CN112227661A

CN112227661A - Automatic seam beautifying machine

Info

Publication number: CN112227661A
Application number: CN202011071600.9A
Authority: CN
Inventors: 刘凤江
Original assignee: Individual
Current assignee: Guangdong Paidi Technology Co ltd
Priority date: 2020-10-09
Filing date: 2020-10-09
Publication date: 2021-01-15
Anticipated expiration: 2040-10-09
Also published as: CN112227661B

Abstract

The motor A drives the belt pulley A to rotate, one belt pulley A drives one belt pulley C to rotate through a belt, one belt pulley C drives the gear C to rotate, the gear C drives the gun shell to slide up and down through the rack B, the rotation of any angle and the height of the gun shell are adjusted, the motor B drives the gear D to rotate, the gear D drives the threaded gear to rotate, the threaded rod C is screwed out by the threaded gear, then the motor B drives the other gear D to rotate, the gear D drives the motor B and the other gear D to move upwards, the gear D is meshed with the other threaded gear, the threaded rod A and the threaded rod B are screwed out downwards, triple-thread sleeve connection is achieved through the threaded rod A, the threaded rod B and the threaded rod C, the seam beautifying agent is extruded out, and the space is saved compared with a single thread, the volume of the machine is reduced, and the machine is convenient to store.

Description

Automatic seam beautifying machine

Technical Field

The invention relates to the technical field of seam beautifying equipment, in particular to an automatic seam beautifying machine.

Background

At present, gaps are manually cleaned, the seam beautifying agent is manually punched, redundant seam beautifying agent is manually shoveled, the redundant seam beautifying agent can be shoveled after the redundant seam beautifying agent is solidified and dried, time and labor are wasted, and the working efficiency is low, so that an automatic seam beautifying machine is needed, the gap cleaning, seam beautifying agent punching, drying and shoveling redundant seam beautifying agent are fully automatic, trouble and labor are saved, and the working efficiency is greatly improved.

Disclosure of Invention

Aiming at the problems, the invention provides an automatic seam beautifying machine, when in use, the seam beautifying agent with a cut opening is required to be placed in a groove in a casing of a seam beautifying gun, the seam beautifying machine is placed on the ground to be sewed, a motor A drives a gear A to rotate, the gear A drives a ground seam cleaning mechanism part to slide downwards to a proper position, a brush and a awl are used for cleaning the ground seam, a belt pulley A is driven to rotate by the motor A, the belt pulley A drives the casing of the seam beautifying gun to rotate to a proper position through a belt, then the seam beautifying gun slides downwards to a proper height to prepare for seam beautifying, the belt pulley A is driven to rotate by the motor A, the belt pulley A drives the ground seam beautifying mechanism part to rotate through the belt, different seam pressing balls rotate to a specified position and slide downwards, seam pressing balls are used for seam pressing, and the dryer is used for drying the redundant seam beautifying agent pressed by the seam pressing balls, the drying machine is driven by the motor A to drive the gear A to rotate, the gear A drives the gear B and the belt pulley B to rotate, the belt pulley B drives the rack D to slide downwards to a proper height through a belt, and the shovel shovels the dried redundant seam beautifying agent, so that the automation of a series of work is realized, and the working efficiency is improved.

The technical scheme adopted by the invention is as follows: an automatic beauty sewing machine comprising: the seam beautifying machine comprises a seam beautifying machine shell mechanism, a driving mechanism, a seam cleaning mechanism, a seam beautifying gun rotating and lifting mechanism, a seam beautifying gun sealant beating mechanism, a seam beautifying mechanism, a drying and cleaning mechanism and a clamping and separating mechanism; the seam beautifying machine shell mechanism is an integral shell, and the driving mechanism, the seam cleaning ground seam mechanism, the seam beautifying gun rotating and lifting mechanism, the seam beautifying mechanism and the drying and cleaning mechanism are arranged in the seam beautifying machine shell mechanism; the driving mechanism is positioned at the foremost end of the interior of the housing mechanism of the seam beautifying machine, and the driving mechanism realizes the integral driving of the machine; the ground seam cleaning mechanism is positioned between the driving mechanism and the seam beautifying gun rotating and lifting mechanism, and realizes the function of cleaning soil in ground seams; the seam beautifying gun rotary lifting mechanism is positioned between the ground seam cleaning mechanism and the seam beautifying mechanism, and realizes the function of adjusting the height and the angle of the seam beautifying gun; the seam beautifying gun sealant injecting mechanism is arranged inside the seam beautifying gun rotary lifting mechanism and is positioned at the upper half part of the seam beautifying gun rotary lifting mechanism, and the seam beautifying gun sealant injecting mechanism realizes the function of extruding seam beautifying sealant; the seam beautifying mechanism is positioned between the seam beautifying gun rotary lifting mechanism and the drying and cleaning mechanism, and realizes the functions of seam pressing ball conversion and height adjustment; the drying and cleaning mechanism is positioned at the tail end of the seam beautifying machine shell mechanism, and the drying and cleaning mechanism achieves the functions of drying seam beautifying agent and scooping up redundant seam beautifying agent; the clamping and disengaging mechanism is arranged in part of the belt pulley A, the gear A, the bevel gear A, the belt pulley B, the belt pulley C, the belt pulley D, the bevel gear B and the belt pulley to control clamping and disengaging of the belt pulley A, the gear A, the belt pulley B, the belt pulley C, the belt pulley D, the bevel gear B and the belt pulley and the shaft.

Further, the housing mechanism of the sewing machine comprises: the device comprises a whole machine shell, a square bump, a metal rod, a fixing rod A, a fixing rod B, a square hole, a fixing rod C and a fixing block; the whole machine shell is a shell of the whole equipment; the square bump is fixedly arranged in the shell of the whole machine; a plurality of metal rods are fixedly arranged in the shell of the whole machine; the fixed rod A is fixedly arranged at the upper end inside the shell of the whole machine; the fixed rod B is fixedly arranged at the lower end in the whole machine shell; the bottom of the whole machine shell is provided with a plurality of square holes; the fixed rod C is fixedly arranged at the upper end inside the shell of the whole machine; the fixed block is fixedly arranged at the lower end inside the shell of the whole machine.

Further, the drive mechanism includes: the device comprises a motor A, a belt pulley A, a gear A, a chain and wheels; the motor A is fixedly arranged inside the square bump; a plurality of belt pulleys A are arranged on a motor shaft of the motor A, and a clamping and separating mechanism is arranged inside the belt pulleys A; the belt pulley A is controlled to be fixedly or rotationally connected with the motor shaft through the clamping and disengaging mechanism; a gear A is mounted on a motor shaft of the motor A, a clamping and separating mechanism is arranged in part of the gear A, and the gear A is controlled to be fixedly or rotationally connected with the motor shaft through the clamping and separating mechanism; the wheels are respectively rotatably arranged on the outer sides of the whole machine shell; a motor shaft of the motor A and the wheel transmit power through the gear A; the two wheels on one side transmit power through chains.

Further, the ground seam cleaning mechanism comprises: the device comprises a rack A, a bevel gear A, a gear B, a belt pulley B and a belt; the two racks A are respectively arranged on the fixed rod A and the fixed rod B in a sliding manner; a plurality of bevel gears A are respectively and rotatably arranged on the metal rod, and the two bevel gears A are mutually meshed; a clamping and separating mechanism is arranged in part of the conical gear A, and the conical gear A is controlled to be fixedly or rotationally connected with the metal rod through the clamping and separating mechanism; a plurality of gears B are arranged, the gears B are rotatably arranged on the metal rod, and the gears B are fixedly connected with the conical gear A; one gear B is meshed with the gear A, and the two gears B are respectively meshed with the two racks A; the belt pulleys B are multiple, a clamping and disengaging mechanism is arranged in one belt pulley B, and the belt pulleys B are controlled to be fixedly or rotatably connected with the metal rod through the clamping and disengaging mechanism; the belt pulleys B are respectively and rotatably arranged on part of the metal rods and fixedly connected with the bevel gear A; the belt has a plurality of, one with two belt pulley B roll cooperation wherein.

Further, beautiful seam rifle rotary lifting mechanism include: the device comprises a gunning gun shell, a fixing plate, a hollow cylinder, a belt pulley C, a gear C, a rack B and a fixing shaft; the round hole of the fixing plate is rotatably arranged on the metal rod; the casing of the agent gun is slidably arranged in the middle of the fixing plate; the bottom of the casing of the agent gun is provided with a rack B; the hollow cylinder is fixedly arranged in the casing of the agent gun; the gear C is rotatably arranged on the metal rod and is positioned in the middle of the fixing plate; the gear C is meshed with the rack B; the belt pulley C is respectively and rotatably arranged on a metal rod in the whole machine shell, one belt pulley C is fixedly arranged at one end of a fixing plate, and the other belt pulley C is fixedly arranged on a gear C; the three belt pulleys C are arranged on the same shaft, the middle belt pulley C is fixedly arranged with the shaft, the belt pulleys C on two sides are internally provided with a clamping and separating mechanism, and the belt pulleys C are controlled to be fixedly or rotationally connected with the shaft through the clamping and separating mechanism; a belt is arranged on the belt pulley C on the side surface of the gear C and the belt pulley C provided with a clamping and disengaging mechanism; a belt is arranged on a belt pulley C provided with a clamping and separating mechanism and a belt pulley C fixedly arranged on a fixed plate; a belt is mounted on pulley A and pulley C which is fixed to the shaft.

Further, the beautiful seam rifle hits agent mechanism includes: the device comprises a motor B, a gear D, a threaded rod A, a threaded rod B, a threaded rod C, a disc and a threaded gear; the motor B is slidably arranged in the casing of the agent gun, and a motor shaft of the motor B is connected with the two gears D; one gear D is meshed with saw teeth inside the casing of the gun; the other gear D is meshed with the threaded gear; the plurality of threaded rods A are respectively and rotatably arranged on the hollow cylinder, the threaded rods A and the threaded rods B; the threaded rod A is slidably arranged in the hollow cylinder and is in threaded fit with the lower threaded gear; the threaded rod B is slidably arranged in the threaded rod A and is in threaded fit with the middle threaded gear; the threaded rod C is slidably arranged in the threaded rod B and is in threaded fit with the uppermost threaded gear; the disc is fixedly arranged at the lower end of the threaded rod C; the plurality of belts are respectively matched with the two thread gears on each layer in a rolling way.

Further, beautify gap mechanism include: the device comprises a Y-shaped hollow square tube, a conical gear B, a rack C, a belt pulley D, a ball A, a ball B, a ball C and a gear E; the Y-shaped hollow square tube is rotatably arranged on the fixed block; a plurality of racks C are slidably arranged in the sliding grooves on the Y-shaped hollow square tubes; the ball A, the ball B and the ball C are respectively fixedly arranged on the rack C; two bevel gears B are provided, one bevel gear B is fixedly arranged on the Y-shaped hollow square tube, the other bevel gear B is fixedly arranged on the metal rod, and the two bevel gears B are meshed with each other; the number of the belt pulleys D is four, wherein a clamping and separating mechanism is arranged in part of the belt pulleys D, and the belt pulleys D are controlled to be fixedly or rotationally connected with the metal rod through the clamping and separating mechanism; the gear E is fixedly connected with one belt pulley D through a shaft; two belt pulleys D and a conical gear B are mounted on the metal rod, a clamping and separating mechanism is arranged inside the two belt pulleys D, and the belt pulleys D are controlled to be fixedly or rotationally connected with the metal rod through the clamping and separating mechanism; the middle belt pulley D is connected with another belt pulley D which is on the same shaft with the gear E through a belt; the belt pulley D on the edge is connected with another belt pulley D through a belt, the two belt pulleys D are fixedly connected through a fixed shaft, the fixed shaft is rotatably installed inside the shell of the whole machine, and the rack B is connected with the belt pulley A through the belt.

Further, stoving clearance mechanism include: the drying machine comprises a drying machine, a rack D, a gear F, a bevel gear and a belt pulley; the dryer is fixedly arranged on the square hole; the rack D is slidably arranged on the fixed rod C; the gear F is rotatably arranged on the metal rod; the gear F is meshed with the rack D; the belt pulley is rotatably arranged on the metal rod; the belt is in rolling fit with the belt pulley and the belt pulley B; the bevel gears are two, one is fixedly arranged on the gear F, the other is fixedly arranged on the shaft on the belt pulley, and the two bevel gears are meshed with each other.

Further, the locking and disengaging mechanism comprises: the electromagnet, the spring and the clamping block; the electromagnet is fixedly arranged in part of the belt pulley A, the gear A, the bevel gear A, the belt pulley B, the belt pulley C, the belt pulley D, the bevel gear B and the belt pulley; the clamping block is slidably mounted inside part of the belt pulley A, the gear A, the bevel gear A, the belt pulley B, the belt pulley C, the belt pulley D, the bevel gear B and the belt pulley, one end of the spring is fixedly connected with the electromagnet, and the other end of the spring is fixedly connected with the clamping block.

Due to the adoption of the technical scheme, the invention has the following advantages:

1. when in use, the seam beautifying agent with cut openings is placed in a groove in the casing of the agent gun, the seam beautifying machine is placed on the ground to be sewed, the seam beautifying machine is driven by a motor A to drive a gear A to rotate, the gear A drives a seam cleaning mechanism to slide downwards to a proper position, a brush and an awl are used for cleaning the seam, the belt pulley A is driven to rotate, the belt pulley A drives the gun casing to rotate to a proper position through a belt, then the seam beautifying gun slides downwards to a proper height to prepare for beautifying, the motor A drives the belt pulley A to rotate, the belt pulley A drives the seam beautifying mechanism to rotate through the belt, different seam pressing balls rotate to a designated position and slide downwards, seam pressing is carried out by the seam pressing balls, the dryer is used for drying the redundant seam beautifying agent pressed by the seam pressing balls, and the redundant seam beautifying agent is driven by the motor A, the gear A is driven to rotate, the gear A drives the gear B and the belt pulley B to rotate, the belt pulley B drives the rack D to slide downwards to a proper height through a belt, and a shovel shovels the dried redundant seam beautifying agent, so that the automation of a series of work is realized.

2. Through motor A drive, and then take gear A to rotate, gear A takes gear B to rotate, gear B takes belt pulley B to rotate, belt pulley B takes the belt pulley to rotate through the belt, belt pulley takes conical gear to rotate, conical gear takes another conical gear and gear F to rotate gear F703 and takes rack D to reciprocate, realized pressing the unnecessary beautiful seam agent stoving that the seam ball pressed and shoveled the function, improved work efficiency.

3. Drive driving gear D through motor B and rotate, gear D drives the screw gear and rotates, the screw gear outwards screws out threaded rod C, later motor B drives another gear D rotatoryly, gear D takes motor B and another gear D rebound, and then make gear D mesh with other screw gear, make threaded rod A and threaded rod B screw out downwards, through threaded rod A, threaded rod B, triple thread muffjoint has been realized to threaded rod C, extrude the beautiful seam agent, space has been saved than the single thread, the machine volume has been reduced, be convenient for deposit.

Drawings

Fig. 1-3 are schematic diagrams of the overall structure of the present invention.

Fig. 4-5 are partial structural schematic diagrams of the housing mechanism of the sewing machine.

Fig. 6 is a schematic view of a part of the structure of the driving mechanism of the present invention.

FIG. 7 is a schematic view of a portion of the ground seam cleaning mechanism of the present invention.

Fig. 8-9 are partial structural schematic views of the rotary lifting mechanism of the beauty-seam gun of the invention.

Fig. 10 is a partial structure schematic diagram of the caulking gun propellant mechanism of the invention.

Fig. 11 is a schematic structural diagram of a part of the gap beautifying mechanism according to the present invention.

FIG. 12 is a schematic view of a part of the drying and cleaning mechanism according to the present invention.

Fig. 13 is a schematic structural view of a part of the locking and disengaging mechanism of the present invention.

Reference numerals: 1-a housing mechanism of the sewing machine; 2-a drive mechanism; 3-cleaning a ground seam mechanism; 4-a seam beautifying gun rotating and lifting mechanism; 5-a make-up mechanism of a beautiful seam gun; 6-a gap beautifying mechanism; 7-drying and cleaning the mechanism; 8-a deadlocking disengagement mechanism; 101-a complete machine shell; 102-square bumps; 103-metal rod; 104-fixed bar a; 105-fixing rod B; 106-square hole; 107-fixation bar C; 108-fixed block; 201-motor a; 202-Pulley A; 203-gear a; 204-a chain; 205-wheels; 301-rack a; 302-bevel gear a; 303-gear B; 304-pulley B; 305-a belt; 401-gun housing; 402-a fixed plate; 403-hollow cylinder; 404-Pulley C; 405-gear C; 406-rack B; 407-fixed axis; 501-motor B; 502-gear D; 503-threaded rod A; 504-threaded rod B; 505-threaded bar C; 506-a disc; 507-a threaded gear; 601-Y-shaped hollow square tube; 602-bevel gear B; 603-rack C; 604-Pulley D; 605-sphere a; 606-round ball B; 607-sphere C; 608-gear E; 701-a dryer; 702-rack D; 703-gear F; 704-a bevel gear; 705-pulley; 801-an electromagnet; 802-spring; 803-a latch.

DETAILED DESCRIPTION OF EMBODIMENT (S) OF INVENTION

The technical scheme of the invention is further specifically described by the following embodiments and the accompanying drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein, but rather should be construed as broadly as the present invention is capable of modification in various respects, all without departing from the spirit and scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "front", "back", "left", "right", and the like indicate orientations or positional relationships based on orientations or positional relationships shown in the drawings or orientations or positional relationships that the products of the present invention are conventionally placed in use, and are only used for convenience in describing the present invention and simplifying the description, but do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Embodiments an automatic seam machine as shown in fig. 1-13, comprising: the seam beautifying machine comprises a seam beautifying machine shell mechanism 1, a driving mechanism 2, a ground seam cleaning mechanism 3, a seam beautifying gun rotating and lifting mechanism 4, a seam beautifying gun chemical beating mechanism 5, a seam beautifying mechanism 6, a drying and cleaning mechanism 7 and a clamping and separating mechanism 8; the seam beautifying machine shell mechanism 1 is an integral shell, and the driving mechanism 2, the seam cleaning ground seam mechanism 3, the seam beautifying gun rotating and lifting mechanism 4, the seam beautifying mechanism 6 and the drying and cleaning mechanism 7 are arranged in the seam beautifying machine shell mechanism 1; the driving mechanism 2 is positioned at the foremost end of the interior of the housing mechanism 1 of the sewing machine, and the driving mechanism 2 realizes the integral driving of the machine; the ground seam cleaning mechanism 3 is positioned between the driving mechanism 2 and the seam beautifying gun rotating and lifting mechanism 4, and the ground seam cleaning mechanism 3 realizes the function of cleaning soil in ground seams; the seam beautifying gun rotary lifting mechanism 4 is positioned between the ground seam cleaning mechanism 3 and the seam beautifying mechanism 6, and the seam beautifying gun rotary lifting mechanism 4 realizes the function of adjusting the height and the angle of the seam beautifying gun; the seam beautifying gun sealant injecting mechanism 5 is arranged inside the seam beautifying gun rotary lifting mechanism 4 and is positioned at the upper half part of the seam beautifying gun rotary lifting mechanism 4, and the seam beautifying gun sealant injecting mechanism 5 realizes the function of extruding seam beautifying sealant; the seam beautifying mechanism 6 is positioned between the seam beautifying gun rotary lifting mechanism 4 and the drying and cleaning mechanism 7, and the seam beautifying mechanism 6 realizes the functions of seam pressing ball conversion and height adjustment; the drying and cleaning mechanism 7 is positioned at the tail end of the seam beautifying machine shell mechanism 1, and the drying and cleaning mechanism 7 realizes the functions of drying seam beautifying agent and scooping up redundant seam beautifying agent; the dead-lock disengaging mechanism 8 is arranged in a part of the pulleys A202, A203, the bevel gear A302, B304, C404, D604, B602 and 705 and is used for controlling the clamping and disengaging of the pulleys A202, A203, B304, C404, D604, B602 and 705 and the shaft.

In an alternative embodiment of the present invention, the housing mechanism 1 of the sewing machine comprises, in addition to the same components as in the previous embodiment: the fixing device comprises a whole machine shell 101, a square bump 102, a metal rod 103, a fixing rod A104, a fixing rod B105, a square hole 106, a fixing rod C107 and a fixing block 108; the whole machine shell 101 is a shell of the whole equipment; the square bump 102 is fixedly arranged inside the whole machine shell 101; a plurality of metal rods 103 are fixedly arranged inside the whole machine shell 101; the fixing rod A104 is fixedly arranged at the upper end inside the whole machine shell 101; the fixing rod B105 is fixedly arranged at the lower end inside the whole machine shell 101; the bottom of the whole machine shell 101 is provided with a plurality of square holes 106; the fixing rod C107 is fixedly arranged at the upper end inside the whole machine shell 101; the fixing block 108 is fixedly installed at the lower end inside the casing 101.

In an alternative embodiment of the present invention, the drive mechanism 2 comprises, in addition to the same components as in the previous embodiment: motor a201, pulley a202, gear a203, chain 204 and wheel 205; the motor A201 is fixedly arranged inside the square bump 102; a plurality of belt pulleys A202 are arranged on a motor shaft of the motor A201, and a clamping and disengaging mechanism 8 is arranged inside the belt pulleys A202; the belt pulley A202 is controlled to be fixedly or rotationally connected with the motor shaft through the clamping and disengaging mechanism 8; a gear A203 is installed on a motor shaft of the motor A201, a clamping and disengaging mechanism 8 is arranged inside part of the gear A203, and the gear A203 is controlled to be fixedly connected or rotationally connected with the motor shaft through the clamping and disengaging mechanism 8; the wheels 205 are respectively installed outside the whole machine shell 101 in a rotating way; the motor shaft of the motor A201 and the wheel 205 transmit power through the gear A203; two wheels 205 on one side transmit power through a chain 204; the motor A201 drives the gear A203 to rotate, the gear A203 drives the wheel 205 to rotate, and the whole machine moves.

In an alternative embodiment of the present invention, the ground seam cleaning mechanism 3 includes, in addition to the same components as the previous embodiment: a rack A301, a bevel gear A302, a gear B303, a pulley B304 and a belt 305; the two racks A301 are arranged, a brush is arranged below one rack A301, an awl is arranged below the other rack A, and the two racks A301 are respectively installed on the fixing rod A104 and the fixing rod B105 in a sliding mode; a plurality of bevel gears A302 are respectively rotatably arranged on the metal rod 103, and the two bevel gears A302 are mutually meshed; a clamping and disengaging mechanism 8 is arranged in a part of the bevel gear A302, and the bevel gear A302 is controlled to be fixedly connected or rotationally connected with the metal rod 103 through the clamping and disengaging mechanism 8; a plurality of gears B303 are arranged, the gears B303 are rotatably arranged on the metal rod 103, and the gears B303 are fixedly connected with the bevel gear A302; one gear B303 is meshed with the gear A203, and two gears B303 are respectively meshed with the two racks A301; a plurality of belt pulleys B304 are provided, wherein a clamping and disengaging mechanism 8 is arranged in one belt pulley B304, and the belt pulley B304 is controlled to be fixedly or rotationally connected with the metal rod 103 through the clamping and disengaging mechanism 8; the belt pulleys B304 are respectively and rotatably arranged on part of the metal rods 103, and the belt pulleys B304 are fixedly connected with the bevel gear A302; the belt 305 has a plurality of belts, one of which is in rolling fit with two pulleys B304; the gear A203 is driven by the motor A201 to rotate with the gear A203, the gear A203 rotates with the gear B303, the gear B303 rotates with the bevel gear A302 and the belt pulley B304, the belt 305 rotates with the other belt pulley B304, the belt pulley B304 rotates with the bevel gear A302, the bevel gear A302 rotates with the gear B303, the gear B303 slides up and down with the rack A301, and the rotation or non-rotation of the bevel gear A302 and the belt pulley B304 is controlled by the clamping and disengaging mechanism 8, so that the two racks A301 are respectively adjusted to proper heights when the gear A is used.

In an alternative implementation manner of the embodiment of the present invention, except for the same components as those in the previous embodiment, the seam beautifying gun rotary lifting mechanism 4 includes: a gunning gun shell 401, a fixing plate 402, a hollow cylinder 403, a belt pulley C404, a gear C405, a rack B406 and a fixing shaft 407; the round hole of the fixing plate 402 is rotatably arranged on the metal rod 103; the gunning gun shell 401 is slidably arranged in the middle of the fixing plate 402; a rack B406 is arranged at the bottom of the gunning gun shell 401; the hollow cylinder 403 is fixedly arranged inside the gun shell 401; the gear C405 is rotatably arranged on the metal rod 103, and the position of the gear C405 is in the middle of the fixed plate 402; gear C405 intermeshes with rack B406; the belt wheel C404 is provided with a plurality of belt wheels C404, a clamping and disengaging mechanism 8 is arranged inside part of the belt wheels C404, the belt wheels C404 are respectively and rotatably arranged on the metal rod 103 inside the whole machine shell 101, one belt wheel C404 is fixedly arranged at one end of the fixing plate 402, and the other belt wheel C404 is fixedly arranged on the gear C405; the three belt pulleys C404 are arranged on the same shaft, the belt pulley C404 in the middle is fixedly arranged with the shaft, the belt pulleys C404 on the two sides are internally provided with the clamping and disengaging mechanism 8, and the belt pulleys C404 are controlled to be fixedly or rotationally connected with the shaft through the clamping and disengaging mechanism 8; a belt 305 is arranged on a belt pulley C404 on the side surface of the gear C405 and a belt pulley C404 provided with a clamping and disengaging mechanism 8; a belt 305 is arranged on a belt pulley C404 provided with a clamping and disengaging mechanism 8 and a belt pulley C404 fixedly arranged on the fixed plate 402; a belt 305 is mounted on pulley A202 and pulley C404 fixed to the shaft; the motor A201 drives the belt pulleys A202 to rotate, one belt pulley A202 drives one belt pulley C404 to rotate through the belt 305, one belt pulley C404 drives the gear C405 to rotate, and the gear C405 drives the gunning gun shell 401 to slide up and down through the rack B406, so that the arbitrary angle rotation and height adjustment of the gunning gun shell 401 are realized.

In an alternative implementation manner of the embodiment of the present invention, the caulking gun dosing mechanism 5 includes, in addition to the same components as those of the previous embodiment: motor B501, gear D502, threaded rod A503, threaded rod B504, threaded rod C505, disc 506 and threaded gear 507; the motor B501 is slidably arranged in the gun shell 401, and a motor shaft of the motor B is connected with the two gears D502; one of the gears D502 intermeshes with serrations on the interior of the gun housing 401; the other gear D502 is intermeshed with the threaded gear 507; the plurality of threaded rods A503 are respectively and rotatably arranged on the hollow cylinder 403, the threaded rods A503 and the threaded rods B504; the threaded rod A503 is slidably arranged inside the hollow cylinder 403 and is in threaded fit with the lower threaded gear 507; the threaded rod B504 is slidably arranged in the threaded rod A503 and is in threaded fit with the middle threaded gear 507; threaded rod C505 is slidably mounted inside threaded rod B504 and is in threaded fit with the uppermost threaded gear 507; the disc 506 is fixedly arranged at the lower end of the threaded rod C505; the plurality of belts 305 are respectively in rolling fit with two threaded gears 507 of each layer; the motor B501 drives the gear D502 to rotate, the gear D502 drives the threaded gear 507 to rotate, the threaded gear 507 enables the threaded rod C505 to be screwed out, then the motor B501 drives the other gear D502 to rotate, the gear D502 drives the motor B501 and the other gear D502 to move upwards, the gear D502 is meshed with the other threaded gear 507, the threaded rod A503 and the threaded rod B504 are screwed out downwards, triple-thread sleeve connection is achieved through the threaded rod A503, the threaded rod B504 and the threaded rod C505, the seam beautifying agent is extruded out, compared with a single thread, the space is saved, the machine size is reduced, and the storage is convenient.

In an alternative embodiment of the present invention, the gap beautifying mechanism 6 includes, in addition to the same components as those of the previous embodiment: the device comprises a Y-shaped hollow square tube 601, a conical gear B602, a rack C603, a belt pulley D604, a round ball A605, a round ball B606, a round ball C607 and a gear E608; the Y-shaped hollow square tube 601 is rotatably arranged on the fixed block 108; a plurality of racks C603 are slidably arranged in the sliding groove on the Y-shaped hollow square tube 601; the round ball A605, the round ball B606 and the round ball C607 are respectively and fixedly arranged on the rack C603; two bevel gears B602 are provided, one bevel gear B is fixedly arranged on the Y-shaped hollow square tube 601, the other bevel gear B602 is fixedly arranged on the metal rod 103, and the two bevel gears B602 are meshed with each other; four belt pulleys D604 are provided, wherein a part of the belt pulleys D604 is internally provided with a clamping and disengaging mechanism 8, and the belt pulleys D604 are controlled to be fixedly or rotationally connected with the metal rod 103 through the clamping and disengaging mechanism 8; the gear E608 is fixedly connected with one of the pulleys D604 through a shaft; two belt pulleys D604 and a bevel gear B602 are mounted on the metal rod 103, a clamping and disengaging mechanism 8 is arranged inside the two belt pulleys D604, and the belt pulleys D604 and the metal rod 103 are controlled to be fixedly connected or rotationally connected through the clamping and disengaging mechanism 8; the intermediate pulley D604 is connected to another pulley D604 coaxial with the gear E608 via a belt 305; the belt pulley D604 on the side is connected with another belt pulley D604 through a belt 305, the two belt pulleys D604 are fixedly connected through a fixed shaft 407, the fixed shaft 407 is rotatably installed inside the whole machine shell 101, and the rack B406 is connected with the belt pulley A202 through the belt 305; the motor A201 drives the gear A203 to rotate, the gear A203 drives the belt pulleys C404 to rotate through the belt 305, the belt pulleys C404 drive one of the belt pulleys D604 to rotate, the belt pulley D604 drives the other two belt pulleys D604 and one of the bevel gears B602 to rotate through the belt 305, one bevel gear B602 drives the other bevel gear B602 to rotate, the bevel gear B602 drives the Y-shaped hollow square tube 601 to rotate, the belt pulley D604 drives the gear E608 to rotate, the gear E608 drives the rack C603 to slide up and down, and the functions of rotating the caulking balls with different sizes and adjusting the height are achieved.

In an optional implementation manner of the embodiment of the present invention, except for the same components as those in the previous embodiment, the drying and cleaning mechanism 7 includes: dryer 701, rack D702, gear F703, bevel gear 704 and pulley 705; the dryer 701 is fixedly arranged on the square hole 106; the rack D702 is slidably mounted on the fixing rod C107; the gear F703 is rotatably mounted on the metal rod 103; the gear F703 is meshed with the rack D702; pulley 705 is rotatably mounted on metal rod 103; belt 305 is in rolling engagement with pulley 705 and pulley B304; two bevel gears 704, one fixedly mounted on gear F703 and the other fixedly mounted on the shaft on pulley 705, are engaged with each other; the motor A201 drives the gear A203 to rotate, the gear A203 drives the gear B303 to rotate, the gear B303 drives the belt pulley B304 to rotate, the belt pulley B304 drives the belt pulley 705 to rotate through the belt 305, the belt pulley 705 drives the bevel gear 704 to rotate, the bevel gear 704 drives the other bevel gear 704 and the gear F703 rotates, the gear F703 drives the rack D702 to move up and down, and the function of drying and shoveling redundant seam beautifying agent pressed by a seam pressing ball is achieved.

In an alternative implementation of the embodiment of the present invention, the deadlocking disengaging mechanism 8 includes, in addition to the same components as in the previous embodiment: an electromagnet 801, a spring 802, and a latch 803; the electromagnet 801 is fixedly arranged inside a part of belt pulley A202, gear A203, bevel gear A302, belt pulley B304, belt pulley C404, belt pulley D604, bevel gear B602 and belt pulley 705; a fixture block 803 is slidably mounted inside a part of a belt pulley A202, a gear A203, a bevel gear A302, a belt pulley B304, a belt pulley C404, a belt pulley D604, a bevel gear B602 and a belt pulley 705, one end of a spring 802 is fixedly connected with an electromagnet 801, and the other end of the spring 802 is fixedly connected with the fixture block 803; when the device is not used normally, the spring 802 pulls the fixture 803 back all the way, so that the partial pulley A202, the gear A203, the bevel gear A302, the pulley B304, the pulley C404, the pulley D604, the bevel gear B602 and the pulley 705 are separated from the shaft, and when the device needs to be adjusted, the electromagnet 801 is electrified to generate magnetism to repel the fixture 803 and push outwards, so that the clamping of the partial pulley A202, the gear A203, the bevel gear A302, the pulley B304, the pulley C404, the pulley D604, the bevel gear B602, the pulley 705 and the shaft is realized.

The working principle is as follows: when in use, the seam beautifying agent with an opening cut off is required to be placed in a groove in the casing 401 of the agent gun, the seam beautifying machine is placed on the ground to be sewed, the seam beautifying machine is driven by the motor A201 to drive the gear A203 to rotate, the gear A203 drives the part of the seam beautifying mechanism 3 to slide downwards to a proper position, the brush and the awl are used for cleaning the seam, the belt A201 drives the belt pulley A202 to rotate, the belt pulley A202 drives the gun casing 401 of the agent gun to rotate to a proper position through the belt 305, then the seam beautifying gun slides downwards to a proper height to prepare for beautifying the seam, the motor A201 drives the belt pulley A202 to rotate, the belt pulley A202 drives the part of the seam beautifying mechanism 6 to rotate through the belt 305, different seam pressing balls are rotated to a specified position and slide downwards to perform seam pressing through the seam pressing balls, the dryer 701 is used for drying the redundant seam beautifying agent pressed by the seam pressing balls, the motor A201 drives the gear A203 to rotate, the gear A203 drives the gear B303 and the belt pulley B304 to rotate, the belt pulley B304 drives the rack D702 to slide downwards to a proper height through the belt 305, and the shovel scoops up the dried redundant seam beautifying agent, so that the automation of a series of work is realized, and the working efficiency is improved.

The motor B501 drives the gear D502 to rotate, the gear D502 drives the threaded gear 507 to rotate, the threaded gear 507 enables the threaded rod C505 to be screwed out, then the motor B501 drives the other gear D502 to rotate, the gear D502 drives the motor B501 and the other gear D502 to move upwards, the gear D502 is meshed with the other threaded gear 507, the threaded rod A503 and the threaded rod B504 are screwed out downwards, triple-thread sleeve connection is achieved through the threaded rod A503, the threaded rod B504 and the threaded rod C505, the seam beautifying agent is extruded out, compared with a single thread, the space is saved, the machine volume is reduced, and the storage is convenient.

Claims

1. An automatic seam beautifying machine is characterized by comprising: the seam beautifying machine comprises a seam beautifying machine shell mechanism (1), a driving mechanism (2), a seam cleaning mechanism (3), a seam beautifying gun rotating and lifting mechanism (4), a seam beautifying gun sealant beating mechanism (5), a seam beautifying mechanism (6), a drying and cleaning mechanism (7) and a clamping and separating mechanism (8); the seam beautifying machine shell mechanism (1) is an integral shell, and the driving mechanism (2), the seam cleaning mechanism (3), the seam beautifying gun rotating and lifting mechanism (4), the seam beautifying mechanism (6) and the drying and cleaning mechanism (7) are arranged inside the seam beautifying machine shell mechanism (1); the driving mechanism (2) is positioned at the foremost end of the interior of the seam beautifying machine shell mechanism (1), and the driving mechanism (2) realizes the integral driving of the machine; the ground seam cleaning mechanism (3) is positioned between the driving mechanism (2) and the beautiful seam gun rotating and lifting mechanism (4), and the ground seam cleaning mechanism (3) realizes the function of cleaning soil in the ground seam; the seam beautifying gun rotary lifting mechanism (4) is positioned between the ground seam cleaning mechanism (3) and the seam beautifying mechanism (6), and the seam beautifying gun rotary lifting mechanism (4) realizes the function of adjusting the height and the angle 1 of the seam beautifying gun; the seam beautifying gun sealant driving mechanism (5) is arranged inside the seam beautifying gun rotary lifting mechanism (4) and is positioned at the upper half part of the seam beautifying gun rotary lifting mechanism (4), and the seam beautifying gun sealant driving mechanism (5) realizes the function of extruding seam beautifying sealant; the seam beautifying mechanism (6) is positioned between the seam beautifying gun rotary lifting mechanism (4) and the drying and cleaning mechanism (7), and the seam beautifying mechanism (6) realizes the functions of seam pressing ball conversion and height adjustment; the drying and cleaning mechanism (7) is positioned at the tail end of the seam beautifying machine shell mechanism (1), and the drying and cleaning mechanism (7) realizes the functions of drying seam beautifying agent and scooping up redundant seam beautifying agent; the clamping and disengaging mechanism (8) is arranged in a part of belt pulley A (202), gear A (203), bevel gear A (302), belt pulley B (304), belt pulley C (404), belt pulley D (604), bevel gear B (602) and belt pulley (705) to control the clamping and disengaging of the belt pulley A (202), gear A (203), belt pulley B (304), belt pulley C (404), belt pulley D (604), bevel gear B (602) and belt pulley (705) and the shaft;

the housing mechanism (1) of the sewing machine comprises: the device comprises a whole machine shell (101), a square bump (102), a metal rod (103), a fixing rod A (104), a fixing rod B (105), a square hole (106), a fixing rod C (107) and a fixing block (108); the whole machine shell (101) is a shell of the whole equipment; the square bump (102) is fixedly arranged in the shell (101) of the 1-piece machine; a plurality of metal rods (103) are fixedly arranged inside the whole machine shell (101); the fixing rod A (104) is fixedly arranged at the upper end inside the whole machine shell (101); the fixing rod B (105) is fixedly arranged at the lower end inside the whole machine shell (101); the bottom of the whole machine shell (101) is provided with a plurality of square holes (106); the fixing rod C (107) is fixedly arranged at the upper end inside the whole machine shell (101); the fixed block (108) is fixedly arranged at the lower end in the whole machine shell (101).

2. An automatic machine according to claim 1, characterized in that said drive mechanism (2) comprises: a motor A (201), a belt pulley A (202), a gear A (203), a chain (204) and a wheel (205); the motor A (201) is fixedly arranged inside the square bump (102); a plurality of belt pulleys A (202) are arranged on motor shafts of the motor A (201), and a clamping and disengaging mechanism (8) is arranged inside the belt pulleys A (202); the belt pulley A (202) is controlled to be fixedly or rotationally connected with a motor shaft through the clamping and disengaging mechanism (8); a gear A (203) is mounted on a motor shaft of the motor A (201), a clamping and disengaging mechanism (8) is arranged inside part of the gear A (203), and the gear A (203) is controlled to be fixedly connected or rotationally connected with the motor shaft through the clamping and disengaging mechanism (8); the wheels (205) are respectively rotatably arranged on the outer side of the whole machine shell (101); a motor shaft of the motor A (201) and the wheel (205) transmit power through the gear A (203); the two wheels (205) on one side transmit power through the chain (204).

3. An automatic machine according to claim 1, characterized in that said ground-stitch cleaning mechanism (3) comprises: a rack A (301), a bevel gear A (302), a gear B (303), a belt pulley B (304) and a belt (305); the two racks A (301) are arranged, a brush is arranged below one rack A, an awl is arranged below the other rack A, and the two racks A (301) are respectively installed on the fixing rod A (104) and the fixing rod B (105) in a sliding mode; a plurality of bevel gears A (302) are respectively and rotatably arranged on the metal rod (103), and the two bevel gears A (302) are mutually meshed; a clamping and disengaging mechanism (8) is arranged in a part of the conical gear A (302), and the conical gear A (302) is controlled to be fixedly connected or rotationally connected with the metal rod (103) through the clamping and disengaging mechanism (8); a plurality of gears B (303) are arranged, the gears B (303) are rotatably arranged on the metal rod (103), and the gears B (303) are fixedly connected with the bevel gear A (302); one gear B (303) is meshed with the gear A (203), and the two gears B (303) are respectively meshed with the two racks A (301); the belt pulleys B (304) are multiple, a clamping and disengaging mechanism (8) is arranged in one belt pulley B (304), and the belt pulley B (304) is controlled to be fixedly connected or rotatably connected with the metal rod (103) through the clamping and disengaging mechanism (8); the belt pulleys B (304) are respectively and rotatably arranged on part of the metal rods (103), and the belt pulleys B (304) are fixedly connected with the bevel gear A (302); the belt (305) has a plurality of belts, one of which is in rolling engagement with two of the pulleys B (304).

4. An automatic machine according to claim 1, characterized in that said rotary lifting mechanism (4) of the beauty gun comprises: the automatic dispensing gun comprises a dispensing gun shell (401), a fixing plate (402), a hollow cylinder (403), a belt pulley C (404), a gear C (405), a rack B (406) and a fixing shaft (407); the round hole of the fixing plate (402) is rotatably arranged on the metal rod (103); the gunning gun shell (401) is slidably arranged in the middle of the fixing plate (402); a rack B (406) is arranged at the bottom of the gunning gun shell (401); the hollow cylinder (403) is fixedly arranged inside the casing (401) of the gunning gun; the gear C (405) is rotatably arranged on the metal rod (103), and the position of the gear C (405) is in the middle of the fixing plate (402); the gear C (405) is meshed with the rack B (406); the belt wheel C (404) is provided with a plurality of belt wheels, a clamping and disengaging mechanism (8) is arranged in part of the belt wheels C (404), the belt wheels C (404) are respectively and rotatably arranged on a metal rod (103) in the whole machine shell (101), one belt wheel C (404) is fixedly arranged at one end of a fixing plate (402), and the other belt wheel C (404) is fixedly arranged on a gear C (405); the three belt pulleys C (404) are arranged on the same shaft, the belt pulley C (404) in the middle is fixedly arranged with the shaft, the belt pulleys C (404) on the two sides are internally provided with a clamping and disengaging mechanism (8), and the belt pulleys C (404) are controlled to be fixedly or rotationally connected with the shaft through the clamping and disengaging mechanism (8); a belt (305) is arranged on a belt pulley C (404) on the side surface of the gear C (405) and a belt pulley C (404) provided with a clamping and disengaging mechanism (8); a belt (305) is arranged on a belt pulley C (404) provided with a clamping and disengaging mechanism (8) and a belt pulley C (404) fixedly arranged on the fixed plate (402); a belt (305) is mounted on pulley A (202) and pulley C (404) which is fixed to the shaft.

5. An automatic machine according to claim 1, characterized in that said caulking gun dosing mechanism (5) comprises: a motor B (501), a gear D (502), a threaded rod A (503), a threaded rod B (504), a threaded rod C (505), a disc (506) and a threaded gear (507); the motor B (501) is slidably arranged in the casing (401) of the gunning gun, and a motor shaft of the motor B is connected with the two gears D (502); one of the gears D (502) is meshed with saw teeth inside the gun shell (401); the other gear D (502) is meshed with the threaded gear (507); the plurality of threaded rods A (503) are respectively and rotatably arranged on the hollow cylinder (403), the threaded rods A (503) and the threaded rods B (504); the threaded rod A (503) is slidably arranged inside the hollow cylinder (403) and is in threaded fit with the lower threaded gear (507); the threaded rod B (504) is slidably arranged in the threaded rod A (503) and is in threaded fit with the middle threaded gear (507); the threaded rod C (505) is slidably arranged in the threaded rod B (504) and is in threaded fit with the uppermost threaded gear (507); the disc (506) is fixedly arranged at the lower end of the threaded rod C (505); a plurality of belts (305) are respectively matched with two threaded gears (507) on each layer in a rolling way.

6. An automatic seam beautifying machine according to claim 1, characterized in that said seam beautifying mechanism (6) comprises: the device comprises a Y-shaped hollow square tube (601), a conical gear B (602), a rack C (603), a belt pulley D (604), a round ball A (605), a round ball B (606), a round ball C (607) and a gear E (608); the Y-shaped hollow square tube (601) is rotatably arranged on the fixed block (108); a plurality of racks C (603) are slidably arranged in the sliding groove on the Y-shaped hollow square tube (601); the round ball A (605), the round ball B (606) and the round ball C (607) are respectively and fixedly arranged on the rack C (603); two bevel gears B (602) are provided, one bevel gear B is fixedly arranged on the Y-shaped hollow square tube (601), the other bevel gear B is fixedly arranged on the metal rod (103), and the two bevel gears B (602) are meshed with each other; four belt pulleys D (604) are provided, wherein a clamping and disengaging mechanism (8) is arranged in part of the belt pulleys D (604), and the belt pulleys D (604) are controlled to be fixedly connected or rotatably connected with the metal rod (103) through the clamping and disengaging mechanism (8); the gear E (608) is fixedly connected with one of the pulleys D (604) through a shaft; two belt pulleys D (604) and a bevel gear B (602) are mounted on the metal rod (103), a clamping and disengaging mechanism (8) is arranged inside the two belt pulleys D (604), and the belt pulleys D (604) are controlled to be fixedly connected or rotatably connected with the metal rod (103) through the clamping and disengaging mechanism (8); the intermediate pulley D (604) is connected with another pulley D (604) which is coaxial with the gear E (608) through a belt (305); the belt pulley D (604) on the side is connected with the other belt pulley D (604) through a belt (305), the two belt pulleys D (604) are fixedly connected through a fixed shaft (407), the fixed shaft (407) is rotatably installed inside the whole machine shell (101), and the rack B (406) is connected with the belt pulley A (202) through the belt (305).

7. An automatic machine for decorating sewing according to claim 1, characterized in that said drying and cleaning means (7) comprise: a dryer (701), a rack D (702), a gear F (703), a bevel gear (704) and a pulley (705); the dryer (701) is fixedly arranged on the square hole (106); the rack D (702) is slidably arranged on the fixing rod C (107); the gear F (703) is rotatably arranged on the metal rod (103); the gear F (703) is meshed with the rack D (702); the belt pulley (705) is rotatably arranged on the metal rod (103); belt (305) is in rolling engagement with pulley (705) and pulley B (304); the bevel gears (704) are two, one fixedly mounted on the shaft of the gear F (703) and the other fixedly mounted on the shaft of the pulley (705), the two bevel gears (704) being in mesh with each other.

8. An automatic machine for decorating sewing according to claim 1, characterized in that said blocking and disengaging mechanism (8) comprises: an electromagnet (801), a spring (802) and a fixture block (803); the electromagnet (801) is fixedly arranged in a part of belt pulley A (202), gear A (203), bevel gear A (302), belt pulley B (304), belt pulley C (404), belt pulley D (604), bevel gear B (602) and belt pulley (705); a clamping block (803) is slidably mounted inside a part of a belt pulley A (202), a gear A (203), a bevel gear A (302), a belt pulley B (304), a belt pulley C (404), a belt pulley D (604), a bevel gear B (602) and a belt pulley (705), one end of a spring (802) is fixedly connected with an electromagnet (801), and the other end of the spring is fixedly connected with the clamping block (803).