CN208277523U - The laminating apparatus of one embryo box and paper - Google Patents

Abstract

The utility model relates to embryo box process equipments, disclose the laminating apparatus of an embryo box and paper, solve the problems, such as that staff's pressure is big, including bracket, the conveyer belt for driving paper to move along stent length direction is rotatably connected on bracket, conveyer belt is rotated along the width direction of bracket, guide pad is set on bracket, guide pad is located at right above conveyer belt and tilts towards the output end of paper, guide pad is offered along the perforative guide groove of guide pad inclined direction, it is provided in guide groove for the driving assembly two mobile with kinetoblast box, reduce the pressure of staff.

Description

The laminating apparatus of one embryo box and paper

Technical field

The utility model relates to embryo box process equipments, more specifically, it relates to the laminating apparatus of an embryo box and paper.

Background technique

Carton is widely used in daily life and work as a kind of packaging material, and the production of carton is usually Embryo box is first prepared, then in auxiliary materials such as the surface of embryo box bonding protective film, facing papers.

In the prior art, when carrying out fitting work to embryo box and paper, usually paper is placed on the conveyor belt, The upper surface of paper is set to be covered with viscose glue by feeding device, then embryo box is placed on paper by staff, that is, work people Member needs to stay in always beside conveyer belt, causes staff's pressure big.

Utility model content

In view of the deficienciess of the prior art, being bonded dress the purpose of this utility model is to provide an embryo box and paper It sets, has the advantages that reduce staff's pressure.

To achieve the above object, the utility model provides following technical solution:

The laminating apparatus of one embryo box and paper, including bracket are rotatably connected to for driving paper along bracket on bracket The mobile conveyer belt of length direction, conveyer belt are rotated along the width direction of bracket, and guide pad is arranged on bracket, and guide pad is located at defeated It send with surface and is tilted towards the output end of paper, guide pad is offered along the perforative guide groove of guide pad inclined direction, led It is provided with into slot for the driving assembly two mobile with kinetoblast box.

By adopting the above technical scheme, start conveyer belt, to drive paper mobile, embryo box is placed in guide groove, embryo Box moves under the action of driving assembly two along the inclined direction of guide pad, when embryo box and the conveyer belt of guide groove output end support When connecing, fall within embryo box on paper, by the patch between embryo box and paper It closes；Embryo box is limited by guide groove, makes guide groove face paper, improves the probability that embryo box is aligned with paper；By leading Manual-alignment is replaced to block, mitigates the operating pressure of staff.

Further, the angle between guide pad and conveyer belt is set as 15 degree.

By adopting the above technical scheme, 15 degree are set by the angle between guide pad and conveyer belt, is not only convenient for embryo box and falls It falls, also improves the stability that embryo box is fallen.

Further, several gag lever posts are fixed on bracket, gag lever post is respectively arranged at the two sides of conveyer belt and and paper It abuts.

By adopting the above technical scheme, by the way that gag lever post is arranged, when paper moves under the action of conveyer belt, paper is risen To position-limiting action, reduce the probability of sheet wander.

Further, driving assembly two includes the motor two being fixed on guide pad, is sheathed on two output shaft of motor Rotating wheel, the conveyer belt rotated along support width direction, rotating wheel are located at the underface of guide pad and axis along support width side To setting, conveyer belt is sheathed on rotating wheel and guide pad and abuts with the bottom surface of guide groove.

By adopting the above technical scheme, start motor two, drive rotating wheel rotation, so that conveyer belt is driven to rotate, conveyer belt It is mobile towards conveyer belt for the embryo box in guide groove, the probability that embryo box is stranded in guide groove is reduced, and improve whole Automation.

Further, the bottom surface of guide groove is provided with wearing layer.

By adopting the above technical scheme, by the way that wearing layer is arranged, the friction injury of conveyer belt inner wall is reduced, to improve transmission The service life of band.

Further, it is fixed with motor one on bracket, driving wheel, the company of rotation on bracket are arranged on the output shaft of motor one The width direction that driven wheel, driving wheel and driven wheel axis are connected to along bracket is arranged, and conveyer belt is sheathed on driven wheel and master On driving wheel.

By adopting the above technical scheme, start motor one, driving wheel, driven wheel and conveyer belt is driven to rotate synchronously, thus The output end of paper towards bracket on driving conveying belt is mobile, improves whole automation and mitigates the pressure of staff Power.

Further, control circuit is provided on bracket, control circuit includes the first module and the second module, works as guiding When the embryo box insufficient supply of slot output end, the first module controls motor one and powers off, when sheet wander projected route, the second module It controls motor one and motor two powers off.

By adopting the above technical scheme, when the embryo box insufficient supply in guide groove, the power-off of motor one stops the defeated of paper It send, to reduce the waste of paper；When sheet wander, motor one and motor two are powered off, so that reducing paper patch is partial to embryo The probability of box.

Further, the first module includes infrared transmitter one, infrared remote receiver one and the first execution unit,

Infrared transmitter one, positioned at guide groove output end and be embedded at guide groove inner sidewall, infrared transmitter one it is defeated Outlet exports infrared ray；

Infrared remote receiver one is embedded at guide groove inner sidewall and is used for receiving infrared-ray, when the embryo box supply in guide groove When insufficient, one receiving infrared-ray of infrared remote receiver simultaneously exports the first infrared signal；

First execution unit is coupled with the output end of infrared remote receiver one, the first execution unit in response to infrared signal simultaneously Motor one is controlled to power off.

By adopting the above technical scheme, when the embryo box in guide groove is insufficient, i.e., infrared remote receiver has received infrared hair The infrared ray of emitter output, so that motor one be made to power off.

Further, the second module includes detection unit and the second execution unit,

Detection unit is provided with two groups and is respectively arranged at the two sides of conveyer belt, and when sheet wander conveyer belt, detection is single Member output detection signal；

Second execution unit is coupled with the output end of detection unit, and in response to detection signal to control motor two with And motor one persistently powers off.

By adopting the above technical scheme, when sheet wander conveyer belt, any one group of output of detection unit detects signal, makes Motor one and motor two power off.

Compared with prior art, the utility model has the advantages that:

(1) embryo box is limited by guide groove, makes guide groove face paper, raising embryo box is aligned general with paper Rate；Manual-alignment is replaced by guide pad, mitigates the operating pressure of staff；

(2) position-limiting action is played to paper, is subtracted when paper moves under the action of conveyer belt by the way that gag lever post is arranged The probability of sheet wander is lacked；

(3) by setting control circuit, to reduce the waste of paper and reduce the probability that paper patch is partial to embryo box.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the present embodiment, shows the overall structure of laminating apparatus；

Fig. 2 is the enlarged drawing in the portion A in Fig. 1, shows detection unit；

Fig. 3 is the cross-sectional view of the present embodiment；

Fig. 4 is the enlarged drawing in the portion B in Fig. 3, shows wearing layer；

Fig. 5 is the circuit diagram of the first module in control circuit；

Fig. 6 is the circuit diagram of the second module in control circuit.

Appended drawing reference: 1, bracket；2, conveyer belt；3, guide pad；4, motor one；5, driving wheel；6, driven wheel；7, it limits Bar；8, guide groove；9, wearing layer；10, embryo box；11, paper；12, motor two；13, rotating wheel；14, conveyer belt；15, control electricity Road；16, the first module；161, infrared transmitter one；162, infrared remote receiver one；163, the first execution unit；17, the second mould Block；171, detection unit；172, the second execution unit；18, infrared transmitter two；19, infrared remote receiver two.

Specific embodiment

The utility model is described in detail with reference to the accompanying drawing.

The laminating apparatus of one embryo box and paper, as shown in Figure 1, including bracket 1, conveyer belt 2, guide pad 3 and driving Component two.Conveyer belt 2 is rotationally connected on bracket 1, and the pivot center of conveyer belt 2 is arranged along the width direction of bracket 1, is located at branch The conveyer belt 2 of 1 top of frame is moved along the length direction of bracket 1, and paper 11 is placed on conveyer belt 2.

As shown in figures 1 and 3, motor 1, driving wheel 5 and driven wheel 6 are provided on bracket 1, motor 1 is fixed on On bracket 1, and the output shaft of motor 1 is arranged along the width direction of bracket 1；Driving wheel 5 is sheathed on the output shaft of motor 1 On；Driven wheel 6 is rotationally connected on bracket 1, the rectangular setting of width of the axis of driven wheel 6 along bracket 1, driven wheel 6 and actively The axis of wheel 5 is contour and diameter is equal；2 turning set of conveyer belt is set to 6 surface of driving wheel 5 and driven wheel, starts motor 1, It drives driving wheel 5 to rotate, so that driving conveying belt 2 rotates, realizes and paper 11 is driven to move from the input terminal of bracket 1 towards output end It is dynamic.Two gag lever posts 7 are fixed on bracket 1, gag lever post 7 is arranged along the short transverse of bracket 1, and gag lever post 7 is respectively arranged at defeated It send the two sides of band 2 and is abutted with paper 11.

As shown in figures 1 and 3, guide pad 3 is located at the surface of conveyer belt 2, guide pad 3 and conveyer belt 2 and is arranged in 15 degree, And guide pad 3 is moved along the output end of length direction towards the paper 11 of bracket 1, guide pad 3 is rectangle setting, guide pad 3 The guide groove 8 for offering opening direction and being arranged along 3 thickness direction of guide pad, the bottom surface of guide groove 8 is fixed with wearing layer 9(such as Shown in Fig. 4), wearing layer 9 is set as polythene material, and driving assembly two is set in guide groove 8 and drives the embryo in guide groove 8 Box 10 is moved along the inclined direction of guide pad 3.

As shown in figures 1 and 3, driving assembly two includes motor 2 12, rotating wheel 13, conveyer belt 14.Motor 2 12 passes through Pedestal is fixed on the outside of guide pad 3, and the output shaft of motor 2 12 is arranged along the width direction of bracket 1；Rotating wheel 13 is sheathed on On the output shaft of motor 2 12, rotating wheel 13 is located at the lower section of guide pad 3, and 14 synchronizing sleeve of conveyer belt is set to guide pad 3 and turns On driving wheel 13, conveyer belt 14 in guide groove 8 along guide pad 3 inclined direction setting and with the wearing layer 9 in guide groove 8 It abuts.Start motor 2 12, rotating wheel 13 is driven to rotate, so that conveyer belt 14 be driven to rotate, and drives the embryo box in guide groove 8 10 is mobile towards conveyer belt 2.

As shown in figures 1 and 3, it is provided with control circuit 15 on bracket 1, control circuit 15 includes the first module 16 and the Two module 17(are as shown in Figure 5 and Figure 6), when the embryo box 10 of 8 output end of guide groove is insufficient, the first module 16 controls motor One 4 power-off, when paper 11 deviates projected route, the second module 17 controls motor 1 and motor 2 12 powers off.

As shown in Figure 3 and Figure 5, the first module 16 includes infrared transmitter 1, infrared remote receiver 1 and first Execution unit 163.Infrared transmitter 1 is located at the output end of guide groove 8 and is embedded at 8 inner sidewall of guide groove, infrared emission The output end of device 1 exports infrared ray；Infrared remote receiver 1 is embedded at 8 inner sidewall of guide groove and is used for receiving infrared-ray, When the embryo box 10 in guide groove 8 is insufficient, one 162 receiving infrared-ray of infrared remote receiver simultaneously exports the first infrared signal；The One execution unit 163 is coupled with the output end of infrared remote receiver 1, and the first execution unit 163 is in response to infrared signal and controls Motor 1 processed powers off.

As shown in figure 5, the first execution unit 163 includes relay K1, triode Q1, sustained diode 1.Relay K1 Including coil KM1, contact normally closed switch S1, contact normally closed switch S1 is series in the current supply circuit of motor 1, coil KM1 string Between connection and the collector and direct current V1 of triode Q1；Triode Q1 base stage is coupled to the output of infrared remote receiver 1 Hold and receive the first infrared signal, emitter ground connection；The cathode and direct current V1 of sustained diode 1 couple, and direct current V1 is by storing Battery provides, and the anode of sustained diode 1 and the collector of triode Q1 couple.When the embryo box 10 in guide groove 8 is insufficient That is the output end of guide groove 8 does not have an embryo box 10, and triode Q1 is connected and to obtain coil KM1 electric, disconnects contact normally closed switch S1, Motor 1 stops working, i.e., paper 11 stops conveying, to reduce the waste of paper 11.

As shown in Figure 3 and Figure 6, the second module 17 includes detection unit 171 and the second execution unit 172, detection unit 171 are provided with two groups and are respectively arranged at the two sides of conveyer belt 2, and when paper 11 deviates conveyer belt 2, detection unit 171 is exported Detect signal；Second execution unit 172 is coupled with the output end of detection unit 171, and in response to detection signal to control electricity Machine 2 12 and motor 1 persistently power off.

As shown in fig. 6, detection unit 171 includes infrared transmitter 2 18 and infrared remote receiver 2 19, infrared transmitter 2 18 and infrared remote receiver 2 19 be located at the top and lower section of paper 11, when paper 11 deviates, obstruct infrared receiver 2 19 receiving infrared-ray of device, to export low level infrared signal.

As shown in fig. 6, the second execution unit 172 includes NAND gate E, relay K2, thyristor SCR, sustained diode 2 And push switch SW.There are two input terminal, the output end one-to-one correspondence couplings of each input terminal and detection unit 171 for NAND gate E tool It connects, relay K2 includes coil KM2, contact normally closed switch S2-1 and contact normally closed switch S2-2, contact normally closed switch S2-1 It is series in the current supply circuit of motor 2 12, contact normally closed switch S2-2 is series in the current supply circuit of motor 1, coil KM2 It is series between direct current V1 and the anode of thyristor SCR；The minus earth of thyristor SCR, the control electrode of thyristor SCR and with The output end of NOT gate E couples；The cathode and direct current V1 of sustained diode 2 couple, and direct current V1 is provided by battery, afterflow The anode of diode D2 and the anode of thyristor SCR couple, and the cathode of sustained diode 2 is with direct current V1 coupling, push switch SW is series between thyristor SCR and the ground of cathode.When paper 11 deviates, thyristor SCR conducting, coil KM obtains electric, contact Normally closed switch S2-1 and contact normally closed switch S2-2 is disconnected, and motor 1 and motor 2 12 power off；When staff readjusts When the position of paper 11, push switch SW is pressed, restarts motor 1 and motor 2 12.

The specific implementation method of the present embodiment: starting motor 1 drives paper 11 mobile, starts motor by conveyer belt 2 2 12, it is mobile with kinetoblast box 10 by conveyer belt 14, it falls within after so that embryo box 10 is left guide groove 8 on paper 11 and is pasted with paper 11 It closes.

This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability Field technique personnel can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but As long as within the protection scope of the present utility model all by the protection of Patent Law.

Claims (9)

1. the laminating apparatus of an embryo box and paper, which is characterized in that including bracket (1), be rotatably connected to and be used on bracket (1) The conveyer belt (2) that paper (11) are mobile along bracket (1) length direction is driven, conveyer belt (2) turns along the width direction of bracket (1) It is dynamic, guide pad (3) are set on bracket (1), guide pad (3) is located at conveyer belt (2) surface and towards the output end of paper (11) Inclination, guide pad (3) are offered to be provided with along the perforative guide groove of guide pad (3) inclined direction (8), guide groove (8) and be used for With kinetoblast box (10) mobile driving assembly two.

2. the laminating apparatus of embryo box and paper according to claim 1, which is characterized in that guide pad (3) and conveying Angle between band (2) is set as 15 degree.

3. the laminating apparatus of embryo box and paper according to claim 1, which is characterized in that bracket is fixed on (1) Several gag lever posts (7), gag lever post (7) are respectively arranged at the two sides of conveyer belt (2) and abut with paper (11).

4. the laminating apparatus of embryo box and paper according to claim 1, which is characterized in that driving assembly two includes solid Due on guide pad (3) motor two (12), be sheathed on motor two (12) output shaft rotating wheel (13), along bracket (1) width The conveyer belt (14) of direction rotation is spent, rotating wheel (13) is located at the underface of guide pad (3) and axis is along bracket (1) width direction Setting, conveyer belt (14) are sheathed on rotating wheel (13) and guide pad (3) and abut with the bottom surface of guide groove (8).

5. the laminating apparatus of embryo box and paper according to claim 4, which is characterized in that the bottom surface of guide groove (8) It is provided with wearing layer (9).

6. the laminating apparatus of embryo box and paper according to claim 4, which is characterized in that bracket is fixed on (1) Motor one (4) is arranged with driving wheel (5) on the output shaft of motor one (4), is rotatably connected on bracket (1) driven wheel (6), main The axis of driving wheel (5) and driven wheel (6) along bracket (1) width direction be arranged, conveyer belt (2) be sheathed on driven wheel (6) with And on driving wheel (5).

7. the laminating apparatus of embryo box and paper according to claim 6, which is characterized in that bracket is provided on (1) Control circuit (15), control circuit (15) includes the first module (16) and the second module (17), when guide groove (8) output end When embryo box (10) is insufficient, the first module (16) controls motor one (4) power-off, when paper (11) deviate projected route, the Two modules (17) control motor one (4) and motor two (12) power-off.

8. the laminating apparatus of embryo box and paper according to claim 7, which is characterized in that the first module (16) includes Infrared transmitter one (161), infrared remote receiver one (162) and the first execution unit (163),

Infrared transmitter one (161) is located at the output end of guide groove (8) and is embedded at guide groove (8) inner sidewall, infrared transmitter The output end of one (161) exports infrared ray；

Infrared remote receiver one (162) is embedded at guide groove (8) inner sidewall and is used for receiving infrared-ray, the embryo in guide groove (8) When box (10) is insufficient, infrared remote receiver one (162) receiving infrared-ray simultaneously exports the first infrared signal；

First execution unit (163) is coupled with the output end of infrared remote receiver one (162), the first execution unit (163) in response to Infrared signal simultaneously controls motor one (4) power-off.

9. the laminating apparatus of embryo box and paper according to claim 7, which is characterized in that the second module (17) includes Detection unit (171) and the second execution unit (172),

Detection unit (171) is provided with two groups and is respectively arranged at the two sides of conveyer belt (2), when paper (11) deviate conveyer belt (2) when, detection unit (171) output detection signal；

Second execution unit (172) is coupled with the output end of detection unit (171), and in response to detection signal to control electricity Machine two (12) and motor one (4) persistently power off.