JP6561240B1 - Advanced car engine equipment - Google Patents

Abstract

The present invention discloses an advanced automotive engine system. A frame includes a frame, a column fixed to the top of the frame, and a reversing body fixed to the top of the column, and a first cavity is installed in the reversing body, and a left side of the first cavity. In the reversing machine body, the first rotating shaft extends left and right and is engaged and connected by rotation, and a fixed connection frame extending from the left end surface of the reversing machine body is fixedly installed at the left end of the first rotating shaft, A drive gear extending and inserted into the first cavity is fixedly installed at the right end of the first rotation shaft, and an internal groove is installed in the right end surface of the drive gear. A first gear is transiently engaged in the first cavity on the side, the top end of the first gear is engaged and connected to the bottom end of the drive gear by power, and the right side of the first cavity A second cavity is installed in the reversing airframe of the second cavity, and penetrates between the second cavity and the first cavity. There are installed communication. [Selection] Figure 1

Description

The present invention covers the technical field of automobile engine equipment, and specifically is an advanced automobile engine apparatus.

With the development of science and technology, the maintenance technology of automobile engines is also improving, and since the engine can supply enough power, it is widely used in the automobile field, so the demand for maintenance of automobile engines is also great, Engine maintenance aids are now the focus of research. In conventional car engine maintenance, a single engine is maintained with a plurality of maintenance assist devices, the reversing work is complicated, and a lot of human power and resources are wasted. It becomes inconvenient to move the maintenance auxiliary device, and after the end of rotation, a slight rotation is likely to occur, affecting the maintenance work, and the function of the traditional maintenance auxiliary device is single, and the overall structure of the engine It is complicated, small parts such as bolts are produced when installing and disassembling the engine unit assembly, it is easy to lose without a good storage device, it becomes inconvenient for car engine maintenance, and car engine maintenance efficiency is greatly increased To drop.

Chinese Patent Application Publication No. 104533595

  The object of the present invention is to provide an advanced automobile engine device, which can solve the problems in the current technology.

An advanced automobile engine apparatus according to the present invention includes a frame, a support fixed to the top of the frame, and a reversing body fixed to the top of the supporting column, and a first cavity is installed in the reversing body. A fixed connection that extends from the left end surface of the reversing machine body to the left end of the first rotating shaft, and the first rotating shaft extends in the left-right direction into the reversing machine body on the left side of the first cavity. A frame is fixedly installed, a drive gear extending into the first cavity is inserted and fixed at the right end of the first rotation shaft, and an internal groove is installed in the right end surface of the drive gear. A first gear is transiently engaged and connected in the first cavity below the drive gear, the top end of the first gear is engaged and connected to the bottom end of the drive gear by power, A second cavity is installed in the reversing body on the right side of the first cavity, and the first cavity A through-groove is provided in communication between the cavity and the first cavity, and the first slide block is slidably engaged and connected in the second cavity, and is vertically extended in the first slide block. The adjusting screw is engaged and connected by a screw thread, and the bottom end of the adjusting screw is engaged and connected by power to a drive motor fixedly fitted in the inner bottom wall of the second cavity. A slope support groove is installed in the left end surface of the slide block, and a second slide block is engaged by sliding in the through groove, and the left end surface of the second slide block faces the internal groove. An external tooth block to be installed is fixedly installed, and a slope support block that is inserted into the right side end of the second slide block extending into the slope support groove and engaged with the slide is fixedly installed. Guide slide grooves are symmetrically installed on the upper and lower inner walls of the through groove, and a guide slide block fixedly engaged and connected to the second slide block is engaged and connected to the guide slide groove by sliding. A second rotating shaft is installed in the guide slide groove on the left side of the slide block so that the first spring is supported and engaged, and is extended in the left and right direction in the reversing body below the second cavity. Rotatingly engaged and connected, the left end of the second rotating shaft extends into the first cavity and is inserted into the first gear and fixedly engaged and connected to the right end of the second rotating shaft. A crown to be inserted and extended outside the right end surface of the airframe is fixedly installed, a first slide housing is installed in the reversing airframe on the right side of the second cavity, and the first slide housing and the second empty housing are installed. A communication housing is installed between the torso, A second rack is slidably engaged and connected in the communication housing, and a first rack that is engaged and connected by power to the left maximum circumscribed circle of the second gear in the right end surface of the first slide block. Installed, the first slide bar is slidably engaged in the first slide housing, and the right maximum circumscribed circle of the second gear is engaged and connected in the left end surface of the first slide bar. A first rack is fixedly installed on the top end surface of the first slide bar, and a storage device is installed in the top end surface of the reversing machine body.

Further technical plan, a sinking groove with an opening facing upward is installed in the top end surface of the frame on the left side of the column, an oil pan is installed in the sinking groove, and the bottom of the right end surface of the column A reinforcing rib that is fixedly engaged and connected to the top end surface of the frame is installed at a position close to the frame, and a moving roller constituting device is fixedly installed around the bottom of the column.

Further technical plan, the storage device includes a cover groove installed in a top end surface of the reversing machine body and a storage groove installed in an inner bottom wall of the cover groove, and the cover plate in the cover groove Is engaged and connected in transition, the right end of the cover plate is engaged and connected to the front and rear inner walls of the cover groove with a through connection shaft, and a keyhole groove is installed in the left end surface of the cover plate, A second slide housing is installed in the reversing machine body on the left side of the storage groove, and an extended portion of the bottom portion of the second slide housing is located on the opposite side to the left side of the cover groove, and the lower side of the storage groove A third slide casing that is installed to extend left and right is installed in the reversing machine body, and a left extension end of the third slide casing is connected to a bottom end of the second slide casing. Right end of slide housing The second slide bar is slidably connected to the top end of the first slide casing, and the third slide bar slides into the third slide casing. The second obliquely projecting block is fixedly installed at the right end of the third slide bar, a second spring is installed in the third slide housing on the left side of the third slide bar, A lock block in which the bottom end of the second slide bar is fixedly engaged and connected to the left extension end of the third slide bar, and is installed extending in the left and right direction in the portion between the second slide housing and the cover groove. Is engaged with the slide, and the left end of the lock block is fixedly engaged with the right end surface of the second slide bar.

  The beneficial effects of the present invention are as follows. The structure of the present invention is simple, the operation is convenient, the second rotating shaft and the first gear are driven and rotated through the crown, the first gear drives and rotates the driving gear, the first rotating shaft and the fixed connection frame, When reversing the automobile engine unit assembly is necessary and it is necessary to stop the reversing work, the adjusting screw is driven and rotated through the drive motor, and the first slide block is driven through the adjusting screw to gradually move into the second cavity. The slope support groove drives the slope support block and the second slide block to overcome the upper pressure of the first spring, and at the same time, the second slide block drives the external tooth block. It extends into one cavity and is inserted and moved to the side of the inner groove, at which time the first rack on the first slide block drives and rotates the second gear, and at the same time The second gear drives the second rack and the first slide bar and gradually slides toward the top of the first slide housing. At this time, the first obliquely projecting block at the top of the first slide bar is the second Engage with the slanted projecting block by sliding and realize that the second slanted projecting block drives the third slide bar to overcome the upper pressure of the second spring, and gradually slide the third slide bar to the third slide Slide in the left direction in the housing, and at the same time, the third slide bar drives the second slide bar and gradually slides in the left direction of the second slide housing. At this time, the second slide bar is in the lock block , And gradually slide away from the keyhole groove until the first slide block slides to the lowest position of the second cavity. Insert and realize the locking operation of the drive gear, and the crown is released, at the same time, the second slide bar slides to the leftmost position in the second slide housing, and the second slide bar locks the lock block Drives away from the keyhole groove as much as possible, opens the storage groove through opening the cover plate, and at the same time automatically controls the precise locking of the external tooth block and the internal groove The automatic control cover plate can be unlocked while the external tooth block and the internal groove are locked, greatly improving the safety and convenience of maintenance and preventing the loss of small parts. it can.

For ease of explanation, the present invention will be described in detail with reference to the following specific embodiments and accompanying drawings.

FIG. 1 is a schematic view of the overall structure of an advanced automobile engine device of the present invention. FIG. 2 is a schematic view of the internal structure of the reversing machine body of the present invention.

The present invention will be described in detail below with reference to FIGS.

As shown in FIGS. 1 and 2, an advanced automobile engine device according to an embodiment of the present invention includes a frame 6, a column 7 fixed to the top of the frame 6, and a reversing body 8 fixed to the top of the column 7. A first cavity 81 is installed in the reversing machine body 8, and a first rotating shaft 82 extends left and right in the reversing machine body 8 on the left side of the first cavity 81 and is engaged and connected by rotation. A fixed connection frame 821 extending from the left end surface of the reversing machine body 8 is fixedly installed at the left end of the first rotary shaft 82, and the first cavity 81 has a right end at the right end of the first rotary shaft 82. A drive gear 811 extending and inserted into the drive gear 811 is fixedly installed, an internal tooth groove 8110 is provided in the right end surface of the drive gear 811, and a first cavity 81 is formed in the first cavity 81 below the drive gear 811. One gear 813 is engaged and connected in transition, and the top end of the first gear 813 is engaged and connected to the bottom end of the drive gear 811 by power. A second cavity 85 is installed in the reversing airframe 8 on the right side of the cavity 81, and a through groove 83 is provided in communication between the second cavity 85 and the first cavity 81, so that the second cavity A first slide block 851 is slidably engaged in the body 85, and an adjustment screw 852 installed vertically extending in the first slide block 851 is engaged and connected by a screw thread. The bottom end is engaged and connected by power to a drive motor 855 fixedly fitted in the inner bottom wall of the second cavity 85, and a slope support groove 853 is installed in the left end surface of the first slide block 851. The second slide block 831 is slidably engaged in the through-groove 83, and the external tooth block 832 is fixed to the left end surface of the second slide block 831 so as to face the internal tooth groove 8110. Installed on the right end of the second slide block 831 A slope support block 833 extending and inserted into the slope support groove 853 and engaged with the slide is fixedly installed, and guide slide grooves 84 are symmetrically installed on the upper and lower inner walls of the through groove 83, and the guide slide A guide slide block 841 fixedly engaged and connected to the second slide block 831 in the groove 84 is engaged and connected by slide, and a first spring is inserted into the guide slide groove 84 on the left side of the guide slide block 841. 842 is engaged and connected, and a second rotary shaft 812 installed extending in the left and right direction in the reversing machine body 8 below the second cavity 85 is engaged and connected by rotation, and the second rotation The left end of the shaft 812 extends into the first cavity 81 and is fixedly engaged with the first gear 813. The right end of the second rotating shaft 812 is outside the right end surface of the reversing machine body 8. The crown 814 to be extended and inserted is fixedly installed, A first slide housing 86 is installed in the reversing body 8 on the right side of the two cavities 85, and a communication housing 863 is installed between the first slide housing 86 and the second cavity 85, A second gear 865 is engaged and connected in the communication housing 863 by slide, and is engaged and connected by power to the leftmost circumscribed circle of the second gear 865 in the right end surface of the first slide block 851. A first rack 854 is installed, a first slide bar 861 is slidably connected in the first slide housing 86, and a right side of the second gear 865 is inserted in a left end surface of the first slide bar 861. A second rack 864 that is engaged and connected to the maximum circumscribed circle by power is installed, and a first obliquely projecting block 862 is fixedly installed on the top end surface of the first slide bar 861, and is placed in the top end surface of the reversing machine body 8. A storage device is installed.

As shown as a useful example, a sinking groove 61 with an opening facing upward is installed in the top end surface of the frame 6 on the left side of the column 7, and an oil pan 63 is installed in the sinking groove 61. A reinforcing rib 71 fixedly engaged and connected to the top end surface of the frame 6 is installed at a position near the bottom of the right end surface of the support column 7, and a moving roller constituting device is provided around the bottom of the support column 7. 62 is fixedly installed, so that stable support and convenient transportation and movement can be realized.

As a beneficial example, the storage device includes a cover groove 89 installed in the top end surface of the reversing body 8 and a storage groove 894 installed in the inner bottom wall of the cover groove 89; A cover plate 891 is transiently engaged and connected in the cover groove 89, and a right end of the cover plate 891 is engaged and connected to the front and rear inner walls of the cover groove 89 by a through connection shaft 892, and the cover plate 891 A keyhole groove 893 is installed in the left end surface of the second slide housing 874, a second slide housing 874 is installed in the reversing body 8 on the left side of the storage groove 894, and an extended portion of the bottom of the second slide housing 874 Is located on the opposite side to the left side of the cover groove 89, and a third slide casing 87 is installed to extend in the left and right direction in the reversing machine body 8 below the storage groove 894, and the third slide casing The left extended end of the body 87 communicates with the bottom end of the second slide housing 874. And the right extended end of the third slide casing 87 is connected to the top end of the first slide casing 86, and the second slide bar 875 is engaged with the second slide casing 874 by sliding. A third slide bar 871 is slidably engaged in the third slide housing 87, and a second obliquely projecting block 872 is fixedly installed at the right end of the third slide bar 871, A second spring 873 is installed in the third slide casing 87 on the left side of the slide bar 871, and the bottom end of the second slide bar 875 is fixedly engaged with the left extension end of the third slide bar 871. A lock block 876 that is installed to extend in the left and right direction in a portion between the second slide housing 874 and the cover groove 89 is engaged with the slide, and a left end of the lock block 876 is connected to the second slide. Fixed to the right end of the bar 875 Is engaging contact, thereby realizing the automatic opening and closing operations of the storage, it can be mounted and bolts and small parts to produce during the decomposition is conveniently accommodated, increase inspection efficiency.

In the initial state, the first slide block 851 is positioned at the uppermost portion of the second cavity 85. At this time, the guide slide block 841 receives the upper pressure from the first spring 842, and the guide slide block 841 is guided to the guide slide groove 84. At the same time, the guide slide block 841 drives the external tooth block 832 to be completely located in the through groove 83 and maximally away from the first cavity 81, and the guide slide block 841 is inclined. The support block 833 is driven and inserted into the slope support groove 853 to the maximum extent. At this time, the first slide bar 861 is completely positioned in the first slide housing 86, and at the same time, the first slide bar 861 is One oblique projecting block 862 is driven and inserted into the third slide housing 87. At this time, the third slide bar 871 receives the upper pressure of the second spring 873, and the third slide bar 871 becomes the second oblique projecting block. Drive 872 to the maximum It is located on the right side of the third slide housing 87, and at the same time, the slope of the second obliquely projecting block 872 is engaged and connected by the slide while supporting the slope of the first obliquely projecting block 862. At this time, the third slide bar 871 Drives the second slide bar 875 and is slid to the rightmost side of the second slide housing 874. At the same time, the cover plate 891 is completely positioned in the cover groove 89, and at this time, the second slide bar 875 is locked. The right end of the block 876 is driven to extend to the keyhole 893 to the maximum extent.

When installation and maintenance are required, the unit assembly of the automobile engine is first fixedly engaged and connected to the fixed connection frame 821, and the second rotary shaft 812 and the first gear 813 are driven and rotated through the crown 814, and the first One gear 813 drives and rotates the drive gear 811, the first rotating shaft 82 and the fixed connection frame 821 to realize the reversing work of the unit assembly of the automobile engine, and when the reversing work needs to be stopped, it is adjusted through the driving motor 855. The screw 852 is driven and rotated, and the first slide block 851 is driven through the adjustment screw 852 to be gradually slid to the bottom of the second cavity 85, and the slope support groove 853 is provided with the slope support block 833 and the second slide block 831. To overcome the upper pressure of the first spring 842, and at the same time, the second slide block 831 drives the external tooth block 832 and extends into the first cavity 81 and is inserted. The first rack 854 on the first slide block 851 drives and rotates the second gear 865, and at the same time, the second gear 865 moves to the second rack 864. And the first slide bar 861 is driven and gradually slides toward the top of the first slide housing 86. At this time, the first oblique projecting block 862 at the top of the first slide bar 861 is the second oblique projecting block. The second diagonally projecting block 872 drives the third slide bar 871 and overcomes the upper pressure of the second spring 873 by supporting it with the slide 872 and gradually moving the third slide bar 871 to the first. At the same time, the third slide bar 871 drives the second slide bar 875 and gradually slides it to the left side of the second slide housing 874. Two slide bars 875 drive lock block 876 At this time, until the first slide block 851 slides to the lowest position of the second cavity 85, the external tooth block 832 is completely inserted into the internal concave groove 8110. Extending and inserting, realizing the locking operation of the driving gear 811 and the crown 814 is released, at the same time, the second slide bar 875 slides to the leftmost position in the second slide housing 874, and the second The slide bar 875 drives the lock block 876 so that it is separated from the keyhole groove 893 as much as possible, and the opening operation of the storage groove 894 is realized through the opening of the cover plate 891.

An engineer in this field can clarify the case where it does not depart from the general spirit and idea of the present invention. Various modifications can be made to the above-described embodiments, and these modifications are all within the protection scope of the present invention. The protection scheme of the present invention should be based on the rights claim of the present invention.

Claims (1)

A reversing body fixed to the top of the frame, a support post fixed to the top of the frame, and a reversing airframe fixed to the top of the support; The first rotating shaft extends in the left and right and is engaged and connected by rotation, and a fixed connection frame extending from the left end surface of the reversing machine body is fixedly installed at the left end of the first rotating shaft, and the first rotating shaft A drive gear extending and inserted into the first cavity is fixedly installed at the right end of the drive gear, an internal tooth groove is installed in the right end surface of the drive gear, A first gear is transiently engaged and connected in one cavity, the top end of the first gear is engaged and connected to the bottom end of the drive gear by power, and the reversing body on the right side of the first cavity A second cavity is installed in the interior, and a through groove is provided between the second cavity and the first cavity. A first slide block is engaged with the second cavity by sliding, and an adjustment screw installed vertically extending in the first slide block is engaged and connected by a screw thread; The bottom end of the first cavity is engaged and connected to a drive motor fixedly fitted in the inner bottom wall of the second cavity, and a slope support groove is installed in the left end surface of the first slide block. A second slide block is slidably engaged in the through-groove, and an external tooth block is installed on the left end surface of the second slide block so as to face the inner tooth groove, and the second slide block is fixedly installed. A slope support block that is inserted into the slope support groove and is slidably engaged with the slope support groove is fixedly installed at the right end of the guide groove, and guide slide grooves are formed on the upper and lower inner walls of the through groove. A guide slide block is installed in the guide slide groove and fixedly engaged with the second slide block in the guide slide groove. The guide slide block is engaged with and connected to the left side of the guide slide block. And a second rotary shaft installed extending in the left and right direction in the reversing body below the second cavity is engaged and connected by rotation, and the second rotation A crown that has a left end of the shaft extending and inserted into the first cavity and is fixedly engaged and connected to the first gear, and is inserted into the right end of the second rotating shaft so as to extend outside the right end surface of the reversing machine body. Is fixedly installed, a first slide housing is installed in the reversing body on the right side of the second cavity, and a communication housing is installed between the first slide housing and the second cavity. The second gear is engaged by sliding in the communication housing A first rack connected and connected by power to the left maximum circumscribed circle of the second gear is installed in the right end surface of the first slide block, and the first slide is installed in the first slide housing. The bar is engaged and connected by slide, and a second rack is installed in the left end surface of the first slide bar to be engaged and connected by power to the maximum circumscribed circle on the right side of the second gear. A first obliquely projecting block is fixedly installed on the top end surface, a storage device is installed in the top end surface of the reversing machine body, and a sinking groove with an opening facing upward is formed in the top end surface of the frame on the left side of the column. An oil pan is installed in the sinking groove, and a reinforcing rib fixedly connected to the top end surface of the frame is installed at a position near the bottom of the right end surface of the support column. All around the bottom A moving roller constituting device is fixedly installed, and the storage device includes a cover groove installed in a top end surface of the reversing machine body and a storage groove installed in an inner bottom wall of the cover groove, The cover plate is engaged and connected in transition, the right end of the cover plate is engaged and connected to the front and rear inner walls of the cover groove by a through connection shaft, and a keyhole groove is formed in the left end surface of the cover plate. A second slide housing is installed in the reversing machine body on the left side of the storage groove, and an extended portion of the bottom of the second slide housing is located on the opposite side to the left side of the cover groove, and the storage A third slide casing that is installed to extend left and right is installed in the reversing machine body below the groove, and a left extension end of the third slide casing is connected to a bottom end of the second slide casing. The third slide A right extending end of the body communicates with a top end of the first slide housing, and a second slide bar is slidably engaged in the second slide housing; A third slide bar is engaged and connected by a slide, a second obliquely projecting block is fixedly installed at the right end of the third slide bar, and a second slide housing is provided in the third slide housing on the left side of the third slide bar. A spring is installed, and the bottom end of the second slide bar is fixedly engaged and connected to the left extension end of the third slide bar, and extends left and right in a portion between the second slide housing and the cover groove. An advanced automobile engine device characterized in that a lock block installed by sliding is engaged and connected by a slide, and a left end of the lock block is fixedly engaged and connected to a right end surface of the second slide bar.

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