment can intermittently push materials to be dried into the drying box body, the equipment can dry the materials, the equipment can remove odor, and the equipment can pull out and clean the odor filtering plate.

In order to solve the technical problem, the invention relates to drying equipment, in particular to drying equipment after lamp glue injection, which comprises a reciprocating pushing mechanism, a drying seat mechanism, a drying mechanism and a smell filtering plate driving mechanism, wherein the equipment can intermittently push materials to be dried into a drying box body, can dry the materials, can remove smell and can pull out and clean the smell filtering plate.

The reciprocating pushing mechanism is connected with the airing seat mechanism, the airing seat mechanism is connected with the drying mechanism, and the drying mechanism is connected with the smell filtering plate driving mechanism.

As a further optimization of the technical scheme, the reciprocating pushing mechanism of the drying equipment after the glue injection of the lamp comprises a driving mechanism, a driving wheel mechanism, a transmission mechanism, a friction wheel shaft, a half gear, a bearing seat I, a shaft, a driving gear, a belt pulley with a shaft, a transmission gear, a half gear A, a half gear shaft and a friction wheel A, wherein the driving mechanism is connected with the driving wheel mechanism, the driving mechanism is connected with the transmission mechanism, the driving wheel mechanism is in contact fit with the transmission mechanism, the transmission mechanism is in friction connection with the friction wheel, the friction wheel is connected with the friction wheel shaft, the friction wheel shaft is connected with the half gear, the friction wheel shaft is connected with the bearing seat in a bearing connection mode, the bearing seat I is connected with the shaft in a bearing connection mode, the shaft is connected with the driving gear, the shaft is connected with the belt pulley, the belt shaft belt pulley is connected with the bearing seat through a bearing, the belt shaft belt pulley is connected with the transmission gear, the transmission gear is meshed with the half gear, the half gear A is connected with the half gear shaft, the half gear shaft is connected with the bearing seat through a bearing, the half gear shaft is connected with the friction wheel A, the friction wheel A is in friction connection with the transmission mechanism, and the half gear A is meshed with the half gear A; the driving mechanism comprises a support frame, a disc, a special-shaped shaft, a sliding rod, a spring, a coupler and a servo motor, wherein the support frame is connected with the special-shaped shaft in a bearing manner; the driving wheel mechanism comprises a driving wheel body, a sliding rod matching hole, a special-shaped shaft matching groove, a wedge block, a round hole and a reverse wedge block, wherein the sliding rod matching hole is formed in the driving wheel body; drive mechanism includes special-shaped bearing frame, band spool friction pulley I, band spool rolling disc, reverse voussoir cooperation piece, band spool friction pulley II, special-shaped bearing frame is connected for the bearing with band spool friction pulley I's connected mode, band spool friction pulley I links to each other with the band spool rolling disc, band spool rolling disc links to each other with reverse voussoir cooperation piece, band spool rolling disc links to each other with voussoir cooperation piece, band spool friction pulley II is connected for the bearing with special-shaped bearing frame's connected mode, band spool friction pulley II and band spool friction pulley I frictional connection, reverse voussoir cooperation piece and reverse voussoir contact fit, voussoir and voussoir cooperation piece contact fit, band spool friction pulley I and friction pulley A frictional connection, band spool friction pulley II and friction pulley frictional connection.

As a further optimization of the technical scheme, the drying seat mechanism of the drying equipment after lamp glue injection comprises a base plate, a sliding drying box mechanism and a sliding seat mechanism, wherein the base plate is connected with the sliding seat mechanism, and the sliding seat mechanism is connected with the sliding drying box mechanism in a sliding manner; the sliding airing box mechanism comprises an unthreaded hole, a step seat, an airing box, a rack, an unthreaded hole I and a secondary step seat, wherein the unthreaded hole is formed in the step seat, the step seat is connected with the airing box, the airing box is connected, the rack is connected with the secondary step seat, the unthreaded hole I is formed in the secondary step seat, the rack is meshed with a driving gear, a bearing seat is connected with a base plate, the bearing seat I is connected with the base plate, and a support frame is connected with the base plate; the sliding seat mechanism comprises a sliding seat body, a stepped groove and a sliding column, the stepped groove is formed in the sliding seat body, the sliding column is connected with the unthreaded hole in a sliding mode, the sliding column is connected with the unthreaded hole I in a sliding mode, the stepped seat is connected with the stepped groove in a sliding mode, a secondary stepped seat is connected with the stepped groove in a sliding mode, and the sliding seat body is connected with the base plate.

As a further optimization of the technical scheme, the drying mechanism of the drying equipment after the lamp glue injection comprises an opening and closing smell filtering plate mechanism, a drying box mechanism and a negative pressure mechanism, wherein the opening and closing smell filtering plate mechanism is connected with the drying box mechanism, and the negative pressure mechanism is connected with the drying box mechanism; the opening and closing smell filtering plate mechanism comprises a stepped column and a smell filtering plate body, wherein the stepped column is connected with the smell filtering plate body; the drying box mechanism comprises a drying box body, an arc-shaped groove, a long rod, an end seat A, a hinged seat I, a sliding-in groove, a friction ring, a perforated circular plate and a rotating bearing seat, wherein the drying box body is connected with a base plate; the negative pressure mechanism comprises a shaft-carrying fan blade, a friction disc III, a rotating arm, a coupler I and a negative pressure motor, the shaft-carrying fan blade is connected with the friction disc III, the friction disc III is in friction connection with a friction ring, the shaft-carrying fan blade is connected with the rotating arm through a bearing, the rotating arm is connected with the negative pressure motor through the coupler I, the rotating arm is connected with a rotating bearing seat through a bearing, the negative pressure motor is connected with a circular plate with holes, and the friction disc III is in friction connection with the friction ring.

As a further optimization of the technical scheme, the driving mechanism of the smell filtering plate of the drying equipment after the lamp is injected with glue comprises a spring I, a driving plate, a sliding hole A, a chute, a hinge seat II, a first hinge arm, a seat body, a second hinge arm, a cam motor coupler and a stepped cam with a shaft, wherein the spring I is sleeved on a long rod, two ends of the spring I are abutted against the driving plate and the end seat A, the sliding hole A is formed in the driving plate, the sliding hole A is connected with the long rod, the chute is formed in the driving plate, the chute is connected with a stepped column in a sliding manner, the hinge seat II is connected with the driving plate, the hinge seat II is hinged with the first hinge arm, the first hinge arm is hinged with the second hinge arm, the second hinge arm is hinged with the seat body, the seat body is connected with the drying box body, the cam motor is connected with the seat body, the cam motor is connected with, the connection mode of the stepped cam with the shaft and the base body is bearing connection, and the stepped cam with the shaft is in contact fit with the second hinge arm.

As a further optimization of the technical scheme, the stepped column of the drying equipment after the lamp is injected with glue is made of high manganese steel.

The drying equipment after glue injection of the lamp has the beneficial effects that:

according to the drying equipment after glue injection of the lamp, the equipment can intermittently push materials to be dried into the drying box body, the equipment can dry the materials, the equipment can remove smell, and the equipment can pull out and clean the smell filtering plate.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural view of a drying device after glue injection of a lamp.

Fig. 2 is a first structural schematic diagram of a reciprocating pushing mechanism 1 of a drying device after glue injection of a lamp according to the present invention.

Fig. 3 is a schematic structural diagram of a reciprocating pushing mechanism 1 of a drying device after glue injection of a lamp according to the present invention.

Fig. 4 is a second schematic structural diagram of the drying equipment after glue injection of the lamp.

Fig. 5 is a schematic structural diagram of a driving mechanism 1-1 of the drying device after glue injection of the lamp.

Fig. 6 is a schematic structural diagram of a driving wheel mechanism 1-2 of the drying device after glue injection of the lamp.

Fig. 7 is a schematic structural diagram of a transmission mechanism 1-3 of the drying device after glue injection of the lamp.

Fig. 8 is a schematic structural view of an airing seat mechanism 2 of the drying device after glue injection of the lamp.

Fig. 9 is a schematic structural view of a sliding drying box mechanism 2-2 of the drying device after glue injection of the lamp.

Fig. 10 is a schematic structural view of a sliding seat mechanism 2-3 of the drying device after glue injection of the lamp.

Fig. 11 is a schematic structural diagram of a drying mechanism 3 of the drying device after glue injection of the lamp.

Fig. 12 is a schematic structural view of an opening and closing smell filtering plate mechanism 3-1 of the drying device after glue injection of the lamp.

Fig. 13 is a first structural schematic diagram of a drying box mechanism 3-2 of the drying device after glue injection of the lamp.

Fig. 14 is a second schematic structural diagram of a drying box mechanism 3-2 of the drying device after glue injection of the lamp.

Fig. 15 is a schematic structural view of a negative pressure mechanism 3-3 of the drying device after glue injection of the lamp.

Fig. 16 is a schematic structural diagram of the odor filtering plate driving mechanism 4 of the drying device after glue injection of the lamp.

In the figure: a reciprocating pushing mechanism 1; a drive mechanism 1-1; 1-1-1 of a support frame; discs 1-1-2; a special-shaped shaft 1-1-3; 1-1-4 slide bars; 1-1-5 of a spring; 1-1-6 of a coupler; 1-1-7 of a servo motor; a driving wheel mechanism 1-2; a driving wheel body 1-2-1; a slide bar matching hole 1-2-2; the special-shaped shaft is matched with the groove 1-2-3; 1-2-4 parts of a wedge block; 1-2-5 of a round hole; 1-2-6 of a reverse wedge block; a transmission mechanism 1-3; 1-3-1 of a special-shaped bearing seat; a friction wheel I1-3-2 with a shaft; 1-3-3 of a rotating disc with a shaft; 1-3-4 of a reverse wedge block matching block; 1-3-5 parts of wedge block matching blocks; a friction wheel II1-3-6 with a shaft; 1-4 of a friction wheel; 1-5 parts of a friction wheel shaft; 1-6 parts of a half gear; 1-7 of a bearing seat; bearing seats I1-8; shafts 1-9; driving gears 1-10; 1-11 of belt pulleys; 1-12 parts of a belt; belt pulley 1-13 with shaft; transmission gears 1-14; half gear A1-15; half gear shafts 1 to 16; friction wheel A1-17; a drying seat mechanism 2; a base plate 2-1; a sliding drying box mechanism 2-2; 2-2-1 of a light hole; 2-2-2 of a step seat; 2-2-3 of a drying box; 2-2-4 of a rack; unthreaded hole I2-2-5; 2-2-6 of a secondary step seat; a sliding seat mechanism 2-3; a sliding seat body 2-3-1; 2-3-2 parts of a stepped groove; 2-3-3 of a sliding column; a drying mechanism 3; the opening and closing smell filtering plate mechanism 3-1; a stair column 3-1-1; 3-1-2 parts of a smell filtering plate body; a drying box mechanism 3-2; 3-2-1 of a drying box body; 3-2-2 of an arc-shaped groove; 3-2-3 of long rods; 3-2-4 of an end seat; end seat A3-2-5; the hinge seat I3-2-6; sliding into the open slot 3-2-7; 3-2-8 parts of friction ring; 3-2-9 of a circular plate with holes; rotating the bearing block by 3-2-10; 3-3 of a negative pressure mechanism; fan blades with shafts 3-3-1; friction disc III 3-3-2; 3-3-3 of a rotating arm; a coupler I3-3-4; 3-3-5 parts of a negative-pressure motor; a smell filtering plate driving mechanism 4; a spring I4-1; a drive plate 4-2; a sliding hole A4-3; 4-4 of a chute; the hinge seat II 4-5; a first hinge arm 4-6; 4-7 of a seat body; a second hinge arm 4-8; 4-9 parts of a cam motor; 4-10 parts of a cam motor coupler; stepped cams 4-11 with shafts.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, the invention relates to a drying device, and more specifically to a drying device after lamp glue injection, which comprises a reciprocating pushing mechanism 1, a drying seat mechanism 2, a drying mechanism 3, and a smell filtering plate driving mechanism 4, the device can intermittently push materials to be dried into a drying box body, the device can dry the materials, the device can perform smell removal, and the device can pull out and clean the smell filtering plate.

The reciprocating pushing mechanism 1 is connected with the airing seat mechanism 2, the airing seat mechanism 2 is connected with the drying mechanism 3, and the drying mechanism 3 is connected with the smell filtering plate driving mechanism 4.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and the embodiment further describes the embodiment, where the reciprocating pushing mechanism 1 includes a driving mechanism 1-1, a driving wheel mechanism 1-2, a transmission mechanism 1-3, a friction wheel 1-4, a friction wheel shaft 1-5, a half gear 1-6, a bearing seat 1-7, a bearing seat I1-8, a shaft 1-9, a driving gear 1-10, a belt pulley 1-11, a belt 1-12, a belt pulley 1-13, a transmission gear 1-14, a half gear a1-15, a half gear shaft 1-16, a friction wheel a1-17, the driving mechanism 1-1 is connected with the driving wheel mechanism 1-2, the driving mechanism 1-1 is connected with the transmission mechanism 1-3, the driving wheel mechanism 1-2 is in contact fit with the transmission mechanism 1-3, the transmission mechanism 1-3 is in friction connection with the friction wheel 1-4, the friction wheel 1-4 is connected with the friction wheel shaft 1-5, the friction wheel shaft 1-5 is connected with the half gear 1-6, the friction wheel shaft 1-5 is connected with the bearing seat 1-7 by a bearing, the bearing seat I1-8 is connected with the shaft 1-9 by a bearing, the shaft 1-9 is connected with the driving gear 1-10, the shaft 1-9 is connected with the belt pulley 1-11, the belt pulley 1-11 is in flexible connection with the belt 1-12, the belt pulley 1-12 is in flexible connection with the belt shaft pulley 1-13, the belt pulley 1-13 is in connection with the bearing seat 1-7, belt shaft belt pulleys 1-13 are connected with transmission gears 1-14, the transmission gears 1-14 are meshed with half gears 1-6, half gears A1-15 are connected with half gear shafts 1-16, the half gear shafts 1-16 are connected with bearing seats 1-7 in a bearing mode, the half gear shafts 1-16 are connected with friction wheels A1-17, the friction wheels A1-17 are in friction connection with transmission mechanisms 1-3, and the half gears A1-15 are meshed with half gears A1-15; the driving mechanism 1-1 comprises a supporting frame 1-1-1, a disc 1-1-2, a special-shaped shaft 1-1-3, a sliding rod 1-1-4, a spring 1-1-5, a coupler 1-1-6 and a servo motor 1-1-7, the supporting frame 1-1-1 is connected with the special-shaped shaft 1-1-3 through a bearing, the disc 1-1-2 is connected with the special-shaped shaft 1-1-3, the sliding rod 1-1-4 is connected with the special-shaped shaft 1-1-3, the spring 1-1-5 is sleeved on the sliding rod 1-1-4, the special-shaped shaft 1-1-3 is connected with the servo motor 1-1-7 through the coupler 1-1-6, the servo motor 1-1-7 is connected with the support frame 1-1-1; the driving wheel mechanism 1-2 comprises a driving wheel body 1-2-1, a slide bar matching hole 1-2-2, a special-shaped shaft matching groove 1-2-3, a wedge block 1-2-4, a round hole 1-2-5 and a reverse wedge block 1-2-6, wherein the slide bar matching hole 1-2-2 is arranged on the driving wheel body 1-2-1, the special-shaped shaft matching groove 1-2-3 is arranged on the driving wheel body 1-2-1, the wedge block 1-2-4 and the reverse wedge block 1-2-6 are respectively connected with the driving wheel body 1-2-1, the round hole 1-2-5 is arranged on the driving wheel body 1-2-1, the round hole 1-2-5 is communicated with the special-shaped shaft matching groove 1-2-3, the round hole 1-2-5 is matched with the disc 1-1-2, the special-shaped shaft 1-1-3 is in sliding connection with the special-shaped shaft matching groove 1-2-3, the slide bar 1-1-4 is in sliding connection with the slide bar matching hole 1-2-2, and two ends of the spring 1-1-5 are respectively abutted against the special-shaped shaft 1-1-3 and the driving wheel body 1-2-1; the transmission mechanism 1-3 comprises a special-shaped bearing seat 1-3-1, a belt shaft friction wheel I1-3-2, a belt shaft rotating disc 1-3-3, a reverse wedge block matching block 1-3-4, a wedge block matching block 1-3-5 and a belt shaft friction wheel II1-3-6, the special-shaped bearing seat 1-3-1 and the belt shaft friction wheel I1-3-2 are connected by bearings, the belt shaft friction wheel I1-3-2 is connected with the belt shaft rotating disc 1-3-3, the belt shaft rotating disc 1-3-3 is connected with the reverse wedge block matching block 1-3-4, the belt shaft rotating disc 1-3-3 is connected with the wedge block matching block 1-3-5, the belt shaft friction wheel II1-3-6 is connected with the special-shaped bearing seat 1-3-1 by bearings, the belt shaft friction wheel II1-3-6 is in friction connection with a belt shaft friction wheel I1-3-2, a reverse wedge block matching block 1-3-4 is in contact matching with a reverse wedge block 1-2-6, a wedge block 1-2-4 is in contact matching with a wedge block matching block 1-3-5, a belt shaft friction wheel I1-3-2 is in friction connection with a friction wheel A1-17, a belt shaft friction wheel II1-3-6 is in friction connection with a friction wheel 1-4, a coupler 1-1-6 is driven to rotate through forward operation of a servo motor 1-1-7, the coupler 1-1-6 rotates to drive a special-shaped shaft 1-1-3 to rotate, the special-shaped shaft 1-1-3 rotates to drive a driving wheel body 1-2-1 to rotate, when the driving wheel body 1-2-1 rotates, the wedge block matching block 1-3-5 is shifted through the wedge block 1-2-4, the reverse wedge block 1-2-6 shifts the reverse wedge block matching block 1-3-4, so that the driving wheel body 1-2-1 and the reverse wedge block matching block 1-3-4 can drive the belt shaft rotating disc 1-3-3 to rotate, the belt shaft rotating disc 1-3-3 rotates to drive the belt shaft friction wheel I1-3-2 to rotate, the belt shaft friction wheel I1-3-2 rotates to drive the belt shaft friction wheel II1-3-6 to rotate, the belt shaft friction wheel I1-3-2 drives the friction wheel A1-17 to rotate, the friction wheel A1-17 rotates to drive the half gear A1-15 to rotate through the half gear shaft 1-16, the friction wheel II1-3-6 with the shaft rotates to drive the friction wheel 1-4 to rotate, the friction wheel 1-4 rotates to drive the half gear 1-6 to rotate through the friction wheel shaft 1-5, because the half gear A1-15 and the half gear 1-6 are half-circle gears and have opposite rotation directions, the transmission gear 1-14 can be driven to intermittently rotate forwards and backwards, the transmission gear 1-14 can drive the belt pulley 1-13 to intermittently rotate forwards and backwards, the belt pulley 1-13 can drive the belt pulley 1-11 to intermittently rotate forwards and backwards through the belt 1-12, the belt pulley 1-11 can drive the driving gear 1-10 to intermittently rotate forwards and backwards through the shaft 1-9, and the driving gear 1-10 can drive the rack 2-2-4 to intermittently reciprocate, the rack 2-2-4 can drive the drying box 2-2-3 to perform intermittent reciprocating motion, the drying box 2-2-3 can intermittently enter the drying box body 3-2-1 to slide from the open slot 3-2-7, the servo motor 1-1-7 can rotate in the positive direction and the negative direction, when the drying box 2-2-3 is pushed into the drying box body 3-2-1, the servo motor 1-1-7 can rotate in the negative direction, the servo motor 1-1-7 can drive the driving wheel mechanism 1-2 to perform reverse rotation, and when the driving wheel mechanism 1-2 rotates in the negative direction, the inclined planes of the wedge blocks 1-2-4 and the reverse wedge blocks 1-2-6 can not drive the reverse wedge block matching blocks 1-3-4 when the reverse wedge blocks 1-2-6 rotate in the negative direction And the wedge block matching block 1-3-5, so that the driving wheel body 1-2-1 can compress the spring 1-1-5, the rotating disc 1-3-3 with the shaft stops rotating, the drying box 2-2-3 can stay in the drying box body 3-2-1 for drying, the servo motor 1-1-7 is continuously operated in the forward direction after drying is finished, and the drying box 2-2-3 can slide out of the drying box body 3-2-1.

The third concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, and 16, and the first embodiment will be further described.

The fourth concrete implementation mode:

the present embodiment will be described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the present embodiment further describes the first embodiment, in which the seat airing mechanism 2 includes a base plate 2-1, a sliding box airing mechanism 2-2, and a sliding seat mechanism 2-3, the base plate 2-1 is connected to the sliding seat mechanism 2-3, and the sliding seat mechanism 2-3 is connected to the sliding box airing mechanism 2-2; the sliding drying box mechanism 2-2 comprises a unthreaded hole 2-2-1, a step seat 2-2-2, a drying box 2-2-3, a rack 2-2-4, a unthreaded hole I2-2-5 and a secondary step seat 2-2-6, wherein the unthreaded hole 2-2-1 is arranged on the step seat 2-2-2, the step seat 2-2-2 is connected with the drying box 2-2-3, the drying box 2-2-3 is connected with the rack 2-2-4, the rack 2-2-4 is connected with the secondary step seat 2-2-6, the unthreaded hole I2-2-5 is arranged on the secondary step seat 2-2-2-6, the rack 2-2-4 is meshed with a driving gear 1-10, a bearing seat 1-7 is connected with a base plate 2-1, the bearing seat I1-8 is connected with the base plate 2-1, and the support frame 1-1-1 is connected with the base plate 2-1; the sliding seat mechanism 2-3 comprises a sliding seat body 2-3-1, a stepped groove 2-3-2 and a sliding column 2-3-3, the stepped groove 2-3-2 is formed in the sliding seat body 2-3-1, the sliding column 2-3-3 is connected with a unthreaded hole 2-2-1 in a sliding mode, the sliding column 2-3-3 is connected with a unthreaded hole I2-2-5 in a sliding mode, the stepped seat 2-2-2 is connected with the stepped groove 2-3-2 in a sliding mode, the secondary stepped seat 2-2-6 is connected with the stepped groove 2-3-2 in a sliding mode, and the sliding seat body 2-3-1 is connected with a base plate 2-1.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, and fig. 16, and the embodiment further describes the embodiment, where the drying mechanism 3 includes an opening and closing smell filtering plate mechanism 3-1, a drying box mechanism 3-2, and a negative pressure mechanism 3-3, the opening and closing smell filtering plate mechanism 3-1 is connected to the drying box mechanism 3-2, and the negative pressure mechanism 3-3 is connected to the drying box mechanism 3-2; the opening and closing smell filtering plate mechanism 3-1 comprises a stepped column 3-1-1 and a smell filtering plate body 3-1-2, wherein the stepped column 3-1-1 is connected with the smell filtering plate body 3-1-2; the drying box mechanism 3-2 comprises a drying box body 3-2-1, an arc-shaped groove 3-2-2, a long strip rod 3-2-3, an end seat 3-2-4, an end seat A3-2-5, a hinged seat I3-2-6, a sliding-in slot 3-2-7, a friction ring 3-2-8, a perforated circular plate 3-2-9 and a rotary bearing seat 3-2-10, wherein the drying box body 3-2-1 is connected with a base plate 2-1, the arc-shaped groove 3-2-2 is arranged on the drying box body 3-2-1, the long strip rod 3-2-3 is connected with the end seat 3-2-4, the end seat 3-2-4 is connected with the drying box body 3-2-1, the drying box body 3-2-1 is connected with an end seat A3-2-5, the long rod 3-2-3 is connected with an end seat A3-2-5, the hinged seat I3-2-6 is arranged on the drying box body 3-2-1, the sliding groove 3-2-7 is arranged on the drying box body 3-2-1, the friction ring 3-2-8 is arranged on the inner wall of the drying box body 3-2-1, the perforated circular plate 3-2-9 is connected with the drying box body 3-2-1, the rotary bearing seat 3-2-10 is arranged on the perforated circular plate 3-2-9, the smell filtering plate body 3-1-2 is hinged with the rotary bearing seat 3-2-10, the smell filtering plate body 3-1-2 is connected with the arc groove 3-2-2 in a sliding way, the hinged seat I3-2-6 is hinged with the smell filtering plate body 3-1-2; the negative pressure mechanism 3-3 comprises a shaft-carrying fan blade 3-3-1, a friction disc III3-3-2, a rotating arm 3-3-3, a coupler I3-3-4 and a negative pressure motor 3-3-5, the shaft-carrying fan blade 3-3-1 is connected with the friction disc III3-3-2, the friction disc III3-3-2 is connected with the friction ring 3-2-8 in a friction mode, the shaft-carrying fan blade 3-3-1 is connected with the rotating arm 3-3-3 through a bearing, the rotating arm 3-3-3 is connected with the negative pressure motor 3-3-5 through the coupler I3-3-4, the rotating arm 3-3-3 is connected with the rotating bearing seat 3-2-10 through a bearing, the negative pressure motor 3-3-3-5 is connected with a perforated circular plate 3-2-9, the friction disc III3-3-2 is in friction connection with the friction ring 3-2-8, the shaft coupler I3-3-4 is driven to rotate by the operation of the negative pressure motor 3-3-5, the rotating arm 3-3-3 is driven to rotate by the rotation of the shaft coupler I3-3-4, the rotating arm 3-3-3 is driven to rotate to drive the friction disc III3-3-2 to do circular motion, the friction disc III3-3-2 is driven to drive the friction disc III3-3-2 to rotate by the cooperation with the friction ring 3-2-8, the friction disc III3-3-2 is driven to drive the shaft-provided fan blade 3-3-1 to rotate, the shaft-provided fan blade 3-3-1 rotates to form negative pressure, and thus air flow flows upwards, the drying process is accelerated.

The sixth specific implementation mode:

referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, which further illustrates the present embodiment, the present embodiment further illustrates the first embodiment, wherein the odor filter driving mechanism 4 includes a spring I4-1, a driving plate 4-2, a sliding hole a4-3, a chute 4-4, a hinge seat II4-5, a first hinge arm 4-6, a seat body 4-7, a second hinge arm 4-8, a cam motor 4-9, a cam motor coupler 4-10, a shaft-equipped step cam 4-11, a spring I4-1 sleeved on the long rod 3-2-3, two ends of the spring I4-1 abutting against the driving plate 4-2, an end seat A3-2-5, a sliding hole a4-3 opened on the driving plate 4-2, a sliding hole A4-3 is connected with a long bar 3-2-3, a chute 4-4 is opened on a driving plate 4-2, the chute 4-4 is connected with a ladder column 3-1-1 in a sliding way, a hinge seat II4-5 is connected with the driving plate 4-2, a hinge seat II4-5 is hinged with a first hinge arm 4-6, the first hinge arm 4-6 is hinged with a second hinge arm 4-8, the second hinge arm 4-8 is hinged with a seat body 4-7, the seat body 4-7 is connected with a drying box body 3-2-1, a cam motor 4-9 is connected with the seat body 4-7, the cam motor 4-9 is connected with a shaft-provided step cam 4-11 through a cam motor coupler 4-10, the shaft-provided step cam 4-11 is connected with the seat body 4-7 in a bearing way, the stepped cam 4-11 with the shaft is in contact fit with the second hinge arm 4-8, when the taste filtering plate body 3-1-2 needs to be cleaned, the cam motor 4-9 can be operated to drive the cam motor coupler 4-10 to rotate, the cam motor coupler 4-10 can drive the stepped cam 4-11 with the shaft to rotate, the stepped cam 4-11 with the shaft can drive the second hinge arm 4-8 and the first hinge arm 4-6 to push the hinge seat II4-5, the hinge seat II4-5 can drive the drive plate 4-2 to move, the drive plate 4-2 can drive the stepped column 3-1-1 to move outwards through the chute 4-4, and the stepped column 3-1-1 can drive the taste filtering plate body 3-1-2 to move, the smell filtering plate body 3-1-2 moves outwards around the hinge point of the hinge seat I3-2-6, so that the smell filtering plate body 3-1-2 slides out of the arc-shaped groove 3-2-2, and the smell filtering plate body 3-1-2 can be cleaned.

The seventh embodiment:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, and 16, and the first embodiment will be further described, in which the material of the staircase columns 3-1-1 is high manganese steel.

The working principle of the device is as follows: the equipment can intermittently push materials to be dried into a drying box body, a coupler 1-1-6 is driven to rotate by the forward operation of a servo motor 1-1-7, a special-shaped shaft 1-1-3 is driven to rotate by the rotation of the coupler 1-1-6, a driving wheel body 1-2-1 is driven to rotate by the rotation of the special-shaped shaft 1-1-3, a wedge block matching block 1-3-5 is driven by the rotation of the driving wheel body 1-2-1 through a wedge block 1-2-4, a reverse wedge block matching block 1-3-4 is driven by the reverse wedge block 1-2-6, so that a rotating disc with a shaft 1-3-3 is driven to rotate by the driving wheel body 1-2-1 and the reverse wedge block matching block 1-3-4, the belt shaft rotating disc 1-3-3 rotates to drive a belt shaft friction wheel I1-3-2 to rotate, the belt shaft friction wheel I1-3-2 rotates to drive a belt shaft friction wheel II1-3-6 to rotate, the belt shaft friction wheel I1-3-2 drives a friction wheel A1-17 to rotate, the friction wheel A1-17 rotates to drive a half gear A1-15 to rotate through a half gear shaft 1-16, the belt shaft friction wheel II1-3-6 rotates to drive a friction wheel 1-4 to rotate, the friction wheel 1-4 rotates to drive a half gear 1-6 to rotate through a friction wheel shaft 1-5, because the half gear A1-15 and the half gear 1-6 are half-circle gears and have opposite rotation directions, the transmission gears 1-14 can be driven to intermittently rotate forward and reversely, the transmission gear 1-14 can drive the belt pulley 1-13 to rotate forward and backward intermittently, the belt pulley 1-13 can drive the belt pulley 1-11 to rotate forward and backward intermittently through the belt 1-12, the belt pulley 1-11 can drive the driving gear 1-10 to rotate forward and backward intermittently through the shaft 1-9, the driving gear 1-10 can drive the rack 2-2-4 to perform intermittent reciprocating motion, the rack 2-2-4 can drive the drying box 2-2-3 to perform intermittent reciprocating motion, the drying box 2-2-3 can intermittently enter the slot 3-2-7 to slide into the drying box body 3-2-1, because the servo motor 1-1-7 can rotate forward and backward, when the drying box 2-2-3 is pushed into the drying box body 3-2-1, the servo motor 1-1-7 can be operated in a reverse direction, the servo motor 1-1-7 can drive the driving wheel mechanism 1-2 to rotate in the reverse direction, when the driving wheel mechanism 1-2 rotates in the reverse direction, the inclined planes of the wedge block 1-2-4 and the reverse wedge block 1-2-6 cannot drive the reverse wedge block matching block 1-3-4 and the wedge block matching block 1-3-5 when the wedge block 1-2-4 and the reverse wedge block 1-2-6 rotate in the reverse direction, so that the driving wheel body 1-2-1 can compress the spring 1-1-5, the rotating disc with the shaft 1-3-3 can stop rotating, the drying box 2-2-3 can stay in the drying box body 3-2-1 to be dried, after drying, the servo motor 1-1-7 is continuously operated in the forward direction, and the drying box 2-2-3 slides out of the drying box body 3-2-1; the device can dry materials, a negative pressure motor 3-3-5 runs to drive a coupler I3-3-4 to rotate, the coupler I3-3-4 rotates to drive a rotating arm 3-3-3 to rotate, the rotating arm 3-3-3 rotates to drive a friction disc III3-3-2 to do circular motion, the friction disc III3-3-2 is matched with a friction ring 3-2-8 to drive the friction disc III3-3-2 to rotate, the friction disc III3-3-2 drives a shaft-provided fan blade 3-3-1 to rotate, the shaft-provided fan blade 3-3-1 rotates to form negative pressure, and therefore airflow can flow upwards to accelerate the drying process; the device can remove odor, when the fan blade with the shaft 3-3-1 rotates to form negative pressure, the airflow flows upwards to dry and drive the odor of the glue upwards, and then the odor is filtered when the odor passes through the odor filtering plate body 3-1-2; the device can pull out the smell filtering plate for cleaning, when the smell filtering plate body 3-1-2 needs to be cleaned, the cam motor 4-9 can be operated to drive the cam motor coupler 4-10 to rotate, the cam motor coupler 4-10 can drive the step cam 4-11 with the shaft to rotate, the step cam 4-11 with the shaft can drive the second articulated arm 4-8 and the first articulated arm 4-6 to push the articulated seat II4-5, the articulated seat II4-5 can drive the drive plate 4-2 to move, the drive plate 4-2 can drive the step column 3-1-1 to move outwards through the chute 4-4, the step column 3-1-1 can drive the smell filtering plate body 3-1-2 to move, and the smell filtering plate body 3-1-2 can be transported outwards around the articulated point of the articulated seat I3-2-6 And the smell filtering plate body 3-1-2 can slide out of the arc-shaped groove 3-2-2, so that the smell filtering plate body 3-1-2 can be cleaned.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (6)

1. The utility model provides a drying equipment behind lamps and lanterns injecting glue, includes to come and go pushing mechanism (1), sunning seat mechanism (2), drying mechanism (3), strains flavor board actuating mechanism (4), its characterized in that: the reciprocating pushing mechanism (1) is connected with the airing seat mechanism (2), the airing seat mechanism (2) is connected with the drying mechanism (3), and the drying mechanism (3) is connected with the smell filtering plate driving mechanism (4).

2. The drying equipment after lamp glue injection according to claim 1, characterized in that: the reciprocating pushing mechanism (1) comprises a driving mechanism (1-1), a driving wheel mechanism (1-2), a transmission mechanism (1-3), a friction wheel (1-4), a friction wheel shaft (1-5), a half gear (1-6), a bearing seat (1-7), a bearing seat I (1-8), a shaft (1-9), a driving gear (1-10), a belt pulley (1-11), a belt (1-12), a belt pulley with a shaft (1-13), a transmission gear (1-14), a half gear A (1-15), a half gear shaft (1-16) and a friction wheel A (1-17), wherein the driving mechanism (1-1) is connected with the driving wheel mechanism (1-2), and the driving mechanism (1-1) is connected with the transmission mechanism (1-3), the driving wheel mechanism (1-2) is in contact fit with the transmission mechanism (1-3), the transmission mechanism (1-3) is in friction connection with the friction wheel (1-4), the friction wheel (1-4) is connected with the friction wheel shaft (1-5), the friction wheel shaft (1-5) is connected with the half gear (1-6), the friction wheel shaft (1-5) is connected with the bearing seat (1-7) in a bearing connection mode, the bearing seat I (1-8) is connected with the shaft (1-9) in a bearing connection mode, the shaft (1-9) is connected with the driving gear (1-10), the shaft (1-9) is connected with the belt pulley (1-11), the belt pulley (1-11) is in flexible connection with the belt (1-12), and the belt (1-12) is in flexible connection with the belt pulley (1-13), the belt pulley (1-13) with a shaft is connected with the bearing seat (1-7) through a bearing, the belt pulley (1-13) with the shaft is connected with the transmission gear (1-14), the transmission gear (1-14) is meshed with the half gear (1-6), the half gear A (1-15) is connected with the half gear shaft (1-16), the half gear shaft (1-16) is connected with the bearing seat (1-7) through a bearing, the half gear shaft (1-16) is connected with the friction wheel A (1-17), the friction wheel A (1-17) is in friction connection with the transmission mechanism (1-3), and the half gear A (1-15) is meshed with the half gear A (1-15); the driving mechanism (1-1) comprises a support frame (1-1-1), a disc (1-1-2), a special-shaped shaft (1-1-3), a sliding rod (1-1-4), a spring (1-1-5), a coupler (1-1-6) and a servo motor (1-1-7), the support frame (1-1-1) is connected with the special-shaped shaft (1-1-3) in a bearing mode, the disc (1-1-2) is connected with the special-shaped shaft (1-1-3), the sliding rod (1-1-4) is connected with the special-shaped shaft (1-1-3), the spring (1-1-5) is sleeved on the sliding rod (1-1-4), and the special-shaped shaft (1-1-3) and the servo motor (1-1-7) are connected through the coupler (1-1-4) -6), the servo motor (1-1-7) is connected with the support frame (1-1-1); the driving wheel mechanism (1-2) comprises a driving wheel body (1-2-1), a slide rod matching hole (1-2-2), a special-shaped shaft matching groove (1-2-3), a wedge block (1-2-4), a round hole (1-2-5) and a reverse wedge block (1-2-6), wherein the slide rod matching hole (1-2-2) is formed in the driving wheel body (1-2-1), the special-shaped shaft matching groove (1-2-3) is formed in the driving wheel body (1-2-1), the wedge block (1-2-4) and the reverse wedge block (1-2-6) are respectively connected with the driving wheel body (1-2-1), and the round hole (1-2-5) is formed in the driving wheel body (1-2-1), the round hole (1-2-5) is communicated with the special-shaped shaft matching groove (1-2-3), the round hole (1-2-5) is matched with the disc (1-1-2), the special-shaped shaft (1-1-3) is in sliding connection with the special-shaped shaft matching groove (1-2-3), the slide bar (1-1-4) is in sliding connection with the slide bar matching hole (1-2-2), and two ends of the spring (1-1-5) are respectively abutted against the special-shaped shaft (1-1-3) and the driving wheel body (1-2-1); the transmission mechanism (1-3) comprises a special-shaped bearing seat (1-3-1), a friction wheel I (1-3-2) with a shaft, a rotating disc (1-3-3) with a shaft, a reverse wedge block matching block (1-3-4), a wedge block matching block (1-3-5) and a friction wheel II (1-3-6) with a shaft, the special-shaped bearing seat (1-3-1) is connected with the friction wheel I (1-3-2) with a shaft in a bearing mode, the friction wheel I (1-3-2) with a shaft is connected with the rotating disc (1-3-3) with a shaft, the rotating disc (1-3-3) with a shaft is connected with the reverse wedge block matching block (1-3-4), the rotating disc (1-3-3) with a wedge block (1-3-5) with a shaft, the connection mode of the belt shaft friction wheel II (1-3-6) and the special-shaped bearing seat (1-3-1) is bearing connection, the belt shaft friction wheel II (1-3-6) and the belt shaft friction wheel I (1-3-2) are in friction connection, the reverse wedge block matching block (1-3-4) is in contact matching with the reverse wedge block (1-2-6), the wedge block (1-2-4) is in contact matching with the wedge block matching block (1-3-5), the belt shaft friction wheel I (1-3-2) is in friction connection with the friction wheel A (1-17), and the belt shaft friction wheel II (1-3-6) is in friction connection with the friction wheel (1-4).

3. The drying equipment after lamp glue injection according to claim 1, characterized in that: the airing seat mechanism (2) comprises a base plate (2-1), a sliding airing box mechanism (2-2) and a sliding seat mechanism (2-3), wherein the base plate (2-1) is connected with the sliding seat mechanism (2-3), and the sliding seat mechanism (2-3) is connected with the sliding airing box mechanism (2-2) in a sliding manner; the sliding drying box mechanism (2-2) comprises a unthreaded hole (2-2-1), a step seat (2-2-2), a drying box (2-2-3), a rack (2-2-4), a unthreaded hole I (2-2-5) and a secondary step seat (2-2-6), wherein the unthreaded hole (2-2-1) is formed on the step seat (2-2-2), the step seat (2-2-2) is connected with the drying box (2-2-3), the drying box (2-2-3) is connected with the rack (2-2-4), the rack (2-2-4) is connected with the secondary step seat (2-2-6), the unthreaded hole I (2-2-5) is formed on the secondary step seat (2-2-6), the rack (2-2-4) is meshed with the driving gear (1-10), the bearing seat (1-7) is connected with the base plate (2-1), the bearing seat I (1-8) is connected with the base plate (2-1), and the support frame (1-1-1) is connected with the base plate (2-1); the sliding seat mechanism (2-3) comprises a sliding seat body (2-3-1), a stepped groove (2-3-2) and a sliding column (2-3-3), the stepped groove (2-3-2) is formed in the sliding seat body (2-3-1), the sliding column (2-3-3) is connected with the unthreaded hole (2-2-1) in a sliding mode, the sliding column (2-3-3) is connected with the unthreaded hole I (2-2-5) in a sliding mode, the stepped seat (2-2-2) is connected with the stepped groove (2-3-2) in a sliding mode, the secondary stepped seat (2-2-6) is connected with the stepped groove (2-3-2) in a sliding mode, the sliding seat body (2-3-1) is connected with the base plate (2-1).

4. The drying equipment after lamp glue injection according to claim 1, characterized in that: the drying mechanism (3) comprises an opening-closing smell filtering plate mechanism (3-1), a drying box mechanism (3-2) and a negative pressure mechanism (3-3), the opening-closing smell filtering plate mechanism (3-1) is connected with the drying box mechanism (3-2), and the negative pressure mechanism (3-3) is connected with the drying box mechanism (3-2); the opening and closing smell filtering plate mechanism (3-1) comprises a stepped column (3-1-1) and a smell filtering plate body (3-1-2), wherein the stepped column (3-1-1) is connected with the smell filtering plate body (3-1-2); the drying box mechanism (3-2) comprises a drying box body (3-2-1), an arc-shaped groove (3-2-2), a long rod (3-2-3), an end seat (3-2-4), an end seat A (3-2-5), a hinged seat I (3-2-6), a sliding-in slot (3-2-7), a friction ring (3-2-8), a perforated circular plate (3-2-9) and a rotary bearing seat (3-2-10), wherein the drying box body (3-2-1) is connected with a base plate (2-1), the arc-shaped groove (3-2-2) is arranged on the drying box body (3-2-1), the long rod (3-2-3) is connected with the end seat (3-2-4), the end seat (3-2-4) is connected with the drying box body (3-2-1), the drying box body (3-2-1) is connected with the end seat A (3-2-5), the long rod (3-2-3) is connected with the end seat A (3-2-5), the hinged seat I (3-2-6) is arranged on the drying box body (3-2-1), the sliding-in slot (3-2-7) is arranged on the drying box body (3-2-1), the friction ring (3-2-8) is arranged on the inner wall of the drying box body (3-2-1), the circular plate with the hole (3-2-9) is connected with the drying box body (3-2-1), the rotary bearing seat (3-2-10) is arranged on the circular plate with the hole (3-2-9), the smell filtering plate body (3-1-2) is hinged with the rotary bearing seat (3-2-10), the smell filtering plate body (3-1-2) is connected with the arc-shaped groove (3-2-2) in a sliding way, and the hinged seat I (3-2-6) is hinged with the smell filtering plate body (3-1-2); the negative pressure mechanism (3-3) comprises a shaft-provided fan blade (3-3-1), a friction disc III (3-3-2), a rotating arm (3-3-3), a coupler I (3-3-4) and a negative pressure motor (3-3-5), the shaft-provided fan blade (3-3-1) is connected with the friction disc III (3-3-2), the friction disc III (3-3-2) is in friction connection with a friction ring (3-2-8), the shaft-provided fan blade (3-3-1) is connected with the rotating arm (3-3-3) through a bearing, the rotating arm (3-3-3) is connected with the negative pressure motor (3-3-5) through the coupler I (3-3-4), and the rotating arm (3-3-3) is connected with the rotating bearing seat (3-2-10) through the bearing The negative pressure motor (3-3-5) is connected with the circular plate (3-2-9) with the hole, and the friction disc III (3-3-2) is in friction connection with the friction ring (3-2-8).

5. The drying equipment after lamp glue injection according to claim 1, characterized in that: the smell filtering plate driving mechanism (4) comprises a spring I (4-1), a driving plate (4-2), a sliding hole A (4-3), a chute (4-4), a hinging seat II (4-5), a first hinging arm (4-6), a seat body (4-7), a second hinging arm (4-8), a cam motor (4-9), a cam motor coupler (4-10) and a stepped cam with a shaft (4-11), wherein the spring I (4-1) is sleeved on a long rod (3-2-3), two ends of the spring I (4-1) are propped against the driving plate (4-2) and an end seat A (3-2-5), the sliding hole A (4-3) is arranged on the driving plate (4-2), the sliding hole A (4-3) and the long rod (3-2-3), the chute (4-4) is arranged on the driving plate (4-2), the chute (4-4) is connected with the stair column (3-1-1) in a sliding way, the hinge seat II (4-5) is connected with the driving plate (4-2), the hinge seat II (4-5) is hinged with the first hinge arm (4-6), the first hinge arm (4-6) is hinged with the second hinge arm (4-8), the second hinge arm (4-8) is hinged with the seat body (4-7), the seat body (4-7) is connected with the drying box body (3-2-1), the cam motor (4-9) is connected with the seat body (4-7), the cam motor (4-9) is connected with the stair cam (4-11) with the shaft through the cam motor coupler (4-10), the connection mode of the stepped cam (4-11) with the shaft and the seat body (4-7) is bearing connection, and the stepped cam (4-11) with the shaft is in contact fit with the second articulated arm (4-8).

6. The drying equipment after lamp glue injection according to claim 4, characterized in that: the material of the stair column (3-1-1) is high manganese steel.

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