CN110641183A

CN110641183A - Temporary binding machine

Info

Publication number: CN110641183A
Application number: CN201910993043.7A
Authority: CN
Inventors: 石彩侠
Original assignee: Suzhou Xinyao Health Technology Co Ltd
Current assignee: Suzhou Xinyao Health Technology Co Ltd
Priority date: 2019-10-17
Filing date: 2019-10-17
Publication date: 2020-01-03

Abstract

The invention discloses a temporary binding machine, which comprises a binding machine body, wherein a binding cavity is arranged in the binding machine body with a right opening, a clamping device is connected between the inner walls of the upper side and the lower side of the binding cavity in a rotating fit manner, a driving device is arranged in the inner wall of the left side of the binding cavity, the upper end and the lower end of the driving device are connected with forming devices, the driving device can drive the clamping device at the same time, and the driving device comprises a bevel gear cavity arranged in the inner wall of the left side of the binding cavity.

Description

Temporary binding machine

Technical Field

The invention relates to the field of paper processing, in particular to a temporary binding machine.

Background

The invention discloses a temporary binding machine which is convenient to bind and disassemble, and is characterized in that paper is often used in modern study and life, sometimes a plurality of papers are needed for needed document materials, scattered paper is troublesome to arrange, a binding machine is often used, but only temporary binding is needed sometimes, and disassembly is also troublesome after binding by using the binding machine, so that the temporary binding machine which is convenient to bind and disassemble is really necessary.

Disclosure of Invention

The present invention is directed to a temporary binding machine that solves the above-described problems of the prior art.

The invention is realized by the following technical scheme: the invention relates to a temporary binding machine, which comprises a binding machine body, wherein a binding cavity is arranged in the binding machine body with a right opening, a clamping device is connected between the inner walls of the upper side and the lower side of the binding cavity in a rotating fit manner, a driving device is arranged in the inner wall of the left side of the binding cavity, the upper end and the lower end of the driving device are connected with forming devices, the driving device can drive the clamping device at the same time, the driving device comprises a bevel gear cavity arranged in the inner wall of the left side of the binding cavity, a driving bevel gear is rotatably arranged in the bevel gear cavity, a motor is fixedly arranged in the inner wall of the left side of the bevel gear cavity, the left end of the driving bevel gear is connected with the motor in a power fit manner through a motor shaft, the lower end of the driving bevel gear is meshed with a driven bevel, the lower rotating shaft is provided with a synchronous belt cavity communicated with the inner wall of the lower side of the lower rotating shaft cavity, the lower end of the lower rotating shaft extends into the synchronous belt cavity and is fixedly connected with a driving belt wheel, the right side in the synchronous belt cavity is rotatably provided with a driven belt wheel, a synchronous belt is connected between the driving belt wheel and the driven belt wheel in a friction fit manner, the upper end of the driven belt wheel is fixedly connected with a lower screw rod, the upper end of the lower screw rod is connected with the clamping device, the right end of the driving bevel gear is fixedly connected with a screw rod, the inner wall of the right side of the bevel gear cavity is provided with a screw rod cavity communicated with the inner wall of the right side of the bevel gear cavity, the inner wall of the right side of the screw rod cavity is communicated with the binding cavity, a thread block is slidably arranged in the thread block cavity, a threaded, the right end of the thread block extends into the binding cavity and is fixedly connected with a sucker, the right end of the sucker adsorbs a binding film, an upper fixed rack is fixedly arranged in the upper end surface of the thread block, an upper gear cavity is arranged in the upper side inner wall of the thread block cavity in a communicated manner, an upper driving gear is rotatably arranged in the upper gear cavity, the lower end of the upper driving gear is meshed with the upper fixed rack, an upper driven gear is arranged at the upper end of the upper driving gear in a meshed manner, the upper end of the upper driven gear is meshed with the forming device, a lower fixed rack is fixedly arranged in the lower end surface of the thread block cavity in a communicated manner, a lower gear cavity is arranged in the lower side inner wall of the thread block cavity in a communicated manner, a lower driving gear is rotatably arranged in the lower gear cavity, the upper end of the lower driving gear is, the lower end of the lower driven gear is meshed with the forming device, and the transmission ratio between the lower driving gear and the lower driven gear is larger than the transmission ratio between the upper driving gear and the upper driven gear.

A further technical scheme is that the forming device comprises an upper sliding block cavity communicated with each other and arranged in the inner wall of the upper side of the upper gear cavity, an upper sliding block is arranged in the upper sliding block cavity in a sliding manner, an upper sliding rack is fixedly arranged in the inner wall of the lower end of the upper sliding block, the lower end of the upper sliding rack is meshed with the upper driven gear, a bevel block cavity is arranged in the inner wall of the right side of the upper sliding block cavity in a communicating manner, the inner wall of the right side of the bevel block cavity is communicated with the binding cavity, a bevel block is arranged in the bevel block cavity in a sliding manner, the lower end of the bevel block is fixedly connected with a heating block, a guide block cavity is arranged rightwards in the inner opening of the upper sliding block, a guide block is arranged in the guide block cavity in a sliding manner, the right end of the guide block is fixedly connected with the bevel block, and a, the utility model discloses a gear binding machine, including a gear cavity, a guide block, a gear cavity.

According to a further technical scheme, the clamping device comprises a lower screw rod hole communicated with the inner wall of the upper side of the synchronous belt cavity, the inner wall of the upper side of the lower screw rod hole is communicated with the binding cavity, the upper end of the lower screw rod extends into the binding cavity and is fixedly connected with a connecting rotating shaft, the upper end of the connecting rotating shaft is fixedly connected with an upper screw rod, the upper end of the upper screw rod is connected with the inner wall of the upper side of the binding cavity in a rotating fit manner, a lower thread block is connected to the upper end of the lower screw rod in a threaded fit manner, a lower threaded hole is formed in the lower thread block in a vertically through manner, the lower screw rod penetrates through the lower threaded hole and is connected with the lower threaded hole in a threaded fit manner, a lower extrusion plate is fixedly connected to the upper end of the lower thread block, a sealing block is fixedly arranged in the lower through hole, paper scraps, a front spring cavity is arranged in the front inner wall of the binding cavity in a communicated manner, the front end of the lower extrusion plate extends into the front spring cavity, a front spring is fixedly connected between the upper end of the lower extrusion plate and the upper inner wall of the front spring cavity, a rear spring cavity is arranged in the rear inner wall of the binding cavity in a communicated manner, the rear end of the lower extrusion plate extends into the rear spring cavity, a rear spring is fixedly connected between the upper end of the lower extrusion plate and the upper inner wall of the rear spring cavity, a pressure sensor is fixedly arranged in the upper end surface of the lower extrusion plate, an upper threaded block is connected to the upper screw rod in a threaded fit manner, an upper threaded hole is arranged in the upper threaded block in a vertically-through manner, the upper screw rod penetrates through the upper threaded hole and is connected with the upper threaded block in a threaded fit manner, the lower end of the upper threaded block is fixedly connected with the upper extrusion, the lower end of the upper screw rod penetrates through the upper through hole.

According to the further technical scheme, the right opening of the binding film is provided with a dismounting groove, the upper end of the binding film is a right-angle interface, and the lower end of the binding film is an arc-shaped cross section.

The invention has the beneficial effects that: the paper binding device is simple in structure and convenient to operate, when paper needs to be bound temporarily, the paper is placed on the clamping device, the binding film is installed on the paper starting device, the driving device drives the binding film to contact the paper, the clamping device clamps the paper to prevent the paper from moving, the binding film is extruded and formed through the forming device after the paper contacts the paper, the paper is bound, the binding film is only required to be pulled, the device can sequentially extrude the binding film to bind, binding failure caused by huge deformation generated during simultaneous binding is avoided, the binding film is made of a non-metal material, the bound paper cannot be scattered easily through thermoplastic processing, and the paper can be detached only by pulling the lower end of the binding film.

Drawings

FIG. 1 is a schematic view of the internal structure of a temporary binding machine according to the present invention;

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

FIG. 3 is a schematic view of the structure in the direction "B-B" in FIG. 1;

FIG. 4 is a schematic view of the structure in the direction "C-C" in FIG. 1.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1-4, a temporary binding machine according to an embodiment of the present invention includes a binding machine body 11, a binding cavity 56 is provided in the binding machine body 11 with a rightward opening, a clamping device is connected between the upper and lower inner walls of the binding cavity 56 in a rotating fit manner, a driving device is provided in the left inner wall of the binding cavity 56, the upper and lower ends of the driving device are connected to forming devices, the driving device can drive the clamping device at the same time, the driving device includes a bevel gear cavity 14 provided in the left inner wall of the binding cavity 56, a driving bevel gear 15 is rotatably provided in the bevel gear cavity 14, a motor 12 is fixedly provided in the left inner wall of the bevel gear cavity 14, the left end of the driving bevel gear 15 is connected to the motor 12 in a power fit manner through a motor shaft 13, a driven bevel gear 16 is provided at the lower end of the, the lower end of the driven bevel gear 16 is fixedly connected with a lower rotating shaft 18, the inner wall of the lower side of the bevel gear cavity 14 is provided with a lower rotating shaft cavity 17 in a communicated manner, the inner wall of the lower side of the lower rotating shaft cavity 17 is provided with a synchronous belt cavity 19 in a communicated manner, the lower end of the lower rotating shaft 18 extends into the synchronous belt cavity 19 and is fixedly connected with a driving pulley 20, the right side in the synchronous belt cavity 19 is rotatably provided with a driven pulley 22, a synchronous belt 21 is connected between the driving pulley 20 and the driven pulley 22 in a friction fit manner, the upper end of the driven pulley 22 is fixedly connected with a lower screw 45, the upper end of the lower screw 45 is connected with the clamping device, the right end of the driving bevel gear 15 is fixedly connected with a screw 23, the inner wall of the right side of the bevel gear cavity 14 is provided with a screw cavity, the inner wall of the right side of the thread block cavity 25 is communicated with the binding cavity 56, the thread block 26 is slidably arranged in the thread block cavity 25, a threaded hole 27 is formed in the left opening of the thread block 26, the right end of the screw rod 23 extends into the threaded hole 27 and is in threaded fit connection with the threaded hole, the right end of the thread block 26 extends into the binding cavity 56 and is fixedly connected with a sucker 28, a binding film 29 is adsorbed at the right end of the sucker 28, an upper fixed rack 31 is fixedly arranged in the upper end face of the thread block 26, an upper gear cavity 32 is communicated with the inner wall of the upper side of the thread block cavity 25, an upper driving gear 33 is rotatably arranged in the upper gear cavity 32, the lower end of the upper driving gear 33 is engaged with the upper fixed rack 31, an upper driven gear 34 is engaged with the upper end of the upper driving gear 33, and the upper end of the upper driven gear 34 is engaged with, a lower fixed rack 38 is fixedly arranged in the lower end face of the thread block 26, a lower gear cavity 39 is arranged in the inner wall of the lower side of the thread block cavity 25 in a communicated manner, a lower driving gear 40 is rotatably arranged in the lower gear cavity 39, the upper end of the lower driving gear 40 is meshed with the lower fixed rack 38, a lower driven gear 41 is arranged at the lower end of the lower driving gear 40 in a meshed manner, the lower end of the lower driven gear 41 is meshed with the forming device, and the transmission ratio between the lower driving gear 40 and the lower driven gear 41 is greater than that between the upper driving gear 33 and the upper driven gear 34.

Beneficially, the forming device includes an upper sliding block cavity 37 communicated with each other and disposed in the upper inner wall of the upper gear cavity 32, an upper sliding block 36 is slidably disposed in the upper sliding block cavity 37, an upper sliding rack 35 is fixedly disposed in the lower end surface of the upper sliding block 36, the lower end of the upper sliding rack 35 is engaged with the upper driven gear 34, a bevel block cavity 58 is disposed in the right inner wall of the upper sliding block cavity 37 in a communicating manner, the right inner wall of the bevel block cavity 58 is communicated with the binding cavity 56 in an communicating manner, a bevel block 59 is slidably disposed in the bevel block cavity 58, a heating block 60 is fixedly connected to the lower end of the bevel block 59, a guide block cavity 62 is disposed in the upper sliding block 36 with an opening to the right, a guide block 63 is slidably disposed in the guide block cavity 62, the right end of the guide block 63 is fixedly connected to the bevel block 59, a guide spring 64 is fixedly connected between the lower end of the guide block 63 and the lower inner wall of the guide block cavity, the inner wall of the left side of the guide block cavity 62 is internally and fixedly provided with a heat conducting block 61, when the guide block 63 is in contact with the heat conducting block 61, the heating block 60 can be heated, the inner wall of the upper side of the binding cavity 56 is fixedly connected with a fixed inclined plane block 57, the inclined plane block 59 can be pushed to slide downwards through an inclined plane between the fixed inclined plane block 57 and the inclined plane block 59, the inner wall of the lower side of the lower gear cavity 39 is internally and fixedly provided with a lower sliding block cavity 42, the inner wall of the right side of the lower sliding block cavity 42 is internally and fixedly communicated with the binding cavity 56, the inner side of the lower sliding block cavity 42 is provided with a lower sliding block 43 in a sliding way, the upper end of the lower sliding block 43 is internally and fixedly provided with a lower sliding rack 44, and the upper end.

Beneficially, the clamping device includes a lower screw hole 71 disposed in the inner wall of the upper side of the synchronous belt cavity 19 in communication, the inner wall of the upper side of the lower screw hole 71 is in communication with the binding cavity 56, the upper end of the lower screw 45 extends into the binding cavity 56 and is fixedly connected with a connecting rotating shaft 50, the upper end of the connecting rotating shaft 50 is fixedly connected with an upper screw 51, the upper end of the upper screw 51 is connected with the inner wall of the upper side of the binding cavity 56 in a rotating fit manner, the lower screw 45 is connected with a lower thread block 46 in a threaded fit manner, a lower threaded hole 47 is disposed in the lower thread block 46 in a vertically through manner, the lower screw 45 passes through the lower threaded hole 47 and is connected with the lower threaded hole in a threaded fit manner, the upper end of the lower thread block 46 is fixedly connected with a lower pressing plate 48, a lower through hole 49 is disposed in the lower pressing plate 48, the paper scrap can be prevented from entering the lower through hole 49, the upper end of the lower screw 45 penetrates through the closed block 65, the front inner wall of the front side of the binding cavity 56 is internally and communicatively provided with a front spring cavity 67, the front end of the lower extrusion plate 48 extends into the front spring cavity 67, a front spring 68 is fixedly connected between the upper end of the lower extrusion plate 48 and the inner wall of the upper side of the front spring cavity 67, the inner wall of the rear side of the binding cavity 56 is internally and communicatively provided with a rear spring cavity 69, the rear end of the lower extrusion plate 48 extends into the rear spring cavity 69, a rear spring 70 is fixedly connected between the upper end of the lower extrusion plate 48 and the inner wall of the upper side of the rear spring cavity 69, the upper end of the lower extrusion plate 48 is internally and fixedly provided with a pressure sensor 66, the upper screw 51 is in threaded fit connection with an upper thread block 52, the upper thread block 52 is vertically and penetratingly provided with an upper thread hole 53, and the upper screw 51 passes, the lower end of the upper thread block 52 is fixedly connected with an upper extrusion plate 54, an upper through hole 55 is arranged in the upper extrusion plate 54 in a vertically through manner, and the lower end of the upper screw 51 penetrates through the upper through hole 55.

The disassembly groove 30 is arranged in the binding film 29 and opens to the right, the upper end of the binding film 29 is a right-angle interface, and the lower end of the binding film 29 is an arc-shaped cross section.

When the paper needs to be temporarily bound, the binding film 29 is adsorbed on the suction cup 28, the motor 12 is started, the drive bevel gear 15 is driven to rotate through the motor shaft 13, the screw rod 23 is driven to rotate, the thread block 26 is driven to slide rightwards, the suction cup 28 and the binding film 29 are driven to move rightwards, the thread block 26 slides rightwards, the upper driving gear 33 is driven to rotate through the upper fixed rack 31, the upper driven gear 34 is driven to rotate, the upper driven gear 34 rotates, the upper sliding rack 35 is driven to slide rightwards, the upper sliding block 36 is driven to slide rightwards, the bevel block 59 and the heating block 60 are driven to slide rightwards, the bevel block 59 is pushed to slide downwards when the bevel block 59 is in contact with the fixed bevel block 57, the guide block 63 is driven to slide downwards and compress the guide spring 64, the heating block 60 is heated when the guide block 63 is in contact with the heat conduction block 61, meanwhile, the lower fixed rack 38 drives the lower driving gear 40 to rotate, and then drives the lower driven gear 41 to rotate, and then drives the lower sliding rack 44 to slide rightwards, and then drives the lower sliding block 43 to slide rightwards, and then carries out extrusion molding on the binding film 29, because the transmission ratio between the lower driven gear 41 and the lower driving gear 40 is larger than the transmission ratio between the upper driving gear 33 and the upper driven gear 34, the molding device on the upper side moves faster than the molding device on the lower side, and simultaneously the driving bevel gear 15 drives the driven bevel gear 16 to rotate, and then drives the driving pulley 20 to rotate through the lower rotating shaft 18, and then drives the driven pulley 22 to rotate through the synchronous belt 21, and then drives the lower thread block 46 to ascend through the lower screw 45, and then drives the lower extrusion plate 48 to ascend, and further compresses the front spring 68 and the rear spring 70, and because the lower through hole, therefore, the elastic coefficient of the front spring 68 is larger than that of the rear spring 70, so as to keep the front and rear ends of the lower extrusion plate 48 balanced in stress, the lower screw 45 drives the upper screw 51 to rotate through the connecting rotating shaft 50, the upper screw 51 drives the upper screw 51 to slide downwards due to the opposite spiral directions of the upper screw 51 and the lower screw 45, so as to drive the upper extrusion plate 54 to slide downwards and extrude paper, when the pressure on the lower extrusion plate 48 reaches a critical value, the pressure sensor 66 senses and stops the motor 12, when the binding film 29 contacts with the paper, the upper and lower ends of the binding film 29 are bent under the extrusion of the forming device and press the paper, the upper forming device at the upper side performs thermoplastic treatment on the upper end of the binding film 29 at the same time, so that the upper end of the binding film 29 can sufficiently press the paper, meanwhile, the curved surface at the lower end of the binding film 29 is tightly attached to, the arc-shaped interface is manually broken, and the binding film 29 is disconnected at the disassembling groove 30, so that the binding and the disassembling are convenient.

It will be apparent to those skilled in the art that various modifications may be made to the above embodiments without departing from the general spirit and concept of the invention. All falling within the scope of protection of the present invention. The protection scheme of the invention is subject to the appended claims.

Claims

1. A temporary binding machine comprises a binding machine body, wherein a binding cavity is arranged in the binding machine body with a right opening, a clamping device is connected between the upper inner wall and the lower inner wall of the binding cavity in a rotating fit manner, a driving device is arranged in the inner wall of the left side of the binding cavity, the upper end and the lower end of the driving device are connected with forming devices, the driving device can drive the clamping device at the same time, the driving device comprises a bevel gear cavity arranged in the inner wall of the left side of the binding cavity, a driving bevel gear is rotatably arranged in the bevel gear cavity, a motor is fixedly arranged in the inner wall of the left side of the bevel gear cavity, the left end of the driving bevel gear is connected with the motor in a power fit manner through a motor shaft, a driven bevel gear is arranged at the lower end of the driving bevel gear in a meshed manner, the lower rotating shaft is provided with a synchronous belt cavity communicated with the inner wall of the lower side of the lower rotating shaft cavity, the lower end of the lower rotating shaft extends into the synchronous belt cavity and is fixedly connected with a driving belt wheel, the right side in the synchronous belt cavity is rotatably provided with a driven belt wheel, a synchronous belt is connected between the driving belt wheel and the driven belt wheel in a friction fit manner, the upper end of the driven belt wheel is fixedly connected with a lower screw rod, the upper end of the lower screw rod is connected with the clamping device, the right end of the driving bevel gear is fixedly connected with a screw rod, the inner wall of the right side of the bevel gear cavity is provided with a screw rod cavity communicated with the inner wall of the right side of the bevel gear cavity, the inner wall of the right side of the screw rod cavity is communicated with the binding cavity, a thread block is slidably arranged in the thread block cavity, a threaded, the right end of the thread block extends into the binding cavity and is fixedly connected with a sucker, the right end of the sucker adsorbs a binding film, an upper fixed rack is fixedly arranged in the upper end surface of the thread block, an upper gear cavity is arranged in the upper side inner wall of the thread block cavity in a communicated manner, an upper driving gear is rotatably arranged in the upper gear cavity, the lower end of the upper driving gear is meshed with the upper fixed rack, an upper driven gear is arranged at the upper end of the upper driving gear in a meshed manner, the upper end of the upper driven gear is meshed with the forming device, a lower fixed rack is fixedly arranged in the lower end surface of the thread block cavity in a communicated manner, a lower gear cavity is arranged in the lower side inner wall of the thread block cavity in a communicated manner, a lower driving gear is rotatably arranged in the lower gear cavity, the upper end of the lower driving gear is, the lower end of the lower driven gear is meshed with the forming device, and the transmission ratio between the lower driving gear and the lower driven gear is larger than the transmission ratio between the upper driving gear and the upper driven gear.

2. A temporary binding machine according to claim 1, characterized in that: the forming device comprises an upper sliding block cavity communicated with each other and arranged in the inner wall of the upper side of the upper gear cavity, an upper sliding block is arranged in the upper sliding block cavity in a sliding manner, an upper sliding rack is fixedly arranged in the inner wall of the lower end of the upper sliding block, the lower end of the upper sliding rack is meshed with the upper driven gear, a bevel block cavity is arranged in the inner wall of the right side of the upper sliding block cavity in a communicating manner, the inner wall of the right side of the bevel block cavity is communicated with the binding cavity, a bevel block is arranged in the bevel block cavity in a sliding manner, a heating block is fixedly connected to the lower end of the bevel block, a guide block cavity is arranged in the upper sliding block cavity in a rightward opening manner, a guide block is arranged in the guide block cavity in a sliding manner, the right end of the guide block is fixedly connected to the bevel block, and a, the utility model discloses a gear binding machine, including a gear cavity, a guide block, a gear cavity.

3. A temporary binding machine according to claim 1, characterized in that: the clamping device comprises a lower screw rod hole communicated with the inner wall of the upper side of the synchronous belt cavity, the inner wall of the upper side of the lower screw rod hole is communicated with the binding cavity, the upper end of the lower screw rod extends into the binding cavity and is fixedly connected with a connecting rotating shaft, the upper end of the connecting rotating shaft is fixedly connected with an upper screw rod, the upper end of the upper screw rod is connected with the inner wall of the upper side of the binding cavity in a rotating fit manner, the upper thread of the lower screw rod is connected with a lower thread block in a thread fit manner, a lower thread hole is vertically communicated in the lower thread block, the lower screw rod penetrates through the lower thread hole and is connected with the lower thread block in a thread fit manner, the upper end of the lower thread block is fixedly connected with a lower extrusion plate, a lower through hole is vertically communicated in the lower extrusion plate, a sealing block is fixedly arranged, a front spring cavity is arranged in the front inner wall of the binding cavity in a communicated manner, the front end of the lower extrusion plate extends into the front spring cavity, a front spring is fixedly connected between the upper end of the lower extrusion plate and the upper inner wall of the front spring cavity, a rear spring cavity is arranged in the rear inner wall of the binding cavity in a communicated manner, the rear end of the lower extrusion plate extends into the rear spring cavity, a rear spring is fixedly connected between the upper end of the lower extrusion plate and the upper inner wall of the rear spring cavity, a pressure sensor is fixedly arranged in the upper end surface of the lower extrusion plate, an upper threaded block is connected to the upper screw rod in a threaded fit manner, an upper threaded hole is arranged in the upper threaded block in a vertically-through manner, the upper screw rod penetrates through the upper threaded hole and is connected with the upper threaded block in a threaded fit manner, the lower end of the upper threaded block is fixedly connected with the upper extrusion, the lower end of the upper screw rod penetrates through the upper through hole.

4. A temporary binding machine according to claim 2, wherein: the binding film is characterized in that dismounting grooves are formed in the binding film in a rightward opening mode, the upper end of the binding film is a right-angle interface, and the lower end of the binding film is an arc-shaped cross section.