阅读说明：本技术 一种自动化地脚膨胀螺丝旋进设备 (Automatic ground pin expansion screw screwing-in equipment ) 是由 何燕娟 于 2020-05-25 设计创作，主要内容包括：本发明涉及一种室内装修设备,尤其涉及一种自动化地脚膨胀螺丝旋进设备。本发明的技术问题是：提供一种能够自动对膨胀螺丝进行锤击、在锤击完成后进行自动旋进、提升施工效率的自动化地脚膨胀螺丝旋进设备。本发明的技术实施方案为：一种自动化地脚膨胀螺丝旋进设备,底板,底板内侧设有连接板,第一导轨安装于连接板上,第一导套滑动式套装在第一导轨上,其数量为两组,移动架安装于第一导套上。本发明通过采用旋转盘上设置的内齿块和外齿块来带动锤头上下移动对膨胀螺丝进行锤击的方式,使膨胀螺丝能够被自动进行锤击,避免人工手持工具进行存在的危险性,且能够使锤击方向保持竖直。(The invention relates to indoor decoration equipment, in particular to automatic ground foot expansion screw screwing-in equipment. The technical problem of the invention is that: the utility model provides a can carry out the hammering automatically to the inflation screw, carry out automatic precession, promote the automatic lower margin inflation screw precession equipment of efficiency of construction after the hammering is accomplished. The technical implementation scheme of the invention is as follows: the utility model provides an automatic change lower margin inflation screw precession equipment, the bottom plate inboard is equipped with the connecting plate, and first guide rail is installed on the connecting plate, and first guide pin bushing slidingtype suit is on first guide rail, and its quantity is two sets of, moves the frame and installs on first guide pin bushing. According to the invention, the inner tooth block and the outer tooth block arranged on the rotating disk are adopted to drive the hammer head to move up and down to hammer the expansion screw, so that the expansion screw can be automatically hammered, the danger existing in manual hand-held tools is avoided, and the hammering direction can be kept vertical.)

1. The utility model provides an automatic change lower margin inflation screw precession equipment which characterized by, including:

the device comprises a base plate (1), a connecting plate (2) is arranged on the inner side of the base plate (1), first guide rails (3) are arranged on the connecting plate (2), first guide sleeves (4) are sleeved on the first guide rails (3) in a sliding mode, the number of the first guide sleeves is two, and a moving frame (5) is arranged on the first guide sleeves (4);

the lifting plate (6) and the connecting plate (2) are positioned on the same plane, the lifting plate (6) is installed on the lower side of the moving frame (5), the first bearing seat (7) is installed in the lifting plate (6), the first bearing seat (7) is internally connected with an inner hexagonal sleeve (8), and a tooth column (9) is fixedly sleeved on the outer side of the inner hexagonal sleeve (8);

the number of the brackets (10) is at least one, and the brackets (10) are arranged on one side, close to the inner hexagonal sleeve (8), of the bottom plate (1);

the hammering device (11) is arranged between the supports (10) and positioned on the inner hexagonal sleeve (8), and the hammering device (11) is used for hammering the foundation expansion screw;

the driving device (13) is arranged on the fixed frame (12), and the driving device (13) is used for providing power for driving the equipment to run;

the mounting rack (14) is connected to the position, located in the driving device (13), of the fixing rack (12);

the swinging device (15) is arranged on one side of the mounting frame (14) far away from the fixing frame (12), the swinging device (15) is matched with the hammering device (11), and the driving device (13) provides power for the swinging device (15).

2. An automated anchor expansion screw driving apparatus according to claim 1, wherein the hammering device (11) comprises:

the second guide sleeve (111), the second guide sleeve (111) is arranged on the upper side of the bracket (10) and is positioned above the inner hexagonal sleeve (8), and a second guide rail (112) is matched in the second guide sleeve (111);

the hammer head (113), the hammer head (113) is installed on the lower side of the second guide rail (112), the hammer head (113) is located above the inner hexagonal sleeve (8), potential energy is provided when the hammer head (113) is used for hammering the anchor expansion screw, an elastic piece (114) is connected between the hammer head (113) and the second guide sleeve (111), and the elastic piece (114) is used for providing elastic force and increasing the falling potential energy of the hammer head (113);

the lifting frame (115) is installed on one side, close to the installation frame (14), of the hammer head (113), the lifting frame (115) is located on the position of the swinging device (15) and is connected with the contact block (116), and the contact block (116) can be matched with the swinging device (15).

3. An automated foundation expansion screw driving device according to claims 1-2, characterized in that the driving means (13) comprises:

the second bearing block (131), the second bearing block (131) is installed on the mounting frame (14), and the rotating ring (132) is installed in the second bearing block (131);

the side, close to the fixed frame (12), of the rotating ring (132) is connected with the first circular gear (133), a speed reducing motor (134) is arranged on the side, close to the first circular gear (133), of the upper side of the fixed frame (12), the speed reducing motor (134) is used for providing power, the output shaft of the speed reducing motor (134) is connected with the second circular gear (135), and the second circular gear (135) is meshed with the first circular gear (133);

the rotary disc (136), rotary disc (136) are installed and are kept away from on mount (12) one side position in rotatory ring (132), at least three internal tooth piece (137) of group are equipped with in rotary disc (136) inside, internal tooth piece (137) and pendulous device (15) cooperation, rotary disc (136) outside is equipped with at least three external tooth piece (138) of group, external tooth piece (138) and pendulous device (15) cooperation, external tooth piece (138) and internal tooth piece (137) are in the coplanar and the position staggers each other.

4. An automated foundation expansion screw precession apparatus according to claims 1-3, characterised in that the oscillating device (15) comprises:

the fixing rod (151), the fixing rod (151) is installed on one side of the mounting rack (14) close to the rotating disc (136);

the damping rotating shaft (152) is arranged on one side, close to the rotating disc (136), of the fixing rod (151), the damping rotating shaft (152) is used for keeping stable when the damping rotating shaft (152) is not driven to rotate, one side, close to the rotating disc (136), of the damping rotating shaft (152) is connected with a transmission gear (153), the damping rotating shaft (152) is located below the contact block (116) and is connected with a swing rod (154), and the swing rod (154) is matched with the contact block (116);

the first rotating rod (155), the first rotating rod (155) is arranged on the upper position of the fixed rod (151) and below the damping rotating shaft (152), a first gear drum (156) is connected to the other side of the first rotating rod (155), the first gear drum (156) is meshed with the transmission gear (153), and the first gear drum (156) is meshed with the internal gear block (137);

and the second rotating rod (157), the second rotating rod (157) is arranged on the fixed rod (151) and positioned above the damping rotating shaft (152), the other side of the second rotating rod (157) is connected with a second gear cylinder (158), the second gear cylinder (158) is meshed with the transmission gear (153), and the second gear cylinder (158) is meshed with the outer gear block (138).

5. An automated foundation expansion screw driving apparatus according to claims 1-4, further comprising a transmission means (16), the transmission means (16) comprising:

the first connecting frame (161) is arranged on the mounting frame (14) and close to one side of the fixing rod (151), a third rotating rod (162) is rotatably connected to the first connecting frame (161) and close to one side of the toothed column (9), a third circular gear (163) is connected to the third rotating rod (162), and the third circular gear (163) is meshed with the toothed column (9);

second link (164), second link (164) are installed in first link (161) one side, the nearly rotary disk (136) one side rotary type of second link (164) is connected with fourth bull stick (165), be connected with between fourth bull stick (165) and third bull stick (162) and take transmission assembly (166), the opposite side rotary type of the nearly rotary disk (136) of second link (164) is connected with fifth bull stick (167), be connected with gear drive assembly (168) between fifth bull stick (167) and fourth bull stick (165), fifth bull stick (167) opposite side is connected with fourth round gear (169), the rotary disk (136) outside is connected with side tooth piece (1610), side tooth piece (1610) and fourth round gear (169) meshing.

6. An automated foundation expansion screw driving apparatus according to claims 1 to 5, comprising:

the contact wheel (171), the contact wheel (171) is installed on the moving frame (5) and is positioned above the rotating disk (136);

the arc-shaped disc (172), the arc-shaped disc (172) is installed on the outer side of the rotating disc (136), and the arc-shaped disc (172) and the transmission device (16) are not in the same plane.

7. An automated foundation expansion screw driving device according to claims 1-6, characterized in that the resilient member (114) is a spring.

8. An automated foundation expansion screw driving device according to claims 1-6, characterized in that the belt drive assembly (166) is a belt drive.

9. An automated foundation expansion screw precession apparatus according to claims 1-6, characterised in that the gear drive assembly (168) is a bevel gear drive.

Technical Field

The invention relates to indoor decoration equipment, in particular to automatic ground foot expansion screw screwing-in equipment.

Background

At present, in the process of indoor decoration, expansion screws need to be drilled in advance for wall-mounted or ground-mounted building materials, the process needs to be performed at the positions where the expansion screws are mounted in advance, then the expansion screws are placed in holes, the expansion screws are hammered into the holes, nuts of the expansion screws are rotated, the expansion screws are expanded in the holes, the expansion screws are stable in the holes, in the process of mounting the expansion screws, the expansion screws are hammered into the holes and screwed into the expansion screws through two tools and two processes, namely, manual hand-held hammers are needed to hammer the expansion screws, and then the nuts of the expansion screws are screwed through a spanner.

By the shortcoming that exists among the interior decoration process mentioned above, need design one kind and can carry out the hammering to the inflation screw automatically, carry out automatic precession after the hammering is accomplished, promote the automatic lower margin inflation screw precession equipment of efficiency of construction and overcome the shortcoming that needs artifical hammering, needs artifical precession, inefficiency security that the construction exists at present.

Disclosure of Invention

In order to overcome the defects of manual hammering, manual precession and low efficiency and safety existing in the prior construction, the invention has the technical problems that: the utility model provides a can carry out the hammering automatically to the inflation screw, carry out automatic precession, promote the automatic lower margin inflation screw precession equipment of efficiency of construction after the hammering is accomplished.

The technical implementation scheme of the invention is as follows: an automatic ground expansion screw precession equipment, including: the movable frame comprises a bottom plate, a first guide rail, a second guide rail, a first guide sleeve and a second guide sleeve, wherein a connecting plate is arranged on the inner side of the bottom plate; the lifting plate and the connecting plate are positioned on the same plane, the lifting plate is arranged on the lower side of the moving frame, the first bearing seat is arranged in the lifting plate, an inner hexagonal sleeve is connected in the first bearing seat, and a tooth column is fixedly sleeved on the outer side of the inner hexagonal sleeve; the number of the brackets is at least one group, and the brackets are arranged on one side of the bottom plate, which is close to the inner hexagonal sleeve; a hammering device is arranged between the brackets and positioned at the position of the inner hexagonal sleeve, and the hammering device is used for hammering the foundation expansion screw; the driving device is arranged on the fixed frame and used for providing power for driving the equipment to run; the mounting rack is connected to the position, located in the driving device, of the fixing rack; and the swinging device is arranged on the position of one side, away from the fixed frame, of the mounting frame, the swinging device is matched with the hammering device, and the driving device provides power for the swinging device.

In a preferred embodiment of the present invention, the hammering apparatus comprises: the second guide sleeve is arranged on the upper side of the bracket and is positioned above the inner hexagonal sleeve, and a second guide rail is matched in the second guide sleeve; the hammer head is arranged on the lower side of the second guide rail and positioned above the inner hexagonal sleeve, the hammer head is used for providing potential energy when hammering the anchor expansion screw, an elastic part is connected between the hammer head and the second guide sleeve, and the elastic part is used for providing elastic force and increasing the falling potential energy of the hammer head; the lifting frame is arranged on one side, close to the mounting frame, of the hammer head, the lifting frame is located on the position of the swinging device and is connected with the contact block, and the contact block can be matched with the swinging device.

In a preferred embodiment of the present invention, the driving device includes: the second bearing seat is arranged on the mounting frame, and the rotating ring is arranged in the second bearing seat; the side, close to the fixed frame, of the rotating ring is connected with a first circular gear, a speed reducing motor is arranged on the side, close to the first circular gear, of the upper side of the fixed frame and used for providing power, an output shaft of the speed reducing motor is connected with a second circular gear, and the second circular gear is meshed with the first circular gear; the rotary disk is installed on the position, far away from one side of the fixing frame, of the rotary ring, at least three groups of inner tooth blocks are arranged inside the rotary disk, the inner tooth blocks are matched with the swinging device, at least three groups of outer tooth blocks are arranged on the outer side of the rotary disk, the outer tooth blocks are matched with the swinging device, and the outer tooth blocks and the inner tooth blocks are located on the same plane and staggered in position.

In a preferred embodiment of the present invention, the swing device comprises: the fixed rod is arranged on one side of the mounting rack, which is close to the rotating disc; the damping rotating shaft is arranged on one side, close to the rotating disc, of the fixed rod and is used for keeping stable when the damping rotating shaft is not driven to rotate; the first rotating rod is arranged on the upper position of the fixed rod and below the damping rotating shaft, the other side of the first rotating rod is connected with a first gear drum, the first gear drum is meshed with the transmission gear, and the first gear drum is meshed with the internal tooth block; and the second rotating rod is arranged on the fixed rod and positioned above the damping rotating shaft, the other side of the second rotating rod is connected with a second gear cylinder, the second gear cylinder is meshed with the transmission gear, and the second gear cylinder is meshed with the external tooth block.

In a preferred embodiment of the present invention, the present invention further comprises a transmission device, the transmission device comprises: the first connecting frame is arranged on the mounting frame at a position close to one side of the fixed rod, a third rotating rod is rotatably connected to the first connecting frame at a position close to one side of the toothed column, a third circular gear is connected to the third rotating rod, and the third circular gear is meshed with the toothed column; the second link, the second link is installed in first link one side, the nearly rotary disk one side rotary type of second link is connected with the fourth bull stick, be connected with between fourth bull stick and the third bull stick and take drive assembly, the opposite side rotary type of the nearly rotary disk of second link is connected with the fifth bull stick, be connected with gear drive assembly between fifth bull stick and the fourth bull stick, the fifth bull stick opposite side is connected with the fourth circular gear, the rotary disk outside is connected with the side tooth piece, side tooth piece and fourth circular gear meshing.

In a preferred embodiment of the present invention, the method further comprises: the contact wheel is arranged on the movable frame and positioned above the rotating disc; the arc-shaped disc is arranged on the outer side of the rotating disc, and the arc-shaped disc and the transmission device are not positioned on the same plane.

In a preferred embodiment of the present invention, the elastic member is a spring.

In a preferred embodiment of the invention, the belt drive assembly is a belt drive.

In a preferred embodiment of the invention, the gear assembly is a bevel gear drive.

Compared with the prior art, the invention has the following advantages: 1. according to the invention, the inner tooth block and the outer tooth block arranged on the rotating disk are adopted to drive the hammer head to move up and down to hammer the expansion screw, so that the expansion screw can be automatically hammered, the danger caused by manually holding a tool is avoided, the hammering direction can be kept vertical, and the expansion screw cannot be inclined.

2. The mode that the side tooth piece that sets up through adopting on the rotary disk drives tooth post and hexagon socket head cap and carries out the rotation can make hexagon socket head cap screw automatically after hammering inflation screw is accomplished, makes inflation screw's the process of screwing also need not artifical the going on, has improved degree of automation, has further reduced danger.

3. The mode that rises is driven automatically to the lifter plate through the arc dish that adopts setting up on the rotary disk, can make the interior hexagonal cover rather than breaking away from automatically after the inflation screw is screwed, has promoted the operation convenience of this equipment.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a third perspective view of the present invention.

Fig. 4 is a schematic perspective view of a hammering apparatus according to the present invention.

Fig. 5 is a schematic perspective view of the driving device of the present invention.

Fig. 6 is a schematic perspective view of the swing device of the present invention.

Fig. 7 is a schematic perspective view of the transmission device of the present invention.

The parts are labeled as follows: 1. a base plate, 2, a connecting plate, 3, a first guide rail, 4, a first guide sleeve, 5, a movable frame, 6, a lifting plate, 7, a first bearing seat, 8, an inner hexagonal sleeve, 9, a toothed column, 10, a bracket, 11, a hammering device, 12, a fixed frame, 13, a driving device, 14, a mounting frame, 15, a swinging device, 111, a second guide sleeve, 112, a second guide rail, 113, a hammer head, 114, an elastic member, 115, a lifting frame, 116, a contact block, 131, a second bearing seat, 132, a rotating ring, 133, a first circular gear, 134, a reduction motor, 135, a second circular gear, 136, a rotating disk, 137, an inner toothed block, 138, an outer toothed block, 151, a fixing rod, 152, a damping rotating shaft, 153, a transmission gear, 154, a swinging rod, 155, a first rotating rod, 156, a first gear barrel, 157, a second rotating rod, 158, a second gear barrel, 16, a transmission device, 161, and a first connecting frame, 162. the belt transmission device comprises a third rotating rod 163, a third circular gear 164, a second connecting frame 165, a fourth rotating rod 166, a belt transmission assembly 167, a fifth rotating rod 168, a gear transmission assembly 169, a fourth circular gear 1610, a side gear block 171, a contact wheel 172 and an arc-shaped disc.

Detailed Description

It is to be noted that, in the case of the different described embodiments, identical components are provided with the same reference numerals or the same component names, wherein the disclosure contained in the entire description can be transferred to identical components having the same reference numerals or the same component names in a meaningful manner. The positional references selected in the description, such as upper, lower, lateral, etc., refer also to the directly described and illustrated figures and are to be read into the new position in the sense of a change in position.