TWM497768U - Portable measuring apparatus - Google Patents

Abstract

A portable measuring apparatus is provided. The portable measuring apparatus includes a carrier, a platform, a microscope, a display, an adjusting member and a measuring member. The carrier includes a fixing portion and a sliding portion. The platform is disposed on one of the fixing portion and the sliding portion. The platform is suitable to support an object. The microscope is disposed on the other one of the fixing portion and the sliding portion. The microscope is located above the platform to obtain an enlarged image of the object. The display is electrically connected to the microscope and is used to display the enlarged image. The adjusting member connects the sliding portion and is used to adjust a relative location between the platform and the microscope to obtain a relative distance. The measuring member is disposed on the carrier and is used to measure the relative distance to obtain a displacement value.

Description

Portable measuring device

The present invention relates to a measuring device, and more particularly to a portable measuring device.

In addition to measuring the dimensions of a part or product, precision measurement can also be used to determine if the tolerance of a part or product meets the manufacturer's standards or consumer requirements.

However, in order to achieve accurate measurement, the current measuring equipment is not only complicated in structure design, but also difficult and time-consuming in operation, resulting in the cost of purchasing the measuring equipment plus the manpower of the measuring personnel. The cost has increased dramatically. On the other hand, the current measuring equipment is too bulky and heavy due to its complicated structure, which is difficult to carry, resulting in limited measurement locations.

Therefore, how to change the structural design of the measuring equipment to improve the efficiency of the measurement has become the active goal of the relevant industry.

Therefore, an object of the present invention is to provide a portable measuring device which can simplify the structure and operation mode of the measuring device and improve the efficiency and quality of the measuring.

According to the above object of the present invention, a portable measuring device is proposed. The portable measuring device comprises a carrier, a platform, a microscope, and a display , adjustment structure and gauge. The carrier includes a fixing portion and a sliding portion. The platform is disposed on one of the fixed portion and the sliding portion, wherein the platform is adapted to place the object to be tested. The microscope is disposed on the other of the fixed portion and the sliding portion, and the microscope is located above the platform for obtaining an enlarged image of the object to be tested. The display is electrically connected to the microscope to display an enlarged image. The adjustment structure is coupled to the sliding portion for adjusting the relative position of the platform to the microscope to obtain a relative moving distance. The measuring device is arranged on the carrier to measure the relative moving distance and obtain the displacement amount.

According to an embodiment of the invention, the fixing portion is a connecting member. The platform is placed on the connector. The sliding portion is a slide table and is not in contact with the platform. The microscope is placed on the slide table.

According to another embodiment of the present invention, the adjustment structure described above includes a screw and an adjustment member. The adjusting member is connected to the screw, and the screw is connected to the sliding table. The adjustment member is used to rotate the screw, and the screw drives the slide table to move.

According to still another embodiment of the present invention, the carrier is a vernier caliper.

According to still another embodiment of the present invention, the platform is disposed on the sliding portion, and the microscope is disposed on the fixing portion.

According to still another embodiment of the present invention, the above measuring device has a display unit.

According to still another embodiment of the present invention, the above measuring device is an electronic meter.

According to still another embodiment of the present invention, the measuring device further includes a transmission unit for transmitting the displacement amount to the display in the display.

According to still another embodiment of the present invention, the display is a mobile phone display, a notebook computer display or a tablet computer display.

According to still another embodiment of the present invention, the platform has a magnet for adsorbing the object to be tested.

It can be seen from the above that the portable measuring device of the present invention utilizes an external display to clearly display the image of the object to be tested obtained by the microscope, thereby enabling the operator to more accurately and intuitively adjust the relative position between the microscope and the platform. It can accurately measure the length, width or other related dimensions of the object to be tested to improve measurement quality and accuracy. In addition, the portable measuring device of the present invention is small in size, simple in structure, and convenient to carry.

100‧‧‧Portable measuring equipment

110‧‧‧ bearing seat

110a‧‧‧Base

111‧‧‧Fixed Department

113‧‧‧Sliding section

120‧‧‧ platform

121‧‧‧ magnet

130‧‧‧Microscope

131‧‧‧Assemble

140‧‧‧ display

141‧‧‧ marking

150‧‧‧Adjustment structure

151‧‧‧ screw

153‧‧‧Adjustment

160‧‧‧Measurer

161‧‧‧ Measuring head

163‧‧‧Display unit

200‧‧‧Portable measuring equipment

210‧‧‧Hosting

211‧‧‧ Fixed Department

213‧‧‧Sliding section

220‧‧‧ platform

221‧‧‧ Magnet

230‧‧‧Microscope

240‧‧‧ display

250‧‧‧Adjustment structure

260‧‧‧Measurer

263‧‧‧ display unit

D‧‧‧ Length

The above and other objects, features, advantages and embodiments of the present invention will become more apparent and understood. The description of the drawings is as follows: Figure 1 shows a portable quantity according to the first embodiment of the present invention. A schematic view of the measuring device.

2 is a side view of a portable measuring device in accordance with a first embodiment of the present invention.

3A and 3B are schematic diagrams showing the measurement process of a portable measuring device according to the present invention.

4 is a perspective view showing a portable measuring device according to a second embodiment of the present invention.

Figure 5 is a side elevational view of a portable measuring device in accordance with a second embodiment of the present invention.

Figure 6 is a top plan view of a portable measuring device in accordance with a second embodiment of the present invention.

Please refer to FIG. 1 and FIG. 2 simultaneously, which are respectively a perspective view and a side view of a portable measuring device according to a first embodiment of the present invention. The portable measuring device 100 of the embodiment mainly utilizes the magnifying object to be measured, so as to measure the contour and the surface shape of the object to be tested, and accurately align the points of the object to be tested, and achieve the amount. The purpose of measuring the length, width, angle or other related dimensions of tiny parts. In the present embodiment, the portable measuring device 100 includes a carrier 110, a platform 120, a microscope 130, a display 140, an adjustment structure 150, and a measuring device 160.

As shown in FIGS. 1 and 2, the carrier 110 includes a base 110a, a fixing portion 111, and a sliding portion 113. The fixing portion 111 and the sliding portion 113 are provided on the base 110a. In some examples, the base 110a is L-shaped in shape with a bottom plate and side plates that are joined to each other. In the present embodiment, the platform 120 is disposed on the fixed portion 111. The fixing portion 111 is a connecting member, and the fixing portion 111 can be fixed on the bottom plate of the base 110a by fixing, such as locking, fixing, magnetic attraction or welding. Thereby, the platform 120 can be fixed to the base 110a through the fixing portion 111. The platform 120 is mainly used to place the object to be tested. In one example, the platform 120 has a magnet 121 that can be used to attract and secure the object to be tested.

As shown in FIGS. 1 and 2, in the carrier 110, the sliding portion 113 is movable relative to the fixing portion 111. In some examples, the sliding portion 113 can be a slide table and can be slidably disposed below the platform 120 without being associated with the platform 120 contacts. In some examples, the microscope 130 is mounted on the sliding portion 113. In an exemplary embodiment, the microscope 130 can be attached to the sliding portion 113 through the mounting bracket 131 such that the microscope 130 is positioned above the platform 120. Thereby, when the sliding portion 113 moves relative to the fixed portion 111, the microscope 130 moves over the platform 120 to obtain an enlarged image of the object to be tested disposed on the platform 120.

Referring again to FIGS. 1 and 2, the adjustment structure 150 is coupled to the sliding portion 113, and the sliding portion 113 is controlled to move relative to the fixed portion 111. In some examples, the adjustment structure 150 includes a screw 151 and an adjustment member 153. The screw 151 is connected to the sliding portion 113. The adjusting member 153 is connected to the screw 151, and the screw 151 is rotated, so that the screw 151 drives the sliding portion 113 to move, so that the relative position of the microscope 130 and the platform 120 can be adjusted to obtain a relative moving distance. It is to be understood that the sliding portion 113 of the example shown in Figs. 1 and 2 moves relative to the fixed portion 111 along a single axial direction. In other examples, the sliding portion 113 can also be designed to move in a biaxial or multiaxial direction to meet different design requirements.

The display 140 is electrically connected to the microscope 130. The display 140 is mainly used to display an enlarged image of the object to be tested obtained by the microscope 130. In some examples, display 140 can be a cell phone display, a notebook computer display, or a tablet display. Thereby, the measuring personnel can operate the adjusting structure 150 to control the moving distance of the microscope 130 by viewing the enlarged image of the object to be tested displayed on the display 140. For those who want to be clear, the moving distance referred to here is the relevant size such as the length and width of the object to be tested.

Referring again to Figures 1 and 2, the measuring device 160 is placed in the bearing. On the carrier 110. In the present embodiment, the measuring device 160 is fixed to the side plate of the base 110a by means of a locking. In one example, the metric 160 can be an electronic gauge that includes a retractable probe 161. As shown in Fig. 2, the measuring head 161 of the measuring device 160 is abutted against the side of the mounting frame 131. Since the mounting bracket 131 is fixed to the sliding portion 113, when the sliding portion 113 moves a certain distance, the measurement is performed. The head 161 can further sense the moving distance of the microscope 130 disposed on the mount 131 and obtain the amount of displacement. In some examples, the metric 160 has a display unit 163 that directly displays the amount of displacement. In other embodiments, the metric 160 includes a transmission unit (not shown) that can transmit the measured amount of displacement to the display 140 for display.

Please refer to FIG. 1 , FIG. 3A and FIG. 3B simultaneously, wherein FIG. 3A and FIG. 3B are schematic diagrams showing a measurement process of a portable measuring device according to the present invention. In some examples, to measure the length of the object to be tested, the object to be tested may be first placed on the platform 120. At this time, the operator can see an enlarged image of the object to be tested transmitted from the microscope 130 through the display 140 (for example, as shown in FIG. 3A). Then, the position of the microscope 130 can be adjusted by adjusting the structure 150 to align one end of the enlarged image of the object to be inspected with the line 141 displayed by the display 140. At the same time, the gauge 160 is zeroed to define the starting position of the microscope 130. Then, the adjustment structure 150 is used again to adjust the position of the microscope 130 until the other end of the enlarged image of the object to be tested is aligned with the line 141 displayed by the display 140. In this way, the moving distance (displacement amount) of the microscope 130 measured by the measuring device 160 is the length D of the object to be tested.

In the present invention, the portable measuring device 100 can have different designs. Please refer to FIG. 4 to FIG. 6 , which are respectively a perspective view, a side view and a top view of a portable measuring device according to a second embodiment of the present invention. In the present embodiment, the portable measuring device 200 also includes a carrier 210, a platform 220, a microscope 230, a display 240, an adjustment structure 250, and a metric 260. As shown in FIG. 5, the carrier 210 includes a fixing portion 211 and a sliding portion 213, and the sliding portion 213 is movable relative to the fixing portion 211. In some examples, the carrier 210 can be a vernier caliper, and the fixed portion 211 refers to the main rule portion of the vernier caliper, and the sliding portion 213 refers to the sub-foot portion of the vernier caliper. In the present embodiment, the platform 220 is disposed on the sliding portion 213. In an example, the platform 220 can be fixed to the sliding portion 213 by a fixing method such as locking, cementing, magnetizing or welding, and can be moved along with the sliding portion 213. The platform 220 is mainly used to place the object to be tested. In one example, the platform 220 has a magnet 221 that can be used to adsorb and secure the object to be tested.

As shown in FIG. 5, in some examples, the microscope 230 is mounted on the fixing portion 211. In an exemplary embodiment, the microscope 230 can be attached to the fixed portion 211 through the mount 231 and the microscope 230 can be positioned above the platform 220. Thereby, when the sliding portion 213 moves relative to the fixing portion 211, the platform 220 can move under the microscope 230, whereby the microscope 230 can obtain an enlarged image of the object to be tested disposed on the platform 220.

Referring to FIG. 4 and FIG. 6 , the adjustment structure 250 can control the movement of the sliding portion 213 relative to the fixing portion 211 , thereby adjusting the relative position of the platform 220 and the microscope 230 to obtain a relative moving distance. The display 240 is electrically connected to the microscope 230. Display 240 is mainly used to display by microscope A magnified image of the object to be tested transmitted from 130. In an embodiment, display 240 can be a mobile phone display, a notebook computer display, or a tablet display. Thereby, the measuring personnel can operate the adjusting structure 250 to control the moving distance of the platform 220 by viewing the enlarged image of the object to be tested displayed on the display 240. For the sake of clarity, the moving distance referred to here is the length, width or other relevant size of the object to be tested.

As shown in FIGS. 4 to 6, the measuring device 260 is fixed to the sliding portion 213 and is located beside the platform 210. Therefore, when the sliding portion 213 moves relative to the fixed portion 211, the measuring device 260 can sense the moving distance of the platform 220 and the sliding portion 213, and can obtain the displacement amount. In some embodiments, the metric 260 has a display unit 263 that can display the amount of displacement. In other embodiments, the metric 260 includes a transmission unit (not shown) that can transmit the amount of displacement measured by the metric 260 to the display 240 for display.

The portable measuring device 200 of the present embodiment is used in the same manner as the portable measuring device 100 of the foregoing embodiment. When the length of the object to be tested is to be measured, the object to be tested may be first placed on the platform 220. At this time, the operator can see an enlarged image of the object to be tested transmitted from the microscope 130 through the display 240. Then, the position of the platform 220 can be adjusted by adjusting the structure 250 to align one end of the enlarged image of the object to be tested with the mark displayed on the display 240. At the same time, the metric 260 is zeroed to define the starting position of the platform 220. Then, the adjustment structure 250 is used again to adjust the position of the display platform 220 until the other end of the enlarged image of the object to be tested is aligned with the line indicated by the display 240. In this way, the moving distance (displacement amount) of the platform 220 measured by the measuring device 260 is the length of the object to be tested.

For the sake of clarity, the embodiment shown in FIGS. 3A and 3B is a screw for the object to be tested, and is not intended to limit the present invention. Since the microscopes 130 and 230 of the present invention have an amplification effect, the portable measuring devices 100 and 200 of the present invention can also be used as applications for viewing the distribution of microvessels and flow patterns of biological parts such as humans or animals.

According to the above-mentioned novel embodiment, the present invention utilizes an external display to clearly display the image of the object to be tested obtained by the microscope, thereby enabling the operator to more accurately and intuitively adjust the relative position between the microscope and the platform, and can be accurately Measure the length, width or other related dimensions of the object to be measured to improve measurement quality and accuracy. In addition, the portable measuring device of the present invention is small in size, simple in structure, and convenient to carry.

Although the present invention has been disclosed in the above embodiments, it is not intended to limit the present invention. Any one skilled in the art can make various changes and retouchings without departing from the spirit and scope of the present invention. The scope is subject to the definition of the scope of the patent application attached.

100‧‧‧Portable measuring equipment

110‧‧‧ bearing seat

110a‧‧‧Base

111‧‧‧Fixed Department

113‧‧‧Sliding section

120‧‧‧ platform

130‧‧‧Microscope

131‧‧‧Assemble

140‧‧‧ display

150‧‧‧Adjustment structure

160‧‧‧Measurer

161‧‧‧ Measuring head

163‧‧‧Display unit

Claims (10)

A portable measuring device comprises: a carrier, comprising a fixing portion and a sliding portion; a platform disposed on one of the fixing portion and the sliding portion, wherein the platform is adapted to be placed to be tested a microscope disposed on the other of the fixed portion and the sliding portion, wherein the microscope is located above the platform for obtaining an enlarged image of the object to be tested; and a display electrically connected to the microscope a microscope for displaying the enlarged image; an adjustment structure connecting the sliding portion for adjusting a relative position of the platform to the microscope to obtain a relative moving distance; and a measuring device disposed on the bearing seat It is used to measure the relative moving distance and obtain a displacement amount. The portable measuring device of claim 1, wherein the fixing portion is a connecting member, the platform is disposed on the connecting member; and the sliding portion is a sliding table and is not in contact with the platform, A microscope system is placed on the slide table. The portable measuring device of claim 2, wherein the adjusting structure comprises a screw and an adjusting member connected to the screw, the screw is connected to the sliding table, and the adjusting member is used for rotating the screw, so that the The screw drives the slide to move. The portable measuring device of claim 1, wherein the carrier is a vernier caliper. The portable measuring device of claim 4, wherein the platform is disposed on the sliding portion, and the microscope is disposed on the fixing portion. The portable measuring device of claim 1, wherein the measuring device has a display unit. The portable measuring device of claim 6, wherein the measuring device is an electronic meter. The portable measuring device of claim 1, wherein the measuring device further comprises a transmitting unit for transmitting the displacement amount to the display in the display. The portable measuring device of claim 1, wherein the display is a mobile phone display, a notebook computer display or a tablet computer display. The portable measuring device of claim 1, wherein the platform has a magnet for adsorbing the object to be tested.