TWM645499U - Touch pad module and computer using the same - Google Patents

Abstract

The present utility model discloses a touch pad module, which is applied to an electronic computer. The casing of the electronic computer has an inwardly recessed frame. The frame includes a sidewall and bearing part extending from the sidewall. The touch pad module is disposed in the frame, and the touch pad module includes a touch panel assembly and at least one pressure sensing element. The touch panel assembly includes an upper cover plate and a circuit board. The peripheral end of the upper cover plate against the bearing part of the frame. The pressure sensing element is disposed on the touch panel assembly and electrically connected to the circuit board. When the touch panel assembly is pressed by an external force, the contact point between the peripheral end of the upper cover plate and the bearing part is used as a fulcrum to sunken down and have a deformation amount. The pressure sensing element senses the touch force exerted on the touch panel assembly according to the deformation amount and outputs a pressure sensing signal.

Description

Touchpad module and electronic computer with touchpad module

The present invention relates to the field of input devices, and in particular, to an input device with a touch function.

With the rapid development of science and technology, the vigorous development of electronic equipment has brought a lot of convenience to human life. Therefore, how to make the operation of electronic equipment more humane is an important issue. For example, common electronic devices in daily life include laptops, mobile phones, satellite navigation devices, etc. As the storage capacity and processor computing performance of these electronic devices have greatly increased, their functions have become increasingly powerful and complex. In order to operate these electronic devices efficiently, manufacturers of electronic devices use touch pads as input devices to control these electronic devices. For example, users can touch the touch pad with their fingers and slide on the touch pad to move the screen. The cursor on the touchpad can also cause the electronic device to perform specific functions by touching the touchpad. Therefore, the touchpad can replace the function of the mouse, so that the user does not need to carry or install an additional mouse. .

Furthermore, more and more touch panels have pressure sensors to sense the touch force exerted by the user on the touch panel and output a pressure sensing signal when the user touches the touch panel, thereby making the touch panel The pressure plate controls the electronic device to perform corresponding functions based on this pressure sensing signal. Today's touch panel pressure sensors are mostly configured on the metal base plate or on the metal A cantilever structure is made on the base plate, and the pressure sensor is placed on the cantilever structure. When the touch panel is pressed, the metal base plate or the cantilever structure is pushed and deformed, and the pressure sensor senses the Measure the amount of touch force exerted on the trackpad.

However, the structure of a conventional touch panel with a pressure sensing function is relatively complex and difficult to manufacture. For example, sensing the deformation of the cantilever structure must be done on the touch panel through stamping or other methods. Multiple cantilever structures are made on the metal base plate, which greatly increases the production cost. In addition, the method of sensing the deformation of the metal base plate has concerns about insufficient structural strength and the problem of poor pressing feel for the user caused by excessive pressing stroke. . Therefore, how to improve the above problems has become the focus of relevant people in this field.

One of the purposes of this creation is to provide a touch panel module whose structural design is simplified, which effectively reduces the production cost, and improves the structural strength and greatly increases the service life.

Another purpose of this invention is to provide an electronic computer in which the structural design of the touch panel module is simplified, which effectively reduces the production cost, and the structural strength is improved and the service life is greatly increased.

Other purposes and advantages of this creation can be further understood from the technical features disclosed by this creation.

In order to achieve one, part or all of the above purposes or other purposes, the present invention provides a touch panel module for use in an electronic computer. The electronic computer includes a casing, the casing has an inwardly recessed frame, and the frame includes side walls and extends from the side walls. The touch panel module is disposed in the frame on the outgoing bearing portion. The touch panel module includes a touch panel component and at least one pressure sensing element. The touch plate assembly includes an upper cover plate and a circuit board. The upper cover is arranged on the circuit board above, and the upper cover plate includes a peripheral end portion, and the peripheral end portion is supported by the bearing portion of the frame. The pressure sensing element is configured on the touch plate assembly and electrically connected to the circuit board. When the touch plate assembly responds to the contact pressure of an external force, the touch plate assembly deforms downwards by using the supporting point between the peripheral end of the upper cover plate and the bearing portion as a fulcrum. The pressure sensing element senses the touch force exerted on the touch plate assembly according to the deformation amount and then outputs a pressure sensing signal.

In an embodiment of the present invention, the above-mentioned upper cover includes a top surface and a bottom surface that are opposite to each other, the pressure sensing element is arranged on the bottom surface of the upper cover, and the pressure sensing element is located between the upper cover and the circuit board.

In an embodiment of the present invention, the above-mentioned circuit board includes an upper surface and a lower surface opposite to each other, the pressure sensing element is arranged on the lower surface of the circuit board, and the circuit board is located between the upper cover and the pressure sensing element.

In an embodiment of the present invention, the above-mentioned circuit board further includes a side surface. The side surface is adjacent between the upper surface and the lower surface. The load-bearing part of the frame includes a load-bearing surface and an end surface adjacent to each other. The load-bearing surface faces the peripheral end of the upper cover, the end surface is parallel to the side wall, and the side surface of the circuit board is relative to the load-bearing surface. end face of the part.

In an embodiment of the invention, there is a gap between the side surface of the above-mentioned circuit board and the end surface of the carrying part.

In an embodiment of the present invention, the side surface of the above-mentioned circuit board is joined to the end surface of the carrying part.

In an embodiment of the present invention, the above-mentioned touch pad assembly is a touch pad assembly with a tactile feedback function.

In order to achieve one, part or all of the above purposes or other purposes, this invention also provides a touch panel module for use in a computer. The electronic computer includes a housing having an inwardly recessed frame. The frame includes side walls and a bearing portion extending from the side walls, The touch panel module is configured in the frame. The touch panel module includes a substrate, a touch panel assembly, a support member, and at least one pressure sensing element. The touch plate assembly is disposed above the substrate. The touch plate assembly includes an upper cover plate and a circuit board. The upper cover is disposed above the circuit board, and the upper cover includes a peripheral end. The peripheral end bears against the load-bearing part of the frame. The support element is disposed between the base plate and the touch plate assembly. The pressure sensing element is arranged on the substrate and electrically connected to the circuit board. When the touch plate assembly is pressed by an external force, the touch plate assembly recesses toward the base plate using the supporting point between the peripheral end of the upper cover plate and the bearing portion as a fulcrum. During the recessing process of the touch plate assembly, the touch plate assembly retracts. The pressure plate component pushes the substrate through the supporting element, so that the substrate has a displacement. The pressure sensing element senses the touch force exerted on the touch pressure plate according to the displacement and then outputs a pressure sensing signal.

In order to achieve one, part or all of the above purposes or other purposes, the invention further provides an electronic computer, including a casing, a processor and a touch panel module. The casing has an inwardly recessed frame. The frame includes side walls and a bearing portion extending from the side walls. The processor is configured in the casing. The touch panel module is arranged in the frame and electrically connected to the processor. The touch panel module includes a touch panel assembly and at least one pressure sensing element. The touch plate assembly includes an upper cover plate and a circuit board. The upper cover plate is disposed above the circuit board, and the upper cover plate includes a peripheral end portion, and the peripheral end portion is supported by the bearing portion of the frame. The pressure sensing element is configured on the touch plate assembly and electrically connected to the circuit board. When the touch plate assembly responds to the contact pressure of an external force, the touch plate assembly deforms downwards by using the supporting point between the peripheral end of the upper cover plate and the bearing portion as a fulcrum. The pressure sensing element senses the touch force exerted on the touch plate assembly according to the deformation amount and then outputs a pressure sensing signal.

In order to achieve one, part or all of the above purposes or other purposes, the invention further provides an electronic computer, including a casing, a processor and a touch panel module. The casing has an inwardly recessed frame. The frame includes side walls and a bearing portion extending from the side walls. handle The device is arranged inside the casing. The touch panel module is arranged in the frame and electrically connected to the processor. The touch panel module includes a substrate, a touch panel assembly, a support member, and at least one pressure sensing element. The touch plate assembly is disposed above the substrate. The touch plate assembly includes an upper cover plate and a circuit board. The upper cover is disposed above the circuit board, and the upper cover includes a peripheral end. The peripheral end bears against the load-bearing part of the frame. The support element is disposed between the base plate and the touch plate assembly. The pressure sensing element is arranged on the substrate and electrically connected to the circuit board. When the touch plate assembly is pressed by an external force, the touch plate assembly recesses toward the base plate using the supporting point between the peripheral end of the upper cover plate and the bearing portion as a fulcrum. During the recessing process of the touch plate assembly, the touch plate assembly retracts. The pressure plate component pushes the substrate through the supporting element, so that the substrate has a displacement. The pressure sensing element senses the touch force exerted on the touch pressure plate according to the displacement and then outputs a pressure sensing signal.

In the touch panel module according to this embodiment of the present invention, the peripheral end of the upper cover of the touch panel assembly rests on the bearing portion of the frame of the electronic computer. When the touch panel assembly responds to the pressure of an external force, the upper cover of the touch panel assembly The support point between the peripheral end of the plate and the bearing part is a fulcrum that is depressed downward and has a deformation amount. The pressure sensing element senses the touch force applied to the touch plate assembly based on the deformation amount of the touch plate assembly or the displacement amount of the touch plate assembly pushing the substrate, and then outputs a pressure sensing signal. Under such a structural design, there is no need to form multiple additional cantilever structures on the substrate. Therefore, the structural design of the touch panel module of this creative embodiment is simple and easy to assemble, effectively reducing the production cost and overall weight. In addition, The upper cover of the touch plate assembly directly rests on the load-bearing part of the frame. When the touch plate assembly responds to external force, the structural strength of the upper cover controls the amount of downward depression of the touch plate assembly, thus effectively reducing The pressing stroke of the touch plate assembly greatly improves the user's pressing feel.

In order to make the above and other purposes, features and advantages of the present invention more obvious and easy to understand, the following is a detailed description of the preferred embodiments, together with the accompanying drawings.

1: Electronic computer

11: Shell

12:Screen

13: Cursor

14:Frame

15: Processor

141:Side wall

142: Bearing part

1421: Bearing surface

1422:End face

2, 2a, 2b, 2c: Touchpad module

21: Touch plate assembly

22: Pressure sensing element

23:Substrate

24:Support element

211: Upper cover

212:Circuit board

2110: Peripheral end

2111:Top surface

2112:Bottom

2121: Upper surface

2122:Lower surface

2123:Side surface

G: Gap

P1: first position

P2: second position

Figure 1 is a schematic structural diagram of the appearance of an electronic computer and its touch panel module according to an embodiment of the present invention.

FIG. 2 is a partial structural cross-sectional view of the frame and touch panel module of the electronic computer shown in FIG. 1 .

FIG. 3 is a schematic cross-sectional view of the touch panel module shown in FIG. 2 after being pressed.

FIG. 4 is a partial structural cross-sectional view of the frame and touch panel module of an electronic computer according to another embodiment of the present invention.

FIG. 5 is a partial structural cross-sectional view of the frame and touch panel module of an electronic computer according to another embodiment of the present invention.

6 is a partial structural cross-sectional view of the frame and touch panel module of an electronic computer according to another embodiment of the present invention.

FIG. 7 is a schematic cross-sectional view of the touch panel module shown in FIG. 6 after being pressed.

Please refer to FIG. 1 , which is a schematic structural diagram of an electronic computer and its touch panel module according to an embodiment of the present invention. The electronic computer 1 is, for example, a notebook computer, but is not limited thereto, and includes a casing 11 , a screen 12 , a processor 15 and a touch panel module 2 , and the processor 15 is disposed in the casing 11 and used to process the electronic computer 1 electronic signals, and the housing 11 has an inwardly recessed frame 14, and the frame 14 includes a side wall 141 and a bearing portion 142 extending from the side wall 141 (as shown in FIG. 2 ). The touch panel module 2 can be disposed in the frame 14 and be electrically connected to the processor 15. When the touch panel module 2 is disposed in the frame 14, the side walls of the frame 14 141 surrounds the touch panel module 2, and at least part of the touch panel module 2 is exposed for the user to touch to operate the electronic computer 1. For example, the user can touch the touch panel module with his finger. 2. Swipe on the touch panel module 2 to move the cursor 13 on the screen 12, or press the touch panel module 2 to cause the electronic computer 1 to perform a specific function.

Other detailed structures of the touch panel module 2 of this creative embodiment will be further described below.

Please refer to FIGS. 2 and 3 . FIG. 2 is a partial structural cross-sectional view of the frame and touch panel module of the electronic computer shown in FIG. 1 . FIG. 3 is a schematic cross-sectional view of the touch panel module shown in FIG. 2 after being pressed.

As shown in FIGS. 2 and 3 , the touch panel module 2 of this embodiment includes a touch panel assembly 21 and at least one pressure sensing element 22 . The touch panel assembly 21 includes an upper cover 211 and a circuit board 212 . The upper cover 211 of the touch plate assembly 21 is disposed above the circuit board 212 , and the upper cover 211 includes a peripheral end 2110 . The touch plate assembly 21 is supported on the bearing portion 142 of the frame 14 of the electronic computer 1 through the peripheral end 2110 of the upper cover 211 . The pressure sensing element 22 is disposed on the touch pad assembly 21 , and the pressure sensing element 22 and the circuit board 212 of the touch pad assembly 21 are electrically connected to each other.

In this embodiment, when the touch plate assembly 21 responds to an external force, the contact point between the peripheral end 2110 of the upper cover 211 and the bearing portion 142 of the frame 14 is the fulcrum and the touch plate assembly 21 recesses downward. Has a deformation variable. The pressure sensing element 22 senses the touch force exerted on the touch plate assembly 21 and outputs a pressure sensing signal based on the amount of deformation caused by the downward depression of the touch plate assembly 21 .

As can be seen from the above, the touch panel module 2 of this embodiment directly supports the upper cover 211 of the touch panel assembly 21 on the frame 14 with better structural strength, so that the touch panel module 2 The touch panel assembly 21 can withstand greater pressure and maintain a better pressing feel after repeated pressing by the user, and the service life of the touch panel module 2 is also greatly extended.

It should be noted that in this embodiment, the material of the upper cover 211 is, for example, glass, but the present invention is not limited thereto. The material of the upper cover 211 can be replaced with the required material according to actual needs. Material. In this embodiment, the circuit board 212 is bonded to the upper cover 211 through, for example, Pressure Sensitive Adhesive (PSA), but the invention is not limited to this. In this embodiment, the number of pressure sensing elements 22 is, for example, two, but the invention does not limit the number of pressure sensing elements 22 . In other examples, the number of pressure sensing elements 22 can be only one. Or two or more.

It should be noted that in this embodiment, the touch pad assembly 21 has a tactile feedback function, for example, that is, a linear resonant actuator (LRA) or a piezoelectric element is configured in the touch pad assembly 21 (Piezoelectric Element, referred to as PIEZO) and other feedback elements (not shown) are constructed on the circuit board 212 when the pressure sensing element 22 outputs a pressure sensing signal based on the deformation amount generated by the downward recess of the touch plate assembly 21 The control unit (not shown) drives the feedback element to generate tactile feedback in the form of vibration according to the pressure sensing signal.

As shown in FIGS. 2 and 3 , the circuit board 212 of the touch pad assembly 21 of this embodiment includes an upper surface 2121 and a lower surface 2122 that are opposite to each other. In this embodiment, the pressure sensing element 22 is disposed on the lower surface 2122 of the circuit board 212 , and the circuit board 212 is located between the upper cover 211 and the pressure sensing element 22 . Under such a structural design, when the contact point between the peripheral end 2110 of the upper cover plate 211 and the bearing portion 142 of the frame 14 is used as the fulcrum and the pressure sensing element 21 dents downward, the pressure sensing element 22 can immediately respond to the contact pressure. The deformation amount of the pressure plate assembly 21 is depressed downward, thereby sensing the touch force exerted on the touch pressure plate assembly 21 and outputting a pressure sensing signal.

As shown in FIGS. 2 and 3 , the circuit board 212 of the touch pad assembly 21 of this embodiment further includes a side surface 2123 , and the bearing portion 142 of the frame 14 includes a bearing surface 1421 and an end surface 1422 adjacent to each other. The side surface 2123 of the circuit board 212 is adjacent between the upper surface 2121 and the lower surface 2122. The bearing surface 1421 of the bearing part 142 faces the peripheral end 2110 of the upper cover 211 , and the peripheral end 2110 of the upper cover 211 rests on the bearing surface 1421 of the bearing part 142 . The end surface 1422 of the bearing portion 142 is parallel to the side wall 141 of the frame 14 , and the side surface 2123 of the circuit board 212 is relative to the end surface of the bearing portion 142 . Specifically, in this embodiment, there is a gap G between the side surface 2123 of the circuit board 212 and the end surface 1422 of the carrying portion 142 .

Please refer to FIG. 4 , which is a partial structural cross-sectional view of the frame and touch panel module of an electronic computer according to another embodiment of the present invention.

As shown in Figure 4, the touch panel module 2a of this embodiment is similar to the touch panel module 2 shown in Figures 2 and 3. The difference lies in the pressure sense of the touch panel module 2a of this embodiment. The arrangement position of the measuring element 22 is different from that of the touch panel module 2 shown in FIGS. 2 and 3 . Specifically, the upper cover 211 of the touch panel module 2a of this embodiment includes a top surface 2111 and a bottom surface 2112 that are opposite to each other. The top surface 2111 of the upper cover 211 is used for the user to perform touch or sliding operations. . The pressure sensing element 22 is disposed on the bottom surface 2112 of the upper cover 211 , and the pressure sensing element 22 is located between the upper cover 211 and the circuit board 212 . Under such a structural design, the pressure sensing element 22 can also immediately sense the touch force exerted on the touch plate assembly 21 and output a pressure sensing signal according to the downward recessed deformation of the touch plate assembly 21 .

Please refer to FIG. 5 , which is a partial structural cross-sectional view of the frame and touch panel module of an electronic computer according to another embodiment of the present invention.

As shown in FIG. 5 , the touch panel module 2 b of this embodiment is similar to the touch panel module 2 shown in FIGS. 2 and 3 . The difference lies in that the touch panel of the touch panel module 2 b of this embodiment is group The component 21 has the side surface 2123 of the circuit board 212 and the end surface 1422 of the carrying part 142 joined to each other. Under such a structural design, the structural strength of the touch panel module 2b is greatly improved, so that the touch panel assembly 21 can withstand greater pressure and maintain a better pressing feel after repeated pressing by the user.

Please refer to FIGS. 6 and 7 . FIG. 6 is a partial structural cross-sectional view of the frame and touch panel module of an electronic computer according to another embodiment of the present invention. FIG. 7 is a schematic cross-sectional view of the touch panel module shown in FIG. 6 after being pressed.

As shown in Figures 6 and 7, the touch panel module 2c of this embodiment is similar to the touch panel module 2 shown in Figures 2 and 3. The difference is that the touch panel module 2c of this embodiment is more Includes base plate 23 and support element 24. In this example, the touch plate assembly 21 is disposed above the base plate 23 , that is, the circuit board 212 of the touch plate assembly 21 is located between the upper cover 211 and the base plate 23 . The support element 24 is disposed between the touch plate assembly 21 and the substrate 23 . The pressure sensing element 22 is disposed on the substrate 23 and is electrically connected to the circuit board 212 of the touch pad assembly 21 . In this embodiment, when the touch plate assembly 21 responds to an external force, the touch plate assembly 21 moves closer to the substrate by using the supporting point between the peripheral end 2110 of the upper cover 211 and the bearing portion 142 of the frame 14 as a fulcrum. 23 is recessed in the direction of 23. During the recessing process of the touch plate assembly 21, the touch plate assembly 21 pushes the base plate 23 to move downward through the support element 24, so that the base plate 23 moves from the first position P1 to the second position P2 with a displacement amount. . The pressure sensing element 22 senses the touch force exerted on the touch plate assembly 21 and outputs a pressure sensing signal based on the displacement amount of the substrate 23 when it is pushed.

To sum up, in the touch panel module according to the embodiment of the present invention, the peripheral end of the upper cover of the touch panel assembly rests on the bearing portion of the frame of the electronic computer. When the touch panel assembly responds to the pressure of an external force, The contact point between the peripheral end of the upper cover plate and the bearing portion of the touch plate assembly is a fulcrum and is recessed downward to have a deformation amount. The pressure sensing element is based on the pressure plate assembly The deformation amount or the displacement amount of the touch plate component pushing the substrate is sensed to sense the touch force exerted on the touch plate component and then output a pressure sensing signal. Under such a structural design, there is no need to form multiple additional cantilever structures on the substrate. Therefore, the structural design of the touch panel module of this creative embodiment is simple and easy to assemble, effectively reducing the production cost and overall weight. In addition, The upper cover of the touch plate assembly directly rests on the load-bearing part of the frame. When the touch plate assembly responds to external force, the structural strength of the upper cover controls the amount of downward depression of the touch plate assembly, thus effectively reducing The pressing stroke of the touch plate assembly greatly improves the user's pressing feel.

However, the above are only preferred embodiments of this invention, and should not be used to limit the scope of this invention, that is, any simple equivalent changes and modifications made in accordance with the patent scope of this invention and the description of the invention, All are still within the scope of this new patent. In addition, any embodiment or patentable scope of this invention does not need to achieve all the purposes, advantages or features disclosed in this invention. In addition, the abstract section and title are only used to assist in searching patent documents and are not intended to limit the scope of rights of this creation. In addition, terms such as “first” and “second” mentioned in this specification or the scope of the patent application are only used to name elements or distinguish different embodiments or scopes, and are not used to limit the number of elements. upper or lower limit.

14:Frame

141:Side wall

142: Bearing part

1421: Bearing surface

1422:End face

2:Touchpad module

21: Touch plate assembly

22: Pressure sensing element

211: Upper cover

212:Circuit board

2110: Peripheral end

2121: Upper surface

2122:Lower surface

2123:Side surface

G: Gap

Claims (10)

A touch panel module is applied to an electronic computer. The electronic computer includes a casing. The casing has an inwardly recessed frame. The frame includes a side wall and a bearing portion extending from the side wall. The touch panel module The touch panel module is configured in the frame. The touch panel module includes: a touch panel assembly, including an upper cover and a circuit board. The upper cover is disposed above the circuit board, and the upper cover includes A peripheral end portion, the peripheral end portion is supported by the bearing portion of the frame; and at least one pressure sensing element is disposed on the touch plate assembly and electrically connected to the circuit board. When the touch plate assembly responds to an external force, When pressed, the touch plate assembly is recessed downwardly with a deformation amount using the support between the peripheral end of the upper cover plate and the bearing portion as a fulcrum, and the at least one pressure sensing element is deformed according to the deformation amount. The touch force exerted on the touch plate component is sensed and a pressure sensing signal is output. The touch panel module of claim 1, wherein the upper cover includes a top surface and a bottom surface opposite each other, the at least one pressure sensing element is disposed on the bottom surface of the upper cover, and the at least one The pressure sensing unit is located between the upper cover and the circuit board. The touch panel module of claim 1, wherein the circuit board includes an upper surface and a lower surface opposite to each other, the at least one pressure sensing element is disposed on the lower surface of the circuit board, and the circuit board is located between the upper cover and the at least one pressure sensing element. The touch panel module of claim 3, wherein the circuit board further includes a side surface adjacent to the upper surface and the lower surface, and the bearing portion of the frame includes a bearing adjacent to each other. surface and an end surface, the bearing surface facing the peripheral end of the upper cover plate, The end surface is parallel to the side wall, and the side surface of the circuit board is relative to the end surface of the bearing part. The touch panel module of claim 4, wherein there is a gap between the side surface of the circuit board and the end surface of the bearing part. The touch panel module according to claim 4, wherein the side surface of the circuit board is joined to the end surface of the bearing part. The touch panel module of claim 1, wherein the touch panel assembly is a touch panel assembly with a tactile feedback function. A touch panel module is used in an electronic computer. The electronic computer includes a casing. The casing has an inwardly recessed frame. The frame includes a side wall and a bearing portion extending from the side wall. The touch panel The module is configured in the frame. The touch panel module includes: a substrate; a touch panel assembly disposed above the substrate. The touch panel assembly includes an upper cover and a circuit board. The upper cover is configured Above the circuit board, the upper cover plate includes a peripheral end portion that bears against the bearing portion of the frame; a support element disposed between the substrate and the touch plate assembly; and at least A pressure sensing element is disposed on the substrate and electrically connected to the circuit board. When the touch plate assembly responds to external pressure, the touch plate assembly connects the peripheral end of the upper cover with the bearing portion. The supporting point is a fulcrum and is recessed in a direction close to the substrate. During the recessing process of the touch plate assembly, the touch plate assembly pushes the substrate through the support element, so that the substrate has a displacement. The pressure sensing element senses the touch force applied to the touch pressure plate according to the displacement and then outputs a pressure sensing signal. An electronic computer including: A housing having an inwardly recessed frame, the frame including a side wall and a bearing portion extending from the side wall; a processor disposed in the housing; and a touch panel module disposed in the frame Inside and electrically connected to the processor, the touch panel module includes: a touch panel assembly, including an upper cover and a circuit board, the upper cover is disposed above the circuit board, and the upper cover It includes a peripheral end portion that bears against the bearing portion of the frame; and at least one pressure sensing element configured on the touch plate assembly and electrically connected to the circuit board. When the touch plate assembly responds to an external force When pressed, the touch plate assembly is depressed downward with a deformation amount using the support between the peripheral end of the upper cover plate and the bearing portion as a fulcrum, and the at least one pressure sensing element is deformed according to the deformation. The variable is used to sense the touch force exerted on the touch plate component and then output a pressure sensing signal. An electronic computer includes: a casing with an inwardly recessed frame, the frame including a side wall and a carrying portion extending from the side wall; a processor configured in the casing; and a touch panel mold The set is configured in the frame and electrically connected to the processor. The touch panel module includes: a touch panel assembly and a substrate; a touch panel assembly is configured above the substrate, and the touch panel assembly includes a An upper cover plate and a circuit board, the upper cover plate is arranged above the circuit board, and the upper cover plate includes a peripheral end portion, and the peripheral end portion bears against the bearing portion of the frame; A support element is disposed between the substrate and the touch panel assembly; and at least one pressure sensing element is disposed on the substrate and electrically connected to the circuit board. When the touch panel assembly responds to pressure from an external force, The touch plate assembly uses the supporting point between the peripheral end of the upper cover and the bearing portion as a fulcrum to recess in a direction close to the base plate. During the recessing process of the touch plate assembly, the touch plate assembly is The support element pushes the substrate so that the substrate has a displacement. The pressure sensing element senses the touch force applied to the touch plate according to the displacement and then outputs a pressure sensing signal.