CN208277638U - A kind of thermal printing head heating base plate that can save energy - Google Patents

Abstract

The utility model proposes a kind of thermal printing head heating base plates that can save energy, including ceramic substrate, and the first ground glaze layer is equipped on ceramic substrate；The first conductive layer is equipped on the first ground glaze layer, upper, the left and right edge of the first conductive layer and the corresponding edge of the first ground glaze layer are at a distance of at least 2mm；The second ground glaze layer is equipped on the first conductive layer, upper, the left and right edge of the second ground glaze layer is in the inside of the corresponding edge of the first conductive layer, and the lower edge of the second ground glaze layer is in the outside of the lower edge of the first conductive layer；The second conductive layer is additionally provided on the first conductive layer and the second ground glaze layer；Pass through photomechanical production technology; second conductive layer is formed into common electrode and individual electrode; local common electrode is connected with the first conductive layer, is configured with heating resistor along main Print direction between common electrode and individual electrode, covers matcoveredn in the whole region of ceramic substrate.Above-mentioned heating base plate can reduce line consumption, and can be improved the uniformity of lettering.

Description

A kind of thermal printing head heating base plate that can save energy

Technical field

The utility model relates to thermal printing field more particularly to a kind of thermal printing head that can save energy fever bases Plate.

Background technique

In recent years, thermal printer use scope is more and more extensive, and hand held printer has also been obtained wide due to compact volume and convenience General application, but since hand held printer battery capacity is limited, the kwh loss for reducing thermal printing head is significant.

It is well known that thermal printing head heating base plate includes ceramic substrate, ceramic substrate is equipped with ground glaze layer, ground glaze layer Top is equipped with lead electrode and heating resistor, and wherein lead electrode includes common electrode and individual electrode, the common electrode One end be connected along secondary Print direction with heating resistor, the other end is connected with the PCB on print head, individual electricity One end of pole is connected along secondary Print direction with heating resistor, the other end with control IC be connected, lead electrode with And matcoveredn is covered on heating resistor.

Related content is printed by controlling opening and the shutdown of heat generating spot when printing.It is whole when opening points are more The electric current in a circuit will increase, and the line consumption in circuit will increase, such that gradation of drop-out colour reduces, therefore reduce in circuit Line resistance is of great importance for low pressure printer.

Utility model content

In order to solve the problems in the existing technology, the utility model proposes a kind of thermal printings that can save energy Head heating base plate, the line consumption to reduce the voltage loss in power supply line, and before each heat generating spot is almost the same, makes Each print point lettering concentration is obtained close to consistent, raising print quality.

To achieve the goals above, the utility model proposes a kind of thermal printing head that can save energy fever bases Plate, including ceramic substrate are equipped with the first ground glaze layer in whole or in part on the ceramic substrate；In first ground glaze layer It is equipped with the first conductive layer, pair of top edge, left edge and the right hand edge of first conductive layer and first ground glaze layer Answer border at least 2mm；The second ground glaze layer, top edge, the left side of second ground glaze layer are equipped on first conductive layer Edge and right hand edge are in the inside of the corresponding edge of first conductive layer, and the lower edge of second ground glaze layer is in The outside of the lower edge of first conductive layer；The second conduction is additionally provided on first conductive layer and the second ground glaze layer The range of layer, the second conductive layer covering is the region of the first conductive layer and the second ground glaze layer；By photomechanical production technology, Second conductive layer is formed into common electrode and individual electrode, local common electrode are connected with first conductive layer, Between the common electrode and individual electrode, it is configured with heating resistor along main Print direction, in the ceramic substrate Whole region on cover matcoveredn.

Preferably, first ground glaze layer with a thickness of 100 μm ~ 200 μm.

Preferably, first conductive layer with a thickness of 0.2 μm ~ 0.5 μm, second conductive layer with a thickness of 0.2 μ m~0.5μm。

Preferably, first conductive layer is made with the second conductive layer of same metal.

Preferably, second ground glaze layer uses glass glaze.

Preferably, the pars pectinata that the upper edge of second ground glaze layer is formed in common electrode and individual electrode it is upper Side's at least distance of 0.2mm.

The beneficial effect of the program of the utility model is the above-mentioned thermal printing head heating base plate that can save energy By the setting of the first conductive layer, line consumption can reduce, and can be improved the uniformity of lettering.

Detailed description of the invention

Fig. 1 shows the structural representation that the thermal printing head heating base plate of energy can be saved involved in the utility model Figure.

Fig. 2 shows the distributions of the first ground glaze layer, the first conductive layer and the second ground glaze layer involved in the utility model Figure.

Fig. 3 shows the distribution map of the second conductive layer involved in the utility model.

Fig. 4 shows the section structure diagram of A-A in Fig. 3.

Fig. 5 shows the section structure diagram of B-B in Fig. 3.

Appended drawing reference: 1- ceramic substrate, the first ground glaze layer of 2-, the first conductive layer of 3-, the second ground glaze layer of 4-, 5- second are conductive Layer, 6- common electrode, 7- individual electrode, 8- heating resistor.

Specific embodiment

Specific embodiment of the present utility model is further described with reference to the accompanying drawing.

As shown in Figs. 1-5, the thermal printing head that energy can be saved involved in the utility model includes pottery with heating base plate Porcelain substrate 1 is equipped with the first ground glaze layer 2 in whole or in part on the ceramic substrate 1, and first ground glaze layer 2 is as storage Thermosphere can also improve the flatness of ceramic substrate 1 with a thickness of 100 μm ~ 200 μm；It is set on first ground glaze layer 2 There are the first conductive layer 3 with a thickness of 0.2 μm ~ 0.5 μm, top edge, left edge and the right hand edge of first conductive layer 3 and institute The corresponding edge of the first ground glaze layer 2 is stated at a distance of at least 2mm；It is equipped with the second ground glaze layer 4 on first conductive layer 3, described the Top edge, left edge and the right hand edge of two ground glaze layers 4 are in the inside of the corresponding edge of first conductive layer 3, described The lower edge of second ground glaze layer 4 is in the outside of the lower edge of first conductive layer 3, and second ground glaze layer 4 is as insulation Layer uses；The second conductive layer 5, second conductive layer 5 are additionally provided on first conductive layer 3 and the second ground glaze layer 4 The range of covering is the region of the first conductive layer 3 and the second ground glaze layer 4, second conductive layer 5 with a thickness of 0.2 μm ~ 0.5 μm；By photomechanical production technology, second conductive layer 5 is formed into common electrode 6 and individual electrode 7, local common electrode 6 It is connected with first conductive layer 3, between the common electrode 6 and individual electrode 7, is configured with along main Print direction Heating resistor 8 covers matcoveredn in the whole region of the ceramic substrate 1.

In the present embodiment, first conductive layer 3 is made with the second conductive layer 5 of same metal.The common electricity in part Pole 6 is directly connected to by way of avoiding the second ground glaze layer 4 with first conductive layer 3, and the individual electrode 7 passes through second Ground glaze layer 4 is dielectrically separated from first conductive layer 3.Glass glaze can be used in second ground glaze layer 4.

Since second ground glaze layer 4 has certain thickness, common electrode 6 and individual electrode 7 are formed in order to prevent The connecting line of pars pectinata is broken, the top edge of second ground glaze layer 4 will in the top at least 0.2mm of pars pectinata away from It has just been staggered pars pectinata from, the junction of the common electrode 6 described in this way and the first conductive layer 3, the connecting line of pars pectinata can be made Second ground glaze layer 4 that is staggered is formed by slope, can effectively prevent the connecting line of pars pectinata to be broken.

When carrying out thermal printing, after external power supply or battery connection, voltage is connected to common electrode by PCB circuit board 6, since common electrode 6 is connected with the first conductive layer 3, and the area of the first conductive layer 3 is larger, therefore can resistance be subtracted It is small, and then the voltage loss in power supply line is reduced, such that electric current mainly flow to heating resistor from the first conductive layer 3 Body 8, the lower line consumption of the first conductive layer 3 improve the voltage value reached on heating resistor 8, and because the first conductive layer 3 arrives The distance of each heat generating spot is supplied to the voltage value of open heat generating spot close to identical, from final printing effect close to equal From the point of view of fruit, gradation of drop-out colour is deepened, and the lettering uniformity improves.

Thermal printing head heating base plate the setting by the first conductive layer of energy can be saved involved in the utility model It sets, can reduce line consumption, and can be improved the uniformity of lettering.

Claims (6)

1. a kind of thermal printing head heating base plate that can save energy, it is characterised in that: including ceramic substrate, in the ceramics The first ground glaze layer is equipped on substrate in whole or in part；On first ground glaze layer be equipped with the first conductive layer, described first The corresponding edge of top edge, left edge and the right hand edge of conductive layer and first ground glaze layer is at a distance of at least 2mm；Described One conductive layer is equipped with the second ground glaze layer, and top edge, left edge and the right hand edge of second ground glaze layer are in described the The inside of the corresponding edge of one conductive layer, the lower edge of second ground glaze layer are in the outer of the lower edge of first conductive layer Side；The second conductive layer, the range of the second conductive layer covering are additionally provided on first conductive layer and the second ground glaze layer For the region of the first conductive layer and the second ground glaze layer；By photomechanical production technology, second conductive layer is formed into common electricity Pole and individual electrode, local common electrode is connected with first conductive layer, in the common electrode and individual electrode Between, it is configured with heating resistor along main Print direction, covers matcoveredn in the whole region of the ceramic substrate.

2. the thermal printing head heating base plate according to claim 1 that energy can be saved, it is characterised in that: described first Ground glaze layer with a thickness of 100 μm ~ 200 μm.

3. the thermal printing head heating base plate according to claim 2 that energy can be saved, it is characterised in that: described first Conductive layer with a thickness of 0.2 μm ~ 0.5 μm, second conductive layer with a thickness of 0.2 μm ~ 0.5 μm.

4. the thermal printing head heating base plate according to claim 3 that energy can be saved, it is characterised in that: described first Conductive layer is made with the second conductive layer of same metal.

5. the thermal printing head heating base plate according to claim 1 that energy can be saved, it is characterised in that: described second Ground glaze layer uses glass glaze.

6. the thermal printing head heating base plate according to claim 1 that energy can be saved, it is characterised in that: described second The top at least distance of 0.2mm for the pars pectinata that the upper edge of ground glaze layer is formed in common electrode and individual electrode.