JP5483022B2 - Truck-type transfer device using tow truck - Google Patents

Description

  The present invention relates to a trolley-type transporting device using a traction vehicle comprising a combination of a self-propelled traction vehicle and a transport trolley coupled to the traction vehicle.

  As described above in Patent Document 1, as a cart-type transport device using a tow vehicle as described above, a transport cart having a low floor structure on which an automobile body or the like is loaded, and entering the lower side of the front end of the transport cart, the transport 2. Description of the Related Art A transport device that includes a tow vehicle that pulls a carriage is known. As described in Patent Document 2, the towing vehicle and the transport carriage are connected by a connecting means having a pulling vertical shaft body and a connecting hole into which the vertical shaft body is fitted. Thus, in the case of a transport carriage used in an automobile assembly line, the periphery of the surface of each transport carriage forms a work floor on which an operator stands, so that each transport carriage traveling on the line has a surface of the carriage. Since the vehicle must run in a substantially continuous state, a space where the front end of the towing vehicle rises cannot be secured between the front and rear transport carts. In addition, since the worker performs work around the surface of the transport carriage, it is desired that the transport carriage has a low floor structure. Therefore, in the cart-type transfer device using a tow truck used in the automobile assembly line, the outer appearance is as low as that described in Patent Document 1 and the lower side of the transfer cart can travel. A tow vehicle with a low floor structure is required.

JP 2009-1182 A JP 2004-269143 A

  As shown in Patent Document 1, the front half of the towing vehicle is configured to protrude forward of the transport carriage. However, in an actual automobile assembly line, the latter half of the towing truck is below the transport carriage. The first half of the tow truck is located below the other transport carriage that runs immediately before, so the entire tow truck will be covered by the transport carriage, and will be explained first. As described above, the transport cart itself has a low floor structure, and maintenance and inspection work on the battery and control equipment stored in the tow vehicle with an extremely low floor structure located below the transport cart is performed on the lower side of the transport cart. An operator cannot enter and work. Even if it is configured so that the operator can enter the lower side of the transport carriage by forming a pit on the lower side of the travel route, the tow vehicle with an extremely low floor structure has a battery and control equipment on the horizontal plane. Since they are distributedly stored, it is impossible to work on all the batteries and control devices stored in the tow vehicle from the side surface of the tow vehicle. That is, various operations on the towing vehicle as described above cannot be performed while the towing vehicle remains connected to the transport carriage. Therefore, when it is necessary to perform various operations on the towing vehicle as described above, it is necessary to release the connection with the transport cart and move the transport cart and the towing vehicle apart. When the vehicle is in a state in which it cannot self-propell, it is difficult to easily separate the transport carriage and the towing vehicle.

  The present invention proposes a trolley-type trolley-type transfer device capable of solving the conventional problems as described above, and the trolley-type trolley-type trolley according to the present invention according to claim 1. In order to facilitate understanding of the relationship with the embodiment to be described later, the transport device is shown with reference numerals used in the description of the embodiment in parentheses, and is connected to the front end of the transport carriage (2). The self-propelled tow vehicle (1) that is connected by (41) and pulls the transfer carriage (2) uses a tow truck that is configured such that the latter half part enters the lower side of the transfer carriage (2). In the cart type transfer device, the towing vehicle (1) is provided with driving wheels (7a, 7b) on both the left and right sides of the connecting means (41) and a free wheel (8) near the rear end. The battery storage space (16) of the towing vehicle (1) is connected to the drive wheels (7a, 7b) in the latter half part that enters the lower side of the transport carriage (2). The control device storage space (13) of the towing vehicle (1) is provided in the front half of the towing vehicle (1) protruding forward from the transport carriage (2). The battery storage space (16) and the control device storage space (13) are each provided with a cover plate (30a, 30b, 30d) that can be freely opened and closed. An openable / closable cover plate (39d) for opening the upper side of the battery storage space (16) is disposed in an area overlapping the rear half of the towing vehicle (1) when the vehicle (1) is in a straight traveling direction. It is a set configuration.

  According to the configuration of the present invention described above, the heavy battery is stored in the rear half part behind the position of the connecting means between the towing vehicle and the transport carriage as compared to the control device for the towing vehicle. The heavy weight of the rear half of the towing vehicle is supported by the drive wheels on the left and right sides of the connecting means and the following free wheels, and the connecting means is at the turning center during the steering operation of the towing vehicle. Therefore, the steering operation of the tow vehicle is performed stably and reliably. However, on the other hand, the battery storage space in the latter half of the tow truck will enter the lower side of the tow truck, but it is provided at the front end of the tow truck when performing maintenance and inspection including battery replacement. By opening or removing the openable / closable cover plate, the cover plate that closes the battery storage space of the towing vehicle can be opened or removed from the upper side of the transport carriage, so that the upper side of the battery storage space can be opened. Maintenance and inspection including replacement of the battery stored in the battery storage space of the towing vehicle from the upper side of the transport carriage can be performed safely and easily. In other words, it is not necessary to separate the towing vehicle from the transport cart for maintenance inspection including battery replacement, and the operation can be performed safely and easily even in the travel route in which the transport cart is towed by the towing vehicle. . Of course, the maintenance and inspection work for the control device of the towing vehicle is also performed by opening the cover plate that closes the control device storage space in the first half of the towing vehicle that protrudes forward from the conveyance vehicle without separating the towing vehicle from the conveyance vehicle. It can be removed safely and easily without being affected by the towed carriage.

  Note that, as described above, the truck-type transfer device using the tow truck according to the present invention is used in such a manner that the first half of the tow truck is also located below the other transport carriage that runs immediately before. Sometimes, as described in claim 2, the front half of the subsequent towing vehicle (1) that pulls the conveyance vehicle (2) traveling immediately after the conveyance vehicle (2) is disposed on the rear end side of the conveyance vehicle (2). An openable / closable cover plate (39k) for opening the upper side of the control device storage space (13) of the succeeding tow vehicle (1) can be disposed in the region overlapping with the vehicle. According to this structure, although each conveyance trolley adjoins back and forth as mentioned above, although the whole towing vehicle tow | pulling each conveyance trolley is used in the aspect covered with the conveyance trolley on a travel route, it is used. In addition to maintenance and inspection including replacement of the batteries of each tow vehicle, maintenance and inspection work for the control equipment of each tow vehicle is also performed while the tow vehicle and the transport carriage towed by the tow vehicle remain on the travel route. By opening or removing the openable / closable cover plate provided on the rear end side of the transport carriage, the cover plate closing the control device storage space of the towing vehicle is opened or removed from the upper side of the transport carriage, and control is performed. The upper side of the device storage space is opened, and maintenance and inspection of the control device stored in the control device storage space of the tow vehicle can be performed safely and easily from the upper side of the transport carriage.

FIG. 1A is a plan view of a transport cart with a tow vehicle, and FIG. 1B is a side view showing the transport cart with a tow vehicle in a transport path. FIG. 2A is a plan view of the tow vehicle with the upper cover plate removed, and FIG. 2B is a longitudinal side view of the tow vehicle. FIG. 3 is a front view of a transport carriage with a towing vehicle. FIG. 4 is a longitudinal front view at the driving wheel position of the transport carriage with a towing vehicle. FIG. 5 is a longitudinal rear view at the free wheel position of the transport carriage with a towing vehicle. FIG. 6A is a plan view of the transport cart with the upper cover plate removed, and FIG. 6B is a side view of the transport cart. FIG. 7 is a plan view showing a connected portion of the transport carriage. FIG. 8 is a longitudinal sectional front view showing a connected portion of the transport carriage. FIG. 9 is a longitudinal sectional front view of the main part showing a state immediately before the coupled shaft body of the transport carriage is fitted to the towing vertical shaft body of the towing vehicle. FIG. 10 is a longitudinal front view of the main part showing a state where the coupled shaft body of the transport carriage is fitted to the vertical shaft body for towing of the towing vehicle. FIG. 11 is a longitudinal sectional front view of the main part showing a state where the towing vehicle is lifted on the conveyance carriage side. FIG. 12 is a side view of the main part showing a state in which the towing vehicle is lifted on the conveyance carriage side. FIG. 13A is a plan view of a main part showing a state during maintenance work for the rear half of the tow vehicle, and FIG. 13B is a plan view of a main part showing a state during maintenance work for the front half and the rear half of the tow truck.

  In FIG. 1, reference numeral 1 denotes a tow vehicle, and 2 denotes a transport cart towed by the tow vehicle 1. The transport carriage 2 includes a pair of left and right front transport object supports 3 that support the front end side of a transported object W such as an automobile body, and a pair of left and right rear transport covers that support the rear end side of the transported object W. A transported object support 4 is projected, and at the bottom, a pair of left and right front universal wheels 5 positioned near the lower side of the front transported object support 3 and the lower vicinity of the rear transported object support 4 A pair of left and right rear-side fixed wheels 6 that are positioned and fixed in the forward direction are provided. The towing vehicle 1 can travel forward on the lower side of the transport carriage 2 via a pair of left and right front transport object supports 3 and a pair of left and right rear transport object supports 4. A pair of left and right drive wheels 7a, 7b, which have a flat low floor structure with limited height and width, and whose directions are fixed in the forward direction and can be driven separately, are near the center position in the length direction. In addition to being provided, a universal wheel 8 is provided at the center in the width direction near the rear end.

  The detailed structure of the towing vehicle 1 will be described with reference to FIGS. 2, 4 and 5. As shown in FIG. 2, the body 1A of the towing vehicle 1 includes a plurality of vertical frame members 9a and 9b on both right and left sides. Are connected by the horizontal frame members 10a to 10d, and a narrow U-shaped frame 11 protrudes rearward from the rear end horizontal frame member 10d, and includes a front end horizontal frame member 10a and a second horizontal frame member 10b. A bottom plate 14 forming a control device storage space 13 for storing the control device 12 is stretched between the vertical frame members 9a and 9b between the third frame member 10c and the rear end frame member 10d. Between the vertical frame members 9a and 9b, a bottom plate 17 that forms a battery storage space 16 for storing a plurality of batteries 15 is stretched. Between the second horizontal frame member 10b and the third horizontal frame member 10c, a pair of left and right drive unit mounting members 18a along the vertical frame members 9a and 9b above the horizontal frame members 10b and 10c. 18b is installed on both drive unit mounting members 18a and 18b from the drive wheels 7a and 7b and motors 19a and 19b with speed reducers for driving the drive wheels 7a and 7b in the forward and reverse arbitrary directions. The drive units 20a and 20b are attached so that the pair of left and right drive wheels 7a and 7b are symmetrical with respect to the center line of the body 1A.

  Between the horizontal frame member 10d at the rear end of the airframe 1A and the rear end portion of the U-shaped frame 11, a support plate 21 is installed in the front-rear direction on the upper side of the horizontal frame member 10d and the U-shaped frame 11. The wheel 8 has a vertical rotating shaft 22 supported on the lower side of the support plate 21 so as to be able to rotate about a vertical axis, and on the left and right sides of the lower end of the vertical rotating shaft 22 on the center line of the airframe 1A. It consists of a pair of left and right idle wheels 23a, 23b that are pivotally supported so as to be symmetrical with respect to the left and right.

  Between the second horizontal frame member 10b and the third horizontal frame member 10c of the airframe 1A, a central vertical length in the front-rear direction so as to follow the center line of the airframe 1A between the pair of left and right drive units 20a and 20b. A frame member 24 is installed on the upper side of the central vertical frame member 24 at an intersection where the common axis of the drive wheels 7a and 7b of the left and right drive units 20a and 20b intersects with the center line of the airframe 1A in plan view. A traction vertical shaft body 25 is concentrically provided through a mounting seat 25 a and a mounting seat plate 26 at the lower end of the traction vertical shaft body 25. As shown in FIGS. 2A and 11, the mounting seat plate 26 has vertical screw holes 27a and 27b extending over the lower central vertical frame member 24 in a longitudinally symmetrical position with respect to the pulling vertical shaft body 25, respectively. Is provided.

  In addition, on the front side of the front frame member 10a of the airframe 1A, an obstacle collision detection edge switch 28 having a length capable of covering the entire lateral width of the airframe 1A for detecting a collision with another object, and in a predetermined front area. An obstacle sensor 29 for detecting the obstacle is attached. Further, cover plates 30a to 30d are screwed to the entire upper side of the machine body 1A. These cover plates 30a to 30d are free from at least a front half region and a rear half region of the control device storage space 13, a central region between the horizontal frame members 10b and 10c in which the drive units 20a and 20b are disposed, and the battery storage space 16. The wheel 8 is divided for each region including the rear end portion, and is screwed so that it can be attached and detached separately. The cover plate 30c in the central region is provided with an opening through which the pulling vertical shaft body 25 passes and protrudes upward.

  Next, the detailed structure of the transport carriage 2 will be described with reference to FIGS. 6 to 10. The airframe 2A of the transport carriage 2 has a rectangular planar shape in the front-rear direction, and the vertical frame members 31a and 31b on both the left and right sides. Horizontal frame members 32a to 32g that connect and integrate the vertical frame members 31a and 31b to each other at a plurality of positions in the front-rear direction, and positions where the second and third horizontal frame members 32b and 32c are close to the vertical frame members 31a and 31b on the sides. Intermediate vertical frame members 33a and 33b, which are connected to each other at two left and right positions, and fourth and fifth horizontal frame members 32d and 32e, which are connected to each other on the center line of the machine body 2A, and sixth And the rear vertical frame members 32f and 32g are connected to each other at two positions on the left and right sides of the side frames near the vertical frame members 31a and 31b. Horizontal frame members 32d, 32e It said front conveyed object support 3 and the rear conveyed object support 4 to the left and right two places is projected. And between the two horizontal frame members 32c, 32d and the horizontal frame members 32e, 32f that are close to each other in parallel at two locations near the center, the vertical frame members 31a, 31b on the side are approached. Wheel mounting seats 34a, 34b and 35a, 35b are installed at the two left and right locations, and the pair of left and right front universal wheels 5 are attached to the lower side of the pair of left and right wheel mounting seats 34a, 34b on the front side. The left and right pair of rear-facing fixed wheels 6 are attached to the lower side of the pair of left and right wheel mounting seats 35a and 35b.

  Between the horizontal frame member 32a at the front end of the machine body 2A and the second horizontal frame member 32b, a pair of left and right vertical connecting members 36a, 36b at positions close to the center line of the machine body 2A, and both of these vertical connecting members 36a, A pair of left and right support plates 37a and 37b projecting from both the vertical connecting members 36a and 36b to the center line side of the machine body 2A are installed under the side of 36b. Both ends of the connecting plate 38 are mounted and fixed. Further, on the machine body 2A of the transport carriage 2, intermediate frames for supporting the left and right vertical frame members 31a and 31b, the front side horizontal frame member 32a, the second horizontal frame member 32b, and the transported object supports 3 and 4 are provided. A rectangular region (front end) surrounded by the frame members 31a to 32g with the upper surfaces of the two horizontal frame members 32d and 32e, the rear horizontal frame member 32g, and the vertical connecting members 36a and 36b at the front end exposed. The cover plates 39a to 39l that respectively cover the vertical connecting members 36a and 36b (except for the rectangular region between the vertical connecting members 36a and 36b) are detachably screwed. Further, an inter-machine cover plate 40 extending rearward over the entire width of the machine body 2A is mounted on the rear frame member 32g. This inter-machine cover plate 40 is formed such that the middle part in the front-rear direction protrudes in a mountain shape over the entire lateral width, and the height of the rear side is configured to be slightly higher than the height of the airframe 2A. Yes.

  As shown in FIGS. 7 to 10, the connecting means 41 between the towing vehicle 1 and the transport carriage 2 includes the towing vertical shaft body 25 protruding from the body 1 </ b> A of the towing vehicle 1 and the body 2 </ b> A of the transport carriage 2. A cylindrical lifting body 42 attached to the center position of the connecting plate 38 at the center of the front end of the lifting body 42, a connected shaft body 43 projecting downward from the lower end center of the lifting body 42, and a central hole of the lifting body 42 The compression coil spring 45 housed in the portion 44, the spring receiver 46 screwed into the screw hole portion 44a formed in the upper end region of the central hole portion 44 of the lifting body 42 so as to be adjustable in height, and the height adjustment to the lifting body 42 It is composed of a ring-shaped descent limit stopper 47 that is fixedly attached.

  The cylindrical elevating body 42 has a screw shaft portion 42c on the outer peripheral surface from the large-diameter flange portion 42a at the lower end to the angular shaft portion 42b for rotational operation at the upper end, on the large-diameter flange portion 42a at the lower end. The towing vehicle lifting plate 48 is freely loosely supported around the lifting body 42, and a ring-shaped distance piece 49 is loosely supported on the towing vehicle lifting plate 48. And the ring-shaped distance piece 49 in the state where the ascending limit stopper 50 is formed, a screw hole 51 that vertically penetrates the screw shaft portion 42c of the elevating body 42 in the center of the connecting plate 38 on the body 2A side. The ring-shaped descent limit stopper 47 is screwed onto the screw shaft portion 42c of the elevating body 42 projecting upward from the connecting plate 38. The ring-shaped descent limit stopper 47 is rotated to adjust the height relative to the lifting body 42, and then the circumferential split portion is fastened with a fastening bolt 47a to reduce the diameter, thereby preventing the lifting body 42 from moving. Can be fixed.

  The connected shaft body 43 is received by the lower end of the central hole 44 of the elevating body 42 in the large-diameter flange portion 43a at the upper end, and the vertical shaft body 25 for towing on the towing vehicle 1 side is turned upward to be relatively rotatable. A connecting hole 52 that fits inside is concentrically cut from the lower end. The depth of the connecting hole 52 is set such that the bottom surface 52a facing downward contacts the pointed portion 25a of the pulling vertical shaft body 25 on the towing vehicle 1 side. The compression coil spring 45 is interposed between the spring receiver 46 and the coupled shaft body 43, and urges the coupled shaft body 43 downward by the compression reaction force. Thus, a square hole portion 46a for rotational operation is provided at the center of the upper surface of the spring receiver 46, and the height of the lifting coil 42 is adjusted by rotating the spring receiver 46, whereby the compression coil spring 45 is located. The initial compression force can be adjusted.

  The towing vehicle lifting plate 48 that is loosely supported by the lifting body 42 and constitutes a part of the ascending limit stopper 50 is a through-hole 48a that penetrates perpendicularly to both ends projecting to the front and rear sides of the connecting plate 38 in plan view. , 48b are provided. The pair of through-holes 48 a and 48 b are in a connected state between the towing vehicle 1 and the transport carriage 2 in which the towing vehicle 1 side towing vertical shaft body 25 is fitted in the connecting hole 52 of the connected shaft body 43. A pair of front and rear vertical screw holes provided in the mounting seat plate 26 of the vertical shaft body 25 for traction on the traction vehicle 1 side by rotating the traction vehicle lifting plate 48 around the lifting body 42 as necessary. 27a and 27b can be matched with each other. The operation opening 53 on the upper side of the connecting means 41, that is, the operation opening at the upper end of the rectangular area surrounded by the front end, the second horizontal frame members 32a and 32b, and the pair of left and right vertical connecting members 36a and 36b. A removable cover plate 54 different from the cover plates 39a to 39l is placed on the portion 53.

  When connecting the tow truck 1 and the transport carriage 2 configured as described above, the cover plate 54 covering the rectangular area in which the connecting means 41 of the transport carriage 2 is installed is removed, as shown in FIG. Further, the lifting body 42 is rotated in the screw return direction by using the rotation operation angular shaft portion 42b at the upper end, and the lifting body 42 is moved to the ascending limit where the distance piece 49 of the ascending limit stopper 50 at the lower end contacts the connecting plate 38. The connection plate 38 is raised. At this time, the coupled shaft body 43 supported by the elevating body 42 is lowered to the lower limit position where the large-diameter flange portion 43a is supported by the bottom of the central hole 44 of the elevating body 42 by the urging force of the compression coil spring 45. The height on the floor surface of the lower end of the coupled shaft 43 at this time is the tip of the vertical shaft 25 for traction protruding from the upper side surface (the surface of the cover plates 30a to 30d) of the traction vehicle 1. It is comprised so that it may become a little higher than the height on the floor surface of the part 25a. In this state, the carriage 2 is placed so as to cover the towing vehicle 1 waiting on the floor surface, and the towing vehicle 1 is parallel between the front free wheel 5 and the rear-facing fixed wheel 6 of the carriage 2. The connected shaft body 43 which is pushed by hand so as to move relative to the base and protrudes from the lower end of the lifting body 42 held at the ascent end position on the transport carriage 2 side is connected to the vertical shaft body 25 for traction on the traction vehicle 1 side. The transport carriage 2 is stopped in a state of being directly above the pointed end portion 25a.

  Next, as shown in FIG. 10, the elevating body 42 is rotated in the screwing direction by using the rotation operation angular shaft portion 42 b at the upper end, and the elevating body 42 is lowered with respect to the connecting plate 38. As the elevating body 42 is lowered, first, the connecting hole 52 of the connected shaft body 43 is externally fitted to the pulling vertical shaft body 25 on the towing vehicle 1 side, and the pointed portion 25a of the pulling vertical shaft body 25 is connected to the connecting hole. Since the lowering of the connected shaft body 43 is stopped at the height that is in contact with the bottom surface 52a of 52, only the lift 42 is lowered with respect to the connected shaft body 43 thereafter. When the distance between the spring 43 and the spring receiver 46 is reduced, the compression coil spring 45 is compressed, and the compression reaction force acts downward on the towing vertical shaft body 25 on the towing vehicle 1 side via the connected shaft body 43. Will do. When the ascending / descending body 42 reaches the descending limit where the descending limit stopper 47 abuts on the upper side surface of the connecting plate 38 as shown in FIG. 10, the towing vehicle 1 side towing vertical shaft body 25 and the transport carriage Connection by fitting with the connection hole 52 on the second side is completed. At this time, the compression reaction force of the compression coil spring 45 of the connecting means 41 on the transport carriage 2 side is applied to the pair of left and right drive wheels 7a and 7b on the towing vehicle 1 side from the connected shaft body 43 to the towing vertical shaft body 25, It is transmitted downward to the drive wheels 7a, 7b via the body 1A of the tow vehicle 1, the drive unit mounting members 18a, 18b, and the motors 19a, 19b with reduction gears, and the ground pressure of the drive wheels 7a, 7b is increased. ing. When the connection between the towing vehicle 1 and the transport carriage 2 is completed, the removed cover plate 54 is put on the operation opening 53 on the upper side of the connection means 41 of the transport carriage 2 to cover it. .

  By connecting the tow truck 1 and the transport carriage 2 as described above, the ground pressure of the pair of left and right drive wheels 7a and 7b on the tow truck 1 side is increased by the compression coil spring 45 provided in the connection means 41 on the transport carriage 2 side. The ground pressure of the drive wheels 7a and 7b at this time, that is, the magnitude of the compression reaction force of the compression coil spring 45 can be adjusted by adjusting the height of the spring receiver 46 relative to the lifting body 42 or the connecting member 38. By adjusting the lower limit height of the lifting body 42 with respect to the height, that is, the height of the lower limit stopper 47 with respect to the lifting body 42, it can be arbitrarily adjusted within a certain range. The towing vehicle 1 can rotate with respect to the transport carriage 2 around the pulling vertical shaft 25 of the connecting means 41, but at the rear side of the rotation trajectory of the towing vehicle 1 with respect to the transport carriage 2 at this time, A pair of left and right front wheels 5 of the transport carriage 2 are disposed.

  Thus, by driving the pair of left and right drive wheels 7a and 7b of the tow truck 1 connected to the transport carriage 2 at a constant speed in the forward direction by motors 19a and 19b with speed reducers, the tow truck 1 moves straight. Then, the transport carriage 2 is towed by the pulling vertical shaft body 25 on the towing vehicle 1 side so as to be swingable in the left-right direction around the pulling vertical shaft body 25. Steering vehicle 1 can be steered freely by making a difference between the rotational speeds of the pair of left and right drive wheels 7a and 7b, so that the towing vehicle 1 and the transport carriage 2 to be pulled by the towing vehicle 1 are set on the floor surface. It is possible to travel along the travel route. At this time, since the ground pressure of the pair of left and right drive wheels 7a and 7b of the towing vehicle 1 is increased as described above, the transport carriage 2 temporarily loads a heavy transport object W such as an automobile body. Even in this case, the strength of the compression coil spring 45 in the connecting means 41 on the transport carriage 2 side can be increased so that the ground pressure corresponding to the traction load at this time can be generated in the pair of left and right drive wheels 7a and 7b. By setting the initial compressive stress, the transport carriage 2 can be reliably towed without causing the tow truck 1 to slip.

  As described above, the tow truck 1 can be towed by the tow truck 1 on a fixed travel route. However, the tow truck 1 is flat so that the entire tow truck 1 can travel between the transport carriage 2 and the floor surface. Since it is of a low floor structure, as shown in FIG. 1B, the front half of each towing vehicle 1 protruding forward from the front end of the towed carriage 2 enters the lower side of the preceding preceding carriage 2 and It is possible to run while maintaining a form in which the front and rear ends of the transport carriage 2 that are adjacent to each other and are pulled by the towing vehicle 1 are continuous with a small gap therebetween. At this time, the inter-machine cover plate 40 extending rearward from the rear end side of the machine body 2A of the immediately preceding transport carriage 2 covers the front end of the machine body 2A of the immediately subsequent transport carriage 2 and is adjacent to the front and rear. A gap between the machine bodies 2A of the transport carriage 2 is closed.

  Although it is the towing vehicle 1 which makes the conveyance carriage 2 tow as described above, when the motors 19a and 19b with speed reducers of the drive units 20a and 20b break down, the towing vehicle 1 is pulled manually or the conveyance carriage 2 Need to be moved to another place on the travel route. At this time, when the drive wheels 7a and 7b are in a locked state due to the configuration of the drive system of the drive wheels 7a and 7b, the train structure in which the tow vehicle 1 and the transport carriage 2 are coupled is manually operated. It cannot be moved. Even if the drive wheels 7a and 7b are free when the motors 19a and 19b with speed reducers are not energized and driven, when the train structure is moved manually, only the first half is a carriage. It is easier to operate the large transport carriage 2 from the surroundings than to operate the small tow truck 1 extending forward from 2.

  When falling into the above situation, as shown in FIGS. 7, 8, and 11, the cover plate 54 covering the operation opening 53 on the upper side of the connecting means 41 of the transport carriage 2 is removed, A hand is inserted from the space before and after the connection plate 38 surrounded by the horizontal frame members 32a and 32b, the support plates 37a and 37b, and the connection plate 38, and is freely rotatable on the large-diameter flange portion 42a at the lower end of the elevating body 42. The towing vehicle lifting plate 48 supported on the upper and lower bodies is rotated around the elevating body 42 so that the through holes 48a and 48b at both ends thereof face the space before and after the connecting plate 38, and the tow located below the connecting plate 38 A pair of front and rear vertical screw holes 27a, 27b and the through holes 48a, 48b of the mounting seat plate 26 for attaching the vertical shaft body 25 for traction of the vehicle 1 to the body 1A are positioned substantially concentrically. In this state, as shown in FIG. 11, bolts 55a and 55b inserted from above into the through holes 48a and 48b of the towing vehicle lifting plate 48 are screwed and connected to the vertical screw holes 27a and 27b on the towing vehicle 1 side. The lifting body 42 is lifted up integrally with the lifting body 42 by rotating the lifting body 42 in the screw return direction and raising the lifting body 42 with respect to the connection plate 38 as in the preparation stage of the connection with the transport carriage 2. Via the vehicle lifting plate 48 and the two bolts 55a and 55b, the vicinity of the center in the length direction where the driving wheels 7a and 7b of the towing vehicle 1 are arranged can be lifted to the transport carriage 2 side.

  As is clear from the above description, in this embodiment, the towing vehicle lifting means 56 provided on the transport carriage 2 is a lifting body 42 that constitutes a connecting means 41 that connects the towing truck 1 and the transport carriage 2, A towing vehicle lifting plate 48 rotatably supported around the vertical axis of the elevating body 42, vertical screw holes 27a and 27b provided on the body 1A side of the towing vehicle 1, and the towing vehicle. It comprises bolts 55a and 55b that pass through the lifting plate 48 downward and are screwed to the vertical screw holes 27a and 27b.

  As shown in FIG. 2, the towing vehicle 1 is provided with a towing vertical shaft body 25 and a pair of left and right drive wheels 7a and 7b in the vicinity of the center in the length direction, and the drive units 20a and 20b behind the position. The battery housing space 16 loaded with the motors 19a, 19b with the speed reducer and the battery 15 is disposed, and the free wheel 8 is disposed at the rear end. Therefore, the center of gravity of the body 1A is located more than the vertical shaft body 25 for traction. Located on the rear end side. Accordingly, when the two front and rear parts of the vertical shaft body 25 for towing of the towing vehicle 1 are lifted by the bolts 55a and 55b from the conveying carriage 2 side, the towing vehicle 1 has the free wheel 8 at the center position of the rear end as shown in FIG. The pair of left and right drive wheels 7a and 7b are lifted from the floor surface by tilting forward to the fulcrum. The towing vehicle lifting plate 48 that lifts the towing vehicle 1 via the bolts 55a and 55b is rotatable around the elevating body 42, and the towing vehicle 1 side towing vertical shaft 25 is connected to the elevating body 42. The towing vehicle 1 that is lifted and grounded only at the rear end of the free wheel 8 is fitted to the connecting hole 52 that is concentrically arranged. You can rotate around. Accordingly, the periphery of the transport carriage 2 can be pushed in any direction, and the transport carriage 2 together with the towing vehicle 1 can be easily moved out of the travel route.

  In the state where the tow truck 1 and the transport carriage 2 are connected as described above, the rear half portion of the tow truck 1 including the battery storage space 16 enters the lower side of the transport carriage 2. 13, among the cover plates 39a to 39l covering the upper surface of the transport carriage 2, a rectangular region surrounded by the horizontal frame members 32b and 32c and the intermediate vertical frame members 33a and 33b of the machine body 2A, that is, the bottom The cover plate 39d is removed by removing the cover plate 39d that covers a rectangular region that is located directly above the battery storage space 16 of the tow truck 1 and that has a larger planar area than the battery storage space 16. The cover plate 30d covering the battery storage space 16 of the towing vehicle 1 is removed through a rectangular opening having a large removal mark, and the battery storage space 16 is removed. Since the battery 15 can be released, the maintenance of the battery 15 can be easily maintained while remaining on the travel route without causing the towing vehicle 1 to be detached from the transport carriage 2 even when maintenance and inspection work of the battery 15 is required. Inspection work can be performed.

  Further, as described above, when each transport carriage 2 is tow-driven by the towing vehicle 1 in a continuous state in which the front and rear ends thereof are adjacent to each other on the travel route, the entire towing vehicle 1 is front and rear. It will be hidden under the transport carriage 2 adjacent to. Even in such a case, the horizontal frame members 32f and 32g and the intermediate vertical frame member of the body 2A among the cover plates 39a to 39l covering the upper surface of the preceding transport carriage 2 immediately before the front half of the towing vehicle 1 is covered. Covers a rectangular region surrounded by 33d and 33e, that is, a rectangular region located directly above the control device storage space 13 of the towing vehicle 1 located below and having a larger plane area than the control device storage space 13. By removing the cover plate 39k, the cover plates 30a and 30b covering the control device storage space 13 of the towing vehicle 1 are removed through the rectangular opening where the removal mark of the cover plate 39k is removed. Since the storage space 13 can be opened, the towing vehicle 1 remains on the travel route even when maintenance and inspection work of the control device 12 is required. Readily such as maintenance and inspection of the control device 12 can be performed.

  In the present invention, the connecting means 41 for connecting the tow truck 1 and the transport carriage 2 is fitted with a vertical shaft body projecting on one of the tow truck 1 and the transport carriage 2 and the vertical shaft body. In this way, a conventionally well-known simple configuration including the connecting hole provided in the other of the towing vehicle 1 and the transport carriage 2 may be used. Of course, the towing vehicle lifting means 56 is not essential to the present invention and may be omitted.

  The trolley-type transfer device using the tow truck of the present invention has an extremely low-floor structure that allows a low-floor structure transfer carriage loaded with an automobile body to travel under the transfer carriage in an automobile assembly line. It can be used as a transporting device that facilitates maintenance and inspection work of tow trucks for towing traveling with other tow trucks.

DESCRIPTION OF SYMBOLS 1 Towing vehicle 2 Conveying cart 5 Front free wheel 6 Backward fixed wheel 7a, 7b Drive wheel 8 Free wheel 12 Control device 13 Control device storage space 15 Battery 16 Battery storage space 19a, 19b Motor with reduction gear 25 Vertical shaft for towing Body 25a Pointed portion 26 Mounting seat plate 27a, 27b Vertical screw holes 30a-30d, 39a-391, 54 Cover plate 38 Connecting plate 40 Inter-machine cover plate 41 Connecting means 42 Lifting body 42a Large diameter flange portion 42b Angle for rotation operation Shaft portion 42c Screw shaft portion 43 Connected shaft body 43a Large diameter flange portion 44 Center hole portion 44a Screw hole portion 45 Compression coil spring 46 Spring receiver 46a Square hole portion 47 Lower limit stopper 48 Traction vehicle lifting plate 48a, 48b Through hole 49 Distance Peace 50 Ascent end stopper 51 Di-hole 52 connecting hole 52a bottom surface 53 operating openings 55a, 55b bolt 56 tractor lifting means

Claims (2)

  A self-propelled tow truck that is connected to the front end of the carriage by a connecting means and that pulls the carriage has a carriage type carriage that uses a tow truck that is configured such that the latter half of the tow truck enters the lower side of the carriage. In the apparatus, the towing vehicle is provided with driving wheels on both the left and right sides of the connecting means and a free wheel near the rear end, and the battery storage space of the towing vehicle enters the lower side of the transport carriage. The control device storage space of the tow truck is provided in the front half of the tow truck protruding forward from the transport carriage, and is provided in the rear half of the car between the drive wheel and the free wheel. A cover plate that can be freely opened and closed is disposed in each of the control device storage spaces, and the front end side of the transport carriage is in a region that overlaps the rear half of the towing vehicle when the towing vehicle is in a straight traveling direction. Ba Openable cover plate for opening the upper side of Terry storage space is arranged, carriage-type conveyance device of the towing vehicle use.   In the trolley-type trolley-type transfer device configured to allow the front half of the traction vehicle protruding forward from the conveyance trolley to enter the lower side of the rear end of another conveyance trolley traveling immediately before the conveyance trolley, In the rear end side of the transport carriage, the upper side of the control equipment storage space of the succeeding tow truck is opened in an area overlapping with the front half of the succeeding tow truck that pulls the transport carriage traveling immediately after the transport carriage. The trolley | bogie type trolley | bogie type conveying apparatus of Claim 1 by which the cover plate which can be opened and closed is arrange | positioned.

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