CN215247464U - High-temperature standing machine - Google Patents

Abstract

The utility model discloses a high temperature machine of stewing, including frame, heat preservation casing, doubly fast chain transfer chain subassembly, heating system, automatic rising door subassembly, fire sprinkler system, control system, be provided with a plurality of doubly fast chain transfer chain subassemblies in the frame, control system includes the control panel, is provided with temperature sensor in the heat preservation casing, control panel and temperature sensor electric connection, and the control panel can set up the temperature that begins heating temperature and stop heating temperature so that control system automatic control keeps warm in the casing. Through setting up automatic lifting door subassembly, can be in the time of guarantee feed mechanism and unloading mechanism work, can reduce thermal giving off again, greatly improved and reduced the energy consumption, improved economic benefits, through setting the high temperature furnace to integral, make things convenient for equipment to move, saved reciprocal tear open, the cost of labor of dress, through setting up jacking translation device, make things convenient for anchor clamps maintenance, install into doubly fast chain through carrying, improve equipment high temperature resistance ability, reduce the emergence of trouble.

Description

High-temperature standing machine

Technical Field

The utility model relates to a battery production facility technical field especially relates to a high temperature machine of stewing.

Background

With the development of digital technology, there are many products that require batteries. In the production of batteries, the batteries are placed in a high-temperature environment so as to remove gas or substances which are easy to generate gas in the batteries. The existing high-temperature standing machine has insufficient functions, so that the production capacity is insufficient, the production efficiency of the same equipment is low, if the existing high-temperature standing machine cannot be integrally moved, the heating effect is uneven, the heat preservation effect is poor, the maintenance is inconvenient, and the like.

The utility model discloses it is very necessary to develop a high temperature machine that stews.

SUMMERY OF THE UTILITY MODEL

The utility model provides a high temperature machine of stewing solves the not enough problem of high temperature machine of stewing function.

In order to solve the technical problem, the utility model provides a high-temperature standing machine, which comprises a frame, a heat preservation shell, a speed-doubling chain conveyor line component for placing the standing component, a heating system for heating the interior of the heat preservation shell, an automatic lifting door component for preventing heat dissipation and feeding and discharging, a fire-fighting spraying system and a control system, wherein the heating system and the fire-fighting spraying system are arranged at the top of the heat preservation shell, a plurality of speed-doubling chain conveyor line components are arranged on the frame, the automatic lifting door component is arranged at two ends of the heat preservation shell, the standing component can be supported when the automatic lifting door component is opened so as to facilitate the feeding of feeding equipment or the discharging of the feeding equipment and prevent heat dissipation when the automatic lifting door component is closed so as to facilitate heat preservation, the fire-fighting spraying system can be started by a smoke transducer to spray water downwards to extinguish fire when the fire, the frame is arranged in the heat preservation shell and is fixedly connected with the heat preservation shell, control system and doubly fast chain transfer chain subassembly, heating system, automatic lifting door subassembly, fire sprinkler system electric connection, control system includes the control panel, is provided with temperature sensor in the heat preservation casing, control panel and temperature sensor electric connection, and the control panel can set up the temperature that begins when heating system begins to heat and the temperature that stops when stopping heating so that the temperature in the control system automatic control heat preservation casing.

In the structure, the fire-fighting spraying system comprises a faucet switch, a water pipe and a smoke sensor, the water pipe is connected with a tap water pipe through the faucet switch, the faucet switch is set to be in a normally open state, the water pipe is provided with a plurality of spraying ends, the spraying ends are provided with a spraying head and the smoke sensor, and a control panel is electrically connected with the smoke sensor.

In the structure, the heating system comprises a heating part, a ventilation pipeline and a fan, the heating part and the fan are arranged in the ventilation pipeline, two ends of the ventilation pipeline are communicated with the inner space of the heat-insulating casing on two sides of the heat-insulating casing through ventilation openings, and the control panel is electrically connected with the heating part and the fan.

In the structure, the ventilation pipeline is provided with the air suction opening for extracting hot air in the heat preservation shell, and the air suction opening is arranged at two ends of the heat preservation shell.

In the structure, the alarm system for overtemperature alarm comprises an alarm, an access door sensor, a temperature sensor and a smoke sensor, wherein the temperature sensor, the access door sensor, the smoke sensor and the alarm are electrically connected, and the temperature sensor, the access door sensor and the smoke sensor can trigger the alarm system.

In the structure, automatic lifting door subassembly sets up at the both ends of heat preservation casing, and automatic lifting door subassembly includes lift door plant, lift cylinder, and the lift door plant sets up on the heat preservation casing and can rotate for the heat preservation casing, and the lift door plant is connected with lift cylinder is direct or indirect, and the lift cylinder sets up on the heat preservation casing, and the lift door plant can contract to become the partly of heat preservation casing in the heat preservation casing, control panel and lift cylinder electric connection.

In the above structure, the heat-insulating casing is made of 8MM thick, insulating and heat-insulating black bakelite plates or POM plates so as to reduce heat dissipation.

In the structure, the heat-insulating casing and the rack are connected in a grounding mode, and the alarm system can be triggered when the grounding connection of the heat-insulating casing and/or the rack is interrupted.

In the structure, the two sides of the heat preservation shell are provided with the access doors, the access door sensors of the access doors are arranged to be electrically connected with the alarm system, and the access door sensors trigger the alarm system and stop running of the equipment when the access doors are opened.

In the structure, the jacking device comprises a jacking cylinder, a jacking guide rail and a sliding part, the jacking cylinder is arranged on the frame, the jacking guide rail is arranged on the jacking cylinder, the sliding part is arranged on the jacking guide rail, and the sliding part can slide on the jacking guide rail.

In the structure, the speed chain conveying line assembly comprises a rotating wheel, a speed chain and a rotating wheel motor, wherein the speed chain and the rotating wheel motor are arranged on the rotating wheel, the rotating wheel and the rotating wheel motor are arranged on the frame, the speed chain is sleeved on the two rotating wheels, the rotating wheel is coaxially connected with the rotating wheel motor, the rotating wheel motor can drive the rotating wheel to rotate, and the rotating wheel is provided with a plurality of speed chains matched with the pulley.

In the structure, the device further comprises a stopping mechanism, the stopping mechanism comprises a stopping motor and a cross, the stopping motor and the rotating wheel are installed on the rack, the cross is installed on the stopping motor and composed of two mutually perpendicular supporting rods, a pulley is arranged at one end of each supporting rod, and the stopping motor can drive the cross to rotate to push or prevent the static component from sliding on the speed doubling chain.

The beneficial effects of the utility model reside in that: through setting up automatic lifting door subassembly, can be in the time of guarantee feed mechanism and unloading mechanism work, can reduce thermal giving off again, greatly improved and reduced the energy consumption, improved economic benefits, through setting the high temperature furnace to integral, make things convenient for equipment to move, saved reciprocal tear open, the cost of labor of dress, through setting up jacking translation device, make things convenient for anchor clamps maintenance, install into doubly fast chain through carrying, improve equipment high temperature resistance ability, reduce the emergence of trouble.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings required to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a perspective view of the present invention;

fig. 2 is a perspective view of the present invention from another angle;

fig. 3 is a bottom view of the present invention;

FIG. 4 is a schematic view of the present invention;

fig. 5 is a schematic view of another aspect of the present invention.

In the figure, 1-frame, 2-speed chain conveyor line component, 3-heating system, 4-automatic lifting door component, 5-fire sprinkler system, 6-standing component, 7-heat preservation machine shell, 8-faucet switch, 9-water pipe, 10-ventilation pipeline, 11-fan, 12-lifting door plate, 13-lifting cylinder, 14-heating component, 15-ventilation opening, 16-air suction opening, 17-lifting cylinder, 18-lifting guide rail, 19-sliding component, 20-gear stopping motor, 21-cross, 22-rotating wheel, 23-pulley, 24-access door and 25-rotating wheel motor.

Detailed Description

The following describes the present invention with reference to the accompanying drawings. It should be noted that the description of the embodiments is provided to help understanding of the present invention, but the present invention is not limited thereto. In addition, the technical features related to the embodiments of the present invention described below may be combined with each other as long as they do not conflict with each other.

Referring to the attached drawings, the high-temperature standing machine comprises a rack 1, a heat-preservation shell 7, a double-speed chain conveying line assembly 2 for placing a standing assembly 6, a heating system 3 for heating the interior of the heat-preservation shell 7, an automatic lifting door assembly 4 for preventing heat dissipation and feeding and discharging, a fire-fighting spraying system 5 and a control system, wherein the heating system 3 and the fire-fighting spraying system 5 are arranged at the top of the heat-preservation shell 7, the rack 1 is provided with a plurality of double-speed chain conveying line assemblies 2, the automatic lifting door assembly 4 is arranged at two ends of the heat-preservation shell 7, the automatic lifting door assembly 4 can support the standing assembly 6 when opened so as to facilitate feeding or discharging of feeding equipment and discharging equipment and prevent heat dissipation so as to preserve heat when closed, the fire-fighting spraying system 5 can be started by a smoke sensor to spray water downwards to extinguish fire when on fire, the rack 1 is arranged inside the heat-preservation shell 7 and is fixedly connected with the heat-preservation shell 7, control system and doubly fast chain conveyor line subassembly 2, heating system 3, automatic lifting door subassembly 4, 5 electric connection of fire sprinkler system, control system include the control panel, are provided with temperature sensor in the heat preservation casing 7, control panel and temperature sensor electric connection, and the control panel can set up the temperature that begins when heating system begins to heat and the stop heating temperature when stopping heating so that the temperature in the control system automatic control heat preservation casing 7.

Preferably, fire sprinkler system 5 includes tap switch 8, water pipe 9, smoke transducer, and water pipe 9 passes through tap switch 8 and water piping connection, and tap switch 8 sets up to normally open state, and water pipe 9 is provided with a plurality of terminal that spray, sprays the terminal shower head and smoke transducer that are provided with, control panel and smoke transducer electric connection.

Preferably, the heating system 3 includes a heating component 14, a ventilation duct 10, and a fan 11, the heating component 14 and the fan 11 are disposed in the ventilation duct 10, two ends of the ventilation duct 10 are communicated with the inner space of the heat-insulating housing 7 at two sides of the heat-insulating housing 7 through a ventilation opening 15, and the control board is electrically connected with the heating component 14 and the fan 11. The heating member 14 is arranged in the ventilation duct 10, and the heating effect is better than that of the heating member 14 arranged in the furnace. This heating with hot air provides a better heating effect than direct heating in the furnace by the heating member 14.

Preferably, the ventilation duct 10 is provided with a suction port 16 for drawing hot air inside the heat-insulating casing 7, and the suction ports 16 are provided at both ends of the heat-insulating casing 7. By providing the suction opening 16, hot air can be sucked away to recover heat.

Preferably, still including the alarm system who is used for the warning of overtemperature, alarm system includes siren, access door sensor, temperature sensor, and control panel and temperature sensor, access door sensor, siren electric connection.

Preferably, automatic lifting door subassembly 4 sets up the both ends at heat preservation casing 7, and automatic lifting door subassembly 4 includes lifting door panel 12, lift cylinder 13, and lifting door panel 12 sets up on heat preservation casing 7 and can rotate for heat preservation casing 7, and lifting door panel 12 is connected with lift cylinder 13 directly or indirectly, and lift cylinder 13 sets up on heat preservation casing 7, and lifting door panel 12 can contract become the partly of heat preservation casing 7 in the heat preservation casing 7, control panel and 13 electric connection of lift cylinder. When the automatic lifting door assembly 4 is opened, the feeding device can feed materials at the feeding end, and the discharging device can also discharge materials at the discharging end. After the feeding equipment clamps the product, the standing assembly 6 automatically flows from the front lifting platform to the rear lifting platform through the automatic lifting door assembly 4. Both ends of the lifting cylinder 13 are provided with position sensors so as to sense the motion of the lifting cylinder 13.

Preferably, the thermal insulating enclosure 7 is constructed of 8MM thick, insulated, and insulated black bakelite or POM board to reduce heat dissipation.

Preferably, the heat-insulating housing 7 and the rack 1 are arranged in a grounding connection, and the alarm system can be triggered when the grounding connection of the heat-insulating housing 7 and/or the rack 1 is interrupted.

Preferably, the both sides of heat preservation casing 7 are provided with access door 24, and access door sensor of access door 24 sets to and alarm system electric connection, and access door sensor triggers alarm system and equipment out of service when opening access door 24. The access door 24 is provided with an access door cylinder, and the access door cylinder can make the access door 24 automatically open and close the door.

Preferably, still including the jacking translation device that is used for the jacking of subassembly 6 that stews, jacking translation device includes jacking cylinder 17, jacking guide rail 18, sliding part 19, and jacking cylinder 17 sets up on frame 1, and jacking guide rail 18 sets up on jacking cylinder 17, and sliding part 19 installs on jacking guide rail 18, and sliding part 19 can slide on jacking guide rail 18. After the jacking translation device jacks the standing component 6, the access door 24 is opened, the sliding component 19 and the standing component 6 on the sliding component 19 can be pulled out of the access door 24, and the standing component 6 can be maintained.

Preferably, the double-speed chain conveyor line assembly 2 comprises a rotating wheel 22, a double-speed chain (not shown in the figure) installed on the rotating wheel 22, and a rotating wheel motor 25, wherein the rotating wheel 22 and the rotating wheel motor 25 are arranged on the frame 1, the double-speed chain is sleeved on the two rotating wheels 22, the rotating wheel 22 is coaxially connected with the rotating wheel motor 25, the rotating wheel motor 25 can drive the rotating wheel 22 to rotate, and a plurality of double-speed chains matched with the pulleys 23 are arranged around the rotating wheel 22. The speed-multiplying chain conveying and standing component 6 is more resistant to high temperature than belts and the like.

Preferably, the power failure stopping device further comprises a power failure stopping mechanism, the power failure stopping mechanism comprises a power failure stopping machine 20 and a cross 21, the power failure stopping machine 20 and a rotating wheel 22 are installed on the machine frame 1, the cross 21 is installed on the power failure stopping machine 20, the cross 21 is composed of two mutually perpendicular supporting rods, a pulley 23 is arranged at one end of each supporting rod, and the power failure stopping machine 20 can drive the cross 21 to rotate to push or prevent the standing component 6 from sliding on the speed doubling chain. The stop mechanism may facilitate stopping movement of the resting assembly 6.

The method comprises the steps of pressing a start button, starting an air circulation, starting a heating system, receiving a material incoming signal, starting a lifting door panel of a product grade (the upper layer is full material conveying, and the lower layer is a no-load device for backflow), running a speed multiplication chain, putting a product into a baking oven, blocking the product at a specified position by a blocking and stopping mechanism, baking the product, completing baking the product, starting a discharging end automatic door, and flowing the baked product out. And the process is repeated in a reciprocating way.

The product enters the equipment and then is heated according to the temperature and time set by the control system, when the temperature in the equipment is lower than the set temperature, the heating system 3 is in an open state, hot air moves in the equipment in a reciprocating manner, when the temperature in the equipment is higher than the set temperature, the heating system 3 stops, but the air circulation system does not stop, when the temperature is reduced to the set temperature, the heating system 3 is opened again (in such a reciprocating manner), and when the product reaches the set baking time (first in first out), the equipment conveys the baked product out. If the temperature is out of control or a fire occurs in the heating process, the smoke sensor in the equipment detects the environmental change in the equipment to give an alarm, and simultaneously triggers the fire-fighting spraying system 5, so that the fire-fighting spraying system 5 can automatically spray water to extinguish fire.

The utility model has the advantages of it is following:

1. this equipment is concentrated each module together, forms a whole, for traditional split type equipment, has saved the wasting of resources that the dismouting brought several times, and current integral type equipment only needs disposable installation and debugging, and whole equipment can be carried together, the effectual cost of having practiced thrift.

2. The jacking translation mechanism on the lower layer of the equipment can pull out and put in the carrier to be maintained or well maintained when the special carrier goes in and out. Compared with the traditional equipment, the carrier needs to be carried manually, and the probability of accidents of the traditional equipment is higher.

3. Every carrier of the inside doubly fast chain of equipment all disposes 2 sets of stop gear, has effectually stopped the phenomenon that traditional equipment can not separate the product, has effectually solved the problem that the product can not separate the back and drop, improves the high temperature resistance ability of equipment simultaneously, reduces the emergence of trouble.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention.

Claims (10)

1. A high-temperature standing machine is characterized in that: including frame, heat preservation casing, be used for placing the doubly fast chain transmission line subassembly of subassembly that stews, be used for to the heating system of heat preservation casing internal heating, be used for preventing the automatic rising door subassembly of heat dissipation and material loading unloading, fire sprinkler system, control system, wherein heating system, fire sprinkler system set up at the top of heat preservation casing, be provided with a plurality of doubly fast chain transmission line subassemblies in the frame, automatic rising door subassembly sets up the both ends at the heat preservation casing, can support the subassembly that stews so that can prevent the heat dissipation so that keep warm with material loading equipment material loading or unloading equipment unloading and when closed when automatic rising door subassembly is opened, fire sprinkler system can be put out a fire by smoke transducer starts spray water downwards when catching fire, the frame sets up inside and with heat preservation casing fixed connection at the heat preservation casing, control system and doubly fast chain transmission line subassembly, Heating system, automatic lifting door subassembly, fire sprinkler system electric connection, control system includes the control panel, be provided with temperature sensor in the heat preservation casing, control panel and temperature sensor electric connection, the control panel can set up the temperature of beginning when heating system begins to heat and the stop heating temperature when stopping heating so that the temperature in the control system automatic control heat preservation casing.

2. The high temperature static machine according to claim 1, wherein: the fire sprinkler system comprises a faucet switch, a water pipe and smoke sensors, the water pipe is connected with a tap water pipe through the faucet switch, the faucet switch is set to be in a normally open state, the water pipe is provided with a plurality of spraying ends, the spraying ends are provided with spraying heads and the smoke sensors, and the control panel is electrically connected with the smoke sensors.

3. The high temperature static machine according to claim 1, wherein: heating system includes heater block, air pipe, fan, heater block, fan are established in air pipe, air pipe's both ends are passed through the vent and are communicated in heat preservation casing both sides and heat preservation casing inner space, control panel and heater block, fan electric connection.

4. The high temperature static machine according to claim 3, wherein: the both sides of heat preservation casing are provided with the access door, the access door sensor of access door sets to and control panel electric connection, and the access door sensor triggers alarm system and equipment out of service when opening the access door.

5. The high temperature static machine according to claim 1, wherein: still including the alarm system who is used for the overtemperature alarm, alarm system includes siren, access door sensor, temperature sensor, smoke transducer, temperature sensor, access door sensor, smoke transducer and siren electric connection, temperature sensor, access door sensor, smoke transducer all can trigger alarm system.

6. The high temperature static machine according to claim 1, wherein: the heat preservation casing and the rack are connected in a grounding mode, the alarm system can be triggered when the grounding connection of the heat preservation casing and/or the rack is interrupted, and the heat preservation casing is composed of a black bakelite plate or a POM plate which is 8MM thick and is insulated and insulated so as to reduce heat dissipation.

7. The high temperature static machine according to claim 1, wherein: automatic lifting door subassembly includes lift door plant, lift cylinder, the lift door plant sets up on the heat preservation casing and can rotate for the heat preservation casing, the lift door plant is connected with lift cylinder is direct or indirect, the lift cylinder sets up on the heat preservation casing, the lift door plant can contract to become the partly of heat preservation casing in the heat preservation casing, control panel and lift cylinder electric connection.

8. The high temperature static machine according to claim 1, wherein: still including the jacking translation device that is used for the subassembly jacking of stewing, jacking translation device includes jacking cylinder, jacking guide rail, sliding part, the jacking cylinder sets up in the frame, the jacking guide rail sets up on the jacking cylinder, sliding part installs on the jacking guide rail, sliding part can slide on the jacking guide rail.

9. The high temperature static machine according to claim 1, wherein: doubly fast chain transfer chain subassembly includes the runner and installs doubly fast chain, runner motor on the runner, runner motor set up in the frame, doubly fast chain cover is on two runners, runner and runner motor coaxial coupling, the runner motor can drive the runner and rotate, be provided with a plurality of doubly fast chain matchings around the runner with the pulley.

10. The high temperature static machine according to claim 1, wherein: the gear stopping mechanism comprises a gear stopping motor and a cross, the gear stopping motor and a rotating wheel are installed on the frame, the cross is installed on the gear stopping motor and is composed of two mutually perpendicular supporting rods, a pulley is arranged at one end of each supporting rod, and the gear stopping motor can drive the cross to rotate to push or prevent the standing component from sliding on the speed doubling chain.

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