CN218314685U - High temperature mould Wen Shebei for blood bag production - Google Patents

Abstract

The utility model discloses a high-temperature mould temperature equipment for blood bag production, which comprises an external machine, a preliminary heating mechanism communicated with the external machine, a hot fluid box arranged at the output end of the preliminary heating mechanism, a water outlet pipe arranged on the hot water box, a hot water return pipe arranged below the water outlet pipe, a flow dividing mechanism connected with the hot water return pipe, and a second heating mechanism and a third heating mechanism communicated with the flow dividing mechanism; the temperature sensors are arranged in the primary heating structure in the front and back to better calculate the energy required by the limited temperature which needs to be increased by the fluid, the fluid is conveyed back to the primary water tank through the backflow electromagnetic valve, the most appropriate heating power is calculated while the temperature of the fluid is ensured to reach the standard, the loss of energy consumption is reduced, and the utilization efficiency is increased; the hot reflux fluid is subjected to shunting treatment by arranging the shunting mechanism, so that the hot reflux fluid works with the maximum energy efficiency, and the energy loss caused by cooling between high-temperature fluid and low-temperature fluid and radiating energy to the environment is prevented.

Description

High temperature mould Wen Shebei for blood bag production

Technical Field

The utility model relates to a mould temperature machine device field, concretely relates to blood bag production is with high temperature mould temperature equipment.

Background

The actual name of the mold temperature controller is called as a mold temperature controller, and the mold temperature controller is widely applied to various industries such as plastic molding, light guide plate, die casting, extrusion, rubber tire, roller, chemical engineering, reaction kettle, bonding, banburying and the like; in a broad sense, it should be called a mold temperature controller, which includes temperature control in both heating and freezing; the mold temperature machine is widely applied to the plastic industry and mainly has the effects of improving the molding efficiency of products, reducing the generation of defective products, improving the appearance of the products, inhibiting the defects of the products, accelerating the production progress, reducing the energy consumption and saving the energy.

The mold temperature controller with the issued authorization number of CN210999625U solves the problem of low energy utilization efficiency to a certain extent, and when energy is transferred to a mold through heat transfer and then the temperature is reduced, or heat is generated in the process of transferring fluid or the heat generated in the work of the mold is reversely transferred to the fluid, the conditions are different, and the energy utilization efficiency is low by using the same cycle.

Disclosure of Invention

In view of this, the utility model aims at providing a high temperature mould temperature equipment is used in blood bag production of high energy efficiency.

In order to solve the above problems, the present invention adopts the following techniques and methods:

a high-temperature mold temperature device for blood bag production comprises an external machine, a primary heating mechanism communicated with the external machine, a hot fluid tank arranged at the output end of the primary heating mechanism, a water outlet pipe arranged on a hot water tank, a hot water return pipe arranged below the water outlet pipe, and a flow dividing mechanism connected with the hot water return pipe; the primary heating mechanism comprises a primary water tank, a water pump connected with the primary water tank, a first temperature sensor arranged on an output pipe of the water pump, a heater connected with an output pipe of the water pump, a second temperature sensor arranged on a water outlet section of the heater, and a straight-out electromagnetic valve and a backflow electromagnetic valve which are arranged at one end of the second temperature sensor far away from the heater; the shunt mechanism comprises a reflux temperature sensor, a first shunt electromagnetic valve, a second heating mechanism and a third heating mechanism, wherein the second heating mechanism and the third heating mechanism are communicated with the shunt mechanism.

Preferably, the outdoor unit comprises a shell, a control panel arranged on the front surface of the shell, a water filling port arranged on the side surface of the shell, a water outlet and a backflow port arranged on the back surface of the shell, a water replenishing tank arranged on the inner part of the shell and arranged above the water replenishing tank, a battery valve arranged on a water outlet pipe of the water replenishing tank, and a heat exchanger connected with the water replenishing tank and the electromagnetic valve.

Further, the heat exchanger comprises a heat exchanger body, support legs arranged below the heat exchanger body and used for fixing, and a flange pipeline opening arranged on the heat exchanger body.

Still further, the flange pipeline port comprises a cold fluid inlet, a cold fluid outlet, a hot fluid inlet and a hot fluid outlet.

Preferably, the thermal fluid tank comprises a thermal fluid tank body, and a hydraulic gauge disposed inside the thermal fluid tank body.

Preferably, the second heating mechanism and the third heating mechanism are consistent with the structure of the preliminary heating mechanism.

The utility model has the advantages that the utility model discloses a setting up temperature sensor around in preliminary heating structure is for the better energy that calculates the limited temperature needs that the fluid need risees, detect simultaneously whether the fluid after the heating reaches the limited temperature, if reach the limited temperature, just close the backward flow solenoid valve, reach the hot-fluid case through opening the straight solenoid valve, otherwise, close the straight solenoid valve, carry the fluid back to preliminary water tank through the backward flow solenoid valve, when guaranteeing that the fluid temperature is up to standard, calculate the most suitable heating power, reduce the loss of energy consumption, increase the utilization efficiency; the hot reflux fluid is subjected to shunting treatment by the shunting mechanism, so that the hot fluid can enter a circulation system after being subjected to the most appropriate treatment, and can work at the maximum energy efficiency under reasonable treatment, thereby preventing the high-temperature fluid and the low-temperature fluid from being cooled and causing energy loss due to energy dissipation to the environment.

Drawings

FIG. 1 is an external view of a high temperature mold temperature device for blood bag production of the present invention;

FIG. 2 is a partial internal structural view of FIG. 1;

FIG. 3 is a rear view looking outward from FIG. 1;

fig. 4 is an internal structure view of the outdoor unit of fig. 1;

FIG. 5 is a diagram of a flanged pipe port configuration of the heat exchanger of FIG. 4;

FIG. 6 is a fluid flow diagram of a high temperature mold temperature device for blood bag production according to the present invention;

FIG. 7 is a structural view of the preliminary heating mechanism in FIG. 2;

FIG. 8 is a block diagram of the hot fluid tank of FIG. 2;

fig. 9 is a structural view of the branching mechanism in fig. 2.

Detailed Description

The following detailed description of the embodiments of the present invention is made with reference to the accompanying drawings, so that the technical solution of the present invention can be more easily understood and grasped.

In the present embodiment, it should be understood that the terms "middle", "upper", "lower", "top", "right side", "left end", "above", "back", "middle", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description of the present invention, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the present embodiment, if the connection or fixing manner between the components is not specifically described, the connection or fixing manner may be a bolt fixing manner, a pin connecting manner, or the like, which is commonly used in the prior art, and therefore, details thereof are not described in the present embodiment.

The utility model provides a blood bag production is with high temperature mould temperature equipment, as shown in fig. 1-2, including outer machine 1, with the preliminary heating mechanism 2 of outer machine 1 intercommunication, set up the hot-fluid case 3 at the 2 output of preliminary heating mechanism, set up outlet pipe 4 on the hot-water tank, set up hot water back flow 5 in the outlet pipe below, the reposition of redundant personnel mechanism 6 of being connected with hot water back flow 5, with second heating mechanism 7 and the third heating mechanism 8 of reposition of redundant personnel mechanism 6 intercommunication.

As shown in fig. 3 to 5 in combination with fig. 1, the outdoor unit 1 includes a casing 11, a control panel 12 disposed on a front surface of the casing 11, a water filling port 13 disposed on a side surface of the casing 11, a water outlet 14 disposed on a back surface of the casing 11, and a return port 15, a water replenishing tank 16 disposed inside the casing 11, a water replenishing tank pump 17 disposed above the water replenishing tank 16, a battery valve 18 disposed on a water outlet pipe of the water replenishing tank pump 17, and a heat exchanger 19 connected to the water replenishing tank 16 and the battery valve 18, wherein the control panel 12 is used for controlling the equipment to realize automation, the water filling port 13 is used for periodically replenishing water to the water replenishing tank 16, and a water inlet section in the water replenishing tank pump 17 extends to a bottom of the water replenishing tank 16 to provide power for water delivery. The heat exchanger 19 includes a heat exchanger body 191, a leg 192 provided below the heat exchanger body 191 for fixing, and a flanged conduit port 193 provided on the heat exchanger body 191. The flanged conduit port 193 includes a cold fluid inlet 1931, a cold fluid outlet 1932, a hot fluid inlet 1933, and a hot fluid outlet 1934. The water replenishing tank 16 simultaneously provides cooling water, the cooling water is fed from a cold fluid inlet 1931 in the heat exchanger, and the cooling water is discharged from a cold fluid outlet 1932 after heat exchange and finally returns to the water replenishing tank 16 to realize cooling.

As shown in fig. 6-7, the preliminary heating mechanism 2 includes a preliminary water tank 21, a water pump 22 connected to the preliminary water tank 21, a first temperature sensor 23 disposed on an output pipe of the water pump 22, a heater 24 connected to an output pipe of the water pump 22, a second temperature sensor 25 disposed on an output section of the heater 24, a straight solenoid valve 26 and a return solenoid valve 27 disposed on an end of the second temperature sensor 25 away from the heater 24, the front and rear temperature sensors being disposed to better calculate the energy required for the limited temperature at which the fluid needs to be raised, and simultaneously detecting whether the heated fluid reaches the limited temperature, if the limited temperature is reached, the return solenoid valve 27 is closed, the hot fluid tank is reached by opening the straight solenoid valve 26, otherwise, the straight solenoid valve 26 is closed, and the fluid is returned to the preliminary water tank 21 through the return solenoid valve. The flow dividing mechanism 6 is connected with the hot water return pipe 5, the temperature of the backflow hot fluid is detected to be smaller than a limit value through temperature, the backflow hot fluid flows through the second heating mechanism 7 to be reheated and returns to the hot fluid box 3 to be output in a centralized mode, when the temperature of the backflow hot fluid is larger than the limit value, the backflow hot fluid flows into the third heating mechanism 8 through the hot fluid inlet 1933 to be heated again through heat exchange with cooling water, then flows into the hot fluid box 3 from the hot fluid outlet 1934 to be heated again, and finally returns to the hot fluid box 3 to be output in a centralized mode. The second heating mechanism 7 and the third heating mechanism 8 are consistent with the primary heating mechanism 2 in structure.

As shown in fig. 8, the thermal fluid tank 3 includes a thermal fluid tank body 31, and a hydraulic gauge 32 disposed inside the thermal fluid tank body 31 for monitoring the volume of the liquid in the thermal fluid tank 3 and timely replenishing the liquid.

As shown in fig. 9, the flow dividing mechanism 6 includes a backflow temperature sensor 61, a first flow dividing solenoid valve 62, and a second flow dividing solenoid valve 63, and divides the hot fluid with different temperatures into two parts to process the hot fluid with excessive temperature, so as to reduce the temperature by exchanging heat with the cold fluid, and prevent the hot fluid from overheating the film again. Connect hot-fluid import 1933 and cold fluid through first shunt solenoid valve 62 among the reposition of redundant personnel mechanism 6 and carry out the heat exchange in heat exchanger 19, the transfer line periphery that uses in the equipment is provided with the heat preservation, can prevent the loss of energy at fluid transfer in-process, makes the utilization ratio of efficiency reach the biggest.

The utility model has the advantages that the utility model discloses a setting up temperature sensor around in preliminary heating structure is for the better energy that calculates the limited temperature needs that the fluid need risees, detect simultaneously whether the fluid after the heating reaches the limited temperature, if reach the limited temperature, just close the backward flow solenoid valve, reach the hot-fluid case through opening the straight solenoid valve, otherwise, close the straight solenoid valve, carry the fluid back to preliminary water tank through the backward flow solenoid valve, when guaranteeing that the fluid temperature is up to standard, calculate the most suitable heating power, reduce the loss of energy consumption, increase the utilization efficiency; the hot reflux fluid is subjected to shunting treatment by the shunting mechanism, so that the hot fluid can enter a circulation system after being subjected to the most appropriate treatment, and can work at the maximum energy efficiency under reasonable treatment, thereby preventing the high-temperature fluid and the low-temperature fluid from being cooled and causing energy loss due to energy dissipation to the environment.

The above description is only for the specific embodiments of the present invention, but the protection scope of the present invention is not limited thereto, and any changes or substitutions that are not thought of through the creative work should be covered within the protection scope of the present invention, therefore, the protection scope of the present invention should be subject to the protection scope defined by the claims.

Claims (6)

1. The utility model provides a blood bag production is with high temperature mould temperature equipment, includes outer machine, with the preliminary heating mechanism of outer machine intercommunication, sets up the hot-fluid tank at preliminary heating mechanism output, sets up the outlet pipe on the hot-water tank, sets up the hot water back flow in the outlet pipe below, the reposition of redundant personnel mechanism of being connected with the hot water back flow, its characterized in that: and with second heating mechanism and the third heating mechanism of reposition of redundant personnel mechanism intercommunication, preliminary heating mechanism includes preliminary water tank, the water pump of being connected with preliminary water tank, set up the first temperature sensor on the water pump output tube, with the heater of water pump output tube connection, set up the second temperature sensor on the heater goes out the water section, set up the straight-out solenoid valve and the backward flow solenoid valve that one of second temperature sensor kept away from the heater, reposition of redundant personnel mechanism includes backward flow temperature sensor, first reposition of redundant personnel solenoid valve, and second reposition of redundant personnel solenoid valve.

2. The high-temperature mold temperature device for blood bag production according to claim 1, wherein: the outdoor unit comprises a shell, a control panel arranged on the front surface of the shell, a water filling port arranged on the side surface of the shell, a water outlet and a backflow port arranged on the back surface of the shell, a water replenishing tank water pump arranged above the water replenishing tank in the shell, a battery valve arranged on a water outlet pipe of the water replenishing tank water pump, and a heat exchanger connected with the water replenishing tank and an electromagnetic valve.

3. The high temperature mold temperature apparatus for blood bag production of claim 2, wherein: the heat exchanger comprises a heat exchanger body, support legs arranged below the heat exchanger body and used for fixing, and a flange pipeline opening arranged on the heat exchanger body.

4. The high temperature mold temperature apparatus for blood bag production of claim 3, wherein: the flange pipeline port comprises a cold fluid inlet, a cold fluid outlet, a hot fluid inlet and a hot fluid outlet.

5. The high temperature mold temperature apparatus for blood bag production of claim 1, wherein: the hot fluid box comprises a hot fluid box body and a hydraulic gauge arranged inside the hot fluid box body.

6. The high temperature mold temperature apparatus for blood bag production of claim 1, wherein: the second heating mechanism and the third heating mechanism are consistent with the primary heating mechanism in structure.

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