阅读说明：本技术 一种自动送料模切机 (Automatic feeding die-cutting machine ) 是由 宗胜光 于 2020-11-28 设计创作，主要内容包括：本发明公开了一种自动送料模切机,包括有模切机主体、固定机构、运输机构和模切机构,模切机主体的中间部位嵌入连接有固定机构,模切机主体的一侧嵌入连接有运输机构,固定机构的顶部中间部位嵌入连接有模切机构,模切机主体的底端嵌入连接有固定底座,运输机构的前面底部嵌入连接有控制面板,运输机构的顶端嵌入连接有警示器,模切机构有助于对金属物进行加工,提高了装置的实用性,固定机构有助于对模切机构进行安装固定,方便操作人员把金属物运送到液压伸缩平台上进行加工,提高了装置的稳定性,警示器有助于提醒操作人员对装置内部仪器进行检测,运输机构有助于对金属物进行输送,提高了装置的工作效率,在未来具有广泛的发展前景。(The invention discloses an automatic feeding die-cutting machine, which comprises a die-cutting machine main body, a fixing mechanism, a conveying mechanism and a die-cutting mechanism, wherein the middle part of the die-cutting machine main body is embedded and connected with the fixing mechanism, one side of the die-cutting machine main body is embedded and connected with the conveying mechanism, the middle part of the top of the fixing mechanism is embedded and connected with the die-cutting mechanism, the bottom end of the die-cutting machine main body is embedded and connected with a fixed base, the front bottom of the conveying mechanism is embedded and connected with a control panel, the top end of the conveying mechanism is embedded and connected with an alarm, the die-cutting mechanism is beneficial to processing metal objects, the practicability of the device is improved, the fixing mechanism is beneficial to installing and fixing the die-cutting mechanism, an operator can conveniently convey the metal objects to a hydraulic telescopic platform for processing, the stability of the device is, the working efficiency of the device is improved, and the device has wide development prospect in the future.)

1. The utility model provides an autoloading cross cutting machine, includes cross cutting machine main part (1), fixed establishment (2), transport mechanism (3) and cross cutting mechanism (4), its characterized in that: a fixing mechanism (2) is embedded and connected in the middle of the die-cutting machine main body (1), a conveying mechanism (3) is embedded and connected in one side of the die-cutting machine main body (1), a die-cutting mechanism (4) is embedded and connected in the middle of the top of the fixing mechanism (2), a fixing base (5) is embedded and connected in the bottom end of the die-cutting machine main body (1), and a control panel (6) is embedded and connected in the bottom of the front of the conveying mechanism (3);

the bottom end of the fixing mechanism (2) is connected with a supporting plate (201) in an embedded mode, the middle portion of the bottom end of the supporting plate (201) is connected with a waste collecting box (202) in a penetrating mode, the other side of the top end of the supporting plate (201) is connected with a supporting column (203) in an embedded mode, the top of the supporting column (203) is movably connected with a regulator (204), the top end of the supporting column (203) is connected with a top plate (205) in an embedded mode, the bottom of the middle portion of the inner side of the supporting column (203) is connected with a blower (207) in an embedded mode, the bottom of one side of the supporting column (203) is connected with an installer (208) in an embedded mode, one end of the installer (208) is connected with a first rotator (209) in an embedded mode, the top end of the first rotator (209) is connected with a rotating shaft, one end of the rotating arm (2011) is connected with a lower template (2013) in an embedded mode, the bottom of the inner portion of the lower template (2013) is connected with an electrified magnet (2014) in an embedded mode, and the middle portion of the top end of the supporting plate (201) is connected with a hydraulic telescopic platform (2015) in an embedded mode;

the bottom embedding of transport mechanism (3) is connected with finished product bin (301), the one end swing joint of finished product bin (301) has sealing door (302), the inside top one side embedding of finished product bin (301) is connected with control box (303), the top embedding of finished product bin (301) is connected with feeder (305), the inside one side top embedding of feeder (305) is connected with telescopic link (306), the other end embedding of telescopic link (306) is connected with push pedal (307), the inside one side bottom embedding of feeder (305) is connected with motor (308), the inside middle part bottom embedding of feeder (305) is connected with support frame (3010), the top middle part swing joint of support frame (3010) has conveyer belt (3011), the top middle part swing joint of conveyer belt (3011) has metal object (3012), an infrared sensor (3013) is embedded and connected in the middle of the top of the inside of the feeder (305), and a feeding channel (3014) is embedded and connected on the other side of the top of the inside of the finished product storage box (301);

the top of the die-cutting mechanism (4) is embedded and connected with a hydraulic cylinder (401), the other side of the bottom end of the hydraulic cylinder (401) is embedded and connected with a hydraulic press (403), the bottom end of the hydraulic press (403) is embedded and connected with a rotating disc (404), the bottom end of the rotating disc (404) is embedded and connected with an adjusting plate (405), the inner side of the adjusting plate (405) is movably connected with an adjusting block (406), one side of the bottom end of the adjusting plate (405) is movably connected with a limiter (407), the bottom end of the adjusting block (406) is embedded and connected with a connecting plate (408), the bottom end of the connecting plate (408) is embedded and connected with a mounting seat (409), the bottom of one side of the mounting seat (409) is connected with a fixer (4010) in a penetrating way, the inboard swing joint of mount pad (409) has upper portion template (4011), the bottom swing joint of upper portion template (4011) has cross cutting tool bit (4012).

2. The die cutting machine according to claim 1, wherein: the bottom end of the motor (308) is embedded and connected with a shock absorber (309).

3. The die cutting machine according to claim 1, wherein: the top of the middle part of the inner side of the supporting column (203) is embedded and connected with a monitor (206).

4. The die cutting machine according to claim 1, wherein: the top end of the hydraulic cylinder (401) is connected with a signal transceiver (402) in an embedded mode.

5. The die cutting machine according to claim 1, wherein: one end of the control box (303) is connected with a radiator (304) in a penetrating way.

6. The die cutting machine according to claim 1, wherein: the middle part of the top end of the hydraulic telescopic platform (2015) is embedded and connected with a pressure sensor (2016).

7. The die cutting machine according to claim 1, wherein: the top end of the transportation mechanism (3) is embedded and connected with a warning indicator (7).

8. The die cutting machine according to claim 1, wherein: the fixing mechanism (2) comprises a supporting plate (201) at the bottom end of the fixing mechanism (2), a waste collecting box (202) at the middle part of the bottom end of the supporting plate (201), a supporting column (203) at the other side of the top end of the supporting plate (201), a regulator (204) at the top part of the supporting column (203), a top plate (205) at the top end of the supporting column (203), a blower (207) at the bottom part of the middle part of the inner side of the supporting column (203) and a mounting device (208) at the bottom part of one side of, the device comprises a first rotator (209) at one end of a mounting device (208), a rotating shaft (2010) at the top end of the first rotator (209), a rotating arm (2011) at one end of the rotating shaft (2010), a second rotator (2012) at the middle part of the rotating arm (2011), a lower template (2013) at one end of the rotating arm (2011), an electrified magnet (2014) at the inner bottom of the lower template (2013) and a hydraulic telescopic platform (2015) at the middle part of the top end of a supporting plate (201).

9. The die cutting machine according to claim 1, wherein: the conveying mechanism (3) consists of a finished product storage box (301) at the bottom of the conveying mechanism (3), a sealing door (302) at one end of the finished product storage box (301), a control box (303) at one side of the top inside the finished product storage box (301), a feeder (305) at the top end of the finished product storage box (301), an expansion rod (306) at the top of one side inside the feeder (305) and a push plate (307) at the other end of the expansion rod (306), the feeding device comprises a motor (308) arranged at the bottom of one side in a feeder (305), a support frame (3010) arranged at the bottom of the middle part in the feeder (305), a conveyor belt (3011) arranged at the middle part of the top of the support frame (3010), a metal object (3012) arranged at the middle part of the top of the conveyor belt (3011), an infrared sensor (3013) arranged at the middle part of the top in the feeder (305) and a feeding channel (3014) arranged at the other side of the top in a finished product storage box (301).

10. The die cutting machine according to claim 1, wherein: the die cutting mechanism (4) is composed of a hydraulic cylinder (401) at the top of the die cutting mechanism (4), a hydraulic press (403) at the other side of the bottom end of the hydraulic cylinder (401), a rotary disc (404) at the bottom end of the hydraulic press (403), an adjusting plate (405) at the bottom end of the rotary disc (404), an adjusting block (406) on the inner side of the adjusting plate (405), a limiting stopper (407) at one side of the bottom end of the adjusting plate (405), a connecting plate (408) at the bottom end of the adjusting block (406), a mounting seat (409) at the bottom end of the connecting plate (408), a fixer (4010) at the bottom of one side of the mounting seat (409), an upper template (4011) on the inner side of the mounting seat (409) and a die cutting head.

Technical Field

The invention relates to the technical field of die cutting machines, in particular to an automatic feeding die cutting machine.

Background

The die cutting machine is also called as a beer machine, a cutting machine and a numerical control punching machine, and is mainly used for die cutting, indentation and gold stamping operation, fitting and automatic waste discharge of corresponding nonmetal materials, non-setting adhesive, EVA, double-sided adhesive, electronics, mobile phone rubber mats and the like.

At present, current autoloading cross cutting machine is in the cross cutting, adopt the mode of manual pay-off, cross cutting raw and other materials, the finished product that will accomplish the cross cutting after the cross cutting is accomplished again takes out with the waste material that produces from between cross cutting edition platform and the cross cutting bottom plate, lead to cross cutting machine to have great potential safety hazard, it hurts workman's hand clamp very easily in the time of processing, and then the incident often appears, on the other hand, send raw and other materials to the cross cutting station before the cross cutting, it will take out it again after the cross cutting is accomplished, these two actions all adopt the manual work to go on, the efficiency of processing has also been reduced among the intangible, and current device stability is low, the function singleness, it.

Therefore, how to design an automatic feeding die cutting machine becomes a problem to be solved at present.

Disclosure of Invention

The invention aims to: in order to solve the problems of single function, poor stability and low automation degree, an automatic feeding die-cutting machine is provided.

In order to achieve the purpose, the invention provides the following technical scheme: an automatic feeding die-cutting machine comprises a die-cutting machine main body, a fixing mechanism, a conveying mechanism and a die-cutting mechanism, wherein the fixing mechanism is embedded and connected in the middle of the die-cutting machine main body, the conveying mechanism is embedded and connected in one side of the die-cutting machine main body, the die-cutting mechanism is embedded and connected in the middle of the top of the fixing mechanism, a fixing base is embedded and connected in the bottom end of the die-cutting machine main body, and a control panel is embedded and connected in the bottom of the front of the conveying mechanism;

the bottom end of the fixing mechanism is embedded and connected with a supporting plate, the middle part of the bottom end of the supporting plate is connected with a waste collecting box in a penetrating way, the other side of the top end of the supporting plate is embedded and connected with a supporting column, the top of the supporting column is movably connected with an adjuster, the top end of the supporting column is embedded and connected with a top plate, the bottom of the middle part of the inner side of the supporting column is embedded and connected with a blower, the bottom of one side of the supporting column is connected with a mounting device in an embedded manner, one end of the mounting device is connected with a first rotator in an embedded manner, the top end of the first rotator is connected with a rotating shaft in an embedded manner, one end of the rotating shaft is connected with a rotating arm in an embedded manner, the middle part of the rotating arm is embedded and connected with a second rotator, one end of the rotating arm is embedded and connected with a lower template, the bottom of the interior of the lower template is embedded and connected with a powered magnet, and the middle part of the top end of the supporting plate is embedded and connected with a hydraulic telescopic platform;

the bottom of the transportation mechanism is embedded and connected with a finished product storage box, one end of the finished product storage box is movably connected with a sealing door, a control box is embedded and connected with one side of the top inside the finished product storage box, a feeder is embedded and connected with the top end of the finished product storage box, the top of one side inside the feeder is embedded and connected with a telescopic rod, the other end of the telescopic rod is embedded and connected with a push plate, the bottom of one side of the inside of the feeder is connected with a motor in an embedded manner, the bottom of the middle part of the inside of the feeder is connected with a supporting frame in an embedded manner, the middle part of the top of the supporting frame is movably connected with a conveyor belt, the middle part of the top end of the conveyor belt is movably connected with a metal object, the middle part of the inner top of the feeder is connected with an infrared inductor in an embedded manner, and the other side of the inner top of the finished product storage box is connected with a feeding channel in an embedded manner;

the utility model discloses a die-cutting machine, including die-cutting mechanism, pneumatic cylinder, regulating plate, stopper, regulating plate, die-cutting mechanism's top embedding is connected with the pneumatic cylinder, the bottom opposite side embedding of pneumatic cylinder is connected with the hydraulic press, the bottom embedding of hydraulic press is connected with the rotary disk, the bottom embedding of rotary disk is connected with the regulating plate, the inboard swing joint of regulating plate has the regulating block, bottom one side swing joint of regulating plate has the stopper, the bottom embedding of regulating block is connected with the connecting plate, the bottom embedding of connecting plate is connected with the mount pad, one side bottom through connection of mount pad has the fixer, the inboard swing joint of mount pad has the upper portion.

Preferably, a shock absorber is embedded and connected to the bottom end of the motor.

Preferably, the top of the middle part of the inner side of the supporting column is embedded and connected with a monitor.

Preferably, a signal transceiver is embedded and connected to the top end of the hydraulic cylinder.

Preferably, one end of the control box is connected with a radiator in a penetrating way.

Preferably, a pressure sensor is embedded and connected in the middle of the top end of the hydraulic telescopic platform.

Preferably, the top end of the transportation mechanism is connected with a warning indicator in an embedded mode.

Preferably, the fixing mechanism is composed of a supporting plate at the bottom end of the fixing mechanism, a waste collecting box at the middle part of the bottom end of the supporting plate, a supporting column at the other side of the top end of the supporting plate, a regulator at the top of the supporting column, a top plate at the top end of the supporting column, a blower at the bottom of the middle part of the inner side of the supporting column, an installer at the bottom of one side of the supporting column, a first rotator at one end of the installer, a rotating shaft at the top end of the first rotator, a rotating arm at one end of the rotating shaft, a second rotator at the middle part of the rotating arm, a lower template at one end of the rotating.

Preferably, transport mechanism is by the finished product bin of transport mechanism bottom, the sealing door of finished product bin one end, the control box of the inside top one side of finished product bin, the feeder on finished product bin top, the telescopic link at the inside one side top of feeder, the push pedal of the telescopic link other end, the motor of the inside one side bottom of feeder, the support frame of the inside middle part bottom of feeder, the conveyer belt of support frame top middle part, the metal object of conveyer belt top middle part, the infrared inductor of the inside top middle part of feeder and the pay-off passageway of the inside top opposite side of finished product bin constitute jointly.

Preferably, the die-cutting mechanism is composed of a hydraulic cylinder at the top of the die-cutting mechanism, a hydraulic press at the other side of the bottom end of the hydraulic cylinder, a rotating disk at the bottom end of the hydraulic press, an adjusting plate at the bottom end of the rotating disk, an adjusting block inside the adjusting plate, a limiter at one side of the bottom end of the adjusting plate, a connecting plate at the bottom end of the adjusting block, a mounting seat at the bottom end of the connecting plate, a fixer at the bottom of one side of the mounting seat, an upper template inside the mounting seat and a die-cutting.

In summary, due to the adoption of the technical scheme, the invention has the beneficial effects that:

1. according to the invention, the fixing mechanism consists of the supporting plate, the waste collecting box, the supporting column, the regulator, the top plate, the blower, the mounting device, the first rotator, the rotating shaft, the rotating arm, the second rotator, the lower template, the energized magnet and the hydraulic telescopic platform, so that the effect of mounting and fixing the die cutting mechanism is achieved, the fixing mechanism is beneficial to mounting and fixing the die cutting mechanism, an operator can conveniently convey metal objects to the hydraulic telescopic platform for processing, and the stability of the device is improved.

2. According to the invention, the conveying mechanism consists of a finished product storage box, a sealing door, a control box, a feeder, a telescopic rod, a push plate, a motor, a support frame, a conveying belt, a metal object, an infrared sensor and a feeding channel, so that the effect of conveying the metal object is achieved, the conveying mechanism is beneficial to conveying the metal object, and the working efficiency of the device is improved.

3. According to the invention, the die-cutting mechanism consists of the hydraulic cylinder, the hydraulic press, the rotary disc, the adjusting plate, the adjusting block, the limiter, the connecting plate, the mounting seat, the fixer, the upper template and the die-cutting tool bit, so that the effect of processing a metal object is achieved, and the die-cutting mechanism is beneficial to processing the metal object, so that the practicability of the device is improved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present invention;

FIG. 2 is a schematic diagram of the overall cross-sectional structure of the present invention;

FIG. 3 is a schematic cross-sectional view of the fastening mechanism of the present invention;

FIG. 4 is a schematic cross-sectional view of the transport mechanism of the present invention;

fig. 5 is a schematic diagram of the cross-sectional structure of the die-cutting mechanism of the present invention.

The labels in the figure are: 1. a die-cutting machine body, 2, a fixing mechanism, 201, a support plate, 202, a scrap collecting box, 203, a support column, 204, a regulator, 205, a top plate, 206, a monitor, 207, a blower, 208, an installer, 209, a first rotator, 2010, a rotating shaft, 2011, a rotating arm, 2012, a second rotator, 2013, a lower template, 2014, a powered magnet, 2015, a hydraulic telescopic platform, 2016, a pressure sensor, 3, a transportation mechanism, 301, a finished product storage box, 302, a sealing door, 303, a control box, 304, a radiator, 305, a feeder, 306, a telescopic rod, 307, a push plate, 308, a motor, 309, a shock absorber, 3010, a support frame, 3011, a conveyor belt, 3012, a metal object, 3013, an infrared sensor, 3014, a feeding channel, 4, a die-cutting mechanism, 401, a hydraulic cylinder, 402, a signal transceiver, a hydraulic press, 404, a rotating disc 403, 405, an adjusting plate, 406. the adjusting block, 407, stopper, 408, connecting plate, 409, mount pad, 4010, fixer, 4011, upper portion template, 4012, cross cutting tool bit, 5, unable adjustment base, 6, control panel, 7, the attention device.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc., indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention; the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance; furthermore, unless expressly stated or limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, as they may be fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

In a first embodiment, referring to fig. 1 to 5, the present invention provides a technical solution: an automatic feeding die-cutting machine comprises a die-cutting machine main body 1, a fixing mechanism 2, a conveying mechanism 3 and a die-cutting mechanism 4, wherein the fixing mechanism 2 is embedded and connected in the middle of the die-cutting machine main body 1, the conveying mechanism 3 is embedded and connected in one side of the die-cutting machine main body 1, the die-cutting mechanism 4 is embedded and connected in the middle of the top of the fixing mechanism 2, a fixing base 5 is embedded and connected in the bottom end of the die-cutting machine main body 1, and a control panel 6 is embedded and connected in the bottom of the front;

a supporting plate 201 is connected to the bottom end of the fixing mechanism 2 in an embedded mode, a waste collection box 202 is connected to the middle portion of the bottom end of the supporting plate 201 in a penetrating mode, a supporting column 203 is connected to the other side of the top end of the supporting plate 201 in an embedded mode, a regulator 204 is movably connected to the top portion of the supporting column 203, a top plate 205 is connected to the top end of the supporting column 203 in an embedded mode, a blower 207 is connected to the bottom portion of the middle portion of the inner side of the supporting column 203 in an embedded mode, an installer 208 is connected to the bottom portion of one side of the supporting column 203 in an embedded mode, a first rotator 209 is connected to one end of the installer 208 in an embedded mode, a rotating shaft 2010 is connected to the top end of the first rotator 209 in an embedded mode, a rotating arm 2011 is connected to one end of the rotating arm 2010 in an embedded mode;

the bottom of the conveying mechanism 3 is embedded and connected with a finished product storage box 301, one end of the finished product storage box 301 is movably connected with a sealing door 302, one side of the top inside the finished product storage box 301 is embedded and connected with a control box 303, the top end of the finished product storage box 301 is embedded and connected with a feeder 305, the top of one side inside the feeder 305 is embedded and connected with a telescopic rod 306, the other end of the telescopic rod 306 is embedded and connected with a push plate 307, the bottom of one side inside the feeder 305 is embedded and connected with a motor 308, the bottom of the middle part inside the feeder 305 is embedded and connected with a support frame 3010, the middle part of the top of the support frame 3010 is movably connected with a conveyor belt 3011, the middle part of the top of the conveyor belt 3011 is movably connected with a metal object 301;

the top embedding of die-cutting mechanism 4 is connected with pneumatic cylinder 401, the bottom opposite side embedding of pneumatic cylinder 401 is connected with hydraulic press 403, the bottom embedding of hydraulic press 403 is connected with rotary disk 404, the bottom embedding of rotary disk 404 is connected with regulating plate 405, the inboard swing joint of regulating plate 405 has regulating block 406, bottom one side swing joint of regulating plate 405 has stopper 407, the bottom embedding of regulating block 406 is connected with connecting plate 408, the bottom embedding of connecting plate 408 is connected with mount pad 409, one side bottom through connection of mount pad 409 has fixer 4010, the inboard swing joint of mount pad 409 has upper portion template 4011, the bottom swing joint of upper portion template 4011 has die-cutting tool bit 4012.

Preferably, the bottom embedding of motor 308 is connected with bumper shock absorber 309, when motor 308 is in the operation process, the effect of buffering can be taken to bumper shock absorber 309 of motor 308 bottom, rock when too big as motor 308, the inside spring of bumper shock absorber 309 stretches out and draws back, thereby slow down rocking of motor 308, and then play fine buffering effect, thereby the safety of the inside instrument of device has been ensured, avoid rocking because of motor 308's operation produces and cause the damage of the inside instrument of device, thereby influence the precision of device, bumper shock absorber 309 helps slowing down motor 308 and rocks, thereby guarantee the inside instrument safety of device, and then the precision of device has been improved.

Preferably, the inboard middle part top embedding of support column 203 is connected with watch-dog 206, when the device is when the operation process, operating personnel passes through 6 control panel of control support column 203 inboard middle part tops's watch-dog 206, thereby watch-dog 206 monitors the inside behavior of device, and then play through control panel, thereby make things convenient for operating personnel to look over, watch-dog 206 helps monitoring the inside behavior of device on the one hand, make the staff can be timely observe operational environment's anomaly, on the other hand helps monitoring the inside operating condition and the instrument of device, can make operating personnel can carry out timely maintenance to the inside instrument of device, thereby the security of device has been improved.

Preferably, the top embedding of pneumatic cylinder 401 is connected with signal transceiver 402, when the device is in the operation, the operator sends information to the signal transceiver 402 on pneumatic cylinder 401 top through control panel 6 in, signal transceiver 402 receives information, and in the microprocessor in control box 303 is given information transfer, thereby microprocessor handles information, signal transceiver 402 gives control panel 6 feedback information transfer simultaneously, and then the accurate operation of microprocessor controlling means, signal transceiver 402 helps receiving or sending information, thereby the accurate operation of controlling means, and then the intelligence of device has been improved.

Preferably, the one end through connection of control box 303 has radiator 304, when the inside temperature of control box 303 reaches a definite value, the inside temperature-sensing ware of control box 303 can be monitored, thereby give the microprocessor in the control box 303 information transfer, and then the radiator 304 of microprocessor control box 303 one end begins the operation, thereby the inside motor operation of radiator 304, and then it is rotatory to drive the inside heat dissipation fan of radiator 304, thereby make the inside outside air of control box 303 trade, thereby reach the purpose of cooling, radiator 304 helps making things convenient for operating personnel to cool down to the inside of control box 303, thereby the radiating efficiency of control box 303 has been improved.

Preferably, the embedding of the top middle part of hydraulic telescoping platform 2015 is connected with pressure sensors 2016, when the device is in operation, the pressure sensors 2016 of the top middle part of hydraulic telescoping platform 2015 are controlled by an operator through control panel 6 to start operation, thereby pressure sensors 2016 sense the pressure of upper portion template 4011 on lower portion template 2013, and then pressure sensors 2016 transmit relevant data to control panel 6, and then display through control panel 6, thereby make things convenient for the operator to look over the size of pressure value, pressure sensors 2016 help the pressure that response lower portion template 2013 received, thereby the multifunctionality of device has been improved.

Preferably, transport mechanism 3's top embedding is connected with attention device 7, when in the device operation in-process, operation personnel passes through control panel 6 and controls attention device 7 on transport mechanism 3 top and begin to operate, the inside a plurality of sensors that are provided with of device, the sensor can monitor the inside instrument circuit behavior of device, if when breaking down or short circuit, the inside sensor of device is in message routing to the microprocessor in control box 303, thereby microprocessor control attention device 7 is luminous to report to the police, thereby remind operation personnel to detect the inside instrument of device, attention device 7 helps reminding operation personnel to detect when breaking down to the inside instrument of device, thereby prevent that the inside instrument of device from receiving the damage.

Preferably, the fixing mechanism 2 is composed of a supporting plate 201 at the bottom end of the fixing mechanism 2, a waste collection box 202 at the middle part of the bottom end of the supporting plate 201, a supporting column 203 at the other side of the top end of the supporting plate 201, a regulator 204 at the top of the supporting column 203, a top plate 205 at the top end of the supporting column 203, a blower 207 at the bottom of the middle part of the inner side of the supporting column 203, a mounting device 208 at the bottom of one side of the supporting column 203, a first rotator 209 at one end of the mounting device 208, a rotating shaft 2010 at the top end of the first rotator 209, a rotating arm 2011 at one end of the rotating shaft 2010, a second rotator 2012 at the middle part of the rotating arm 2011, a lower template 2013 at one end of the rotating arm 2011, an electrified magnet 2014 at the bottom inside of the lower template 2013, and a hydraulic telescopic platform 2015 at the middle part of the top, therefore, an operator installs and fixes the supporting column 203 on the other side of the top end of the supporting plate 201 on the supporting plate 201, and then the operator installs the die-cutting mechanism 4 on the adjuster 204 at the top of the supporting column 203, so that the operator can move up and down on the supporting column 203 by controlling the adjuster 204, and further change the height of the die-cutting mechanism 4, thereby facilitating the use of the operator, the operator controls the first rotator 209 at one end of the installer 208 to start to operate through the control panel 6, so that the first rotator 209 drives the rotating shaft 2010 at the top end of the first rotator 209 to rotate, and further moves the lower template 2013 at one end of the rotating arm 2011 into the transportation mechanism 3, so that the metal object 3012 falls into the lower template 2013, and then the control box 303 controls the electrification magnet 2014 at the bottom inside the lower template 2013 to generate suction force, so as to suck the metal object 3012 into the lower template, then, the first rotator 209 operates to move the metal 3012 to the hydraulic telescopic platform 2015 for processing, and after the processing is completed, the first rotator 209 operates to move the lower template 2013 again inside the transport mechanism 3, so that the second rotator 2012 at the middle portion of the rotating arm 2011 starts to rotate, the control box 303 controls the energizing magnet 2014 to be powered off, and the suction force disappears, so that the metal object 3012 falls into the finished product storage bin 301 for storage, and the second rotator 2012 rotates one turn to be reduced, so that the lower template 2013 receives the next metal object 3012, in this way, four lower formworks 2013 are provided, the lower formworks 2013 are arranged on the supporting columns 203 in a rectangular shape, the fixing mechanism 2 facilitates the installation and fixation of the die cutting mechanism 4, thereby make things convenient for operating personnel to transport metal 3012 and process on the hydraulic telescoping platform 2015 to the stability of device has been improved.

Preferably, the transportation mechanism 3 is composed of a finished product storage box 301 at the bottom of the transportation mechanism 3, a sealing door 302 at one end of the finished product storage box 301, a control box 303 at one side of the top inside the finished product storage box 301, a feeder 305 at the top end of the finished product storage box 301, an expansion link 306 at one side of the top inside the feeder 305, a push plate 307 at the other end of the expansion link 306, a motor 308 at one side of the bottom inside the feeder 305, a support 3010 at the bottom of the middle part inside the feeder 305, a conveyor 3011 at the middle part of the top of the support 3010, a metal object 3012 at the middle part of the top end of the conveyor 3011, an infrared sensor 3013 at the middle part of the top inside the feeder 305, and a feeding channel 3014 at the other side of the top inside the finished product storage box 301, when the device is in use, an operator places the metal object 3012 on the conveyor 3011, the motor 308 drives the conveyor belt 3011 to start rotating, the conveyor belt 3011 conveys the metal object 3012, when the metal object 3012 is conveyed to a certain position, the infrared sensor 3013 at the middle position of the top inside the feeder 305 can monitor, and then the information is transmitted to the control box 303, the control box 303 controls the extension of the telescopic rod 306 at the top of one side inside the feeder 305, and then the push plate 307 at the other end of the telescopic rod 306 pushes the metal object 3012 into the feeding channel 3014 at the other side of the top inside the finished product storage box 301, and then the metal object is poured into the lower template 2013 right below, and then the lower template 2013 conveys the metal object 3012 to the hydraulic telescopic platform 2015 for processing, the conveyor belt 3011 is provided with a stop block, an operator limits the metal object 3012 stop blocks, and by changing the interval between the stop block and the stop block, so that the next metal object 3012 is conveyed to the processing completion, and then the next metal object 301, thereby make things convenient for push pedal 307 to carry out the promotion of next time, transport mechanism 3 and conveyer belt 3011 are provided with two, transport mechanism 3 and conveyer belt 3011 symmetrical arrangement are on unable adjustment base 5, and telescopic link 306, push pedal 307 and infrared inductor 3013 are provided with four, and telescopic link 306, push pedal 307 and infrared inductor 3013 symmetrical arrangement are in transport mechanism 3, and transport mechanism 3 helps carrying metal object 3012 to the work efficiency of device has been improved.

Preferably, the die-cutting mechanism 4 is composed of a hydraulic cylinder 401 at the top of the die-cutting mechanism 4, a hydraulic press 403 at the other side of the bottom end of the hydraulic cylinder 401, a rotary disc 404 at the bottom end of the hydraulic press 403, an adjusting plate 405 at the bottom end of the rotary disc 404, an adjusting block 406 at the inner side of the adjusting plate 405, a limiting stopper 407 at one side of the bottom end of the adjusting plate 405, a connecting plate 408 at the bottom end of the adjusting block 406, a mounting seat 409 at the bottom end of the connecting plate 408, a fixing stopper 4010 at one side of the mounting seat 409, an upper die plate 4011 at the inner side of the mounting seat 409 and a die-cutting head 4012 at the bottom of the upper die plate 4011, when an operator installs and fixes the die-cutting mechanism 4 on the fixing mechanism 2, the operator limits and fixes the upper die-cutting head 4011 at the inner side of the mounting seat 409 through the fixing stopper 4010 at the bottom of the mounting seat 409, so that, and then the die-cutting bit 4012 is fixed, so that an operator can move the adjusting block 406 at the inner side of the adjusting plate 405 on the inner side of the adjusting plate 405 at the bottom end of the rotating disc 404, and further adjust the position of the upper template 4011, and the operator can conveniently process the die-cutting bit, so that the adjusting block 406 is limited and fixed by the limiter 407 at one side of the bottom end of the adjusting plate 405, and the adjusting block 406 is prevented from moving, when the metal 3012 is conveyed to the hydraulic telescopic platform 2015, the operation is controlled by the control panel 6, such as controlling the hydraulic cylinder 401 at the top of the die-cutting mechanism 4 to start to operate, so that the hydraulic cylinder 401 controls the hydraulic press 403 to start to operate and extend, so that the die-cutting bit 4012 at the bottom of the upper template 4011 performs die-cutting on the metal 3012 in the lower template 2013, after the die-cutting is completed, the hydraulic press 403 drives the die-cutting bit 4012 to, thereby hair-dryer 207 compressed air blows the device bottom to the piece on lower part template 2013 and the hydraulic telescoping platform 2015, prevents that the piece from influencing the device operation to the piece falls into scrap collecting box 201 through the pipeline and stores, and die-cutting mechanism 4 helps processing metal 3012, thereby has improved the practicality of device.

The working principle is as follows:

first, the transportation mechanism 3 is composed of a finished product storage box 301 at the bottom of the transportation mechanism 3, a sealing door 302 at one end of the finished product storage box 301, a control box 303 at one side of the top inside the finished product storage box 301, a feeder 305 at the top end of the finished product storage box 301, an expansion link 306 at one side of the top inside the feeder 305, a push plate 307 at the other end of the expansion link 306, a motor 308 at one side of the bottom inside the feeder 305, a support 3010 at the bottom of the middle part inside the feeder 305, a conveyor 3011 at the middle part of the top of the support 3010, a metal object 3012 at the middle part of the top end of the conveyor 3011, an infrared sensor 3013 at the middle part of the top inside the feeder 305, and a feeding channel 3014 at the other side of the top inside the finished product storage box 301, when the device is in use, an operator places the metal object 3012 on the conveyor 301, the motor 308 drives the conveyor belt 3011 to start rotating, the conveyor belt 3011 conveys the metal object 3012, when the metal object 3012 is conveyed to a certain position, the infrared sensor 3013 at the middle position of the top inside the feeder 305 can monitor, and then the information is transmitted to the control box 303, the control box 303 controls the extension of the telescopic rod 306 at the top of one side inside the feeder 305, and then the push plate 307 at the other end of the telescopic rod 306 pushes the metal object 3012 into the feeding channel 3014 at the other side of the top inside the finished product storage box 301, and then the metal object is poured into the lower template 2013 right below, and then the lower template 2013 conveys the metal object 3012 to the hydraulic telescopic platform 2015 for processing, the conveyor belt 3011 is provided with a stop block, an operator limits the metal object 3012 stop blocks, and by changing the interval between the stop block and the stop block, so that the next metal object 3012 is conveyed to the processing completion, and then the next metal object 301, therefore, the push plate 307 can be conveniently pushed next time, two conveying mechanisms 3 and two conveying belts 3011 are arranged, the conveying mechanisms 3 and the conveying belts 3011 are symmetrically arranged on the fixed base 5, four telescopic rods 306, four push plates 307 and four infrared sensors 3013 are arranged, the telescopic rods 306, the push plates 307 and the infrared sensors 3013 are symmetrically arranged in the conveying mechanisms 3, and the conveying mechanisms 3 are beneficial to conveying metal objects 3012, so that the working efficiency of the device is improved;

then, the fixing mechanism 2 is composed of a supporting plate 201 at the bottom end of the fixing mechanism 2, a waste collecting box 202 at the middle part of the bottom end of the supporting plate 201, a supporting column 203 at the other side of the top end of the supporting plate 201, a regulator 204 at the top of the supporting column 203, a top plate 205 at the top end of the supporting column 203, a blower 207 at the bottom of the middle part of the inner side of the supporting column 203, a mounting device 208 at the bottom of one side of the supporting column 203, a first rotator 209 at one end of the mounting device 208, a rotating shaft 2010 at the top end of the first rotator 209, a rotating arm 2011 at one end of the rotating shaft 2010, a second rotator 2012 at the middle part of the rotating arm 2011, a lower template 2013 at one end of the rotating arm 2011, an electrified magnet 2014 at the bottom inside of the lower template 2013, and a hydraulic telescopic platform 2015 at the middle part of the, therefore, an operator installs and fixes the supporting column 203 on the other side of the top end of the supporting plate 201 on the supporting plate 201, and then the operator installs the die-cutting mechanism 4 on the adjuster 204 at the top of the supporting column 203, so that the operator can move up and down on the supporting column 203 by controlling the adjuster 204, and further change the height of the die-cutting mechanism 4, thereby facilitating the use of the operator, the operator controls the first rotator 209 at one end of the installer 208 to start to operate through the control panel 6, so that the first rotator 209 drives the rotating shaft 2010 at the top end of the first rotator 209 to rotate, and further moves the lower template 2013 at one end of the rotating arm 2011 into the transportation mechanism 3, so that the metal object 3012 falls into the lower template 2013, and then the control box 303 controls the electrification magnet 2014 at the bottom inside the lower template 2013 to generate suction force, so as to suck the metal object 3012 into the lower template, then, the first rotator 209 operates to move the metal 3012 to the hydraulic telescopic platform 2015 for processing, and after the processing is completed, the first rotator 209 operates to move the lower template 2013 again inside the transport mechanism 3, so that the second rotator 2012 at the middle portion of the rotating arm 2011 starts to rotate, the control box 303 controls the energizing magnet 2014 to be powered off, and the suction force disappears, so that the metal object 3012 falls into the finished product storage bin 301 for storage, and the second rotator 2012 rotates one turn to be reduced, so that the lower template 2013 receives the next metal object 3012, in this way, four lower formworks 2013 are provided, the lower formworks 2013 are arranged on the supporting columns 203 in a rectangular shape, the fixing mechanism 2 facilitates the installation and fixation of the die cutting mechanism 4, therefore, an operator can conveniently convey the metal 3012 to the hydraulic telescopic platform 2015 for processing, and the stability of the device is improved;

then, the die-cutting mechanism 4 is composed of a hydraulic cylinder 401 at the top of the die-cutting mechanism 4, a hydraulic press 403 at the other side of the bottom end of the hydraulic cylinder 401, a rotary disc 404 at the bottom end of the hydraulic press 403, an adjusting plate 405 at the bottom end of the rotary disc 404, an adjusting block 406 at the inner side of the adjusting plate 405, a stopper 407 at one side of the bottom end of the adjusting plate 405, a connecting plate 408 at the bottom end of the adjusting block 406, a mounting seat 409 at the bottom end of the connecting plate 408, a fixing device 4010 at one side of the mounting seat 409, an upper die plate 4011 at the inner side of the mounting seat 409 and a die-cutting head 4012 at the bottom of the upper die plate 4011, when an operator installs and fixes the die-cutting mechanism 4 on the fixing mechanism 2, the operator performs limit fixing on the upper die plate 4011 at the inner side of the mounting seat 409 through the fixing device 4010 at one side of the mounting seat 409, so that the, and then the die-cutting bit 4012 is fixed, so that an operator can move the adjusting block 406 at the inner side of the adjusting plate 405 on the inner side of the adjusting plate 405 at the bottom end of the rotating disc 404, and further adjust the position of the upper template 4011, and the operator can conveniently process the die-cutting bit, so that the adjusting block 406 is limited and fixed by the limiter 407 at one side of the bottom end of the adjusting plate 405, and the adjusting block 406 is prevented from moving, when the metal 3012 is conveyed to the hydraulic telescopic platform 2015, the operation is controlled by the control panel 6, such as controlling the hydraulic cylinder 401 at the top of the die-cutting mechanism 4 to start to operate, so that the hydraulic cylinder 401 controls the hydraulic press 403 to start to operate and extend, so that the die-cutting bit 4012 at the bottom of the upper template 4011 performs die-cutting on the metal 3012 in the lower template 2013, after the die-cutting is completed, the hydraulic press 403 drives the die-cutting bit 4012 to, the blower 207 compressed air blows the chips on the lower template 2013 and the hydraulic telescopic platform 2015 to the bottom of the device, the chips are prevented from influencing the operation of the device, the chips fall into the waste collection box 201 through a pipeline for storage, and the die cutting mechanism 4 is beneficial to processing the metal 3012, so that the practicability of the device is improved;

then, the bottom end of the motor 308 is embedded and connected with a shock absorber 309, when the motor 308 runs, the shock absorber 309 at the bottom end of the motor 308 can play a buffering role, when the motor 308 shakes too much, a spring in the shock absorber 309 expands and contracts, so that the shaking of the motor 308 is slowed down, a good buffering effect is achieved, the safety of instruments in the device is guaranteed, the damage of instruments in the device caused by the shaking generated by the running of the motor 308 is avoided, the precision of the device is influenced, the shock absorber 309 is beneficial to slowing down the shaking of the motor 308, so that the safety of the instruments in the device is guaranteed, the precision of the device is improved, the top end of the hydraulic cylinder 401 is embedded and connected with a signal transceiver 402, when the device runs, an operator sends information to the signal transceiver 402 at the top end of the hydraulic cylinder 401 through the control panel 6, and the signal transceiver 402 receives the information, the information is transmitted to a microprocessor in the control box 303, so that the microprocessor processes the information, meanwhile, the signal transceiver 402 transmits feedback information to the control panel 6, the microprocessor controls the device to operate accurately, the signal transceiver 402 is beneficial to receiving or transmitting the information, so that the device is controlled to operate accurately, and the intelligence of the device is improved;

next, the top of the middle part of the inner side of the supporting column 203 is connected with a monitor 206 in an embedded manner, when the device is in operation, an operator controls the monitor 206 at the top of the middle part of the inner side of the supporting column 203 through the control panel 6, so that the monitor 206 monitors the operation condition inside the device and plays the data through the control panel, thereby facilitating the operator to check the operation condition, the monitor 206 is helpful to monitor the operation condition inside the device on one hand, so that the operator can observe the abnormity of the working environment in time, and is helpful to monitor the working condition and the instrument inside the device on the other hand, so that the operator can maintain the instrument inside the device in time, thereby improving the safety of the device, the middle part of the top end of the hydraulic telescopic platform 2015 is connected with a pressure sensor 2016 in an embedded manner, when the device is in operation, an operator controls a pressure sensor 2016 at the middle part of the top end of a hydraulic telescopic platform 2015 to start to operate through a control panel 6, so that the pressure sensor 2016 senses the pressure of the upper template 4011 on the lower template 2013, the pressure sensor 2016 transmits related data to the control panel 6, and the related data are displayed through the control panel 6, so that the operator can conveniently check the pressure value, the pressure sensor 2016 is beneficial to sensing the pressure on the lower template 2013, and the multiple functions of the device are improved;

finally, the top end of the transport mechanism 3 is embedded and connected with an alarm 7, when the device runs, an operator controls the alarm 7 at the top end of the transport mechanism 3 to start running through the control panel 6, a plurality of sensors are arranged in the device and can monitor the running condition of the instrument circuit in the device, if a fault or a short circuit occurs, the sensor in the device sends information to the microprocessor in the control box 303, so that the microprocessor controls the alarm 7 to give out light and give an alarm to remind the operator to detect the instrument in the device, the alarm 7 is helpful for reminding the operator to detect the instrument in the device when the instrument in the device fails, thereby preventing the instrument in the device from being damaged, one end of the control box 303 is connected with the radiator 304 in a penetrating way, when the temperature in the control box 303 reaches a certain value, the temperature sensor in the control box 303 can monitor, thereby give the microprocessor in the control box 303 information transfer, and then the radiator 304 of microprocessor control box 303 one end begins the operation, thereby the inside motor operation of radiator 304, and then it is rotatory to drive the inside heat dissipation fan of radiator 304, thereby make the inside outside air of control box 303 trade, thereby reach the purpose of cooling, radiator 304 helps making things convenient for operating personnel to cool down to the control box 303 is inside, thereby the radiating efficiency of control box 303 has been improved, this is exactly this autoloading cross cutting machine's theory of operation.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.