CN203543321U - Power-driven thermoprinting machine - Google Patents

Abstract

The utility model discloses a power-driven thermoprinting machine, and relates to the technical field of machines. The lower end of a stepping motor is provided with a planetary reducer, the planetary reducer is connected with a pressing plate through a lifting linear guide rail and a compression spring respectively, the lower side of the pressing plate is provided with a left-and-right moving sliding platform, the lower side of the left-and-right moving sliding platform is provided with the linear guide rail, and a control circuit is installed inside the machine. According to the power-driven thermoprinting machine, automatic control is adopted, control is accurate, the speed is high, time and labor are saved, and the working efficiency is improved.

Description

A kind of power type thermoprinting machine

technical field:

The utility model relates to a kind of power type thermoprinting machine, belongs to mechanical equipment technical field.

background technology:

Existing thermoprinting machine mostly adopts air pressure or hydraulic means, all need external ancillary equipment (as air compressing machine or hydraulic means), and speed is slow, and inefficiency, loses time and electric energy.

utility model content:

For the problems referred to above, the technical problems to be solved in the utility model is to provide a kind of power type thermoprinting machine.

Thermoprinting machine of the present utility model, it comprises stepper motor, planetary reducer, lifting line slideway, Compress Spring, holding pad, side-to-side movement sliding platform, line slideway, control circuit, stepper motor is arranged in frame, the lower end of stepper motor is provided with planetary reducer, planetary reducer is connected with holding pad by lifting line slideway, Compress Spring respectively, the downside of holding pad is provided with side-to-side movement sliding platform, the downside of side-to-side movement sliding platform is provided with line slideway, and control circuit is arranged on the inside of machine.

As preferably, described control circuit comprises PLC controller, breaker, the first electric current relay-tetra-electric current relays, step actuator, touch display screen, Switching Power Supply, electric capacity, heat-generating pipe, 1 of breaker, 2 pin are connected with power supply respectively, 3 pin of breaker respectively with 1 pin of step actuator, 2 pin of PLC controller, 2 pin of Switching Power Supply, first electric current relay first one end to normally opened contact, one end of the second electric current relay normally opened contact, one end of the 3rd electric current relay normally opened contact connects, 4 pin of breaker respectively with 2 pin of step actuator, 1 pin of PLC controller, 1 pin of Switching Power Supply, one end of second pair of normally opened contact of the first electric current relay, feeding motor connects, and first pair of normally opened contact of the first electric current relay is connected with the two ends of heat-generating pipe respectively with the other end of second pair of normally opened contact of the first electric current relay, the other end of the second electric current relay normally opened contact, the other end of the 3rd electric current relay normally opened contact is connected with two ends and the feeding motor of electric capacity respectively, and 5 pin of step actuator are connected with stepper motor, 3 of step actuator, 3 of 4 pin and PLC controller, 4 pin connect, 5 pin of PLC controller respectively with 3 pin of touch display screen, 4 pin of Switching Power Supply connect, 6 of PLC controller, 7, 8, 9 pin are connected with one end of the first electric current relay-tetra-current relay coils respectively, the other end of the first electric current relay-tetra-current relay coils be connected and with 2 pin of touch display screen, 3 pin of Switching Power Supply connect, and 10 pin of PLC controller are connected with 1 pin of touch display screen.

The beneficial effects of the utility model: adopt automation control, it is controlled precisely, and speed is fast, saves time and manpower, increases work efficiency, and without external connection power equipment, connecing electricity can use, and facilitates using electricity wisely.

accompanying drawing explanation:

For ease of explanation, the utility model is described in detail by following concrete enforcement and accompanying drawing.

Fig. 1 is the utility model structural representation;

Fig. 2 is the left view of Fig. 1;

Fig. 3 is the schematic diagram of control circuit in the utility model.

1-stepper motor; 2-planetary reducer; 3-lifting line slideway; 4-Compress Spring; 5-holding pad; 6-side-to-side movement sliding platform; 7-line slideway; 8-Switching Power Supply; 9-step actuator; U1-PLC controller; QF1-breaker; KA1-KA4-the first electric current relay-tetra-electric current relays; A1-touch display screen; C1-electric capacity; P-heat-generating pipe.

the specific embodiment:

As Figure 1-3, this specific embodiment is by the following technical solutions: it comprises stepper motor 1, planetary reducer 2, lifting line slideway 3, Compress Spring 4, holding pad 5, side-to-side movement sliding platform 6, line slideway 7, control circuit, stepper motor 1 is arranged in frame, the lower end of stepper motor 1 is provided with planetary reducer 2, planetary reducer 2 is respectively by lifting line slideway 3, Compress Spring 4 is connected with holding pad 5, the downside of holding pad 5 is provided with side-to-side movement sliding platform 6, the downside of side-to-side movement sliding platform 6 is provided with line slideway 7, control circuit is arranged on the inside of machine.

Wherein, described control circuit comprises PLC controller U1, circuit breaker Q F1, the first electric current relay-tetra-electric current relay KA1-KA4, step actuator 9, touch display screen A1, Switching Power Supply 8, capacitor C 1, heat-generating pipe P, 1 of circuit breaker Q F1, 2 pin are connected with power supply respectively, 3 pin of circuit breaker Q F1 respectively with 1 pin of step actuator 9, 2 pin of PLC controller U1, 2 pin of Switching Power Supply 8, first electric current relay KA1 first one end to normally opened contact, one end of the second electric current relay KA2 normally opened contact, one end of the 3rd electric current relay KA3 normally opened contact connects, 4 pin of circuit breaker Q F1 respectively with 2 pin of step actuator 9, 1 pin of PLC controller U1, 1 pin of Switching Power Supply 8, one end of second pair of normally opened contact of the first electric current relay KA1, feeding motor connects, and first pair of normally opened contact of the first electric current relay KA1 is connected with the two ends of heat-generating pipe P respectively with the other end of second pair of normally opened contact of the first electric current relay KA1, the other end of the second electric current relay KA2 normally opened contact, the other end of the 3rd electric current relay KA3 normally opened contact is connected with two ends and the feeding motor of capacitor C 1 respectively, and 5 pin of step actuator 9 are connected with stepper motor 1,3 of step actuator 9, 3 of 4 pin and PLC controller U1, 4 pin connect, 5 pin of PLC controller U1 respectively with 3 pin of touch display screen A1, 4 pin of Switching Power Supply 8 connect, 6 of PLC controller U1, 7, 8, 9 pin are connected with one end of the first electric current relay-tetra-electric current relay KA1-KA4 coils respectively, the other end of the first electric current relay-tetra-electric current relay KA1-KA4 coils be connected and with 2 pin of touch display screen A1, 3 pin of Switching Power Supply 8 connect, and 10 pin of PLC controller U1 are connected with 1 pin of touch display screen A1.

This specific embodiment adopts stepper motor 1 to drive, and its speed is fast, can increase work efficiency, and adopts automation control, and it is controlled precisely, saves time and manpower.

In this specific embodiment, stepper motor is 220V voltage input (5A-7A), and three-phase high-voltage scope is between 12NM-80NM; Transistor is the IO transistor of 14 o'clock to 24 o'clock; Switching Power Supply is 100W.

More than show and described basic principle of the present utility model and principal character and advantage of the present utility model.The technical staff of the industry should understand; the utility model is not restricted to the described embodiments; that in above-described embodiment and description, describes just illustrates principle of the present utility model; do not departing under the prerequisite of the utility model spirit and scope; the utility model also has various changes and modifications, and these changes and improvements all fall within the scope of claimed the utility model.The claimed scope of the utility model, mainly for rhinestone, xylopyrography, heat transfer printing, digital transfer printing and gold stamping, compound etc., is defined by appending claims and equivalent thereof

.

Claims (2)

1. a power type thermoprinting machine, it is characterized in that: it comprises stepper motor (1), planetary reducer (2), lifting line slideway (3), Compress Spring (4), holding pad (5), side-to-side movement sliding platform (6), line slideway (7), control circuit, stepper motor (1) is arranged in frame, the lower end of stepper motor (1) is provided with planetary reducer (2), planetary reducer (2) is respectively by lifting line slideway (3), Compress Spring (4) is connected with holding pad (5), the downside of holding pad (5) is provided with side-to-side movement sliding platform (6), the downside of side-to-side movement sliding platform (6) is provided with line slideway (7), control circuit is arranged on the inside of machine.

2. a kind of power type thermoprinting machine according to claim 1, is characterized in that: described control circuit comprises PLC controller (U1), breaker (QF1), the first electric current relay-tetra-electric current relays (KA1-KA4), step actuator (9), touch display screen (A1), Switching Power Supply (8), electric capacity (C1), heat-generating pipe (P), 1 of breaker (QF1), 2 pin are connected with power supply respectively, 3 pin of breaker (QF1) respectively with 1 pin of step actuator (9), 2 pin of PLC controller (U1), 2 pin of Switching Power Supply (8), one end of first pair of normally opened contact of the first electric current relay (KA1), one end of the second electric current relay (KA2) normally opened contact, one end of the 3rd electric current relay (KA3) normally opened contact connects, 4 pin of breaker (QF1) respectively with 2 pin of step actuator (9), 1 pin of PLC controller (U1), 1 pin of Switching Power Supply (8), one end of second pair of normally opened contact of the first electric current relay (KA1), feeding motor connects, first pair of normally opened contact of the first electric current relay (KA1) is connected with the two ends of heat-generating pipe (P) respectively with the other end of second pair of normally opened contact of the first electric current relay (KA1), the other end of the second electric current relay (KA2) normally opened contact, the other end of the 3rd electric current relay (KA3) normally opened contact is connected with two ends and the feeding motor of electric capacity (C1) respectively, 5 pin of step actuator (9) are connected with stepper motor (1), 3 of step actuator (9), 3 of 4 pin and PLC controller (U1), 4 pin connect, 5 pin of PLC controller (U1) respectively with 3 pin of touch display screen (A1), 4 pin of Switching Power Supply (8) connect, 6 of PLC controller (U1), 7, 8, 9 pin are connected with one end of the first electric current relay-tetra-electric current relays (KA1-KA4) coil respectively, the other end of the first electric current relay-tetra-electric current relays (KA1-KA4) coil be connected and with 2 pin of touch display screen (A1), 3 pin of Switching Power Supply (8) connect, and 10 pin of PLC controller (U1) are connected with 1 pin of touch display screen (A1).

Images