TWM437388U - Pump with pressure gauge collection structure - Google Patents

Description

M437388 V. New description: [New technical field] This creation is about the structure of the floor-mounted pump. In particular, it refers to a structure of a floor-mounted pump that can be folded to reduce the body of the pump. [Prior Art] A general floor-mounted air pump 10 is mainly used for inflating a bicycle tire. In particular, the popularity of the bicycle has increased in recent years, and the sales amount of the floor pump 10 is also increased. As shown in FIG. 1 , the structure of the conventional air pump 10 is mainly provided with an intake cylinder 12 , a gas pipe 13 connecting the intake cylinder 12 and an inflation valve 14 , and a a pressure gauge 15 between the intake cylinder 12 and the air pipe 13, wherein the intake passage 121 of the intake cylinder 12 and the sensing structure 151 of the force table 15 and the air pipe 13 are connected to the base An internal air passage 111 of the 11 is connected to allow gas to enter the intake passage 121 of the intake cylinder 12 and flow into the air passage hi of the base 11 'the gas pressure of the gas is sensed when flowing through the pressure gauge 15 Finally, the gas flows to the air tube 13 and is controlled to inflate by inflating the inflation valve 14. It should be noted that the design of the air passage structure of the pump 10 can be used to detect the air pressure of the pressure gauge 15 in order to smoothly output the gas, and therefore the pressure gauge 15 is in use or stored. The horizontal setting makes the base 11 of the conventional pump 10 have a large footprint. 'There is also a large space for storage. However, most consumers who are keen on 3 M437388 bicycle sports live in urban areas. Therefore, there is a problem of limited living space, and the conventional pump ίο can not reduce the size of the structure when it is stored, and there is indeed room for improvement. [New content] The purpose of the present invention is to provide a pump with a pressure gauge folding structure, which mainly pivots a pressure gauge on the side of the pumping base by means of a pivoting member having an air passage structure inside. The pedestal, the frame member and the air passage structure inside the pressure gauge are designed to expand the pressure gauge to detect the air pressure during use, and to reduce the volume when the pressure gauge is closed during storage. According to the present invention, in accordance with the present invention, a pump having a pressure gauge folding structure includes a base, a cylinder disposed on the base, and a pivoting member. a pressure gauge on one side of the base, and an inflation valve connected to the pressure gauge, wherein the base is provided with a plurality of slots on the outside, and an air passage is disposed in the interior to communicate with the set of slots, and the base is externally provided In contrast, the pivoting portion and the pivoting portion are recessed-notched on the side of the pivoting portion, and the bottom of the concave opening is provided with a guide channel communicating with the air passage; Table (10) is provided with a mit' outer-side forming--a pivot-connecting-through hole communicating with the airflow path, such that the pressure gauge is reduced between the pivoting portion and the secret portion of the base, the pressure gauge rail The two ends (4) are in communication with the set hole of the reducing portion and the notch of the pivoting portion; the pivoting member is disposed through the group hole of the pivoting portion of the base and the through hole of the pressure recording, and the pivot The end of the connecting member is received in the recess of the pivoting portion of the base, and a guiding passage is connected to the guiding portion of the pivoting portion of the base And the air flow path of the pressure gauge, whereby the creation pivots the base and the pressure gauge through the joint, so that the inflation gas passes from the secret rail m through the guide channel, the connecting passage of the pivoting member, and the The airflow path of the pressure gauge is finally passed through the gas pipe to the inflation valve for inspection purposes. Under the premise of not significantly increasing the domain, the pressure gauge is designed to make the pressure gauge have a pivoting function. Reduce the storage volume. With regard to the techniques, means, and other effects of the present invention in order to achieve the above objects, a preferred embodiment is described in detail with reference to the drawings. [Embodiment] First, please refer to Figures 4 and 3 in Figures 2 and 3, and the present invention provides a preferred embodiment of an inflator having a Lili table folding structure, mainly comprising a pump comprising a base 20, the base 2 is provided with a single cylinder 30, and a pressure gauge 40 is pivotally disposed on the side of the base 2 by a pivoting member 50 and connected to an inflation valve 60, wherein: The base 20 is provided with a set of slots 21 on the outside of the base 20. The bottom of the set of slots 21 is provided with a gas outlet 211 and a passage 22 provided inside the base 20. The pedestal 20 is provided with a plurality of pivoting portions 23 and a pivoting portion 24. The frame portion 23 is provided with a plurality of holes 231. The pivoting portion 24 is opposite to the pivoting portion 23. A recess 241 ′ is defined in the side of the recess 241 and a guiding channel 25 is defined in the bottom of the recess 241 to communicate with the air passage 22 M437388. In the embodiment, as shown in FIG. 4 , the base 20 is disposed sideways. a port 221 and the air passage 22, and an airtight member 222 and a bead body 223 are disposed in the opening 221 to close the air passage 22; and, as shown in FIG. 5, the base 2 is defined The setting hole 231 of the pivoting portion 23 is opened in an X direction, and the guiding channel 25 of the base 20 is formed with a first segment 251, a second segment 252 and a third segment 253'. 251 is opened in the X direction from the bottom of the notch 241 of the pivoting portion 24, the third segment 253 is opened in the X direction and the middle portion is connected to the air passage 22, so that the second segment 252 is connected to the first portion a section 251 and the third section 253; wherein the second section 252 of the guide channel 25 extends and forms a port 242 on the side of the pivoting portion 24, and an airtight member 243 and a hole are formed in the opening 242. The bead body 244 is configured to close the second section 252 of the guiding channel 25; the third section 253 of the guiding channel 25 is extended and a port 233 is formed on the side of the pivoting portion 23. 234 and a bead 235 to close the third section 253 of the guiding channel 25; the cylinder 30, as shown in Figures 2 and 4, has a cylinder 31 having a bottom inside the cylinder 31 The plug valve 32 is fixed in the assembly groove 21 of the base 20, and the bottom plug valve 32 is formed with an air inlet 321 communicating with the air inlet 211 of the grouping groove 21, and the other end of the cylinder 31 There is a ring cover 33'. The ring cover 33 is provided with an inflating rod 34. The inflating rod 34 is disposed inside the cylinder block 31 and is provided with a piston 341, and the other end is formed as a grip 342. M437388 The pressure gauge 40, as shown in Figures 4 and 5, having a base 41, an airflow passage 411 is defined in the base 41, and a pivot block 42 is formed on one side of the base 41. The pivot block 42 defines a through hole 43. The air passage 411 is connected to the pivoting portion 42 of the pressure gauge 40 between the pivoting portion 23 of the base 20 and the pivoting portion 24. The two ends of the through hole 43 of the pressure gauge 40 are respectively associated with the pivoting portion The assembly hole 231 of the setting portion 23 and the notch 241 of the pivot portion 24 are in communication; the pivoting member 50, as shown in FIG. 5, is disposed through the assembly of the pivoting portion 23 of the base 20. The hole 231 and the through hole 43 of the pressure gauge 40, and the end of the pivoting member 50 is received in the recess 241 of the pivoting portion 24 of the base 20. The pivoting member 50 defines a connecting passage 51 therein. The channel 51 has two ports, one of which communicates with the guiding channel 25 of the pivoting portion 24 of the base 20, and the other port communicates with the air channel 411 of the base 41 of the pressure gauge 40; An internal thread 232 is disposed in the assembly hole 231 of the base 2 pivoting portion 23, and the pivoting member 5 is provided with an external thread 52 corresponding to the outside of the assembly hole 231, so that the external thread 52 is The internal thread 232 is engaged, and the pivoting member 50 is locked to the drag portion 23 of the base 2; further, the port at both ends of the through hole 43 of the pressure gauge is expanded and formed into a concave shape and each of the holes A ring member 432 is disposed in the recess 431, and the pivoting member 50 is received in the through hole 43 through the two ring members 432. The inflation valve 60' has the same as shown in the second and fourth figures. - the gas (4) is in communication with the gas flow path of the base 41 of the pressure gauge 4G, and the connecting portion of the gas pipe 61 and the air flow path 411 is connected by a connecting member, and the flow path of the 7 M437388 portion of the connecting member 62 communicates with the pressure. The air flow path 411 of the table 40 is piped to the gas pipe 61. The above is the main components of the authoring embodiment and the configuration description thereof. As for the operation mode and the function of the preferred embodiment of the present invention, the following description will be made. The airway structure of the present inflator, as shown in FIG. 4, when the gas enters the pumping cylinder 30 and is pressed by the pumping rod 34, the gas will enter the passage from the air inlet 321 of the bottom plug valve 32 through the air inlet port 211. Air passage 22, and then, as shown in Fig. 5, the gas flows into the third section 253 of the flow guide 25 and flows along the second section 252, the first section 251, and then the connecting passage of the pivoting member 5〇 51 flows into the air flow path 411 of the pressure gauge 40. As shown in FIG. 4, the pressure gauge 40 detects the pressure of the gas in the air flow path 411, and finally outputs the gas to the inflation valve 60 via the gas supply pipe 61. Inflatable use. In addition, please refer to Fig. 4, the external pressure gauge 40 of the creation pump is formed into a curved surface structure, and the pressure gauge 4 is pivoted in an unfolded state, and the pivot block 42 and the base are defined. The corresponding surface of the seat 20 is a first surface 421. When the pressure gauge 40 is pivoted into a folded state, the surface of the pivot block 42 corresponding to the base 20 is a second surface 422, and the first and second sides are Each of the faces 421, 422 is provided with a stop tab 423 for fixing the pressure gauge 40. In summary, as shown in FIGS. 2 and 3, the pump of the present invention not only connects the base 20 and the pressure gauge 40 through the pivoting member 50, but also connects the pivoting member of the base 20'. 50 and the air passage structure inside the pressure gauge 40, and the pressure gauge 40 has a function of expanding the air pressure as shown in Fig. 3 or detecting the air pressure as shown in Fig. 2, thereby effectively reducing the volume. M437388 [Simple description of the drawings] Fig. 1 is a schematic cross-sectional view showing a partial structure of a conventional pump. Figure 2 is a three-dimensional appearance of the creation of the inflator pressure gauge. Fig. 3 is a perspective view showing the three-dimensional appearance of the inflated pressure gauge of the present invention. Fig. 4 is a schematic cross-sectional view showing the state in which the inflator pressure gauge is unfolded. Fig. 5 is a cross-sectional view showing the structure of the fifth line of Fig. 5-5. [Main component symbol description]

"Knowledge" Inflator 10 Base 11 Air passage 111 Intake shaft 12 Intake port 121 Air tube 13 Inflator valve 14 Pressure gauge 15 Sensing structure 151 "This new type" Base 20 Set tank 21 Air inlet 211 Air passage 22 Port 221 Airtight member 222 Bead body 223 Pivot part 23 Set hole 231 Internal thread 232 Port 233 Airtight member 234 Bead 235 Fitting portion 24 Notch 241 Port 242 M437388 Airtight member 243 Guide channel 25 Two sections 252 Cylinders 30 Bottom valve 32 Ring cover 33 Piston 341 Pressure gauge 40 Air flow path 411 First side 421 Stop slide 423 Notch 431 Pole piece 5 0 External thread 52 Inflation valve 60 Connection piece 62 X-direction beads 244 First paragraph 251 Third paragraph 253 Cylinder block 31 Air inlet 321 Inflating rod 34 Grip 342 Base 41 Pole block 42 Second face 422 Through hole 43 Ring member 432 Connection passage 51 Air supply pipe 61

Claims (1)

M437388 VI. Scope of Application: • A pump with a pressure gauge folding structure, including: The base has a set of grooves on the outside, and the bottom of the set has a round port and a hole inside the base. The air passage is connected to the outside, and the outer portion of the base is slanted with a plurality of opposite portions and a pivot portion. The pivot portion is provided with a set of sling holes. The pole portion is recessed on a side opposite to the pivot portion. a notch, and a guiding channel is connected to the air passage at the bottom of the notch; a dozen cylinders are disposed in the grouping groove of the base, and an air inlet is formed and an air inlet of the cylinder is formed A pressure gauge has a base, an air flow passage is defined in the base, and a pivot block is formed on one side of the base, and the pivot block is connected with a through hole to communicate with the air flow passage to make the pressure gauge pivot block Between the pivoting portion of the base and the pivoting portion, the two ends of the through hole of the pressure gauge are respectively communicated with the assembling hole of the pivoting portion and the notch of the pivoting portion; 'wearing through the set hole of the base pivoting portion and the through hole of the pressure gauge, and the pivot The end of the piece is received in the recess of the pivoting portion of the base. The connecting piece has a connecting passage therein, and the connecting passage has two end ports, and one of the ports communicates with the guiding path of the pivoting portion of the base. The other port is in communication with the airflow passage of the pressure gauge base; and an inflation valve having an air conduit in communication with the airflow passage of the pressure gauge base. 2. The pumping 11 M437388 cylinder with a pressure gauge folding structure according to claim 1, wherein the outer portion of the pressure gauge is formed into a curved surface structure, and the pressure gauge is defined to be in an unfolded state. The face corresponding to the base of the block is a first face, and when the pressure gauge is turned into a folded state, the face corresponding to the base is a second face, and the first and second faces are Each has a stop slide. 3. The inflator of the pressure gauge folding structure according to claim 1, wherein the setting hole of the base pivoting portion is defined in a direction in which the guiding channel of the base is guided. Forming a first segment, a second segment and a third segment, the first segment is opened in the X direction from the bottom of the notch of the pivoting portion. The third segment is opened along the X direction and at a section thereof Communicating with the air passage, the second segment is connected to the first segment and the third segment. 4. The inflator of the pressure gauge folding structure according to claim 3, wherein the second section of the guiding channel extends from the side of the pivoting portion to form a through opening, and the opening is provided with a The airtight member and the bead body close the second section of the guiding channel. 5. The pump according to claim 3, wherein the third section of the guide channel is formed on a side of the frame portion to form a port, and the port is provided with a port. The airtight member and the bead body close the third section of the guiding channel. 6. The pump of the pressure gauge folding structure according to claim 1, wherein the base has a port and the air passage, and the air port and the bead are provided in the port. To close the airway. 7. The pumping 12 M437388 cylinder of the pressure gauge folding structure according to the first aspect of the patent application, wherein the ports of the through hole of the pressure gauge are expanded into two notches and each of the recesses is provided with a The ring member allows the pivoting member to be received inside the through hole through the two annular members. 8. The pump of the pressure gauge folding structure according to claim 1, wherein an internal thread is provided in the set hole of the base pivoting portion, and the pivoting member corresponds to the hole. The external portion is provided with an external thread to engage the external thread with the internal thread, and the pivoting member is locked to the pivoting portion of the base. 9. The pump of the pressure gauge folding structure according to claim 1 of the patent application, wherein the gas pipe of the gas valve has a connecting piece between the gas flow path of the pressure gauge, the connecting piece The internal flow passage communicates with the air flow passage of the pressure gauge and the gas pipeline. 10. The pump of the pressure gauge folding structure according to the above-mentioned item, wherein the cylinder has a cylinder body, and one end of the cylinder body is internally provided with a bottom plug valve and is fixed to the base The set is arranged in the groove, and the inlet port is formed with the inlet port. The gas port is connected with the gas supply port of the group of grooves. The other end of the cylinder body is provided with a ring and is worn by the gas pumping rod. It is placed inside the cylinder and is provided with a piston, and the other end is formed as a grip. 13