CN204972864U - Push -up training device - Google Patents

Abstract

The utility model discloses a push -up training device, prop the seat, locate including firsthand firsthand props a force cell sensor of foot stall face and locates firsthand props the first control ware in the seat, a force cell sensor with the first control ware is connected, wherein, a force cell sensor is right including being used for gathering the hand firsthand props the pressure size data of seat and the first dynamometry acquisition circuit of pressure oscillation data, and these pressure size data and this pressure oscillation data are first data, first dynamometry acquisition circuit with the first control ware is connected, the first control ware is used for the basis first data are in order to calculate the push -up number. The utility model discloses technical scheme can make push -up training device realize that automatic counting is in order to improve the count accuracy.

Description

Push-up trainer

Technical field

The utility model relates to body-building apparatus technical field, particularly a kind of push-up trainer.

Background technology

Push-up trainer is a kind of body-building apparatus of auxiliary exercise push-up, and its Main Function helps practitioner to improve upper limbs, chest, back and abdominal muscular strength, because its requisite space is little, and is widely applied.But existing push-up trainer does not generally possess automatic counting function, and practitioner is in order to reach certain amount of exercise, often needing to calculate the number oneself pressed your body up from the floor with your arms and then lower it slowly, so just making practitioner when carrying out push-up exercise, can only by manually counting.The mode of artificial counting, owing to being easily subject to external interference, therefore makes count results easily occur error.

Utility model content

Main purpose of the present utility model is to provide a kind of push-up trainer, is intended to realize push-up trainer Auto-counting to improve count accuracy.

For achieving the above object, the push-up trainer that the utility model proposes, the first force cell comprise first-hand support seat, being located at described first-hand support seat bottom surface and the first controller be located in described first-hand support seat, described first force cell is connected with described first controller; Wherein, described first force cell comprises for gathering the pressure size data of hand to described first-hand support seat and the first dynamometry Acquisition Circuit of pressure oscillation data, this pressure size data and pressure oscillation data are the first data, described first dynamometry Acquisition Circuit is connected with described first controller, and described first controller is used for according to described first data to calculate push-up number.

Preferably, described first-hand support seat comprises two first pedestals and connects the first handle of the first pedestal described in two, and wherein the bottom surface of the first pedestal described in each at least arranges the first force cell described in.

Preferably, described push-up trainer also comprises the first heart rate sensor be arranged on described first handle, described first heart rate sensor comprises and to be connected with described first controller and the first heart rate Acquisition Circuit for measuring heart rate variability signal, and this heart rate variability signal is the first signal.

Preferably, described push-up trainer also comprises the first circuit module be arranged in described first-hand support seat, described first circuit module comprises and being connected with described first dynamometry Acquisition Circuit, and for the first amplifier circuit that described first data and described first signal are amplified and be connected with described first amplifier circuit and described first controller respectively, and the A/D signaling conversion circuit for described first data and described first signal are carried out changing.

Preferably, described push-up trainer also comprises second-hand and supports seat, is located at described second-hand and supports the second force cell of a bottom surface and be located at described second-hand and support second controller in seat, and described second force cell is connected with described second controller; Wherein, described second force cell comprises and supports the pressure size data of seat and the second dynamometry Acquisition Circuit of pressure oscillation data for gathering hand to described second-hand, this pressure size data and pressure oscillation data are the second data, described second dynamometry Acquisition Circuit is connected with described second controller, and described second controller is used for according to described second data to calculate push-up number.

Preferably, described second-hand supports seat and comprises two second pedestals and connect the second handle of the second pedestal described in two, and the bottom surface of the second pedestal described in each at least arranges the second force cell described in.

Preferably, described push-up trainer also comprises the second heart rate sensor be arranged on described second handle, described second heart rate sensor comprises and to be connected with described second controller and the second heart rate Acquisition Circuit for measuring heart rate variability signal, and this heart rate variability signal is secondary signal.

Preferably, described push-up trainer also comprises and is arranged on described second-hand and supports second circuit module in seat, described second circuit module comprises and being connected with described second dynamometry Acquisition Circuit, and for the second amplifier circuit that described second data and described signal are amplified and be connected with described second amplifier circuit and described second controller respectively, and the 2nd A/D signaling conversion circuit for described second data and described secondary signal are carried out changing.

Preferably, described first-hand support seat is provided with the infrared transmission module be connected with described first controller, and described second-hand supports correspondence on seat and is provided with infrared receiving module, and described second-hand supports in seat the wireless communication module being also provided with and being connected with external smart terminal wireless.

Preferably, described first-hand support seat is also provided with the first display screen be connected with described first controller, described first display screen is in order to show the pressure size of hand to described first-hand support seat; Described second-hand supports second display screen seat being also provided with and being connected with described second controller, and described second display screen supports the pressure size of seat to the pressure size of described first-hand support seat and hand to described second-hand in order to show hand, compares to facilitate.

Technical solutions of the utility model are by employing first force cell detected pressures situation of change, and calculate push-up number by the first controller according to detected pressure changing, relative to the mode of artificial counting, the mode of this Auto-counting is not by external interference, count results is more accurate, and facilitates practitioner to operate.Because push-up trainer of the present utility model is changed by detected pressures to calculate push-up number, be not therefore subject to the impact of the factors such as practitioner's build and bearing height, thus effectively can avoid the generation of the Lou phenomenon such as meter, wrong meter.

Accompanying drawing explanation

Fig. 1 is the theory diagram of the utility model push-up trainer one embodiment;

Fig. 2 is the theory diagram of first-hand support seat in Fig. 1;

Fig. 3 is the exploded perspective view of support seat first-hand in the push-up trainer shown in Fig. 1;

Fig. 4 is the top view in Fig. 3 after first-hand support seat assembling;

Fig. 5 is the front view in Fig. 3 after first-hand support seat assembling;

Fig. 6 is the theory diagram that in Fig. 1, second-hand supports seat;

Fig. 7 supports the exploded perspective view of seat for second-hand in the push-up trainer shown in Fig. 1;

Fig. 8 be in Fig. 7 second-hand support seat assembling after top view;

Fig. 9 be in Fig. 7 second-hand support seat assembling after front view.

Drawing reference numeral illustrates:

Label	Title	Label	Title
				110	First force cell	210	Second force cell
111	First dynamometry Acquisition Circuit	211	Second dynamometry Acquisition Circuit
				120	First heart rate sensor	220	Second heart rate sensor
121	First heart rate Acquisition Circuit	221	Second heart rate Acquisition Circuit
				130	First circuit module	230	Second circuit module
131	First amplifier circuit	231	Second amplifier circuit
				132	One A/D signaling conversion circuit	232	2nd A/D signaling conversion circuit
140	First controller	240	Second controller
				150	First display screen	250	Second display screen
160	Infrared transmission module	260	Infrared receiving module
				170	First pedestal	270	Wireless communication module

180	First handle	280	Second pedestal
						290	Second handle

The realization of the utility model object, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Detailed description of the invention

Be described further with regard to the technical solution of the utility model below in conjunction with drawings and the specific embodiments.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

The utility model proposes a kind of push-up trainer.

Fig. 1 is the theory diagram of the utility model push-up trainer one embodiment; Fig. 2 is the theory diagram of first-hand support seat in Fig. 1; Fig. 3 is the exploded perspective view of support seat first-hand in the push-up trainer shown in Fig. 1; Fig. 4 is the top view in Fig. 3 after first-hand support seat assembling; Fig. 5 is the front view in Fig. 3 after first-hand support seat assembling; Fig. 6 is the theory diagram that in Fig. 1, second-hand supports seat; Fig. 7 supports the exploded perspective view of seat for second-hand in the push-up trainer shown in Fig. 1; Fig. 8 be in Fig. 7 second-hand support seat assembling after top view; Fig. 9 be in Fig. 7 second-hand support seat assembling after front view.

In the utility model embodiment, as shown in Figure 2, this push-up trainer comprises first-hand support seat, be located at the first force cell 110 of first-hand support seat bottom surface and the first controller 140, first force cell 110 be located in first-hand support seat is connected with the first controller 140; Wherein, first force cell 110 comprises for gathering the first dynamometry Acquisition Circuit 111 of hand to the pressure size data of first-hand support seat and pressure oscillation data, this pressure size data and pressure oscillation data are the first data, first dynamometry Acquisition Circuit 111 is connected with the first controller 140, the first controller 140 for according to the first data to calculate push-up number.

In the present embodiment, first-hand support seat is used for being placed on ground to support practitioner's hand, the pressure of practitioner's hand passes to the first force cell 110 through first-hand support seat, practitioner is in the process up and down pressed your body up from the floor with your arms and then lower it slowly, its pressure is regular change and forms the curve of cyclical fluctuations that has crest and trough, first force cell 110 can measure the pressure size of practitioner's push-up each time, the size variation of the number that the first controller 140 occurs according to crest and/or trough and pressure and calculate the number of push-up.

In the utility model, the first supporting seat is bottom surface in the face of the side on ground, and the side deviating from bottom surface is end face.

It should be noted that the first force cell 110 of the present utility model and the first controller 140 can be existing.

Technical solutions of the utility model are by employing first force cell 110 detected pressures situation of change, and calculate push-up number by the first controller 140 according to detected pressure changing, relative to the mode of artificial counting, the mode of this Auto-counting is not by external interference, count results is more accurate, and facilitates practitioner to operate.Because push-up trainer of the present utility model is changed by detected pressures to calculate push-up number, be not therefore subject to the impact of the factors such as practitioner's build and bearing height, thus effectively can avoid the generation of the Lou phenomenon such as meter, wrong meter.

Preferably, as shown in Figures 3 to 5, first-hand support seat comprises two first pedestals 170 and connects the first handle 180 of two first pedestals 170, and wherein the bottom surface of each the first pedestal 170 at least arranges one first force cell 110.In the present embodiment, two first pedestals 170 points are located at first handle 180 two ends, and first handle 180 be connected to first pedestal 170 end face central authorities, the first force cell 110 protrude from the first pedestal 170 bottom surface and and earth surface.Specifically one first force cell 110 can be set in the bottom surface central authorities of each the first pedestal 170, or also can be symmetrical arranged one first force cell 110 in the bottom surface of each the first pedestal 170 respectively near two ends place, and be conducive to the first pedestal 170 maintenance balance.In the present embodiment, first handle 180 is bent to form a U-shaped.

By the first force cell 110 being arranged on bottom surface central authorities or multiple first force cell 110 being symmetrical arranged, the pressure acted on different first force cell 110 is made to be similar to identical, and multiple first force cell 110 gathers the first data jointly, thus Acquisition Error can be reduced; And the first controller 140 comprehensively multiple first data calculate push-up number, thus can the error of calculation be reduced.

Further, as shown in Figures 2 and 3, push-up trainer also comprises the first heart rate sensor 120 be arranged on first handle 180, first heart rate sensor 120 comprises and to be connected with the first controller 140 and the first heart rate Acquisition Circuit 121 for measuring heart rate variability signal, and this heart rate variability signal is the first signal.In the present embodiment, when practitioner holds the first heart rate sensor 120, the first heart rate sensor 120 can detect practitioner's changes in heart rate, and this changes in heart rate is passed to the first controller 140.Also can arrange and the first controller 140 and external smart terminal in this first-hand support seat simultaneously, as the wireless communication module (not shown) that mobile phone connects, this wireless communication module is used for the data such as pressure size, pressure oscillation curve, changes in heart rate and push-up number to be sent to external smart terminal, checks for practitioner.In the present embodiment, by arranging the first heart rate sensor 120, practitioner's changes in heart rate can be detected, own bodies situation of change when facilitating practitioner to grasp exercise, threatening the generation of biological phenomena to avoid still continuing when heart rate is too high to take exercise.

For strengthening the frictional force between hand and first handle 180, preventing from skidding, first handle 180 arrange Anti-slip cover, and Anti-slip cover is arranged through hole appear for the first heart rate sensor 120 and and hand comes in contact.

Further, push-up trainer also comprises the first circuit module 130 be arranged in first-hand support seat, first circuit module 130 comprises and being connected with the first dynamometry Acquisition Circuit 111, and for the first amplifier circuit 131 that the first data and the first signal are amplified and be connected with the first amplifier circuit 131 and the first controller 140 respectively, and the A/D signaling conversion circuit 132 for the first data and the first signal are carried out changing.In the present embodiment, by the first data and the first signal being amplified, be conducive to follow-up identification and the process of the first controller 140.One A/D signaling conversion circuit 132 converts the virtual signal after amplification to data signal and inputs in the first controller 140, identifies for the first controller 140.

Further, as shown in Figure 6, push-up trainer also comprises second-hand and supports seat, is located at second-hand and supports the second force cell 210 of a bottom surface and be located at second controller 240, second force cell 210 that second-hand supports in seat and be connected with second controller 240; Wherein, second force cell 210 comprises and supports the pressure size data of seat and the second dynamometry Acquisition Circuit 211 of pressure oscillation data for gathering hand to second-hand, this pressure size data and pressure oscillation data are the second data, second dynamometry Acquisition Circuit 211 is connected with second controller 240, second controller 240 for according to the second data to calculate push-up number.In the present embodiment, the first supporting seat, for supporting a hand of practitioner, as left hand, to gather the pressure of left hand to first-hand support seat, and can measure the left hand pressure size of each push-up; Second supporting seat, for supporting the another hand of practitioner, i.e. the right hand, to gather the right hand to support seat pressure to second-hand, and can measure the right hand pressure size of each push-up.The pressure condition of the comprehensive right-hand man of second controller 240 calculates push-up number, makes the degree of accuracy of result of calculation higher.Certainly, in other embodiments, right-hand man also can be made all to hold with supportting seat on the other hand.

In addition, second-hand supports the wireless communication module (not shown) that can arrange equally in seat and be connected with second controller 240 and external smart terminal respectively, second data are passed to intelligent terminal by wireless communication module, compare the pressure size of right-hand man for practitioner.

Preferably, as shown in Figure 7 to 9, second-hand supports seat and comprises two second pedestals 280 and connect the second handle 290 of two second pedestals 280, and wherein the bottom surface of each the second pedestal 280 at least arranges one second force cell 210.In the present embodiment, two second pedestals 280 points are located at second handle 290 two ends, and second handle 290 be connected to second pedestal 280 end face central authorities, the second force cell 210 protrude from the second pedestal 280 bottom surface and and earth surface.Specifically one second force cell 210 can be set in the bottom surface central authorities of each the second pedestal 280, or also can be symmetrical arranged one second force cell 210 in the bottom surface of each the second pedestal 280 respectively near two ends place, and be conducive to the second pedestal 280 maintenance balance.In the present embodiment, second handle 290 is bent to form a U-shaped.

By the second force cell 210 being arranged on bottom surface central authorities or multiple second force cell 210 being symmetrical arranged, the pressure acted on different second force cell 210 is made to be similar to identical, and multiple second force cell 210 gathers the second data jointly, thus Acquisition Error can be reduced; And second controller 240 comprehensively multiple second data calculate push-up number, thus can the error of calculation be reduced.

Further, as shown in Figure 6 and Figure 7, push-up trainer also comprises the second heart rate sensor 220 be arranged on second handle 290, second heart rate sensor 220 comprises and to be connected with second controller 240 and the second heart rate Acquisition Circuit 221 for measuring heart rate variability signal, and this heart rate variability signal is secondary signal.In the present embodiment, when practitioner holds the second heart rate sensor 220, the second heart rate sensor 220 can detect practitioner's changes in heart rate, and this changes in heart rate is passed to second controller 240, and be sent to external smart terminal by wireless communication module 270, check for practitioner.In the present embodiment, by arranging the second heart rate sensor 220, practitioner's changes in heart rate can be detected, own bodies situation of change when facilitating practitioner to grasp exercise, threatening the generation of biological phenomena to avoid still continuing when heart rate is too high to take exercise.

For strengthening the frictional force between hand and second handle 290, preventing from skidding, second handle 290 arrange Anti-slip cover, and Anti-slip cover is arranged through hole appear for the second heart rate sensor 220 and and hand comes in contact.

Further, push-up trainer also comprises and is arranged on second-hand and supports second circuit module 230 in seat, second circuit module 230 comprises and being connected with the second dynamometry Acquisition Circuit 211, and for the second amplifier circuit 231 that the second data and secondary signal are amplified and be connected with the second amplifier circuit 231 and second controller 240 respectively, and the 2nd A/D signaling conversion circuit 232 for the second data and secondary signal are carried out changing.In the present embodiment, by the second data and secondary signal being amplified, be conducive to follow-up identification and the process of second controller 240.2nd A/D signaling conversion circuit 232 converts the virtual signal after amplification to data signal and inputs in second controller 240, identifies for second controller 240.

Further, as shown in Figure 1, first-hand support seat is provided with the infrared transmission module 160 be connected with the first controller 140, and second-hand supports correspondence on seat and is provided with infrared receiving module 260, and second-hand supports in seat the wireless communication module 270 being also provided with and being connected with external smart terminal wireless.In the present embodiment, store by the first data and the first signal transmission are supportted on seat to second-hand, and show on second display screen 250, make the contrast effect of the first data and the second data, the first signal and secondary signal more obvious.All data and all signals are passed to external smart terminal by wireless communication module 270 jointly.

Further, as shown in Figures 2 and 3, first-hand support seat is also provided with the first display screen 150, first display screen 150 of being connected with the first controller 140 in order to show the pressure size of hand to first-hand support seat; As shown in Figure 6 and Figure 7, second-hand supports the second display screen 250 seat being also provided with and being connected with second controller 240, and second display screen 250 supports the pressure size of seat to the pressure size of first-hand support seat and hand to second-hand in order to show hand, compares to facilitate.In the present embodiment, first display screen 150 is embedded at the side that the first pedestal 170 deviates from bottom surface, first circuit module 130 is arranged on below the first display screen 150, and the first circuit module 130 also comprises the first display driver circuit (not shown) be connected with the first display screen 150, the first controller 140 by the first display driver circuit to control the display of the first display screen 150.Similarly, second display screen 250 is embedded at the side that the second pedestal 280 deviates from bottom surface, second circuit module 230 is arranged on below second display screen 250, and second circuit module 230 also comprises the second display driver circuit (not shown) be connected with second display screen 250, second controller 240 passes through the second display driver circuit to control the display of second display screen 250.After the first data and the first signal transmission are supportted seat to second-hand by first-hand support seat, these first data and the first signal also can show on second display screen 250, with the pressure size facilitating practitioner to compare two hands.

By arranging the first display screen 150 to show the pressure condition of left hand, and show the push-up number calculated according to the pressure condition of left hand, by arranging second display screen 250 to show the pressure condition of the right hand, and show the push-up number that calculates according to the pressure condition of the right hand, thus practitioner can be facilitated to check and compare the pressure size etc. of right-hand man.

Particularly, as shown in Figure 1, when first-hand support seat is for supporting left hand exercise, when second-hand supports seat for supporting right hand exercise, first force cell 110 gathers the pressure of left hand, first heart rate sensor 120 measures changes in heart rate according to left hand simultaneously, left hand pressure and this changes in heart rate are passed to the first controller 140 after the first circuit module 130 is changed, and show on the first display screen 150, first controller 140 calculates push-up number according to left hand pressure gauge, also shows on the first display screen 150 in the lump.Similarly, second force cell 210 gathers the pressure of the right hand, second heart rate sensor 220 measures changes in heart rate according to the right hand simultaneously, right hand pressure and this changes in heart rate are passed to second controller 240 after second circuit module 230 is changed, and show on second display screen 250, second controller 240 calculates push-up number according to right hand pressure gauge, also shows on second display screen 250 in the lump.Left hand pressure and the changes in heart rate recorded according to left hand and push-up number are sent by infrared transmission module 160 by the first controller 140, and are received by infrared receiving module 260 and be stored in second-hand and to support in seat in a data storage (not shown).In the present embodiment, the transmit direction of this infrared transmission module 160 supports the infrared receiving module 260 on seat towards second-hand.Left hand pressure and the changes in heart rate recorded according to left hand and push-up number, right hand pressure and the changes in heart rate recorded according to the right hand and push-up number are passed to external smart terminal by wireless communication module 270 by second controller 240 in the lump.

Should be noted that; the technical scheme of each embodiment of the present utility model can be combined with each other; but must be can be embodied as basis with those skilled in the art; when technical scheme combination occur conflicting maybe cannot realize time people should think that the combination of this technical scheme does not exist, also not the utility model require protection domain within.

These are only preferred embodiment of the present utility model; not thereby the scope of the claims of the present utility model is limited; every equivalent structure transformation utilizing the utility model description and accompanying drawing content to do; or be directly or indirectly used in other relevant technical fields, be all in like manner included in scope of patent protection of the present utility model.

Claims (10)

1. a push-up trainer, it is characterized in that, the first force cell comprise first-hand support seat, being located at described first-hand support seat bottom surface and the first controller be located in described first-hand support seat, described first force cell is connected with described first controller; Wherein, described first force cell comprises for gathering the pressure size data of hand to described first-hand support seat and the first dynamometry Acquisition Circuit of pressure oscillation data, this pressure size data and this pressure oscillation data are the first data, described first dynamometry Acquisition Circuit is connected with described first controller, and described first controller is used for according to described first data to calculate push-up number.

2. push-up trainer as claimed in claim 1, is characterized in that, described first-hand support seat comprises two first pedestals and connects the first handle of the first pedestal described in two, and the bottom surface of the first pedestal described in each at least arranges the first force cell described in.

3. push-up trainer as claimed in claim 2, it is characterized in that, described push-up trainer also comprises the first heart rate sensor be arranged on described first handle, described first heart rate sensor comprises and to be connected with described first controller and the first heart rate Acquisition Circuit for measuring heart rate variability signal, and this heart rate variability signal is the first signal.

4. push-up trainer as claimed in claim 3, it is characterized in that, described push-up trainer also comprises the first circuit module be arranged in described first-hand support seat, described first circuit module comprises and being connected with described first dynamometry Acquisition Circuit, and for the first amplifier circuit that described first data and described first signal are amplified and be connected with described first amplifier circuit and described first controller respectively, and the A/D signaling conversion circuit for described first data and described first signal are carried out changing.

5. push-up trainer as claimed in claim 1, it is characterized in that, described push-up trainer also comprises second-hand and supports seat, is located at described second-hand and supports the second force cell of a bottom surface and be located at described second-hand and support second controller in seat, and described second force cell is connected with described second controller; Wherein, described second force cell comprises and supports the pressure size data of seat and the second dynamometry Acquisition Circuit of pressure oscillation data for gathering hand to described second-hand, this pressure size data and this pressure oscillation data are the second data, described second dynamometry Acquisition Circuit is connected with described second controller, and described second controller is used for according to described second data to calculate push-up number.

6. push-up trainer as claimed in claim 5, it is characterized in that, described second-hand supports seat and comprises two second pedestals and connect the second handle of the second pedestal described in two, and wherein the bottom surface of the second pedestal described in each at least arranges the second force cell described in.

7. push-up trainer as claimed in claim 6, it is characterized in that, described push-up trainer also comprises the second heart rate sensor be arranged on described second handle, described second heart rate sensor comprises and to be connected with described second controller and the second heart rate Acquisition Circuit for measuring heart rate variability signal, and this heart rate variability signal is secondary signal.

8. push-up trainer as claimed in claim 7, it is characterized in that, described push-up trainer also comprises and is arranged on described second-hand and supports second circuit module in seat, described second circuit module comprises and being connected with described second dynamometry Acquisition Circuit, and for the second amplifier circuit that described second data and described signal are amplified and be connected with described second amplifier circuit and described second controller respectively, and the 2nd A/D signaling conversion circuit for described second data and described secondary signal are carried out changing.

9. push-up trainer as claimed in claim 5, it is characterized in that, described first-hand support seat is provided with the infrared transmission module be connected with described first controller, described second-hand supports correspondence on seat and is provided with infrared receiving module, and described second-hand supports in seat the wireless communication module being also provided with and being connected with external smart terminal wireless.

10. push-up trainer as claimed in claim 9, it is characterized in that, described first-hand support seat is also provided with the first display screen be connected with described first controller, described first display screen is in order to show the pressure size of hand to described first-hand support seat; Described second-hand supports second display screen seat being also provided with and being connected with described second controller, and described second display screen supports the pressure size of seat to the pressure size of described first-hand support seat and hand to described second-hand in order to show hand, compares to facilitate.