CN211760884U - Water bath thermostatic bath for increasing stability of electroforming grinding wheel medium - Google Patents

Abstract

The utility model discloses a water bath thermostatic bath for increasing the stability of electroforming grinding wheel media, which comprises an electroforming media bin, wherein a heat conducting groove is sleeved on the outer side of the electroforming media bin, a heat transfer cavity is formed between the outer side of the electroforming medium cavity and the heat conduction groove, a heating cavity communicated with the bottom of the heat transfer cavity is arranged on one side of the heat conduction groove, the heating chamber is internally provided with a heating pipe and a temperature monitor, the heating chamber is communicated with the heat conduction groove through a circulating pump and a circulating pipe, the utility model is additionally provided with a heating chamber communicated with the heat conduction groove to heat the liquid in the heat conduction groove on the basis of the original constant temperature equipment, meanwhile, the liquid in the heating bin realizes the circulating flow through an external circulating pump and a circulating pipe after being heated, therefore, the liquid in the heat conduction groove is heated circularly, and the temperature consistency of the heated liquid is ensured, so that the constant temperature of the electroforming medium bin is ensured.

Description

Water bath thermostatic bath for increasing stability of electroforming grinding wheel medium

Technical Field

The utility model relates to a technical neighborhood of abrasive wheel machining equipment, concretely relates to increase water bath constant temperature bath of electroforming emery wheel medium stability.

Background

In the production process of the electroforming grinding wheel, the temperature is a main factor influencing the mobility of the binder molecules, and the mobility of the binder molecules is changed along with the change of the temperature, so that the quality of the grinding wheel is directly influenced.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an increase water bath thermostatic bath of electroforming emery wheel medium stability to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model adopts the following technical scheme: a water bath thermostatic bath for increasing the stability of an electroforming grinding wheel medium comprises an electroforming medium bin, wherein a heat conducting groove is sleeved on the outer side of the electroforming medium bin, a heat transfer cavity is formed between the outer side of the electroforming medium bin and the heat conducting groove, a heating bin communicated with the bottom of the heat transfer cavity is arranged on one side of the heat conducting groove, a heating pipe and a temperature monitor are arranged in the heating bin, the heating bin and the heat conducting groove are communicated through a circulating pump and a circulating pipe, an interface communicated with the circulating pipe is arranged at the top end of one side, away from the heating bin, of the heat conducting groove, the top end is provided with an interface communicated with the circulating pipe, the heating pipe, the temperature monitor and the circulating pump are connected with a controller, the scheme is that on the basis of original thermostatic equipment, the heating bin communicated with the heat conducting groove is additionally arranged to heat liquid in the heat conducting groove, and, therefore, the liquid in the heat conduction groove is heated circularly, and the temperature consistency of the heated liquid is ensured, so that the constant temperature of the electroforming medium bin is ensured.

Preferably, the heat transfer cavity is separated into a plurality of layers of drainage cavities by partition plates, and one end of each partition plate is provided with a flow port, so that a flow path shaped like a Chinese character 'ji' is formed among the plurality of layers of drainage cavities, the heating quality of liquid in the heat conduction groove is ensured, and the heat conduction efficiency is further improved.

Preferably, one side of the heat conduction groove is provided with a transparent window along the vertical direction, so that the amount of liquid in the heat conduction groove can be checked conveniently.

Preferably, the interface is a three-way interface, and the three-way interface is respectively used for communicating the heat transfer cavity, the circulating pipe and serving as an adding port, so that liquid is added to the heat conducting groove.

Preferably, the adding port is provided with a sealing opening and closing valve, so that heat dissipation is reduced.

1. The utility model has the advantages that: the utility model discloses an on original constant temperature equipment's basis, add a heated warehouses that link up with the heat conduction groove and come the liquid heating in the heat conduction groove, liquid in the heated warehouses realizes the circulation flow through external circulating pump, circulating pipe after the heating simultaneously to this liquid circulation heating of realization in to the heat conduction groove guarantees the temperature uniformity of the heating fluid body, thereby ensures the constant temperature in electroforming medium storehouse.

2. Through the baffle that sets up at the heat transfer chamber, cut apart into a plurality of drainage chambeies with it for liquid in the heat conduction groove forms fixed flow path when the heat transfer chamber flows, flows into the heating storehouse at last and heats, guarantees the heating quality of the liquid in the heat conduction groove, and then improves heat conduction efficiency.

Description of the drawings:

fig. 1 is a schematic view of the overall structure of the present invention.

Description of reference numerals: 1. electroforming medium bin, 2, heat conducting groove, 21, heat transfer cavity, 22, partition board, 23, drainage cavity, 3, heating bin, 31, heating pipe, 32, temperature monitor, 33, circulating pump, 34, circulating pipe, 35 and controller.

Detailed Description

Embodiments of the present invention will be described in detail below with reference to the accompanying drawings.

As shown in fig. 1, a water bath thermostatic bath for increasing stability of an electroforming grinding wheel medium comprises an electroforming medium chamber 1, a heat conducting groove 2 is sleeved on the outer side of the electroforming medium chamber 1, a heat transfer cavity 21 is formed between the outer side of the electroforming medium chamber 1 and the heat conducting groove 2, a heating chamber 3 communicated with the bottom of the heat transfer cavity 21 is arranged on one side of the heat conducting groove 2, a heating pipe 31 and a temperature monitor 32 are arranged inside the heating chamber 3, the heating chamber 3 is communicated with the heat conducting groove 2 through a circulating pump 33 and a circulating pipe 34, an interface communicated with the circulating pipe 34 is arranged at the top end of one side of the heat conducting groove 2 far away from the heating chamber 3, and the heating pipe 31, the temperature monitor 32 and the circulating pump 33 are connected with a controller 35.

The heating chamber 3 of the utility model is communicated with the heat conducting groove 2, when the technical proposal of the utility model is implemented, firstly, the controller 35 is provided with a temperature range value required to be kept by the liquid in the heat conduction groove 2, the temperature monitor 32 monitors the temperature value of the liquid in the hot bin 3 in real time and feeds the temperature value back to the controller 35, when the temperature of the liquid is detected to be lower than the preset value, the controller 35 respectively opens the heating pipe 31 to heat the liquid, controls the circulating water pump 33 to make the liquid in the heating chamber 3 circularly flow with the liquid in the heat conduction groove 2 during the heating process through the circulating pipe 34, thereby realizing the circular heating of the liquid in the heat conduction groove 2, ensuring the temperature consistency of the heated liquid, when the temperature monitor 32 monitors that the temperature of the liquid in the heating chamber 3 reaches a preset value, the controller 35 closes the heating pipe 31 and the controller 35 respectively, thereby ensuring the constant temperature of the electroforming medium chamber.

As an optimized solution of the above embodiment, in order to ensure the heating quality of the liquid in the heat conduction groove 2 and further improve the heat conduction efficiency, the heat transfer chamber 21 is partitioned into multiple layers of drainage chambers 23 by the partition plate 22, one end of the partition plate 22 has a flow port, so that a zigzag flow path is formed between the multiple layers of drainage chambers 23, the partition plate 22 arranged in the heat transfer chamber 21 is used to partition the heat transfer chamber 21 into multiple drainage chambers 23, so that the liquid in the heat conduction groove 2 forms a fixed flow path when the heat transfer chamber 21 flows, and finally flows into the heating chamber 3 for heating.

As an optimized solution of the above embodiment, in order to facilitate checking the amount of liquid in the heat conduction groove 2, a transparent window is provided on one side of the heat conduction groove 2 along the vertical direction.

As an optimization scheme of the above embodiment, the interface is a three-way interface, and the three-way interface is respectively used for communicating the heat transfer cavity 21, the circulating pipe 34 and serving as an adding port.

As the optimization scheme of the embodiment, the heat emission is not reduced, and the adding port is provided with a sealing opening and closing valve.

The above-mentioned embodiments only express the specific embodiments of the present invention, and the description thereof is specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention.

Claims (5)

1. The utility model provides an increase water bath constant temperature bath of electroforming emery wheel medium stability, includes electroforming medium storehouse, and the outside cover in electroforming medium storehouse is equipped with the heat-conducting groove, its characterized in that, the outside in electroforming medium storehouse with form the heat transfer chamber between the heat-conducting groove, one side of heat-conducting groove have with the heating cabinet that heat transfer chamber bottom link up, inside heating pipe and the temperature monitor of being equipped with of heating cabinet, through circulating pump and circulating pipe switch-on between heating cabinet and the heat-conducting groove, just the top that the heat-conducting groove kept away from heating cabinet one side has with the interface of circulating pipe switch-on, heating pipe, temperature monitor, circulating pump connection director.

2. The water bath thermostatic bath for improving the stability of the electroforming grinding wheel medium in claim 1, wherein the heat transfer cavities are separated into a plurality of layers of drainage cavities by a partition plate, and one end of the partition plate is provided with a flow port, so that a flow path in a shape of a Chinese character 'ji' is formed between the plurality of layers of drainage cavities.

3. The bath thermostatic bath for increasing the stability of an electroforming grinding wheel medium according to claim 1, wherein a transparent window is provided on one side of the heat conducting groove along a vertical direction.

4. The water bath thermostatic bath for improving the stability of the electroforming grinding wheel medium according to claim 1, wherein the interface is a three-way interface, and the three-way interface is used for being communicated with the heat transfer cavity, the circulating pipe and serving as an adding port respectively.

5. The thermostatic bath for increasing the stability of the electroformed grinding wheel medium as claimed in claim 4, wherein the addition port has a sealing open-close valve.

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